https://maker-hub.georgefox.edu/w/api.php?action=feedcontributions&user=Mjones16&feedformat=atommaker-hub - User contributions [en]2024-03-29T04:57:58ZUser contributionsMediaWiki 1.35.7https://maker-hub.georgefox.edu/w/index.php?title=Hydraulic_Press&diff=5853Hydraulic Press2019-10-30T22:06:49Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Has make=Baileigh<br />
|Has model=30T Air Press<br />
|Has name={{PAGENAME}}<br />
|Is located in facility= Machine Shop<br />
|Is used in domain=Metal<br />
|Has function=Shop Press<br />
|Has url=http:https://www.baileigh.com/shop-press-hsp-30a<br />
|Has icon=File: Hydraulic_pressIcon.png<br />
|Has icondesc=Hydraulic Press icon<br />
|Has image=File:Shop_Press.jpg<br />
|Has imagedesc=Baileigh 30 Ton Air Press<br />
|Has description=Baileigh 30 Ton Air Press<br />
|Has ace=Devin Howard;dhoward16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
<br />
__TOC__<br />
<br />
<br />
==Description==<br />
<br />
A '''hydraulic press''' is a machine tool that uses a hydraulic cylinder to generate a compressive force. They are often used in shops to press interference fit parts together, such as gears onto shafts or bearings into housings.<br />
Some of the other uses include bending and forming metal. Some presses use a manual pump to produce the force while others use compressed air or a power unit driven by an electric motor. <br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}<br />
<br />
<br />
== 3 commandments ==<br />
Stuff about the [[3 commandments]].<br />
<br />
<br />
== Documentation ==<br />
<br />
* [[Media:Baileigh Shop Press.pdf|Baileigh Hydraulic Press Manual]]<br />
<br />
== Resources ==<br />
<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Handheld_CNC_Router&diff=5657Handheld CNC Router2019-10-08T23:31:08Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:CNC Hand Router.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Shaper-Origin-Hero-Shot.jpg <br />
|Has imagedesc=<br />
|Has description=<br />
|Has certification=<br />
|Has make=Shaper<br />
|Has model=Origin<br />
|Has ace=Gabi Lorenzo;glorenzo16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
The handheld CNC is a relatively small and portable computer automated router that can be moved around a flat, wooden surface. It uses location tracking and a moving spindle to provide an easy way to make precise cuts using a handheld machine which makes it great for performing high precision or detailed cuts. A camera is used to track its location by referencing a special tape which you apply to the surface you want to cut on. The spindle and router bit for the CNC are small, so the CNC is best suited for shallow cuts and engraving work. Despite the shallow cuts, the CNC is still capable of cutting non-shallow material thicknesses, it just means that multiple passes will have to be made.<br />
{{#evu:https://www.youtube.com/watch?v=_0clzXWSaCw}}<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
* SVG - SVG is the file type for the graphics file that the CNC uses for its cuts. SVG stands for “Scalable Vector Graphics” and can be opened/modified with Adobe Illustrator, GIMP, and some others.<br />
* Pocket Cut - The cut setting for hallowing out the center of a shape. <br />
* Shaper Tape - A custom tape with special graphics on it that is used by the router to orient itself in space. <br />
* Spindle - The part of the router that spins. <br />
* Collet - The clamp that secures the router bits. <br />
<br />
==== [https://assets.shapertools.com/manual/Shaper_Origin_Product_Manual.pdf User Manual] ====<br />
<br />
==Training==<br />
====Overview====<br />
Before a cut can be performed with the handheld CNC router you must provide a cut design in the form of an SVG file. These can be created in several different programs but Inkscape is recommended because it is installed on the hub computers and is free to download onto a personal device. When designing your cut use the actual dimensions of the cut. If it is your first time using Inkscape there are tutorials on [https://inkscape.org/learn/tutorials/ their website] and [https://www.youtube.com/channel/UCEQXp_fcqwPcqrzNtWJ1w9w Youtube] as well. Alternatively, you can download SVG from a website like [https://thenounproject.com/ this]. After you have created the cut file transfer it to the router using a USB drive or by uploading it over WiFi. Take the CNC out of the box, set it on a flat, wooden surface, and plug it in. Ensure that the dust collection vacuum is working and has a good seal on the CNC connecting piece. You should never use the CNC without dust collection working! Determine the area on the wood material that you want to cut on and place several strips of tape a bit beyond the width and height of the area you’ll need, with 4-6 inch separation between the tape strips (they don’t need to be straight and parallel, they can be crooked). The CNC uses this tape to manage the CNC’s position. Double check that the correct router bit is secure and in place in the spindle. If the router bit needs to be replaced or secured, make sure that the spindle is turned off and unplugged from the main computer of the router before you take the spindle out of its place. Keep in mind that the switch for the spindle only turns off the spindle, not the CNC computer system. On the touch interface, select the scan mode and create a new scan for the tape. Move the CNC around the surface until all of the (unripped) tape is highlighted blue. It is important to have enough tape, if the CNC loses track of enough tape it will immediately raise the spindle and stop the router from cutting any material. Once you’re ready, go to the cut menu on the CNC’s touch interface and select the correct diameter for your router bit and the depth your want to cut. It will ask you to “touch off”, select yes. Touching off means that the CNC will lower the router until it just touches the surface in order to calibrate the depth control for the router. Select the appropriate cut type (inside, outside, on-line, or pocket) for the cut you will be making. The pocket cut type will cut out the entire area of the shape you have selected. The guide cut type will not act as a cutting line, it will only show on the display as a reference. You can preview the cut size and direction by looking at the direction of the dashed outline and the thicker, grey line on top of the small, dashed line. Double check that the spindle speed (the control wheel to the right of the spindle) is set correctly. Before you make your first cut, double check the tape accuracy by moving the CNC around and watching the tape icon on the top-right of the display. This shows how much tape is visible to the camera, so the more full the tape bar is the better. If it is consistently low, it may be best to add more tape and do a new scan. Once these things have been completed, you should be good to go for cutting! Keep in mind that you may have to do multiple passes to get the right depth and you may also have to change cut type depending on what kind of cut you’re trying to make.<br />
<br />
====Demonstration====<br />
<br />
For the demonstration, download [https://thenounproject.com/search/?q=bear&i=121661 this file] as an SVG and open it in Inkscape. Download the [https://support.shapertools.com/hc/en-us/articles/115002735794-Using-the-Template SVG template] from Shaper's website and copy that into the previously downloaded image. Use the eyedropper tool and paint can tool to replace the black outline of the bear with the grey color found on the template. Add a black box around the bear to act as an edge to cut through. Make sure that there is enough distance from the box to the bear, as the black line indicates an inside cut (so the router bit will be cutting on the inside of the box). Once finished, delete the template and save the file as an SVG to an SD card. Complete the demonstration by setting up the router and cutting the file. <br />
<br />
====General Procedure====<br />
Included in this section are some helpful videos made by Shaper that walk through the entire process of using the router. It is highly recommended that you look through the videos but if you do not then there are instructions walking through the same process.<br />
<br />
Setting up the Cut Area:<br />
{{#evu:https://www.youtube.com/watch?v=sdsMOPZFMRQ}}<br />
# Remove the router and from its box.<br />
# Power on the router buy plugging in the device. Do not flip the switch attached to the spindle motor to the on position. <br />
# Place at least three strips of Shaper Tape slightly above the area you want to cut so that the router will be able to orient itself. They do not have to be straight line but do need to be in the same plane. <br />
# Select the new scan option on the router and move the router around the work area until all of the tape is highlighted in blue on the screen. This establishes a work plane that the router can reference during a cut. After you have scanned the tape it will take some time for the router to stitch together the work space in its software. Once it is completed, a screen will appear displaying a cross hare that represents the location of the router bit on the work space. You can also zoom out by double tapping the screen to see the complete work area.<br />
# Select the design option on the right of the screen to move onto setting up the cut.<br />
# Bring the file onto the router. The router is capable of receiving files WiFi using individual Shaper accounts but it is quicker and easier to use a Usb drive to transfer files. If using a Usb drive, plug it into the side of the router and then use the plus symbol on the left of the screen to navigate to your file. After selecting your file, the router should display the work space with the file overlaid on top of it.<br />
# Move the cut file to your desired location and press place to establish where you want to cut on the work space. You can put it in a very precise place by zooming in and matching the edges the cut file and work piece together.<br />
# Install your desired bit. Unscrew the bolt on the right of the spindle just loose enough to remove the spindle. To remove the router bit, press down on the locking mechanism and twist the collet until the router bit can be removed. Make sure that the router bit grooves are not below a quarter inch from the top of the collet. Once a new router bit has been put in place, use the wrench to tighten the collet. Reinsert the spindle into the slot on the CNC and tighten the bolt “finger tight”.<br />
# Hook up the router to the dust collection system (aka the shop vac) using the included hose and the dust port on the router base. <br />
# Press the cut option on the right of the screen and you are ready to cut.<br />
# Make sure that you place a spoil board below the material you are cutting so that you do not cut the table. Also be sure to secure the work piece so that it will not shift while you are routing. There is not a specific way to do this but double sided tape may be helpful.<br />
<br />
Performing a Cut:<br />
{{#evu:https://www.youtube.com/watch?v=DekAjAOIVvQ}}<br />
# Select the air cut type in the upper left of the screen and move the router over top of your first cut line so that the line is highlighted as moving dashed line. This indicates the direction your cut should be made in. Make sure to select your bit size and cut location at this point. The cut location can be on the line, inside the line, or outside the line based on your application. There are other cut settings you can experiment with as well. <br />
# Hit the green button to begin the cut. The cut is indicated by a blue line and the center if the bit is indicated by a white dot. The router can move the bit anywhere within the larger white circle so make sure to keep the cut line within the large circle and the router will take care of the rest.. There is also an auto advance feature that will move the bit forward to the edge of the large circle. <br />
# Run through your air cut until you get a feel for how the router responds and are confident the cut file is correct.<br />
# Change from an air cut to a whatever cut depth you desire. A good rule of thumb is to never cut deeper than 1.5 times the diameter of the cutting tool. <br />
# Make sure the spindle motor is plugged in and the correct bit is selected.<br />
# Press the z touch button on the left of the screen to zero the router bit to the surface of the work piece. <br />
# Set the spindle speed. The spindle speed also be adjusted using the dial on the side of the spindle motor if needed.<br />
# Hit the green button on the handle or press start on the screen to perform the cut.<br />
# Reset the space when finished by vacuuming any dusk, returning the router to its box and putting away any scrap material.<br />
==Safety==<br />
* Remove any adjusting key or wrench before turning the power tool on. A wrench or a key left attached to a rotating part of the power tool may result in personal injury or damage the machine.<br />
* Always use the dust collection system to keep the dust levels in the wood shop from reaching a dangerous level.<br />
* Always hold onto the router while it is cutting. It is a CNC but it is not fastened to anything and could tip over if the bit catches on the material. <br />
* Cut at an appropriate feed rate. If Origin’s correction range is unable to keep up with your feed rate, move Origin slower, reduce the depth of cut, change your router bit, and/or adjust the spindle speed.<br />
* Adhere work piece elements that may come loose during cutting. When cutting items out of work piece materials, use double sided tape or alternative methods to hold elements down to your workbench and/or spoil board. This will prevent items from coming loose when cutting is complete.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=31325 Foxtale Course]<br />
<br />
==Troubleshooting==<br />
* Cut is to big or small. The router will cut exactly on the cut line which often results in tight fitting parts. Use the offset option in the cut settings to increase or decrease the cut size by a minimal amount. <br />
* The router keeps losing track of the Shaper Tape during a cut. Try rotating the router during the cut so the camera is always pointing towards the tape. If the problem persists add more tape.<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
To keep this machine working properly, wipe off any dust that was collected on it while cutting before putting it away. There is also a chip tray on the front of the router that needs to be cleaned out as it fill up.<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|1<br />
|Wipe down the Router <br />
|After each use<br />
|Student<br />
|-<br />
|2<br />
|Clean the chip tray<br />
|When it is close to full<br />
|Student<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=CNC_Router&diff=5656CNC Router2019-10-08T21:03:53Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has group=Woodworking<br />
|Has icon=File:CNC_router_icon.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Smartshop2_Image.jpg<br />
|Has imagedesc=Laguna CNC Router<br />
|Has description=<br />
|Has certification=<br />
|Has make=Laguna<br />
|Has model=SmartShop II<br />
|Has ace=Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Aces&diff=5652Aces2019-10-02T23:45:23Z<p>Mjones16: </p>
<hr />
<div>The following is a list of aces for the facilities and equipment in the Maker Hub.<br />
<br />
If a machine does not currently have an ace and you are interested in becoming the ace, contact one of the Maker Hub staff.<br />
<br />
{{#ask:<br />
[[Is facility::true]]<br />
|mainlabel=Facility<br />
|?Has ace.Has name=Ace<br />
|?Has ace.Has email address=Email<br />
|format=broadtable<br />
|limit=250<br />
}}<br />
<br/><br />
<br />
{{#ask:<br />
[[Is equipment::true]]<br />
|mainlabel=Equipment<br />
|?Has ace.Has name=Ace<br />
|?Has ace.Has email address=Email<br />
|format=broadtable<br />
|limit=250<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Aces&diff=5651Aces2019-10-02T23:42:49Z<p>Mjones16: </p>
<hr />
<div>The following is a list of aces for the facilities and equipment in the Maker Hub.<br />
<br />
If a machine does not currently have an ace and you are interested in becoming the ace, contact a Maker Hub staff.<br />
<br />
{{#ask:<br />
[[Is facility::true]]<br />
|mainlabel=Facility<br />
|?Has ace.Has name=Ace<br />
|?Has ace.Has email address=Email<br />
|format=broadtable<br />
|limit=250<br />
}}<br />
<br/><br />
<br />
{{#ask:<br />
[[Is equipment::true]]<br />
|mainlabel=Equipment<br />
|?Has ace.Has name=Ace<br />
|?Has ace.Has email address=Email<br />
|format=broadtable<br />
|limit=250<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Aces&diff=5650Aces2019-10-02T23:42:41Z<p>Mjones16: </p>
<hr />
<div>The following is a list of aces for the facilities and equipment in the Maker Hub.<br />
If a machine does not currently have an ace and you are interested in becoming the ace, contact a Maker Hub staff.<br />
<br />
{{#ask:<br />
[[Is facility::true]]<br />
|mainlabel=Facility<br />
|?Has ace.Has name=Ace<br />
|?Has ace.Has email address=Email<br />
|format=broadtable<br />
|limit=250<br />
}}<br />
<br/><br />
<br />
{{#ask:<br />
[[Is equipment::true]]<br />
|mainlabel=Equipment<br />
|?Has ace.Has name=Ace<br />
|?Has ace.Has email address=Email<br />
|format=broadtable<br />
|limit=250<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Milling_Machine&diff=5634Milling Machine2019-09-16T23:00:28Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Machine Shop<br />
|Is used in domain=Metal<br />
|Has name={{PAGENAME}}<br />
|Has redirect={{FULLPAGENAME}}<br />
|Has icon=File:milling_machine_icon.png<br />
