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{{#set:
 
{{#set:
 
  |Is equipment=True
 
  |Is equipment=True
  |Is located in facility=Prototype Lab
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  |Is located in facility=The Vault
 
  |Is used in domain=
 
  |Is used in domain=
 
  |Has name={{PAGENAME}}
 
  |Has name={{PAGENAME}}
  |Has icon=File:image_pending.png
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|Has make=Pim-shooter
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|Has model=150A
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|Has serial number=D00709
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|Has life expectancy=
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|Has year of manufacture or purchase=
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|Has replacement cost=
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  |Has icon=File:Injection Molding Machine (1).png
 
  |Has icondesc=
 
  |Has icondesc=
 
  |Has image=File:Model 150a.jpg
 
  |Has image=File:Model 150a.jpg
 
  |Has imagedesc=LNS 150A
 
  |Has imagedesc=LNS 150A
 
  |Has description=
 
  |Has description=
  |Has certification=
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  |Has certification=https://georgefox.instructure.com/courses/1280
|Has make=LNS Technologies
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  |Has ace=Sam Manina;smanina22@georgefox.edu
|Has model=150A
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  |Has ace=Samuel Reimer;sreimer18@georgefox.edu
   
}}
 
}}
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[[{{#show: {{FULLPAGENAME}}|?Has image|link=none}}|300px|thumb|upright=1.5|{{#show: {{FULLPAGENAME}}|?Has imagedesc}}]]
 
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Model: {{#show: {{PAGENAME}} |?Has model}}
 
Model: {{#show: {{PAGENAME}} |?Has model}}
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Serial Number: {{#show: {{PAGENAME}} |?Has serial number}}
    
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).
 
Ace: {{#show: {{PAGENAME}} |?Has ace.Has name}} ({{#show: {{PAGENAME}} |?Has ace.Has email address}}).
    
Location: {{#show: {{PAGENAME}} |?Is located in facility}}
 
Location: {{#show: {{PAGENAME}} |?Is located in facility}}
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__TOC__
 
__TOC__
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==Description==
 
==Description==
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The Model 150A PIM-SHOOTER™ by LNS Technologies is a bench model injection molder designed for production of thermoplastic parts in quantities required for making prototypes and low-volume production (or higher-volume production of small parts). Due to the machine’s small size it is limited to producing small parts, but it is capable of producing these parts efficiently, accurately (as accurate as the mold is), and repeatedly.  
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The Model 150A PIM-SHOOTER™ by LNS Technologies is a bench model injection molder designed for production of thermoplastic parts in quantities required for making prototypes and low-volume production (or higher-volume production of small parts). Due to the machine’s small size it is limited to producing small parts, but it is capable of producing these parts efficiently, accurately (as accurate as the mold is), and repeatedly.  The plastic shot size is 1.1 cubic inch Max.
    
{{#evu:https://www.youtube.com/watch?v=5_UnthpIA0w&feature=youtu.be}}
 
{{#evu:https://www.youtube.com/watch?v=5_UnthpIA0w&feature=youtu.be}}
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'''Gate - '''The thin section connecting a runner or sprue to the part cavity
 
'''Gate - '''The thin section connecting a runner or sprue to the part cavity
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'''Shot -''' The volume of material needed to fill the mold cavity.
 
[[File:...injectionMolderTerms.png|none|thumb|469x469px]]
 
[[File:...injectionMolderTerms.png|none|thumb|469x469px]]
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User Manual
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[[Media:Manual_InjectionMolder.pdf|Injection Molding Machine User Manual]]
    
==Training==
 
==Training==
====Overview====
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====Operation====
    
The injection molder works by melting plastic pellets within a heated barrel to a specific temperature, and using a ram plunger to force the molten plastic through a nozzle, into a mold cavity.
 
The injection molder works by melting plastic pellets within a heated barrel to a specific temperature, and using a ram plunger to force the molten plastic through a nozzle, into a mold cavity.
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====General Procedure====
 
====General Procedure====
 
# Setup
 
# Setup
## First we have to Preheat the mold. If a hot plate is available, preheat the aluminum mold to prevent plastic cooling too fast by placing the mold on the hot plate and heating to a specific temperature. Temperatures for different plastics can be found in the table below.[[File:...injectionTemperatureChart.png|none|thumb|373x373px]]
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## You will need to setup the molding machine using the following steps and charts. Temperatures for different plastics can be found in the table below. Make sure to wear gloves and safety glasses while using this machine.[[File:...injectionTemperatureChart.png|none|thumb|373x373px]] [[File:Temp_Controller.JPG|600px|thumb|none]]
## Next we need to adjust the height by following these steps.  
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## First we need to adjust the height for the mold being used by following these steps.  
 
### Set the mold clamps to measure the gap.  
 
### Set the mold clamps to measure the gap.  
 
### Loosen the height adjustment bolts on the top holder using a 6mm Allen Wrench.
 
### Loosen the height adjustment bolts on the top holder using a 6mm Allen Wrench.
 
### Loosen both tension nuts, and turn the lower tension nut to move the top holder up and down the main post. This will determine the height of the machine.
 
