Changes

First off, to get your design, just copy an image and paste it into CorelDraw just like you would if you were plagiarizing an essay. Measure the size of your material, and set the page in CorelDRAW to those dimensions. You can alter the dimensions of the page you are putting the image on, and even the image itself in the top left. If you want to keep the image dimensions consistent, but just scale it down, click the lock button to the right of these dimensions. If you want to make your own design using text, squares, circles, etc, you can find everything you need in the column on the far left of the client.  

First off, to get your design, just copy an image and paste it into CorelDraw just like you would if you were plagiarizing an essay. Measure the size of your material, and set the page in CorelDRAW to those dimensions. You can alter the dimensions of the page you are putting the image on, and even the image itself in the top left. If you want to keep the image dimensions consistent, but just scale it down, click the lock button to the right of these dimensions. If you want to make your own design using text, squares, circles, etc, you can find everything you need in the column on the far left of the client.  

[[File:Image.png|center|thumb|1080x1080px]]

[[File:Image.png|center|thumb|600x600px]]

Once you have your design, we need to alter the colors a little bit so the Laser Cutter can understand what you want it to do. It goes like this: a red line with a hairline thickness will cut, and anything that is black will engrave. In order to do this, we need to split up the image into different pieces. This is called BitMapping, where it will divide the image into different pieces based on the color. Just right click and select Outline Trace → Logo. This works for the vast majority of things. If the detail is not good enough, try the other options and have some fun. After this, right click on the image and select Ungroup All Objects. This splits the image up into groups based on color, so you can tell the Laser Cutter what to cut and engrave.

Once you have your design, we need to alter the colors a little bit so the Laser Cutter can understand what you want it to do. It goes like this: a red line with a hairline thickness will cut, and anything that is black will engrave. In order to do this, we need to split up the image into different pieces. This is called BitMapping, where it will divide the image into different pieces based on the color. Just right click and select Outline Trace → Logo. This works for the vast majority of things. If the detail is not good enough, try the other options and have some fun. After this, right click on the image and select Ungroup All Objects. This splits the image up into groups based on color, so you can tell the Laser Cutter what to cut and engrave.

[[File:Mitch2.jpg|center|thumb|1080x1080px]]

[[File:Mitch2.jpg|center|thumb|600x600px]]

Here is where you change colors. Select a block of color, and on the right, you will see a window allowing you to change the Outline (line thickness) and Fill (color). Be sure to set the color scale to RGB. You will see values for R, G, and B, where all colors can be made using these. When each color has a 0 next to it, it will be fully black. When the red has a 255 next to it and the other have 0, it will be fully red. Make sure you check these bit values before continuing, since the machine is set to cutting material ONLY when it sees 255, 0, 0, and it will engrave material ONLY when it sees 0, 0, 0. Everything else, make it white, which is 255, 255, 255. You can drag around the value in the little box of colors to make this quicker.

Here is where you change colors. Select a block of color, and on the right, you will see a window allowing you to change the Outline (line thickness) and Fill (color). Be sure to set the color scale to RGB. You will see values for R, G, and B, where all colors can be made using these. When each color has a 0 next to it, it will be fully black. When the red has a 255 next to it and the other have 0, it will be fully red. Make sure you check these bit values before continuing, since the machine is set to cutting material ONLY when it sees 255, 0, 0, and it will engrave material ONLY when it sees 0, 0, 0. Everything else, make it white, which is 255, 255, 255. You can drag around the value in the little box of colors to make this quicker.

[[File:Mitch3.jpg|center|thumb|1080x1080px]]

[[File:Mitch3.jpg|center|thumb|600x600px]]

So once you have finished your design, it’s time to send it to the Laser Cutter! Hit print, make sure it is sending to Trotec Engraver. Select Preferences to make sure you select and consult the supervisor for the Halftone option. For normal engraving on most materials, you will use Black and White, but there are some areas where you can alter it. Then you can save in info by selecting the button that shows the JC logo near the bottom of the window, and select OK to send the design to Job Control.

So once you have finished your design, it’s time to send it to the Laser Cutter! Hit print, make sure it is sending to Trotec Engraver. Select Preferences to make sure you select and consult the supervisor for the Halftone option. For normal engraving on most materials, you will use Black and White, but there are some areas where you can alter it. Then you can save in info by selecting the button that shows the JC logo near the bottom of the window, and select OK to send the design to Job Control.

[[File:Mitch4.jpg|center|thumb|1080x1080px]]

[[File:Mitch4.jpg|center|thumb|600x600px]]

=== Job Control & Laser Cutter ===

=== Job Control & Laser Cutter ===

After you send your design to Job Control it will let you name your design and it will store it in a window on the right. If you do not see your design, be sure to select See All at the bottom of that window. This lets you see files ALL dpi types, rather than just a specific dpi type. Then select your material at the top left.You can check the print preview by double clicking the box showing your preview in the bottom right.