|Has icondesc=Milling machine icon<br />
|Has iconwname=File:milling_machine_icon_name.png<br />
|Has image=File:milling_machine.jpg<br />
|Has imagedesc=Bridge Port Mill<br />
|Has description=<br />
|Has certification=<br />
|Has make=Bridgeport<br />
|Has model=Series I<br />
|Has ace= Madi Jones; mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
The Bridgeport Series 1 Mill is a vertical mill used to mill various materials into desired shapes and sizes. It can also be used to perform special functions such as drilling, chamfering, reaming, fly cutting, and many more. Some examples of items made from mills are piston bore holes, valve plates, gears, and even your own tools. This is done by using a rotary cutter to remove material by advancing a cutter into a work piece in varying direction along three axes. Milling covers a wide variety of different operations and machines, on scales from small individual parts to large, heavy-duty gang milling operations. It is one of the most commonly used processes for machining custom parts to precise tolerances. The video below shows a part being machined by a CNC mill which is a computer driven mill, but still demonstrates the milling process. <br />
{{#evu:https://www.youtube.com/watch?v=8cp4eCXnc4Q}}<br />
==Documentation==<br />
<br />
====Terminology====<br />
* Spindle - The rotating shaft, driven by the motor, that holds the cutting tools.<br />
* Quill - The part of the vertical milling machine that raises and lowers cutting tools held in the spindle.<br />
* Quill Handle - The long handle on the right side of the machine that raises and lowers the quill.<br />
* Endmill - A common machining tool having cutting teeth on the end of a cylindrical shank and usually spiral blades on the lateral surface. Because of this geometry it can cut in any direction. <br />
* Facing - The process of cutting a flat surface perpendicular to the axes of the milling cutter. Often this is done on the initial piece of raw stock as the first step in the milling process. <br />
* Deburring - To neaten and smooth the rough edges or ridges of a part after it has been machined. <br />
* Edge finding - The process of using an edge finder to align the coordinate system of the mill with the corner of your part. <br />
* Collet - A device that forms a collar around an object to be held and exerts a strong clamping force on the object when it is tightened. On the mill the collet is attached to the spindle and is used to hold cutting tools in place. <br />
* Parallels - Thin, flat pieces of metal that are used to hold a work piece "parallel" to the mill's work table. <br />
<br />
==== [https://www.hardinge.com/wp-content/uploads/KneeMill-Complete-Manual.pdf User Manual] ====<br />
<br />
==Training==<br />
<br />
==== Overview ====<br />
When making a part, it can usually be milled in several different ways and as a result this will focus on general operations such as changing tools, starting and stopping the spindle, changing speeds, and changing gears. To learn how to mill the specific part for the demonstration see the video below. The first thing you will need to do is properly secure your work piece in the vice. Place the piece in between the jaws and turn the handle clockwise to tighten. If the piece is to small to protrude from the top of the vice use a set of parallels to raise the work piece above the vice. This makes it easy to face the work piece without damaging the vice. Next you will need to insert a tool. To insert a cutting tool under the new system, push the tool upwards into the collet with one hand and then push quill handle up with the other to compress the spring above the collet. Pushing up on the quill handle will allow the the tool to slide up into the collet and the tool will lock in place once the handle is lowered. A decent amount of force is required to compress the spring so don't be afraid to push hard. To release the tool, hold it in one hand while pushing up on the quill handle and then pull it out once the spring is compressed. You are then ready to begin machining. Use the spindle start-stop switch to turn on the mill. You will notice an option for high or low on the switch. If the mill is in high gear, the high setting will run the spindle forward (clockwise) and the low setting will run the spindle in reverse. If the mill is in low gear, the opposite will occur. If you are not sure what gear the mill is in look at the high-low lever to determine the gear (check out the images below to see the location of the switches). Once the mill is on you will need to adjust the spindle speed to match your material by referring to the speed chart on the wall above the mill and turning the spindle speed hand wheel till the speed is correct. Only adjust the speed while the machine is ON. You may need to switch gears to achieve the proper speed. Do this by rotating the high-low range lever from the current gear to the desired gear. Do not force the lever into place if there is resistance; instead use your other hand to slightly twist the spindle so that the range lever slides into place. After the machine is on, use the axes adjustment handles and the digital display to mill your part. Feel free to ask a shop supervisor for specifics or best milling processes for your part. <gallery widths="250" heights="250"><br />
File:MillOn.png<br />
File:MillSpeed.png<br />
File:MillRange.png<br />
File:QuillHandle.png<br />
</gallery><br />
====Demonstration====<br />
<br />
For the demonstration, you will face a piece of aluminum stock, drill a hole in the center, ream the hole, and deburr all of the edges. Reference the video below to see what this should look like. <br />
<br />
====General Procedure====<br />
This video contains specific information for using the Mills in the Maker Hub as well as a basic overview of what will be expected in your live demonstration. {{#evu:https://www.youtube.com/watch?v=IJjXAxYH9TA}}'''Note''' that the tool changing system has been upgraded since this video was produced. To insert a cutting tool using the new system, push the collet upwards into the spindle with one hand and then push the quill handle against the end of travel with the other to compress the spring in the tool change mechanism. Make sure the quill lock is unlocked when installing or removing tooling. Pushing up on the quill handle will allow the the tool to slide up into the collet and the tool will lock in place once the handle is lowered. A decent amount of force is required to compress the spring so don't be afraid to push hard. Make sure to push the quill feed handle towards the machine to prevent the handle from disengaging. To release the tool, hold it in one hand while pushing up on the quill handle and then pull it out once the spring is compressed. Never make contact with the cutter while inserting or removing tooling from the spindle.<br />
<br />
== Safety ==<br />
* General shop protocol is important when using the mill. Long hair, long sleeves, jewelry, gloves, and lanyards are all risks to be wrapped up by the spindle and should not be worn. <br />
* Always make sure that there is plenty of space between the cutting tool and the work piece before turning on the mill. If the tool comes into contact with the work piece before getting up to speed and is set deeper than the maximum cutting depth things will break. <br />
* At times your work piece may be obscured by metal chips while cutting. Do not remove them while the machine is running. Turn of the mill, wait till it comes to a complete stop, and then remove the chips. There are some brushes on the tool rack that may be helpful for removing stubborn chips. <br />
* The milling process is great at creating sharp edges. Be aware of this when handling the work piece and make sure to deburr any sharp edges.<br />
* Never make contact with the cutters as they are razor sharp and will cut you.<br />
* Never pass your hand under a cutter.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=30472 Foxtale Quiz]<br />
<br />
==Troubleshooting==<br />
* Not cutting smoothly - Check that the spindle is set to the proper direction. This will cause the tool to not cut properly and will damage the tool. Check that the tool is sharp and the cut depth is not to large as well. Adding cutting oil will also improve the cut. <br />
* Can't reach low spindle speeds - If you adjust the speed dial to a low spindle speed but the spindle is still moving fast then the mill must be switched into low range. Stop the mill, flip the lever on the right side of the machine to low, and then turn the mill back on. Make sure to turn on switch to low when the mill is in low range or the spindle will spin backwards. <br />
* Difficult to shift to low range - At times it can difficult to lock the lever into place when switching between high and low range. If this occurs, twist the spindle slightly while switching the lever so that it will lock in place. Twisting the spindle helps the internal gears lock into place properly. <br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
This machine requires minimal maintenance but like all the other machines in the Maker Hub it is important to clean the machine of metal chips and any other debris after each use. The shop vac is best suited for this task. Anything more advanced is taken care of by Justin.</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Wood_Shop&diff=5633Wood Shop2019-09-16T22:57:58Z<p>Mjones16: </p>
<hr />
<div>The wood shop is 975 sq. ft. and contains a table saw, radial arm miter saw, planer, jointer, drill press, bandsaw, scroll saw, oscillating spindle sander, combination belt and disc sander, lathe, and other hand tools. It also contains a large CNC router table that is not normally available for student operation. However, parts can be designed for it and submitted for routing. This is a limited and not necessarily time sensitive resource, but, available nonetheless.<br />
<br />
=Safety Rules=<br />
All the same safety rules from the machine shop apply:<br />
<br />
· Safety glasses must be worn when crossing into the shop area marked on the floor.<br />
<br />
· No horseplay in the shop.<br />
<br />
· Don’t do anything distracting to yourself or others while operating machinery.<br />
<br />
· Do not wear any loose clothing, jewelry, or landyards.<br />
<br />
· No hats or open toed shoes.<br />
<br />
· Hair will not extend bellow the collar.<br />
<br />
· Do not wear gloves while operating machinery.<br />
<br />
· Food or drink is allowed when not operating machinery and it is kept a safe distance away from the machines.<br />
<br />
· Do not attempt to operate machinery in the shop that you have not been certified on by GFU engineering personnel.<br />
<br />
· Do not argue with volunteers or shop staff. Contact Justin Johnson if you have issues that need to be resolved.<br />
<br />
· Do not operate machinery without a shop supervisor or trained volunteer in the shop with you. Never operate equipment alone in the shop.<br />
<br />
· Reset the space. Make the area you are working in ready for the next person using the dust broom and vacuum cleaner.<br />
<br />
· The first aid kit is located in the machine shop, next to the woodshop doors.<br />
<br />
· If you see a safety violation inform the person immediately and encourage them to comply with the policies<br />
<br />
· Don’t do anything that would require an additional rule to be added to this list.<br />
<br />
=Equipment=<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::Wood Shop]]<br />
|format=Category<br />
}}<br />
<br />
<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
|Has ace=Shane Case; scase16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Welding_Shop&diff=5632Welding Shop2019-09-16T22:57:18Z<p>Mjones16: </p>
<hr />
<div>[[File:Shade.png|thumb|448x448px]]<br />
The welding shop is 280 sq. ft and contains a welding table, MIG welder, TIG welder, plasma cutter, blasting cabinet and a fume boom as well as two portable fume hoods for ventilation.<br />
=Equipment=<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::Welding Shop]]<br />
|format=Category<br />
}}<br />
<br />
<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
|Has ace=Shane Case; scase16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Machine_Shop&diff=5631Machine Shop2019-09-16T22:54:52Z<p>Mjones16: </p>
<hr />
<div>With more than 1,500 sq. ft., the machine shop contains a drill press, horizontal band saw, vertical band saw, three bridgeport mills, a sheet metal shear, a bending brake, a waterjet cutter and two lathes for students to utilize. There is also a CNC milling machine that is not available for students to operate, but they can send their approved part files to Nick, our CNC specialists and have their pieces made for them. This is a limited and not necessarily time sensitive resource, but, available nonetheless.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name|+index=0 }}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}). <br /><br />
<br />
= Safety Rules =<br />
· Safety glasses must be worn when crossing into the shop area marked on the floor.<br />
<br />
· No horseplay in the shop.<br />
<br />
· Don’t do anything distracting to yourself or others while operating machinery. <br />
<br />
· Do not wear any loose clothing, jewelry, or landyards. <br />
<br />
· No hats or open toed shoes.<br />
<br />
· Hair will not extend below the collar.<br />
<br />
· Do not wear gloves while operating machinery.<br />
<br />
· Food or drink is allowed when not operating machinery and it is kept a safe distance away from the machines.<br />
<br />
· Do not attempt to operate machinery in the shop that you have not been certified on by GFU engineering personnel. <br />
<br />
· Do not argue with volunteers or shop staff. Contact Justin Johnson if you have issues that need to be resolved.<br />
<br />
· Do not operate machinery without a shop supervisor or trained volunteer in the shop with you. Never operate equipment alone in the shop.<br />
<br />
· Reset the space. Make the area you are working in ready for the next person using the dust broom and vacuum cleaner.<br />
<br />
· The first aid kit is located in the machine shop, next to the woodshop doors.<br />
<br />
· If you see a safety violation inform the person immediately and encourage them to comply with the policies<br />
<br />
· Don’t do anything that would require an additional rule to be added to this list. <br />
<br />
=Equipment=<br />
<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|format=Category<br />
}}<br />
<br />
<br />
<br />
==Equipment by Icon==<br />
{{#ask:<br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|?Has icon<br />
|?Has ace<br />
|format=gallery<br />
|imageproperty=Has icon<br />
|captionproperty=Has ace<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
| Has ace =Madi Jones; mjones16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Machine_Shop&diff=5630Machine Shop2019-09-16T22:54:42Z<p>Mjones16: </p>
<hr />
<div>With more than 1,500 sq. ft., the machine shop contains a drill press, horizontal band saw, vertical band saw, three bridgeport mills, a sheet metal shear, a bending brake, a waterjet cutter and two lathes for students to utilize. There is also a CNC milling machine that is not available for students to operate, but they can send their approved part files to Nick, our CNC specialists and have their pieces made for them. This is a limited and not necessarily time sensitive resource, but, available nonetheless.<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name|+index=0 }}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}). <br /><br />
<br />
= Safety Rules =<br />
· Safety glasses must be worn when crossing into the shop area marked on the floor.<br />
<br />
· No horseplay in the shop.<br />
<br />
· Don’t do anything distracting to yourself or others while operating machinery. <br />
<br />
· Do not wear any loose clothing, jewelry, or landyards. <br />
<br />
· No hats or open toed shoes.<br />
<br />
· Hair will not extend below the collar.<br />
<br />
· Do not wear gloves while operating machinery.<br />
<br />
· Food or drink is allowed when not operating machinery and it is kept a safe distance away from the machines.<br />
<br />
· Do not attempt to operate machinery in the shop that you have not been certified on by GFU engineering personnel. <br />
<br />
· Do not argue with volunteers or shop staff. Contact Justin Johnson if you have issues that need to be resolved.<br />
<br />
· Do not operate machinery without a shop supervisor or trained volunteer in the shop with you. Never operate equipment alone in the shop.<br />
<br />
· Reset the space. Make the area you are working in ready for the next person using the dust broom and vacuum cleaner.<br />
<br />
· The first aid kit is located in the machine shop, next to the woodshop doors.<br />
<br />
· If you see a safety violation inform the person immediately and encourage them to comply with the policies<br />
<br />
· Don’t do anything that would require an additional rule to be added to this list. <br />
<br />
=Equipment=<br />
<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|format=Category<br />
}}<br />
<br />
<br />
<br />
==Equipment by Icon==<br />
{{#ask:<br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|?Has icon<br />
|?Has ace<br />
|format=gallery<br />
|imageproperty=Has icon<br />
|captionproperty=Has ace<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
| Has ace =Madi Jones; mjones16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Vertical_Wood_Bandsaw&diff=5629Vertical Wood Bandsaw2019-09-16T22:53:32Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:wood_bandsaw_icon.png<br />
|Has icondesc=Wood bandsaw icon<br />