### Loosen both tension nuts, and turn the lower tension nut to move the top holder up and down the main post. This will determine the height of the machine.
### Raise or lower the top holder so that there is a gap between the nozzle and the mold (this allows adding and removing the mold), but of no more than ½”.
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### Raise or lower the top holder so that there is a gap between the nozzle and the mold sprue (this allows adding and removing the mold), but of no more than ½”.
 
### Tighten height adjustment bolts, and verify that the nozzle aligns well with the mold sprue.  
 
### Tighten height adjustment bolts, and verify that the nozzle aligns well with the mold sprue.  
 
### Tighten the upper and lower tension nuts.
 
### Tighten the upper and lower tension nuts.
 
# Molding
 
# Molding
## Now we can starting molding materials!
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## Turn on the power switch.
## First we need to set the temperature for the mold.
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## Make sure the SV value is correct on the temp controller for the type of material you are using. Adjust the temp controller using the setting buttons if the SV value needs adjusting. 
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## Wait for the PV value to reach the SV value.
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## Now add pellets to the feeder. 
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## Wait several minutes for the pellets to melt.  If you want to preheat the mold now is the time. 
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## You should see a small amount of plastic ooze from the nozzle
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## Make sure the mold is clamped tight and the nozzle nipple is aligned with the mold sprue. 
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## Scrape away any oozing plastic from the nozzle using a screwdriver or similar tool.  This helps keep plastic chunks out of the mold. 
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## With a smooth linear motion push down on the handle and fill the mold. 
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## Hold pressure on the handle for an extra few seconds. This will help reduce shrinking of the plastic in the mold. 
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## Retract the handle all of the way to remove the plunger and give access to load more pellets.
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## You can now remove the mold and separate the halves.
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=====Making a Resin Mold for the Injection Molder=====
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The Mold:
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* Find/make a 3D model of the object you want to mold.
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* Follow the instructions in the linked video to turn the object into a 3d model on SolidWorks:
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{{#evu:https://www.youtube.com/watch?v=jm9b_8kYKuQ}}
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* Save the SolidWorks file as an STL file.
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* Then follow the steps in the maker-hub wiki to print this STL file on the Formlabs resin 3D printer. Make sure to use the HIGH TEMP RESIN in the Formlabs and not another type of resin as this kind is the best for injection molding.
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** TIP: Curve the edges of the mold to better fit inside the mold casing
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The Aluminum Casing (x2):
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* Find a piece of aluminum stock that is larger than one-half of your mold in every dimension.
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* Next, cut down the piece using the mill until the aluminum block is somewhere between 1/8”-1/4” larger than the piece of your mold. This will allow a wall of that thickness around your mold.
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* Then mill out a cavity in the block of aluminum that is around the size of your mold. This cavity will be for press fitting half of the mold into, but it shouldn’t be too tight or else the mold might break. The depth of this cavity should be the same distance as the thickness of the mold piece, so when press fitted the casing and mold faces are flush.
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* Then, drill out a hole at the top of the mold for the spout where the plastic will be injected into.
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* The printed mold will then be press fitted into the cavity but be careful not to crack the mold when press fitting.
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<gallery mode="packed" heights="300px">
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Image:Resin Mold 1.jpg
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Image:Resin Mold 2.jpg
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Image:Resin Mold 3.jpg
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</gallery>
    
==Safety==
 
==Safety==
Parts of the injection molding machine get very hot and could burn you. You need to wear gloves while working with the machine and molds.
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*Parts of the injection molding machine get very hot and could burn you. You need to wear gloves while working with the machine and molds.
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*Never attempt to use PVC or other materials not approved for use with this machine. PVC will produce toxic fumes when heated.
    
==Certification==
 
==Certification==
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Complete <strong>The Vault - {{PAGENAME}} Module</strong> at the link below to gain access to the {{PAGENAME}}. The Maker Hub Canvas course pertains to all facilities and equipment contained in the Maker Hub; simply complete the quizzes for the facilities/equipment you wish to use in the Maker Hub. Please email <span style="color:blue">makerhub@georgefox.edu</span> if you have any questions.
   −
[https://foxtale.georgefox.edu/moodle/course/view.php?id=31709 Foxtale Course]
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[https://georgefox.instructure.com/enroll/G7CTPX Maker Hub Canvas Course]
    
==Troubleshooting==
 
==Troubleshooting==
 
It may take some time to learn how much pressure to apply to the handle when filling a mold.  If you press too hard you will end up with lots of plastic flash on your finished piece as material will ooze out between the mold halves.  If you don't press hard enough you could end up with an air pocket left in the mold.
 
It may take some time to learn how much pressure to apply to the handle when filling a mold.  If you press too hard you will end up with lots of plastic flash on your finished piece as material will ooze out between the mold halves.  If you don't press hard enough you could end up with an air pocket left in the mold.
 +
 +
If you run into an issue with the material not flowing properly make sure that you are heating the material to the correct temperature and allowing enough time for the plastic to melt.
    
==Maintenance==
 
==Maintenance==

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