|Has iconwname=File:wood_bandsaw_icon_name.png<br />
|Has image=File:wood_bandsaw.jpg<br />
|Has imagedesc=Laguna Bandsaw<br />
|Has description=<br />
|Has certification=<br />
|Has make=Laguna<br />
|Has model=14 bx<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
The bandsaw is generally defined as a saw blade in the form of an endless steel band that rotates around two or more wheels. This blade is a continuous metal band with teeth on one side. As the wheels rotate, so does the band, which creates the continuous sawing action. Because the direction of the blade is always downward toward the table, there is little danger (except for special cuts) that the wood will be thrown back at the operator, which is called a kickback. For safety reasons many woodworkers prefer the bandsaw especially when cutting small pieces. The unique feature of the bandsaw is that the workpiece can be rotated around the blade creating a curve. It is the tool most often used when curves have to be cut in wood. Because the bandsaw blade is fairly thin, it can cut thick stock with a minimum of horsepower. For this reason the bandsaw is often used when valuable pieces of wood are made into a thin piece of veneer.<br />
<br />
Although the bandsaw is usually associated with cutting curves, a variety of straight cuts are easily made with the saw. In fact, it is often used to rip wood because it is much safer than a radial arm saw and also has a smaller saw cut, so it wastes less wood. This becomes very important when using expensive wood where waste must be kept to a minimum. The cut is safer because the force of the cut is straight down on the table; the work cannot be pulled back or kicked back, which sometimes happens with table or radial arm saws. The bandsaw can also cut very thick stock, which the radial arm, or table saw cannot do. The disadvantage of cutting with the bandsaw is that the surface finish of the cut is not as good as with the table or radial arm saw. <br />
<br />
{{#evu:https://www.youtube.com/watch?v=PDU_2sT0etc}}<br />
==Documentation==<br />
<br />
====Terminology====<br />
[[File:...woodVerticalBandsawTerms.png|none|thumb]]<br />
<br />
[https://maker-hub.georgefox.edu/w/images/a/a2/MBAND14BX110-0175_14_BX_110v%26220v_bandsaw_06-07-2015.pdf User Manual]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Demonstrate you can safely setup the saw and cut out a curved shape. After making the curved cut demonstrate using the fence to make a straight cut.<br />
<br />
====General Procedure====<br />
# Make sure the blade guides and fence are in place. These are meant to help your cut, so it is crucial that these are in place. <br />
## Instructions on adjusting can be found in the manual, but they should be fine by default. The ace should take care of such issues.<br />
### Blade guides (p. 33-34)<br />
### Fence (p. 35-37)<br />
# Adjust the upper blade guard so that it is just clearing the material being cut<br />
# Make sure that the cutting teeth are facing down since the blade moves downward. Otherwise, it will not cut.<br />
# Make sure that the blade has been properly tensioned (blade doesn’t have slack) and tracked (blade moves evenly and consistently as the wheels turn, doesn’t wander back and forth)<br />
## Instructions on tensioning (p. 30) and tracking (p. 29) can be found in the manual<br />
# Make sure the proper size and type of blade is in use<br />
##[[File:...woodVerticalBandsawKerf.png|none|thumb]]<br />
## Blade help is in the manual (p. 38-42)<br />
# Turn the saw on. ‘1’ turns on, ‘0’ turns off. [[File:...woodVerticalBandsawOnOff.png|none|thumb]]<br />
# Hold the workpiece firmly against the table, flat side down.<br />
# Push material into blade at a moderate pace, using a push stick if necessary at the end of the cut.<br />
# Turn the machine off once the cut is complete.<br />
# Remove the workpiece and reset the space.<br />
<br />
==Safety==<br />
# Don’t feed anything into the blade you don’t want cut. First off, it makes no sense and it could pull other stuff into the midst, like your own body. That isn't a good scenario, so let's prevent that.<br />
# Plan out your cut before making it. Wasting material isn't a good idea, and it's more time consuming when you mess up.<br />
# Don't try to cut too tight of radius. See the blade curve chart before cutting curves.<br />
# Use a push stick to keep your fingers at least 3" from the blade.<br />
# Keep hands and fingers out of the "danger zone" in front of the blade. <br />
# Hold work piece firmly on the table.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/enrol/index.php?id=30801 Foxtale Course]<br />
<br />
==Troubleshooting==<br />
# Suppose the bandsaw will not start. <br />
## Check that the E-stop is fully pulled out. <br />
## Check that the electrical power cord is plugged into the power outlet.<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Little maintenance is needed to upkeep the Wood Vertical Bandsaw. Refer to the table below for specific tasks.<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|General Cleaning<br />
|After each use<br />
|Student<br />
|-<br />
|Blade Change<br />
|When Dull<br />
|Ace<br />
|-<br />
|Rotate back blade guard 15 degrees<br />
|Every 8 hours of use<br />
|Ace<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Through_Hole_Press&diff=5628Through Hole Press2019-09-16T22:53:07Z<p>Mjones16: </p>
<hr />
<div>[[File:...PressyBoi.png|thumb]]<br />
<br />
{{#set:<br />
|Is equipment=True<br />
|Is located in facility=PCB Lab<br />
|Is used in domain=Electronics<br />
|Has name={{PAGENAME}}<br />
|Has icon=File: Through_hole_pressIcon.png<br />
|Has icondesc=Through Hole Press Icon<br />
|Has iconwname=File:image_pending.png<br />
|Has image=File:through_hole_press_image.jpg<br />
|Has imagedesc=The Favorit Through Hole Press<br />
|Has description=<br />
|Has certification=<br />
|Has group=<br />
|Has make=Favorit<br />
|Has model=PL-FAVORIT<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
The Through Hole Press is a hand-operated through hole plating machine using rivets. A rivet is a component used to easily connect traces that are transitioning between the top and bottom layers of a PCB. As a whole, it is known as a via. Specifically, it is a small hollow copper tube that can be inserted on one side of the board, then - using a specialized rivet tool like the Through Hole Press - the rivets are pressed and deformed to connect both sides. There are other methods that carry out the same function, but using rivets is the fastest and most consistent method. {{#evu:https://www.youtube.com/watch?v=ywfjknf6Vtg}}{{#evu:https://www.youtube.com/watch?v=nz1TcfEnw-o}}<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<gallery><br />
File:Pcb-trace-geometry-2.png|Trace<br />
File:...via.png|Via<br />
File:...rivet.png|Rivet<br />
File:...rubberMallet.png|Rubber Mallet<br />
</gallery><br />
<br />
[https://www.bungard.de/index.php/en/products/through-hole-plating-line/through-hole-plating Product Home Page]<br />
<br />
[https://www.bungard.de/images/downloads/favorit_manual_e.pdf Favorit Through Hole Press User Manual]<br />
<br />
[[Media:Through hole press instructions and size chart.pdf|Instructions and Size Chart]]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Rivets are used to connect traces on the top and bottom layers of a PCB. Traces are paths of conductive ink that connect components. Rivets can be pressed using either the Through Hole Press or a rubber mallet. Each method has its perks, so students will learn both methods.<br />
<br />
====Demonstration====<br />
<br />
To show a complete knowledge of the press, the student will press 2 rivets by using a rubber mallet and 2 rivets using the press. A test PCB with many holes of different sizes will be provided and reused among students.<br />
<br />
====General Procedure====<br />
# Hole Sizing<br />
## Before pressing a rivet, you need to make sure you design the holes so that they fit well. For a rivet to fit nicely in a hole, the hole diameter needs to be 0.1 mm (3.9 mils) larger than the rivet outer diameter. Use the table below to see what types of rivets Voltera offers. Also, refer to the chart below to assure you have the right size rivet for the hole you are pressing it into.[[File:Through_hole_press_chart_snippet.PNG|none|thumb|500x500px]][[File:...rivetTable.png|none|thumb]]<br />
## Additionally, these rivets are hollow, so these can also be used to secure headers on your PCB. When placing vias in your design program, ensure the right drill size is used so the PCB Printer leaves enough space when printing the ink. <br />
# Using Through Hole Press<br />
## Follow the instructions in the following video for setting up the correct tool set for your rivet.{{#evu:https://www.youtube.com/watch?v=lWoPXiklzl0}}<br />
## You will need to place all the rivets into the board. Some like to use their fingers, some like to use tweezers, it is up to you. Pinching the rivets on the side is the easiest way to go, as shown in the picture below.[[File:...rivetPlacing.png|none|thumb]]<br />
## The through hole press pretty much just flattens down the other side on the rivet. Once all rivets have been placed, you will need to turn it upside down while keeping the rivets snug inside the hole in order to flatten the other side. Find a flat unused PCB, place it over the rivets, and turn it upside down to keep them from falling out. Using some tape to keep the plate stable on the board is something to try if things are not quite going your way.[[File:...rivetFlip.png|none|thumb]]<br />
## Before pressing the rivets, you need to make sure you have the right tool inserted into the upper and lower parts of the press. These tools can be found in the drawer in front of the press. The tool you choose should have the same inside diameter of the rivet you want to press.<br />
## Now it is time to press the rivets. Place the board over the pin of the lower tool and fit a rivet over the pin as far as possible. To flatten the other side of the rivet, press the lever until it reaches the stop pin, then release. [[File:...rivetPress.png|none|thumb]]<br />
## Your rivet should change somewhat like this. Pressing the rivet too hard can cause it to crack and damage the traces on the board, yet pressing the rivet too softly will to a poor job because it will not make a firm connection with the traces. It should be hit just hard enough to deform the rivet to make a firm connection with the traces. With practice, you'll learn the right amount of pressure to apply. [[File:...rivetBeforeAfter.png|none|thumb]]<br />
# Using the Rubber Mallet<br />
## Rivets can also be pressed using a rubber mallet! The setup for the through hole press apply here as well. This method is faster than the Through Hole Press, but it is not as consistent. <br />
## You will need to place all the rivets into the board. Some like to use their fingers, some like to use tweezers, it is up to you. Pinching the rivets on the side is the easiest way to go, as shown in the picture below.[[File:...rivetPlacing.png|none|thumb]]<br />
## The through hole press pretty much just flattens down the other side on the rivet. Once all rivets have been placed, you will need to turn it upside down while keeping the rivets snug inside the hole in order to flatten the other side. Find a flat unused PCB, place it over the rivets, and turn it upside down to keep them from falling out. Using some tape to keep the unused PCB stable on the board is something to try if things are not quite going your way. [[File:...rivetFlip.png|none|thumb]]<br />
## Using the rubber mallet and the rivet tool, you can press the rivet as shown in the picture below. Place the tip of the tool inside the rivet in an upright position, then hit the top of the tool with the mallet. The rivet tool can be found in the drawers in front of the PCB Printers.[[File:...rubberMalletPress.png|none|thumb]]<br />
## Your rivet should change somewhat like this. Pressing the rivet too hard can cause it to crack and damage the traces on the board, yet pressing the rivet too softly will to a poor job because it will not make a firm connection with the traces. It should be hit just hard enough to deform the rivet to make a firm connection with the traces. With practice, you'll learn the right amount of pressure to apply. Come stop by![[File:...rivetBeforeAfter.png|none|thumb]]<br />
<br />
==Safety==<br />
There is not much that can hurt you while using the machine or the rubber mallet. Do not put any part of yourself under the through hole press, because it will try to punch a hole in you. The same idea goes with the mallet and the '''rivet''' tool. Do not swing it or do any dumb stuff. This should not have to be said, but people are dumb sometimes. Please do not be that person.<br />
<br />
As for the through hole press and its tools, there any many things that could damage it. Especially tools for small rivet diameter (0.4 and 0.6 mm) are sensitive and require careful handling. The tip of the upper tool and springloaded pin of the bottom tool '''should be guarded against damage.''' Avoid any excessive pressure on both parts! For transport reasons the tip of the lower tool may be hidden inside of the tool body. If so, carefully turn in the headless screw, until the tip shows up again, but still can be pushed into the body again.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=31713 Foxtale Quiz]<br />
<br />
==Troubleshooting==<br />
If a rivet is not connecting the top and bottom layer traces, it is probably not pressed well, meaning it is not making good contact with the trace on both layers. A well placed rivet gives a good connection that is resistant to bending and twisting. In order to obtain a good long-term stability, we recommend that you apply our SUR-TIN immersion tin. This will help to prevent corrosion at the transition layer of the rivet and the copper clad (and will increase solderability). If you place component leads in the rivet holes and solder them from one side only, you should avoid thermal stress to the rivet. Certainly if solder passes the rivet it can cause the rivet to grow under the heat so that the rivet becomes loose. In such case, you should solder fix both rivet collars to the pads before inserting component leads.<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
There is little to no maintenance to be done on this machine. Just be sure to reset the space, put away any rivets, tools, and PCBs that you have used.<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|General Cleaning<br />
|Before and After each use, put away any rivets, tools, and PCBs that you have used<br />
|Student<br />
|}<br />
<br />
__TOC__</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Scroll_Saw&diff=5627Scroll Saw2019-09-16T22:52:10Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Scroll Saw.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=<br />
|Has imagedesc=<br />
|Has description=<br />
|Has certification=<br />
|Has make=Excalibur<br />
|Has model=EX-21<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
<br />
[[File:Excalibur EX21 Scroll Saw Image.jpg|thumb|Excalibur EX-21 Scroll Saw]]<br />
The Excalibur EX-21 Scroll Saw is a small variable speed electric saw. It operates similarly to a band saw, but uses a reciprocating blade instead of a loop. This reciprocation means the blade does not cut continuously and only on the down stroke. The thinness of the blade allows it to be turned in the work piece at an almost 90 degree angle, which allows the blade to track along fine detail and sharp lines. The blade can also be removed on either the top or bottom of the reciprocating arm which allows the blade to be inserted inside of a work piece without needing an entry cut, the only thing necessary is a small hole drilled through the material. There is a blade guard and a dust blower nozzle that both need to be adjust before a piece can be cut into the material.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
* [https://www.homedepot.com/p/Excalibur-120-Volt-21-in-Tilting-Head-Scroll-Saw-with-Stand-and-Foot-Switch-EX-21K/205414436 Product Distribution Page]<br />
* [https://images.homedepot-static.com/catalog/pdfImages/5d/5da1c223-3df7-4236-8b34-34eb1641764a.pdf Manual]<br />
<br />
== Training ==<br />
* [https://images.homedepot-static.com/catalog/pdfImages/5d/5da1c223-3df7-4236-8b34-34eb1641764a.pdf Manual]<br />
<br />
== Tips ==<br />
When cutting a pattern, overlay the pattern on the workpiece, then work the piece smoothly through the blade path. By maintaining a constant forward movement and turning the piece as to keep the pattern line directly in front of the blade teeth, a smooth and accurate pattern can be cut. If the workpiece ever stops moving forward through the blade, the cut pattern will not be perfectly smooth.<br />
<br />
The scroll saw can cut extremely tight curves, by backing up the blade a hair the scroll saw can even cut what is almost a re-entrant corner. This is only advisable in soft woods, and can leave burn marks on the wood.<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
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====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
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==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Photo_Table&diff=5626Photo Table2019-09-16T22:51:40Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Vault<br />
|Is used in domain=<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Photo Booth.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:3D-PhotoBench-260.jpg <br />
|Has imagedesc=Ortery PhotoBench-260<br />
|Has description=<br />
|Has certification=<br />
|Has make=Ortery<br />
|Has model=3D PhotoBench 260<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
The Photo Table, or Photobench as called by its manufacturer Ortery, is a device which links to a lab PC specifically designated for this device and enables users to take still photos, 360 photos, and videos of various products and items on flat white backgrounds like the ones you see online for products you might view on a daily basis. If you have ever wondered how those product pictures are taken, this is it. This makes the photo table perfect for creating professional grade product photos for projects and presentations. <br />
{{#evu:https://www.youtube.com/watch?v=5INCuPbASHw}}<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
* Ortery Capture - This is the software that you will use to interact with the photo table in order to adjust the lighting, turntable, and take pictures. <br />
*Canon 7D Mark II - This camera mounts on the side of the photo table and is used to take photos through the Ortery Capture software. <br />
*360 - 360 degrees <br />
'''[https://maker-hub.georgefox.edu/w/images/d/d6/UserGuide_en.pdf User Manual]'''<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Confirm that the unit is plugged in and then turn on the photo table using the large red power switch. Note that nothing will happen when you turn on the switch until you are logged into Ortery Capture and that you will not be able to log into Ortery Capture unless the photo table is turned on. After the the table is turned on, log onto the computer next to it using your standard George Fox log in. You will need to log into Ortery capture as well. The username is Cameraman and the password is Nikond70. Once you are logged into Ortery capture the lights in the photo table should automatically turn on. Place the object you are trying to photograph onto the center of the turntable using the door on the right side of the machine. It is especially important to have the object centered on the turntable if taking 360 photos because otherwise it will appear to shift side to side instead of just spinning. Now you can set up the Canon 7D Mark II; there is an adjustable mount on the side of the photo table that holds the camera still during the photo process and can be adjusted to find the perfect angle. Finish the setup process by plugging the camera into the computer using a Usb cable. The rest of the process will take place in Ortery capture. There you can adjust the camera settings, light intensity and direction, and turntable to take the perfect picture. Once you are done with the photo table, reset the space by logging out, turning off the table, and cleaning out any debris from the table. <br />
<br />
====Demonstration====<br />
In order to use this device, you must be able to demonstrate the following:<br />
# Set up the Ortery Photo Table and the software on the computer, along with connecting the camera and getting the settings dialed in.<br />
# Set up the camera and object to be photographed.<br />
# Take a 360 photo of the object.<br />
# Export the file to a safe location for later access and use.<br />
<br />
====General Procedure====<br />
Setting up the Ortery:<br />
# Plug in the Ortery Photo table, if it isn't already, and turn the power switch to on. This will not cause a dramatic change in the table but must be done so the software can recognize the it. <br />
# Turn on the computer and log in using your normal George Fox log in. <br />
# Open up the Ortery Capture software and log in. The username is Cameraman and the password is Nikond70. The home page should look something like this:[[File:Home screen.png|none|thumb|1040x1040px]]<br />
# Use the provided USB cable to connect the Camera to the computer.<br />
## Make sure when doing this, the camera is off while connecting the camera, and that the software is able to recognize the camera.<br />
#Press the [capture] button to toggle the capture window shown below. Take some test shots using the [snap] button to ensure that the camera and the software are properly set up.[[File:Ortery capture screen.png|none|thumb|1079x1079px]]<br />
Setting up the object to be Photographed:<br />
# Make sure that the object is clean and free of any debris. This will allow for not only a cleaner photo, but will also help with keeping the Photo table clean.<br />
# Open up the small front door or the larger door on the right side of the photo table if the camera is already set up on the front part of the photo table. <br />
# Place the object in the center of the table. It is important to be in the center so that the object will appear to spin in place in 360 photos instead of shifting side to side while spinning.<br />
# Close the side or front door.<br />
Capturing images of the product: <br />
# In the Ortery software, open up a new capture and the camera settings panel will open up.<br />
# Customize the camera settings (aperture, shutter speed, etc) as well as the table lighting to achieve the desired appearance. This is done done from the capture window and the video below walks through this as well. <br />
{{#evu:https://www.youtube.com/watch?v=gdacoh3xKMI&t=5s}}<br />
# Press capture to take photos. <br />
<br />
==Safety==<br />
* For this machine, you want to make sure that you are treating all the equipment with respect and ensure that all things are secured before you proceed to any new step or moving around, as it is expensive. <br />
* With the rotating table, if you have long hair, make sure that it is out of the way of the table; although it won’t kill you, it can still cause problems and cause some injuries if you’re not careful.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=31421 Foxtale Quiz]<br />
<br />
==Troubleshooting==<br />
* Lights aren't turning on and the photo table is on - You must log into Ortery Capture before they will turn on, even if the table is powered on.<br />
* Background looks dark/spotty - Make sure the turntable is clean and adjust the different lights and brightness.<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
The purpose of the photo table is to take product photos on white backgrounds and as a result it is important to keep the inside of the table clean to make sure the white surfaces stay that way. This is not difficult to do. Simply wipe out the the table with a paper towel if there is anything on the table. It may be helpful to use some cleaner from the prototype lab as well.<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
!Last Completed<br />
|-<br />
|Clean out and debris from the photo table<br />
|Check after each use and perform as necessary<br />
|Student<br />
|N/A<br />
|-<br />
|Inspect lights and replace as needed<br />
|Every two months. Refer to the user manual for instructions on replacing a light<br />
|Ace<br />
|<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Oscillating_Spindle_Sander&diff=5625Oscillating Spindle Sander2019-09-16T22:50:48Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Spindle Sander.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Spindle Sander.jpg<br />
|Has imagedesc=Oscillating Spindle Sander<br />
|Has description=<br />
|Has certification=<br />
|Has make=Grizzly<br />
|Has model=G1071<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
__TOC__<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br /><br /><br /><br />
<br />
<br />
== Documentation ==<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Milling_Machine&diff=5624Milling Machine2019-09-16T22:50:06Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Machine Shop<br />
|Is used in domain=Metal<br />
|Has name={{PAGENAME}}<br />
|Has redirect={{FULLPAGENAME}}<br />
|Has icon=File:milling_machine_icon.png<br />
|Has icondesc=Milling machine icon<br />
|Has iconwname=File:milling_machine_icon_name.png<br />
|Has image=File:milling_machine.jpg<br />
|Has imagedesc=Bridge Port Mill<br />
|Has description=<br />
|Has certification=<br />
|Has make=Bridgeport<br />
|Has model=Series I<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
The Bridgeport Series 1 Mill is a vertical mill used to mill various materials into desired shapes and sizes. It can also be used to perform special functions such as drilling, chamfering, reaming, fly cutting, and many more. Some examples of items made from mills are piston bore holes, valve plates, gears, and even your own tools. This is done by using a rotary cutter to remove material by advancing a cutter into a work piece in varying direction along three axes. Milling covers a wide variety of different operations and machines, on scales from small individual parts to large, heavy-duty gang milling operations. It is one of the most commonly used processes for machining custom parts to precise tolerances. The video below shows a part being machined by a CNC mill which is a computer driven mill, but still demonstrates the milling process. <br />
{{#evu:https://www.youtube.com/watch?v=8cp4eCXnc4Q}}<br />
==Documentation==<br />
<br />
====Terminology====<br />
* Spindle - The rotating shaft, driven by the motor, that holds the cutting tools.<br />
* Quill - The part of the vertical milling machine that raises and lowers cutting tools held in the spindle.<br />
* Quill Handle - The long handle on the right side of the machine that raises and lowers the quill.<br />
* Endmill - A common machining tool having cutting teeth on the end of a cylindrical shank and usually spiral blades on the lateral surface. Because of this geometry it can cut in any direction. <br />
* Facing - The process of cutting a flat surface perpendicular to the axes of the milling cutter. Often this is done on the initial piece of raw stock as the first step in the milling process. <br />
* Deburring - To neaten and smooth the rough edges or ridges of a part after it has been machined. <br />
* Edge finding - The process of using an edge finder to align the coordinate system of the mill with the corner of your part. <br />
* Collet - A device that forms a collar around an object to be held and exerts a strong clamping force on the object when it is tightened. On the mill the collet is attached to the spindle and is used to hold cutting tools in place. <br />
* Parallels - Thin, flat pieces of metal that are used to hold a work piece "parallel" to the mill's work table. <br />
<br />
==== [https://www.hardinge.com/wp-content/uploads/KneeMill-Complete-Manual.pdf User Manual] ====<br />
<br />
==Training==<br />
<br />
==== Overview ====<br />
When making a part, it can usually be milled in several different ways and as a result this will focus on general operations such as changing tools, starting and stopping the spindle, changing speeds, and changing gears. To learn how to mill the specific part for the demonstration see the video below. The first thing you will need to do is properly secure your work piece in the vice. Place the piece in between the jaws and turn the handle clockwise to tighten. If the piece is to small to protrude from the top of the vice use a set of parallels to raise the work piece above the vice. This makes it easy to face the work piece without damaging the vice. Next you will need to insert a tool. To insert a cutting tool under the new system, push the tool upwards into the collet with one hand and then push quill handle up with the other to compress the spring above the collet. Pushing up on the quill handle will allow the the tool to slide up into the collet and the tool will lock in place once the handle is lowered. A decent amount of force is required to compress the spring so don't be afraid to push hard. To release the tool, hold it in one hand while pushing up on the quill handle and then pull it out once the spring is compressed. You are then ready to begin machining. Use the spindle start-stop switch to turn on the mill. You will notice an option for high or low on the switch. If the mill is in high gear, the high setting will run the spindle forward (clockwise) and the low setting will run the spindle in reverse. If the mill is in low gear, the opposite will occur. If you are not sure what gear the mill is in look at the high-low lever to determine the gear (check out the images below to see the location of the switches). Once the mill is on you will need to adjust the spindle speed to match your material by referring to the speed chart on the wall above the mill and turning the spindle speed hand wheel till the speed is correct. Only adjust the speed while the machine is ON. You may need to switch gears to achieve the proper speed. Do this by rotating the high-low range lever from the current gear to the desired gear. Do not force the lever into place if there is resistance; instead use your other hand to slightly twist the spindle so that the range lever slides into place. After the machine is on, use the axes adjustment handles and the digital display to mill your part. Feel free to ask a shop supervisor for specifics or best milling processes for your part. <gallery widths="250" heights="250"><br />
File:MillOn.png<br />
File:MillSpeed.png<br />
File:MillRange.png<br />
File:QuillHandle.png<br />
</gallery><br />
====Demonstration====<br />
<br />
For the demonstration, you will face a piece of aluminum stock, drill a hole in the center, ream the hole, and deburr all of the edges. Reference the video below to see what this should look like. <br />
<br />
====General Procedure====<br />
This video contains specific information for using the Mills in the Maker Hub as well as a basic overview of what will be expected in your live demonstration. {{#evu:https://www.youtube.com/watch?v=IJjXAxYH9TA}}'''Note''' that the tool changing system has been upgraded since this video was produced. To insert a cutting tool using the new system, push the collet upwards into the spindle with one hand and then push the quill handle against the end of travel with the other to compress the spring in the tool change mechanism. Make sure the quill lock is unlocked when installing or removing tooling. Pushing up on the quill handle will allow the the tool to slide up into the collet and the tool will lock in place once the handle is lowered. A decent amount of force is required to compress the spring so don't be afraid to push hard. Make sure to push the quill feed handle towards the machine to prevent the handle from disengaging. To release the tool, hold it in one hand while pushing up on the quill handle and then pull it out once the spring is compressed. Never make contact with the cutter while inserting or removing tooling from the spindle.<br />
<br />
== Safety ==<br />
* General shop protocol is important when using the mill. Long hair, long sleeves, jewelry, gloves, and lanyards are all risks to be wrapped up by the spindle and should not be worn. <br />
* Always make sure that there is plenty of space between the cutting tool and the work piece before turning on the mill. If the tool comes into contact with the work piece before getting up to speed and is set deeper than the maximum cutting depth things will break. <br />
* At times your work piece may be obscured by metal chips while cutting. Do not remove them while the machine is running. Turn of the mill, wait till it comes to a complete stop, and then remove the chips. There are some brushes on the tool rack that may be helpful for removing stubborn chips. <br />
* The milling process is great at creating sharp edges. Be aware of this when handling the work piece and make sure to deburr any sharp edges.<br />
* Never make contact with the cutters as they are razor sharp and will cut you.<br />
* Never pass your hand under a cutter.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=30472 Foxtale Quiz]<br />
<br />
==Troubleshooting==<br />
* Not cutting smoothly - Check that the spindle is set to the proper direction. This will cause the tool to not cut properly and will damage the tool. Check that the tool is sharp and the cut depth is not to large as well. Adding cutting oil will also improve the cut. <br />
* Can't reach low spindle speeds - If you adjust the speed dial to a low spindle speed but the spindle is still moving fast then the mill must be switched into low range. Stop the mill, flip the lever on the right side of the machine to low, and then turn the mill back on. Make sure to turn on switch to low when the mill is in low range or the spindle will spin backwards. <br />
* Difficult to shift to low range - At times it can difficult to lock the lever into place when switching between high and low range. If this occurs, twist the spindle slightly while switching the lever so that it will lock in place. Twisting the spindle helps the internal gears lock into place properly. <br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
This machine requires minimal maintenance but like all the other machines in the Maker Hub it is important to clean the machine of metal chips and any other debris after each use. The shop vac is best suited for this task. Anything more advanced is taken care of by Justin.</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Lathe&diff=5623Lathe2019-09-16T22:49:15Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Has make=Monarch<br />
|Has model=10EE<br />
|Has name={{PAGENAME}}<br />
|Is located in facility= Machine Shop<br />
|Is used in domain=Metal<br />
|Has function=Lathe<br />
|Has url=http://www.monarchlathe.com/products/lathes/toolroom/monarch-ee-series<br />
|Has icon=File:lathe_icon.png<br />
|Has icondesc=Lathe icon<br />
|Has iconwname=File:lathe_icon_name.png<br />
|Has image=File:lathe_image.png<br />
|Has imagedesc=Monarch Lathe<br />
|Has description=Used turn, face, or part round stock<br />
|Has QR code=File:Horizontal Bandsaw QR code.png<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
A lathe is a machine tool that rotates the work piece on an axis to perform various operations such as cutting, sanding, knurling ,drilling, facing, and turning. It does this with a stationary tool that is applied to the work piece to remove material. The lathe will create an object that is symmetrical about the axis of rotation it was rotated about. It is useful for creating flywheels and other circular parts. There are two lathes available in the machine shop and there are some small differences between them, namely the start/stop procedure. <br />
{{#evu:https://www.youtube.com/watch?v=lcGHtI9Lql4}}<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
* Spindle - The part of the lathe that rotates.<br />
* Chuck - Clamping device that holds the material.<br />
* Tailstock - Adjustable mount that is used to support the of the material, drill holes, and ream holes. <br />
<br />
==== [https://maker-hub.georgefox.edu/w/images/c/c6/Monarch-10EE-Manual.pdf User Manual] ====<br />
<br />
==Training==<br />
====Overview====<br />
<br />
To begin you will need to a piece of round stock that is at least a quarter inch longer than the final part. The extra material is so that your part will be the correct length after machining the end to a smooth face (facing). Using the chuck key found in the tool holder, place the stock in the chuck and tighten to secure the stock. Always remove the chuck key from the chuck or it can fly across the room once the lathe is turned on. A common difficulty with using these lathes is activation. The images below demonstrate the differences between Lathe 1 and Lathe 2, please refer to the video below for more information. Lathe 1 must be turned on using the power button circled on the left and the spinning is initiated using the activation lever. Note that the activation lever on Lathe 1 needs to be pulled out before being moved up and down. It also has a neutral position. The lever must be in neutral position for the machine to turn on. It is safer to run the machine in forward because the chips will tend to fall down and into the tray rather than fly up and out. Lathe 2 is controlled by an intuitive button panel. The final piece to using the lathe is setting the correct speed. Refer to the speed chart posted on the wall above the lathes to determine the correct speed for your specific material and set the spindle speed to match. Use the control panel to do this on lathe 2 and the left most knob to do this on lathe 1. You can then begin machining. For more details see the video below.<br />
<br />
<gallery widths="300" heights="230"><br />
File:Lathe2 on.jpg|Control Panel for Lathe 2<br />
File:Lathe1 onandoff.jpg|Start Stop Switch and Activation Lever of Lathe 1<br />
</gallery><br />
<br />
====Demonstration====<br />
<br />
Face a 1” aluminum bar down to 0.75”, drill a hole through the middle, and then ream the hole. Check out the image below to see what this should look like. <br />
[[File:Lathe Demonstration.png|none|thumb|400x400px|Lathe demonstration expectations.]]<br />
<br />
====General Procedure====<br />
<br />
This video contains specific information for using the lathe in the Maker Hub as well as a basic overview of what will be expected in your live demonstration.<br />
<br />
{{#evu:https://www.youtube.com/watch?v=oqmJ-dvSMHc}}<br />
==Safety==<br />
* Never wear gloves, long sleeves, jewelry, or have long hair down as all of these can get caught in the rotating portion of the machine.<br />
* Make sure to remove the chuck key. Sounds simple but this is probably the most common mistake in the machine shop. <br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=30473 Foxtale Quiz]<br />
<br />
==Troubleshooting==<br />
* Not cutting smoothly or Tool is making excessive noise (chattering) - Slow down the feed rate and the amount of material being removed. Check the spindle speed as well. If the problem persists check the tool to make sure it is not chipped and that it is at the correct height. Ask a shop supervisor for help if the tool is damaged. <br />
* A small bump remains when facing the end of the material - Adjust the tool height so it is exactly in the center of the material. <br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
This machine requires minimal maintenance but like all the other machines in the Maker Hub it is important to clean the machine of metal chips and any other debris after each use. Anything more advanced is taken care of by Justin.</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Jointer&diff=5622Jointer2019-09-16T22:48:28Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:jointer_icon.png<br />
|Has icondesc=Jointer icon<br />
|Has iconwname=File:jointer_icon_name.png<br />
|Has image=File:jointer.png<br />
|Has imagedesc=Powermatic Jointer<br />
|Has description=<br />
|Has certification=<br />
|Has make=Powermatic<br />
|Has model=54HH<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
The Powermatic jointer contains a 1HP motor and 6" capacity that will handle the most demanding work. The helical cutterhead provides quieter operation and finer finishing than conventional systems, and the four-sided knife inserts seat themselves without requiring a set-up gauge. The 4" dust port connects easily to any dust collector. Used to remove material from wood, as well as squaring to create straight pieces.<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
[http://www.powermatic.com/us/en/p/54hh-jointer-1hp-1ph-115-230v/1791317K Product Home Page]<br />
<br />
[http://content.powermatic.com/assets/manuals/1791279DXK_man_EN.pdf User Manual]<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Jewelry_Station&diff=5607Jewelry Station2019-09-06T22:28:04Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Vault<br />
|Is used in domain=Metal<br />
|Has name={{PAGENAME}}<br />
|Has icon=File: Jewelry_stationIcon.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:115835.jpg<br />
|Has imagedesc=<br />
|Has description=<br />
|Has certification=<br />
|Has make=Jason's Works<br />
|Has model=Master Deluxe Kit<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|500px|right|top|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
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Make: {{#show: {{PAGENAME}} |?Has make}}<br />
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Model: {{#show: {{PAGENAME}} |?Has model}}<br />
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Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
This Jewelry Station is a set that allows one to turn a coin into a fashionable ring for either yourself or a loved one. Through a process of punching of hole size reductions, forming and polishing, it will bring forth a finished masterpiece in the shape of the ring that you can be forever proud of.<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual (You can get one for $20 from Jason's Works)<br />
<br />
[https://www.youtube.com/channel/UCRjgtgFUD2y2fZ7Q0wQxnlA More techniques and skills]<br />
<br />
==Training==<br />
====Overview====<br />
There are a wide variety of videos on ring making. The basic process is composed of 4 main steps:<br />
# Punching a hole<br />
# Folding the coin<br />
# Stretching the coin<br />
# Sizing the ring<br />
<br />
At various points in the process the metal should be annealed to prevent the metal from becoming too brittle due to cold working. When the coin should be annealed is somewhat subject and no exact rule exists. The hardness of the coin will depend on the type and the year it was minted. For example, silver half dollars minted up to 1964 are made with more silver and less copper than silver half dollars minted afterwards.<br />
<br />
The steps below can be found in the video below called "The basics of starting a coin ring" from Jason himself:<br />
* [https://www.youtube.com/watch?v=htO9uEI6HPw The basics of starting a coin ring]<br />
<br />
====Demonstration====<br />
<br />
Make a ring.<br />
<br />
====General Procedure====<br />
* Punching the hole:<br />
** To begin this process, you want to begin by annealing the selected coin. If you haven't annealed before, it would be best to get a shop supervisor who knows what they're doing to help you out. It might also help to first do this in a darker room to know about how long to heat the coin up for until you see a slight glow. Over heating the coin can cause deformities, and you sure don't want that.<br />
** After annealing the coin, proceed to the coin holder (the giant brass screwy thing) and open it up to find the best fitting spacer to center the coin to the best of your ability. No coin is perfectly circular, so don't waste your time here. Before you actually proceed to punch the hole, make sure to screw the top back into place, and then take the punch (flat side up) and slide it into the hole on top of the coin press.<br />
*** In order to get a more secure fit, you can use a paper towel to go around the spacer.<br />
** After everything is in place, using a hammer, slowly hammer the punch through the coin until you feel it give. You don't want to punch it all the way through to the bottom of the press for this might ruin this glorious device.<br />
** You then want to use a rubber or wooden mallet to hammer the punch back out.<br />
*** For safety reasons, you will want to de-burr the punched hole to avoid cuts.<br />
* Folding the coin:<br />
** '''Before you begin to do this, it is highly recommended to anneal the coin to make it more malleable.'''<br />
** In order to fold the coin, take one of the reduction dyes and find one that fits, but is bigger than the coin. For example, it's recommended to use the 1.3 - 1.4 17 degree dye for a half-dollar, and go down the sizes to eventually fold the ring over.<br />
*** '''It is important to note that you don't want to fold the coin all the way straight just yet, as it will make it more difficult to reduce down the size later!'''<br />
* Stretching the coin:<br />
** Once you have folded the coin over, it's time to take it to the "stretching tower," again, using a paper towel to protect the details of the coin.<br />
** To begin, you want to measure the coin's current size using the sizing rod, measuring from the smallest side first. Once you have measured the ring's current size, you want to figure out what your target size is and make sure that you stretch the coin one or two sizes bigger (you will be sizing the coin down to the target size).<br />
*** '''As you are working through this, you may want to anneal the coin here and there, making sure that the coin does not become too hard and stiff to work with, causing it to crack like dry skin on a freezing day.'''<br />
* Sizing the ring:<br />
** From here, take some reduction dyes and size and choose accordingly to reduce the size of the bigger end of the ring, using the press to slowly press the ring into the dye, reducing it. '''Make sure that you are always reducing form the wider side of the ring!'''<br />
** As you are making progress here, make sure to check the ring's size using the sizing rod, and anneal as the coin becomes harder to work with, and '''don't get lazy here. It's better to spend more time annealing and softening the coin rather than having the coin crack and you losing all your hard work!'''<br />
** You will want to think of it as "kneading" the coin into the right shape and size--gentle and slow, making sure that it's done properly or you'll pay the consequences!<br />
* Finishing<br />
** After you have completed all these steps, it's time to finish your ring. There's many ways that you can do this, and it's all up to you; you can either polish it, sand it, use black max to make the features pop, or just keeping it rustic if your heart desires it to be that way. Regardless, you will have successfully created your first (or maybe hundredth ring)!<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=High_Speed_Camera&diff=5606High Speed Camera2019-09-06T22:27:14Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Vault<br />
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|Has icon=File:High_speed_cameraIcon.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Chronos.jpg<br />
|Has imagedesc=Chronos 1.4<br />
|Has description=<br />
|Has certification=<br />
|Has make=Chronos <br />
|Has model=1.4 High Speed Camera<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
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Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
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Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
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==Safety==<br />
Insert text<br />
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==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
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====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Hand_Router&diff=5605Hand Router2019-09-06T22:26:44Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility= Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Hand Router.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:HandRouterImage.jpeg<br />
|Has imagedesc=Porter Cable Model 8902 2.25 HP Hand Router.<br />
|Has description=Hand router for use in the Maker Hub when routing wood if you intend to use a template, route imprecisely, or are too old-school to use the handheld CNC router. <br />
|Has certification=<br />
|Has make=Porter Cable<br />
|Has model=8902<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
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Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
The hand router is the most dangerous tool in the wood shop, but it can also be one of the most versatile tools. Used in conjunction with the proper jigs and templates, the router can accomplish a wide variety of tasks with relative ease. Holes and channels of varying depths and nearly limitless shapes can be cut. The router can also use special bits to cut bevels and chamfers along the edges of a workpiece.<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
[https://www.youtube.com/watch?v=8Vl8Jbw3cSk Introductory Video]<br />
<br />
[https://www.youtube.com/watch?v=5Qqimqo-ohU About Direction of Cut]<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
[[Image:RouterBits.jpg|331x331px|left]]<br />
Each bit is made for a different job. The wood shop has a wide assortment, although less common types may be unavailable. It should be noted that different bit sizes and profiles will operate better at different speeds. The amount of material the is being removed in each pass as well as the hardness of the wood should determine the speed the router is ran at. With reference to straight bits, if the bit is less than 1" in diameter, many recommend speeds near 24,000 rpm. For bits 1" - 2.5", 16,000 to 18,000 rpm, 2.5" to 3", 12,000 to 14,000 rpm, and for bits of more than 3", a common recommendation is 10,000 to 12,000 rpm.<br />
<br />
Occasionally routing can leave burn marks on the workpiece. This usually means that the bit in the router has become dull, let a shop supervisor know if a bit seems dull. Sometimes the burning is due to build up of resin and other gunk (a technical term) on the back of the blade insulating the bit and allowing for heat to build up, make sure to keep bits clean. A final possible cause of burning wood while routing is taking passes that are too slow or setting the router bit speed too high.<br />
<br />
[[:File:HandRouterManual890 series.pdf|User Manual]]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Hand_Bender&diff=5604Hand Bender2019-09-06T22:26:14Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Has make=Di-Acro<br />
|Has model=Model 2 Bender<br />
|Has name={{PAGENAME}}<br />
|Is located in facility= Machine Shop<br />
|Is used in domain=Metal<br />
|Has function=Hand Bender<br />
|Has url=https://www.diacro.com/product/model-2-bender/<br />
|Has icon=File: Hand_benderIcon.png<br />
|Has icondesc=Hand Bender icon<br />
|Has image=File:Hand_Bender.jpg<br />
|Has imagedesc=Di-Acro Hand Bender<br />
|Has description=Di-Acro Hand Bender<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
A hand bender is a machine used to bend wire, solid stock, and tubing. The bender comes with multiple dyes for different types of bends.<br /><nowiki>*</nowiki>Currently the bender stand is not bolted to the floor, so you can really only bend light materials like 1/8" thick aluminum. If you want to bend thicker material, you will need help from someone to hold the table. In the future we will be bolting the bender to a sturdier spot.<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
[[:File:Di-Acro Hand Bender.pdf|User Manual]]<br />
<br />
[https://www.diacro.com/wp-content/uploads/2016/07/Art-Of-Bending_2013.pdf Art of Bending]<br />
<br />
[https://www.youtube.com/watch?v=rHKbXlK4W6A Simple Bend]<br />
<br />
[https://www.youtube.com/watch?v=l2W9Mm2B7JM Flat Bend]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Look at "Art of Bending" document to find out how to set up the equipment. Then Watch the "Simple Bend" video to see how the equipment functions.<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
1) Cut a piece of .5"x.125" aluminum to a length of 6".<br />
<br />
2) Set the bender to make a 90<sup>o</sup> bend at 0.5" from the end of material;proceed to bend.<br />
<br />
3) Make another 90<sup>o</sup> bend at 1.5" from previous bend. Make bend in the same direction.<br />
<br />
4) Set the bender to make a circular bend, of any size, 1.5" from previous bend. Bend in opposite direction as last bend.<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Foam_Cutter&diff=5603Foam Cutter2019-09-06T22:25:45Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=<br />
|Has name={{PAGENAME}}<br />
|Has icon=File: Foam_cutterIcon.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Foam_Cutter.jpg<br />
|Has imagedesc=<br />
|Has description=<br />
|Has certification=<br />
|Has make=Proxxon<br />
|Has model=Thermocut 12E & 115E<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
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Make: {{#show: {{PAGENAME}} |?Has make}}<br />
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Model: {{#show: {{PAGENAME}} |?Has model}}<br />
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Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Dust_Collector&diff=5602Dust Collector2019-09-06T22:25:19Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:image_pending.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Small Dust Collector Image.jpg<br />
|Has imagedesc=Small Dust Collector<br />
|Has description=<br />
|Has certification=<br />
|Has second image=File:Large Dust Collector Image.jpg<br />
|Has secondimagedesc=Large Dust Collector<br />
|Has make=Laguna<br />
|Has model=Pflux<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has second image|link=none}}|300px|thumb|upright=1|{{#show:{{FULLPAGENAME}}|?Has secondimagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
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Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
[http://go.rockler.com/tech/RTD10000185AA.pdf User Manual Small Dust Collector]<br />
<br />
[http://go.rockler.com/tech/laguna-p-flux-manual.pdf User Manual Large Dust Collector]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Drill_Press&diff=5601Drill Press2019-09-06T22:24:42Z<p>Mjones16: </p>
<hr />
<div>[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Machine Shop<br />
|Is used in domain=Metal<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:image pending.png<br />
|Has icondesc=Drill Press icon<br />
|Has iconwname=File:drill_press_icon_name.png<br />
|Has image=File:drill_press_image.jpg<br />
|Has imagedesc=Used for drilling noncritical holes<br />
|Has description=<br />
|Has certification=<br />
|Has make=Clausing<br />
|Has model=20" Variable Speed<br />
|Has ace=<br />
}}<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
__TOC__<br />
<br />
==Description==<br />
<br />
The Clausing Drill Press is a 20” variable speed drill press primarily used for drilling holes when absolute precision is not a requirement. Often this machine is helpful when a noncritical hole is needed on a part because it is possible to drill perpendicular holes in parts somewhat accurately, but not with the precision of a mill. <br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
* Spindle - The rotating shaft that transfers power the drill bit.<br />
* Quill - The tube surrounding the spindle which moves up and down when drilling a hole but does not rotate. <br />
<br />
* Chuck - The clamping device that holds the drill bit and is attached to the end of the spindle.<br />
* Vice - The device that securely holds the work piece.<br />
<br />
==== [https://maker-hub.georgefox.edu/w/images/f/f3/Clausing_20_Manual.pdf User Manual] ====<br />
<br />
==Training==<br />
====Overview====<br />
Begin by clamping your piece down with the vice. The exact positioning of the piece is not critical because it can be changed later with the x-y adjustments. Do not try to drill without the piece being clamped or it may catch and turn into a spinning blade. It is also possible to twist and raise the work table if needed. Insert the desired drill bit into the chuck and tighten it with the chuck key. Make sure the bit is centered in the chuck and that there is at least a 1/8" gap between the bottom of the chuck and the end of the drill's grooves. Note that you should start the hole with the hole starter tool before using the actual bit. Fine tune the position of the piece using the x-y adjustments and turn on the drill press with the start button. Adjust the speed to match the material you are drilling. You can find the correct speed on the chart above the mills. Also, ONLY adjust the speed while the drill press is ON to prevent damage to the drill press. Now you can drill your hole. For optimal results, lubricate the cutting area with machining oil before drilling a use peck drilling, i.e. drilling down a small amount, lifting out the bit to clear scraps from the hole, and then repeating. Don't forget to reset the space by cleaning up any metal chips and returning any drill bits that were used during the process. <br />
<br />
====Demonstration====<br />
<br />
The demonstration for the drill press is simple. All you need to do is perform the correct drilling procedure while drilling a hole in a piece of scrap metal. <br />
<br />
====General Procedure====<br />
This video contains specific information for using the drill press in the Maker Hub as well as a basic overview of what will be expected in your live demonstration.{{#evu:https://www.youtube.com/watch?v=MJWyROfHOd8}}<br />
==Safety==<br />
* Wear proper safety equipment like safety glasses and closed toed shoes because hot metal chips can burn. <br />
<br />
* Keep hands clear of rotating chuck/tooling. <br />
<br />
* Make sure the chuck key has been removed from the chuck prior to starting the machine.<br />
<br />
* Make sure material is secure in the vice. If it comes loose the material will become a spinning blade.<br />
<br />
* No hats, jewelry, watches, hair below the shoulders, baggy long sleeves, or gloves while operating the drill press. Loose items can get caught on the chuck or tooling and pull you in. <br />
* Don't brush away shavings while the machine is running. This is a common temptation but can end in getting caught in the drill bit.<br />
<br />
==Certification==<br />
<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=30474 Foxtale Quiz]<br />
<br />
==Troubleshooting==<br />
* Difficulty Drilling - Add machining oil and replace the bit if it seems dull. Remember to "peck drill" deep holes.<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
The only things that need to be done to maintain the drill press are general cleaning and periodic lubrication of key joints. For details on the lubrication process see the user manual.<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
!Last Completed<br />
|-<br />
|Clean up metal shavings<br />
|After each use <br />
|Student <br />
|N/A<br />
|-<br />
|Lubricate key components<br />
|As needed <br />
|Ace<br />
|<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Compound_Miter_Saw&diff=5600Compound Miter Saw2019-09-06T22:23:55Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Miter Saw.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Compound Miter Saw image.jpg<br />
|Has imagedesc=Compound Miter Saw<br />
|Has description=<br />
|Has certification=<br />
|Has make=Dewalt<br />
|Has model=DWS780<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
User Manual<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Belt/Disc_Sander&diff=5599Belt/Disc Sander2019-09-06T22:17:18Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Disc Belt Sander.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Belt and Disc Sander Image.png<br />
|Has imagedesc=Belt and Disc Sander<br />
|Has description=<br />
|Has certification=<br />
|Has make=PowerMatic<br />
|Has model=BD31A<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
Insert Description Text<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
[http://content.powermatic.com/assets/manuals/0460267_man_EN.pdf User Manual]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
Insert Text<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
[https://foxtale.georgefox.edu/moodle/course/view.php?id=31322 Foxtale Course]<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Replace sanding Belt/Pad<br />
|As Needed<br />
|Ace/Tech<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Belt_Sander&diff=5598Belt Sander2019-09-06T22:11:40Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=Wood Shop<br />
|Is used in domain=Wood<br />
|Has name={{PAGENAME}}<br />
|Has group=Woodworking<br />
|Has icon=File:image_pending.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Ridgid-belt-sanders.jpg<br />
|Has imagedesc= Ridgid R2740<br />
|Has description=<br />
|Has certification=<br />
|Has make=Rigid<br />
|Has model=R2740<br />
|Has ace=<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
Make: {{#show: {{PAGENAME}} |?Has make}}<br />
<br />
Model: {{#show: {{PAGENAME}} |?Has model}}<br />
<br />
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br />
<br />
Location: {{#show: {{PAGENAME}} |?Is located in facility}}<br />
<br />
==Description==<br />
<br />
The belt sander is good for sanding large, flat work-pieces. This is a tool that can greatly reduce the amount of time it takes to finish a project, but it can be difficult to master. Depending on the speed at which it is ran and the coarseness of the sanding belt used, this tool can remove material very quickly. This tool is best used for rough passes, and is not recommended for finely detailed or delicate work.<br />
<br />
Here is an example of this piece of equipment being used.<br />
<br />
Insert video media here.<br />
<br />
==Documentation==<br />
<br />
====Terminology====<br />
<br />
Insert terminology here<br />
<br />
[[:File:R2740 120 trilingual operatorManual.pdf|User Manual]]<br />
<br />
==Training==<br />
====Overview====<br />
<br />
For a good introductory overview, watch [https://www.youtube.com/watch?v=yp28YGvZHgQ this] video.<br />
<br />
In order to use the belt sander, begin by inspecting the sanding belt that it currently has equipped or taking note of the lack thereof. A lever on the side of the equipment will lock or unlock the belt in place using tension. There is also a knob that allows the tracking of the sanding belt to be fine tuned. In order to keep the belt from catching or popping off, the knob should be used to finely adjust the roller angle to keep the sanding belt tracking true. Before sanding, ensure that the sanding belt is not clogged with sawdust, remelted glue, or other gunk. Exercise caution when choosing the sanding grit- it is easy to cause unsightly damage to the workpiece using a belt sander. As a final step in the preparation to sand, ensure that the belt sander is set to run at an optimal speed for the type of wood and type of work to be done on that wood. The speed can be adjusted using the dial located near the hand grip.<br />
<br />
Sand the workpiece by working along the grain, and aim to overlap each pass with the the belt sander by about half of the previous passes width (1 1/2 in). The belt sander's own weight will keep it on the workpiece and removing material- it should not take much additional pressure at all to sand the workpiece. Keep the belt sander flat. Rocking back and forth of the belt sander will result in scratches, nicks, and valleys in the surface. Exercise special care when a side of the belt hangs off the work piece, not holding the belt sander flat will result in more material being taken off the edge of the piece than elsewhere. Despite the most careful handling, natural variations in wood can cause some of the wood to be sanded off faster than wood elsewhere. It is often advisable to draw lines of over the area that is to be sanded with a soft leaded pencil. By observing the gradual fading and disappearance of these lines, a flatter surface can be maintained.<br />
<br />
When finished with the belt sander, never place it on the workpiece. This is best practice policy. If the belt sander is left to rest on the workpiece and is somehow turned on in an accident, it will mar the wood.<br />
<br />
====Demonstration====<br />
<br />
Insert text<br />
<br />
====General Procedure====<br />
<br />
Insert text<br />
<br />
==Safety==<br />
Insert text<br />
<br />
==Certification==<br />
<br />
Foxtale Quiz<br />
<br />
==Troubleshooting==<br />
<br />
==Maintenance==<br />
====General maintenance====<br />
<br />
Insert text<br />
<br />
====Specific Maintenance Tasks====<br />
{| class="wikitable"<br />
!Maintenance Procedure<br />
!Frequency<br />
!Done By<br />
|-<br />
|Sample<br />
|Sample<br />
|Sample<br />
|}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Machine_Shop&diff=5597Machine Shop2019-09-06T22:10:49Z<p>Mjones16: </p>
<hr />
<div>With more than 1,500 sq. ft., the machine shop contains a drill press, horizontal band saw, vertical band saw, three bridgeport mills, a sheet metal shear, a bending brake, a waterjet cutter and two lathes for students to utilize. There is also a CNC milling machine that is not available for students to operate, but they can send their approved part files to Nick, our CNC specialists and have their pieces made for them. This is a limited and not necessarily time sensitive resource, but, available nonetheless.<br />
<br />
= Safety Rules =<br />
· Safety glasses must be worn when crossing into the shop area marked on the floor.<br />
<br />
· No horseplay in the shop.<br />
<br />
· Don’t do anything distracting to yourself or others while operating machinery. <br />
<br />
· Do not wear any loose clothing, jewelry, or landyards. <br />
<br />
· No hats or open toed shoes.<br />
<br />
· Hair will not extend below the collar.<br />
<br />
· Do not wear gloves while operating machinery.<br />
<br />
· Food or drink is allowed when not operating machinery and it is kept a safe distance away from the machines.<br />
<br />
· Do not attempt to operate machinery in the shop that you have not been certified on by GFU engineering personnel. <br />
<br />
· Do not argue with volunteers or shop staff. Contact Justin Johnson if you have issues that need to be resolved.<br />
<br />
· Do not operate machinery without a shop supervisor or trained volunteer in the shop with you. Never operate equipment alone in the shop.<br />
<br />
· Reset the space. Make the area you are working in ready for the next person using the dust broom and vacuum cleaner.<br />
<br />
· The first aid kit is located in the machine shop, next to the woodshop doors.<br />
<br />
· If you see a safety violation inform the person immediately and encourage them to comply with the policies<br />
<br />
· Don’t do anything that would require an additional rule to be added to this list. <br />
<br />
=Equipment=<br />
<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|format=Category<br />
}}<br />
<br />
<br />
<br />
==Equipment by Icon==<br />
{{#ask:<br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|?Has icon<br />
|?Has ace<br />
|format=gallery<br />
|imageproperty=Has icon<br />
|captionproperty=Has ace<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
| Has ace =Madi Jones; mjones16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=The_Hub&diff=5596The Hub2019-09-06T22:09:44Z<p>Mjones16: </p>
<hr />
<div>[[File:MakerHub1.jpg|500px|right|The Hub]]<br />
<br />
==Equipment==<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::The Hub]]<br />
|format=Category<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
The Hub is the central room of the Maker Hub. It has multiple open tables for work, 8 computers on wheels, some smaller blue rolling tables and some semi-permanent stations. Let’s take a little time to go over these elements .<br />
<br />
First, there are approximately 8 open workbenches that are open for general use. Each of these has a permanent home that is marked on the floor (picture here). Each of these tables should be surrounded by (4)?? Stools. Each of these tables is also equipped with power outlets on each leg. These are connected with cables and cable tied - please do not cut these cable ties (why has someone been doing this??? why???). There is one power plug for each table that can be plugged into the power outlet that comes down from the ceiling. These power outlets have been positioned so that that they hang directly down by the table. These tables are on wheels and can be moved. However, when you have finished with the table, please reset the space. Ensure that the table is placed back inside of the special marks on the floor, plug in the table, and make sure that the four stools are back around the table. When you RESET THE SPACE, it makes it nice for those following behind you. And we want to be nice … don’t we? Yes is the answer to that question. If you need to leave your project out on a table, you must mark it as in use, with your Name, Team/Project, initial date, and reason for leaving it out (maybe we should make some forms and put them on the wall somewhere). There needs to be a decent reason for this, and it shouldn’t stay out for more than three days. If there are special circumstances, please speak with your project advisor and/or the technician. <br />
<br />
There are (4??) smaller blue tables that also have spots marked on the floor for their permanent homes. These tables reside on the wall nearest the quad. These tables can be used as transport tables for your projects. There are some limited storage locations in the Hub, and you can use these tables to transport your projects from these locations to wherever you might need in the Hub. When you are finished using these tables, please clear them off and put them back. If, for some special reason, you need the table to be in use for a short time (less than three days), mark the table as in use. This is useful if you want to run overnight tests or you are in the middle of an assembly. However, this is for short term use. Remember, BE PROFESSIONAL. Release the materials for others. <br />
<br />
There are eight rolling computers that also have permanent homes at marked spaces around the HUB. They are all the same as the Computer Lab machines with the exception of numbers 7 and 8. These machines also have the Adobe Creative Butt software and ComicLife. Each of these 8 machines have UPS power supplies that allow you to unplug the machine and move it around the Maker Hub without powering it down. You allegedly have about 15 minutes of power available from these UPS supplies (if anyone actually times it, let us know). Feel free to use these computers wherever you want to use them … they often make their way into meeting rooms. However, when you have finished, as always RESET THE SPACE! The computers, when not in use, should always be sitting, plugged in, at their permanent locations. This is especially important if you take them into a lab or the senior design studio, or one of the other Maker Hub shops. When you have finished sitting at the machine, return it. Do not leave it in a different space. If your senior design team or lab or shop needs an extra computer, speak with your project advisor or the technician and we can address the situation. BE PROFESSIONAL!<br />
<br />
On the wall are a set of tools. These are available for use within the Maker Hub. As should be obvious, when you are done using the tools, return them - RESET THE SPACE. For example, if you … er … use a tool … put it back when you are done. Not much of an example. Sort of hard to make this any more clear. Let’s say it is a wrench - and you use it. When you are done - put it back. Get it? We should have some pictures or other markers on the tools/walls to make this easier - but that will come in time … for now .. .RESET THE SPACE. <br />
If you are a senior and you need tools for your project and don’t want to return them, check them out from the toolroom. If we don’t have them, speak with your advisor and we can see about getting them. In the meantime, put them back. If you are an employee and need equipment.and/or tools in your place of employment, do not abscond with the tools on the wall. You may certainly use them, but you must put them back. If you want tools permanently in your shop, ask the technician and the problem can be remedied.<br />
<br />
There is A/V equipment in the corner of the space. Best to just leave it alone. It is used for assemblies by trained professionals. You shouldn’t try this. And it is pretty boring. <br />
<br />
There are storage shelves in the senior design corridor across from the Environmental lab. If you want to store your project there, this is fine. Just label your shelf. Feel free to use the blue carts to move it into the Maker Hub for work. We will be working more on the storage options. <br />
<br />
Within the Hub, there are some semi-permanent workstations:<br />
Sewing Station<br />
The sewing station has not yet been installed, but we have equipment available. Ultimately, it will be installed on the edge of the prototype lab on the side with the orange meeting rooms. The sewing station will have icons hanging above it at some point, use of the sewing equipment will require specialized training on the equipment. <br />
Vinyl Cutting Station<br />
The vinyl cutting station will sit in front of the windows of the prototyping lab. The vinyl cutter has just been ordered and will arrive at some point in the near future. Use of this station will require specialized training. This will allow signage to be created (which you will see popping up around the space). In addition to the vinyl cutter, there is a large roll of butcher paper available. This does not require special training. You pull it and tear it off. If you cannot operate this piece of equipment, please leave the space and change your major. <br />
Electronics Stations<br />
There are two electronics stations currently installed in the Hub. These workbenches each contain a soldering station with soldering mat, oscilloscope, multimeter, power supply, and signal generator. <br />
<br />
There will “soon” (Rev. 21:12) be an end cabinet appearing that will be used to hold the various electronic cables and wires required for working with the equipment. <br />
<br />
When using the electronics station, it is, as always, imperative that you RESET THE SPACE. Clean up all solder paste, stripped wires, etc., and put everything back where you found it, putting the cables back where they go. <br />
<br />
Low-Fidelity Prototyping Station<br />
The Low-Fidelity Prototyping Station (Crafts) is provided so that students can make quick project mock-ups. Please BE PROFESSIONAL when using this station. While it might be tempting to make pipe-cleaner men as you did in elementary school, this material is provided for free to be utilized for projects, not entertainment. We will simply not be able to provide these materials if they are continually wasted. <br />
<br />
This station also includes a laminating machine. Be careful, it can get hot (as it says in letters that are oddly small for the 21st century). <br />
<br />
As with the Electronics Station, there will “soon” be an end cabinet that will hold more papers and materials as well as scrap cardboard. If there is room, feel free to add scrap cardboard (from shipped boxes, etc.) to keep this supply stocked. <br />
<br />
For the other materials, if they are low or empty, please notify the toolroom so that supplies can be restocked. As always, when finished, RESET THE SPACE. Clean up the table and make sure that the bins are orderly. <br />
<br />
<br />
<br />
{{#set:<br />
| is facility = True<br />
|Has ace=<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Tool_Room&diff=5595Tool Room2019-09-06T22:08:53Z<p>Mjones16: </p>
<hr />
<div>The Toolroom is the home of … er .. the tools - as well as equipment and stock that can be checked out. Toolroom hours are posted. <br />
<br />
There are a few pieces of special equipment that are stored in the toolroom for various reasons. These include:<br />
X-watt power supply<br />
Portable car battery<br />
Wire Strippers<br />
Various types of crimpers including RJ-45 for ethernet (and cable)<br />
Mixed-Signal Oscilloscope<br />
<br />
=Equipment=<br />
{{#ask: <br />
[[Is equipment::True]] OR [[Is soldering iron equipment::True]]<br />
|[[Is located in facility::Tool Room]]<br />
|format=Category<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
|Has ace=David Bacher; dbacher16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Prototype_Lab&diff=5594Prototype Lab2019-09-06T22:06:28Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Has ace=Devin Howard; dhoward16@georgefox.edu<br />
|Is facility = True<br />
}}<br />
The Prototype Lab contains a group of 3D printers and a laser cutter (more to come in the near future)! [[File:prototype_lab.jpeg|300px|thumb|The Prototype Lab]]<br />
<br />
The current Aces of the {{PAGENAME}} are '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}). <br /><br /> <br />
<br />
__TOC__<br />
<br />
=Schedule=<br />
View the most up-to-date {{PAGENAME}} schedule [https://docs.google.com/spreadsheets/d/1xCN_BBKVIlBQyfPtv62ENxinOEKwJADMFcH0Gyy-ul8/edit?usp=sharing on this Google Sheet.]<br />
<br />
<br />
=Equipment Overview =<br />
{{#ask:<br />
[[Is equipment::true]]<br />
[[Is located in facility::Prototype Lab]]<br />
|?Has make=Company<br />
|?Has model=Model |+width=10em<br />
|?Has ace.Has name=Current Ace<br />
|format=broadtable<br />
|mainlabel=Name<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
<br />
<br />
=== 1. Safety First ===<br />
Safety First is the rule we hold highest of the three. Given the delicate nature of our machines, and the different chemicals and materials we use in the Prototype lab, this rule applies to both the safety of you, and the machines. <br />
<br />
Keeping yourself safe in the Prototype Lab is very easy, as there are very few ways to hurt yourself or the machines. However, proper procedure must be followed at all times.<br />
<br />
Basic principles of how to implement Safety First in the Prototype Lab:<br />
* Do not touch the extruder heads of the 3D printers when they are running. They will be very hot and will burn you. Wait for the machine to cool off.<br />
* Use gloves when handling chemicals such as Sodium Hydroxide (use the heat protecting gloves when retrieving items from the Sodium Hydroxide bath), Isopropyl or Denatured Alcohol (use Nitrile gloves if handling extensively after removing from the Form Wash), and Lacquer Thinner (use Nitrile gloves when using lacquer thinner to clean residue off of engraved Hydroflasks). You may use gloves whenever you feel necessary, but these are circumstances where gloves are absolutely required.<br />
* In addition to wearing gloves when around the Sodium Hydroxide, you must also wear safety goggles (preferably the goggles, but if those are unavailable then use safety glasses). A lab coat is highly recommended to be worn as well. All of these items can be found within the lab.<br />
* Make sure you read through the MSDS (Material Safety Data Sheets) binder mounted by the sink so that you are up-to-date on safety procedures regarding the chemicals within the lab.<br />
* If chemicals ever get on your skin or in your eyes, follow the MSDS. Wash it off or out (there is an eye washing station in front of the Machine Shop about 30 feet feet away). If it is an emergency, do what you need to do to make sure you and those around you are safe.<br />
* Make sure you know how to use the spill kit (located to the right of the sink).<br />
* If there is a chemical spill, we do have a spill kit. First, evacuate the lab and get everyone out. This means the lab should be shut down until the spill has been properly dealt with. Second, call Justin Johnson whose information should be posted next to the Emergency Response Guide (bright yellow and by the door leading to the main space). If Justin does not answer, call the Campus Public Safety office (formerly Security Services) whose information will be in the Emergency Response Guide or can be found online. Third, if you feel it is safe to do so, deploy the spill kit (located to the right of the sink).<br />
* Be aware that laser cut items can have sharp edges that could cut you.<br />
* Be careful when trying to remove support material by hand from a print off of the Dimension. When the support material breaks, it leaves sharp edges and shatters extremely sharp shards that will cut you if you are not careful.<br />
<br />
=== 2. Reset the Space ===<br />
The Prototype Lab has a specific organization to it, even though sometimes it looks like chaos. Put whatever you use back where you found it. There is a place for everything and everything has a place. This rule applies to everything in the space. If you move a chair, put it back. If you use a tool, put it back. If you use a pen, put it back. Do not leave your projects in the Prototype Lab, take them with you. Do not leave random note sheets that pertain to nothing out. Throw away your trash and recycling. <br />
<br />
We have allowed food and drink in the space. Resetting the Space means that you don’t leave wrappers, or trays, or anything that wasn’t there when you came in.<br />
<br />
If you are employed in the space, this still applies to you. Do not take tools from the Hub and then store them in the Lab. If we need more tools, speak with Ben and Gabi and they can evaluate the situation and, if necessary, they will get more tools.<br />
<br />
Now, we understand that sometimes you need to leave things out. Maybe you are in the middle of a large print and you need something to run overnight. In cases like this, it is okay, but you NEED to '''''leave a note''''' on your system so that others know the situation.<br />
<br />
When parts finish on a 3D printer, remove them from the build plate and place them in the completed parts bin so that the owner can pick up their part.<br />
<br />
Always put any unused materials from the laser cutter back on the storage shelf, and throw away unusable scrap.<br />
<br />
Sweep when needed.<br />
<br />
Immediately clean up any spilled Formlabs resin.<br />
<br />
Always leave the space better than you found it.<br />
=== 3. Be Professional ===<br />
This commandment has two sides to it. It covers the idea of acting like professional (which Webster’s defines as “exhibiting a courteous, conscientious, and generally businesslike manner in the workplace”). The term also describes the standards of education and training that prepare members of the profession with the particular knowledge and skills necessary to perform their specific role within that profession. Hopefully, you are learning both of these as part of your education at George Fox University. In the Prototype Lab we expect you to develop as a courteous, conscientious, and skilled craftsman, understanding the tools and equipment in the Maker Hub and how to use them effectively.<br />
<br />
Being a professional has some obvious ramifications in terms of behavior. First, be Christlike. Think of others better than yourselves. Share. If you have been printing a lot or using the laser cutter for a prolonged time and someone else is waiting for the machine, let them use the machine for a while. This is being a professional.<br />
<br />
If you are working with a machine, and you don’t know the proper way to do what you are attempting - ASK SOMEONE! Learn! Become a professional. Learn the craft. This is an educational space. You might think it will be quick and you can just get it done “your” way and not learn how to do it correctly. Be a Professional and learn the proper way, and then be available to teach others.<br />
<br />
One very important, and likely difficult part of being a professional is to correct others when they are not being professional. It is your responsibility to speak up when you see somebody doing something inappropriate. If you see somebody doing something unsafe, not resetting the space, or being unprofessional, the professional thing to do is to remind them of the three commandments and ask them politely to correct their action. This is OUR space, not any individual's. As a group, we expect everyone in the space to keep the space safe, clean, and operable for everyone. <br />
<br />
If someone acts disgracefully unprofessional to you in the Prototype Lab, you are welcome to bring the issue to Ben and Gabi's attention.<br />
<br />
==General 3D Printing Knowledge==<br />
3D printing is the process of joining material together to create a three-dimensional object using computer control. It is a form of additive manufacturing. Objects are created using a 3D model. There are many different types of 3D printing, and the Prototype Lab utilizes two types which are FDM (fused deposit modeling) and SLA (stereolithography). <br />
<br />
In the Prototype Lab, objects are most commonly printed from an STL file. This means if you create a part in SolidWorks that you must save the file as a .stl instead of a .sldprt . Once the file is in STL form, it can then be processed by a slicer software. The slicer software converts the 3D model into thin layers and produces a G-code file. G-codes communicate with the chosen 3D printer, giving it directions on how to print the object. <br />
<br />
Different 3D printers will run with different slicer programs. Typically a program will allow you to edit various parts of the process. One common consideration will be the layer thickness. This is the resolution at which the printer will print at. Each printer will have its own range of resolution. The thinner the layer thickness (higher resolution), the more detail you will get, but the print will be created more slowly. The thicker the layers (lower resolution), the less detail you will receive, but the object will be printed more quickly. Another consideration is support. For objects with overhangs, holes, etc., support will be needed. This will give the printer a surface to print on so that it can continue to build the print layer by layer. Each printer uses supports differently. Some printers have break away support while other have dissolvable support material.<br />
<br />
Keep in mind that '''every print should be recorded in the Job Log''' which every Prototype Lab mentor can access. This allows the Lab to track the material usages and success rates of the printers, as well as recording the prices of every print. <br />
[[File:3Dsupports.png|250px|thumb|right|Example of an object (blue) printed with supports (white)]]<br />
<br />
There are common places of potential failure which you should watch for every print. The following points of failure specifically apply to FDM prints.<br />
*Adhesion:<br />
**When the print first starts, it is prudent to ensure that the filament is properly adhering to the build plate.<br />
**Watch the print until the first dozen layers have been printed to make sure it is starting off successfully.<br />
**The print can start sliding around the plate at anytime, although it is much more likely to fail toward the beginning of the print.<br />
**A tall and skinny print is much more likely to struggle with adhesion than a short and stout print. Taking time to discern the best orientation for your print is always a good call.<br />
**Adding a raft (sometimes called a brim) will also help if you print is struggling with staying adhered to the plate.<br />
*Clogging<br />
**Sometimes the extruder will clog causing the print to fail.<br />
**This typically can be seen when a clump of filament balls up at the end of the nozzle. <br />
**If this occurs, immediately cancel the print and remove the clumped filament. Make sure that the nozzle is still able to extrude filament, if not, you may need to open up the extruder and clean it. Keep working on it until you are able to extrude filament again.<br />
*Air Extruding<br />
**This means that the extruder thinks it is extruding filament when it really is not. <br />
**Immediately cancel the print. Then restart the print. <br />
**If the printer is still air extruding, cancel the print and unload the filament. You can try reloading and starting the print again. <br />
**If the problem persists, you will probably need to take the extruder apart and clean it out before attempting any further prints. <br />
=== 1. Printer Types ===<br />
There are many different types of printers, such as Fused Deposition Modeling (FDM), Stereolithography (SLA), Selective Laser Sintering (SLS), Selective Laser Melting (SLM), Digital Light Processing (DLP), Electronic Beam Melting (EBM), Laminated Object Manufacturing (LOM), Binder Jetting (BJ)... Each printer type employs different materials. The Prototype Lab has FDM and SLA machines.<br />
<br />
Information about FDM and SLA printers and which machines these are and what materials they can use which. In each printer's page, one can simply link it to this so they don't have to describe materials, just simply state which ones are used with it. Mostly this is all here so I remember to do it or someone else sees it and wants to do it.<br />
<br />
==== <span id="SLA Printing Anchor">SLA Printing</span> ====<br />
[[File:InvertedSLA.png|302x302px|thumb|right|Inverted SLA Process]]<br />
Stereolithography, SLA, is a part of the manufacturing technology of vat polymerization. This means a light source (laser) is used to cure liquid resin into a hard plastic.<br />
The Form 2 is the only 3D printer that the Prototype Lab has that is an SLA printer. It utilizes the Upside Down or Inverted orientation.<br />
The resin tank has a clear bottom with a surface the resin will not stick to. This allows the resin to cure against the bottom of the tank.<br />
The build platform is lowered into the resin until it is hovering above the bottom surface of the tank, as far away as the height of the layer to be constructed.<br />
The laser is directed through the bottom of the tank and cures a layer of resin onto the build platform. Then, the resin tank slides over and the build platform raises. The wiper will then sweep across the tank to circulate the resin.<br />
The build platform will lower again, and the process will be repeated until the print is completed.<br />
Due to friction caused by de-laminating every layer, every part should be canted in its orientation. This means the part should be angled to reduce the cross sectional area needing to be shifted to de-laminate each layer. This de-lamination also causes the Form 2 to be the Prototype Lab's slowest 3D printer.<br />
Once a part is finished on the Form 2, it must be removed off of the build plate. Try to avoid scraping the build plate when removing parts. Any excess resin must be washed off using the Form Wash, the part must be air dried so that any isopropyl alcohol from the Wash has evaporated, the part should be cured in the Form Cure, and supports should be clipped off. Any remaining support marks can be sanded off if so desired.<br />
Extra information on SLA Printing can be found [https://formlabs.com/blog/ultimate-guide-to-stereolithography-sla-3d-printing/ here].<br />
<br />
==== <span id="FDM Printing Anchor">FDM Printing</span> ====<br />
Fused Deposition Modeling (FDM) printers use a thermoplastic filament, which is heated to its melting point, then extruded to create layers which then build an object. There are many different types of FDM printers. Some use a modeling material and a support material, some just use a modeling material which when creating support will use a different style of layering that allows the filament to break off easily, some are able to use multiple filaments at once allowing for multicolored objects to be created. [[File:Filament_Spool.jpg|250px|thumb|right|Example of a filament spool for a FDM printer.]]<br />
<br />
Both Stratasys printers (Dimension and F370) use soluble support filament (the support filament dissolves in a heated sodium hydroxide bath), the Prusa printers use only a model material, and the Markforge printer only uses model material as well (however it will layer another filament for extra support). <br />
<br />
The filament for these printers comes in spools (basically thin plastic ropes that are wound up). The filament is fed through an extruder head, heated to the desired temperature, then extruded (similar to what happens with a hot glue gun). <br />
<br />
FDM printers can work with various materials, in the Prototype Lab we mainly stick to ABS which is used by the Stratasys machines and PLA which is used by the Prusas. The Markforge uses a material called Onyx (nylon and plastic mix) and will layer in another filament such as Carbon Fiber, Kevlar, etc.<br />
<br />
==General Laser Cutting Knowledge==<br />
Laser cutting directs a high-powered laser through optics. The laser cutter follows a predetermined pattern to engrave or cut the material. Laser cutting is a great way to get a professional-looking surface finish. <br />
* Can be used for many different materials ranging between wood, glass, rock, plastics, and even engraving Hydroflasks. At this time, the laser cutter in the Prototype Lab is not set up for metal etching. <br />
* Works best on flat surfaces or cylinders with constant diameters. <br />
There are a couple common steps that must be done correctly when using the laser cutter:<br />
* Always make sure that the lens and cone are clean before starting a print.<br />
* Correctly focus the laser above the material, using the correct focusing tool for the lens type.<br />
* Choose the correct material profile for the material you are using. <br />
* Clean the bed of the laser cutter when you are finished.<br />
<br />
<br />
{{#ask:<br />
[[Is equipment::True]]<br />
[[Is located in facility::Prototype Lab]]<br />
|?Has icon<br />
|format=gallery<br />
|imageproperty=Has icon<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Sewing_Machine&diff=3910Sewing Machine2019-04-13T01:31:54Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Sewing_machine.png<br />
|Has icondesc=Sewing Machine<br />
|Has iconwname=File:Sewing_machine_icon_name.png<br />
|Has image=File:Sewing_machine_image.png<br />
|Has imagedesc=Janome 3160 QDC<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has model=3160 QDC<br />
|Has make=Janome<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
There are currently four Janome 3160 QDC sewing machines available for use in the Maker Hub. These machines feature 60 different stitch patterns. It has automatic fabric feeding, one hand needle threader and easy to follow instructions, making it an ideal machine for first time sewers. Some of its more advanced features include buttons for lock stitch, needle up or down and automatic thread cutting. It has a add on platform that can be attached to make sewing larger materials a breeze. <br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sewing/3160qdc Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/computer-models/inst-book-49360.pdf User Manual]<br />
<br />
== Training ==<br />
All information on these specific machines can be found in the [https://www.janome.com/siteassets/support/manuals/computer-models/inst-book-49360.pdf User Manual] and on the [https://www.janome.com/machines/sewing/3160qdc Product Home Page]<br />
<br />
How to set up the machine. This video shows a similar set up process to our machines, but be sure to compare to the manual.<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=PMTzXsyOVoI}}<br />
<br /><br />
A quick video on basic stitching techniques:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=yMoJWSmZI-U}}<br />
<br /><br />
YouTube is a great resource for learning new things. If you are new to sewing, try watching a few videos to get a general understanding before jumping into sewing. <br />
<br />
<br /><br /><br /><br /><br /></div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3890Serger2019-04-13T00:10:02Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has name={{PAGENAME}}<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=<br />
|Has iconwname=<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=<br />
|Has certification=<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace=Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D features 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==<br />
All information on this specific machine can be found in the [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
A simple intro to serging:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=oQww9QqVwOw}}<br />
<br /><br />
<br />
Sergers are great for adding zippers into your project. Here is a helpful video to lead you through the process.<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=b4SFacsuH1k}}<br />
<br />
<br /><br /><br /><br /><br /></div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Machine_Shop&diff=3888Machine Shop2019-04-13T00:01:32Z<p>Mjones16: </p>
<hr />
<div>With more than 1,500 sq. ft., the machine shop contains a drill press, horizontal band saw, vertical band saw, three bridgeport mills, a sheet metal shear, a bending brake, a waterjet cutter and two lathes for students to utilize. There is also a CNC milling machine that is not available for students to operate, but they can send their approved part files to Nick, our CNC specialists and have their pieces made for them. This is a limited and not necessarily time sensitive resource, but, available nonetheless.<br />
<br />
= Safety Rules =<br />
· Safety glasses must be worn when crossing into the shop area marked on the floor.<br />
<br />
· No horseplay in the shop.<br />
<br />
· Don’t do anything distracting to yourself or others while operating machinery. <br />
<br />
· Do not wear any loose clothing, jewelry, or landyards. <br />
<br />
· No hats or open toed shoes.<br />
<br />
· Hair will not extend below the collar.<br />
<br />
· Do not wear gloves while operating machinery.<br />
<br />
· Food or drink is allowed when not operating machinery and it is kept a safe distance away from the machines.<br />
<br />
· Do not attempt to operate machinery in the shop that you have not been certified on by GFU engineering personnel. <br />
<br />
· Do not argue with volunteers or shop staff. Contact Justin Johnson if you have issues that need to be resolved.<br />
<br />
· Do not operate machinery without a shop supervisor or trained volunteer in the shop with you. Never operate equipment alone in the shop.<br />
<br />
· Reset the space. Make the area you are working in ready for the next person using the dust broom and vacuum cleaner.<br />
<br />
· The first aid kit is located in the machine shop, next to the woodshop doors.<br />
<br />
· If you see a safety violation inform the person immediately and encourage them to comply with the policies<br />
<br />
· Don’t do anything that would require an additional rule to be added to this list. <br />
<br />
=Equipment=<br />
<br />
{{#ask: <br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|format=Category<br />
}}<br />
<br />
<br />
<br />
==Equipment by Icon==<br />
{{#ask:<br />
[[Is equipment::True]]<br />
[[Is located in facility::Machine Shop]]<br />
|?Has icon<br />
|?Has ace<br />
|format=gallery<br />
|imageproperty=Has icon<br />
|captionproperty=Has ace<br />
}}<br />
<br />
==[[3 commandments]]==<br />
<br />
{{#set:<br />
| is facility = True<br />
| Has ace =Madi Jones<br />
| Has ace_email =mjones16@georgefox.edu<br />
}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3435Serger2019-03-15T23:48:01Z<p>Mjones16: /* Training */</p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==<br />
All information on this specific machine can be found in the [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
A simple intro to serging:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=oQww9QqVwOw}}<br />
<br /><br />
<br />
Sergers are great for adding zippers into your project. Here is a helpful video to lead you through the process.<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=b4SFacsuH1k}}<br />
<br />
<br /><br /><br /><br /><br /></div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3434Serger2019-03-15T23:46:52Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==<br />
All information on this specific machine can be found in the [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
An simple intro to serging:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=oQww9QqVwOw}}<br />
<br /><br />
<br />
Sergers are great for adding zippers into your project. Here is a helpful video to lead you through the process.<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=b4SFacsuH1k}}<br />
<br />
<br /><br /><br /><br /><br /></div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3433Serger2019-03-15T23:44:53Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==<br />
All information on this specific machine can be found in the [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
An simple intro to serging:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=oQww9QqVwOw}}<br />
<br /><br />
<br />
Sergers are great for adding zippers into your project. Here is a helpful video to lead you through the process.<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=b4SFacsuH1k}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3432Serger2019-03-15T23:44:16Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==<br />
All information on this specific machine can be found in the [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
An simple intro to serging:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=oQww9QqVwOw}}<br />
<br />
Sergers are great for adding zippers into your project. Here is a helpful video to lead you through the process.<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=b4SFacsuH1k}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3431Serger2019-03-15T23:42:03Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==<br />
All information on these specific machines can be found in the [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
An simple intro to serging:<br />
<br /><br />
{{#evu:https://www.youtube.com/watch?v=oQww9QqVwOw}}</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3430Serger2019-03-15T23:31:02Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Sergers ==<br />
Sergers preform a type of stitch known as overlock stitching. An overlock stitch is a type of stitching that sews over the edge of one or more pieces of fabric. Sergers also have the ability to cut of the excess edge as it is fed through the machine. This type of stitching is useful for edging, hemming, and seaming. This process will create a clean edge of your fabric that will not fray. <br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3429Serger2019-03-15T23:14:21Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
The Janome MyLock 634D featers 2 needles and a choice of 2,3, or 4 thread overlocking stitching. The color-coded thread guiding makes threading simple and easy to follow. The MyLock 634D allows the user to easily switch from overlock stitching to rolled hemming without needing to change to needle plate. Some of the key features of the MyLock 634D are a tension release device, easily accessible lower looper guides, changeable thread guide, easily retractable upper knife, adjustable foot pressure, and more.<br />
<br />
The current Ace of the {{PAGENAME}} is '''{{#show: {{PAGENAME}} |?Has ace.Has name}}''' ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).<br /><br /><br />
__TOC__<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3428Serger2019-03-15T22:54:52Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=File:Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3427Serger2019-03-15T22:54:16Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=Serger_image3.png<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=File:Serger_image3.png&diff=3426File:Serger image3.png2019-03-15T22:53:59Z<p>Mjones16: </p>
<hr />
<div></div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3425Serger2019-03-15T22:33:28Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=Serger_image2.jpg<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
<br />
== Documentation ==<br />
<br />
* [https://www.janome.com/machines/sergers/mylock-634d/ Product Home Page]<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3424Serger2019-03-15T22:32:31Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=Serger_image2.jpg<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
<br />
== Documentation ==<br />
* [https://www.janome.com/siteassets/support/manuals/sergers/inst-book-634d.pdf User Manual]<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3423Serger2019-03-15T22:30:16Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=Serger_image2.jpg<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
|Has ace =Madi Jones;mjones16@georgefox.edu<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
<br />
== Documentation ==<br />
<br />
== Training ==</div>Mjones16https://maker-hub.georgefox.edu/w/index.php?title=Serger&diff=3422Serger2019-03-15T22:28:10Z<p>Mjones16: </p>
<hr />
<div>{{#set:<br />
|Is equipment=True<br />
|Is located in facility=The Hub<br />
|Is used in domain=Cloth<br />
|Has icon=File:Serger_icon.png<br />
|Has icondesc=(???)<br />
|Has iconwname=(???)<br />
|Has image=Serger_image2.jpg<br />
|Has imagedesc=Janome Mylock 634D<br />
|Has description=(???)<br />
|Has certification=(???)<br />
|Has make=Janome<br />
|Has model=MyLock 364D<br />
}}<br />
[[{{#show: {{FULLPAGENAME}}|?Has icon|link=none}}|100px|left|top|{{#show: {{FULLPAGENAME}}|?Has icondesc}}]]<br />
[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|375px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]<br />
<br />
<br />
== Documentation ==<br />
<br />
== Training ==</div>Mjones16