After you send your design to Job Control it will let you name your design and it will store it in a window on the right. If you do not see your design, be sure to select See All at the bottom of that window. This lets you see files ALL dpi types, rather than just a specific dpi type. Then select your material at the top left.You can check the print preview by double clicking the box showing your preview in the bottom right.

[[File:Mitch5.jpg|center|thumb|1080x1080px]]

[[File:Mitch5.jpg|center|thumb|600x600px]]

Alright, now it’s time to focus the laser onto your material. On the left of the Laser Cutter, there is its filter with a similar color scheme that looks like its nephew. On top of that will be a piece of metal that is shown below, this is the focusing tool. This mounts on the right side of the laser and sets the material a certain distance from the laser. Put your material in the top left of the Honeycomb Table, mount the focusing tool on the right side of the laser, then begin raising the table. The moment the focusing tool falls of from hitting your material, stop raising the table. Be sure to slow down toward the end of the process to assure the laser does not get too close to your material. You can then use the controls to put the laser at the top left of your material (assuming it is square). This keeps you and others from being idiots and wasting material.

Alright, now it’s time to focus the laser onto your material. On the left of the Laser Cutter, there is its filter with a similar color scheme that looks like its nephew. On top of that will be a piece of metal that is shown below, this is the focusing tool. This mounts on the right side of the laser and sets the material a certain distance from the laser. Put your material in the top left of the Honeycomb Table, mount the focusing tool on the right side of the laser, then begin raising the table. The moment the focusing tool falls of from hitting your material, stop raising the table. Be sure to slow down toward the end of the process to assure the laser does not get too close to your material. You can then use the controls to put the laser at the top left of your material (assuming it is square). This keeps you and others from being idiots and wasting material.

Once the job starts, stay with it. Be sure it is actually engraving/cutting the material. If it is not doing what it should be, stop it and consult the supervisor for assistance.

Once the job starts, stay with it. Be sure it is actually engraving/cutting the material. If it is not doing what it should be, stop it and consult the supervisor for assistance.

[[File:Mitch6.jpg|center|thumb|1080x1080px]]

[[File:Mitch6.jpg|center|thumb|600x600px]]

=== Cutting Parts from SolidWorks ===

=== Cutting Parts from SolidWorks ===

Suppose you want to take this very, very sad valve plate below and cut it out of acrylic. If you save it as a .dxf in the Isometric view, it will try to cut out that 2D form that you are looking at. To avoid this, orient the plate to the way you would want to see it cut out, and then save as a .dxf. Just like this.

Suppose you want to take this very, very sad valve plate below and cut it out of acrylic. If you save it as a .dxf in the Isometric view, it will try to cut out that 2D form that you are looking at. To avoid this, orient the plate to the way you would want to see it cut out, and then save as a .dxf. Just like this.

[[File:Plate.jpg|center|thumb|1080x1080px]]Once you have saved this as a .dxf, you can open it in CorelDraw, and follow the process above.

[[File:Plate.jpg|center|thumb|600x600px]]Once you have saved this as a .dxf, you can open it in CorelDraw, and follow the process above.

=== Video ===

=== Video ===

To start off, go to Settings → Options → Hardware → Accessories. This is where you can switch from the HoneyComb Table to the Rotary Tool and vice versa. Enter the diameter of your thing (using the Calipers in the lab), as it tells the Rotary Tool how fast to turn as it engraves. Do not mess this up, or you will have a stretched/squeezed image.   

To start off, go to Settings → Options → Hardware → Accessories. This is where you can switch from the HoneyComb Table to the Rotary Tool and vice versa. Enter the diameter of your thing (using the Calipers in the lab), as it tells the Rotary Tool how fast to turn as it engraves. Do not mess this up, or you will have a stretched/squeezed image.   

[[File:Rotary 1.jpg|center|thumb|1080x1080px]]

[[File:Rotary 1.jpg|center|thumb|600x600px]]

   

   

So when you apply it, it will look like this below. The cursor will come up when it is connected, and then just slide your design to that cursor. It automatically flips the image for you so that it will look like the hydroflask in the examples (portrait), so don’t worry about rotating the image.  

So when you apply it, it will look like this below. The cursor will come up when it is connected, and then just slide your design to that cursor. It automatically flips the image for you so that it will look like the hydroflask in the examples (portrait), so don’t worry about rotating the image.  

   

   

[[File:Rotary2.jpg|center|thumb|1080x1080px]]

[[File:Rotary2.jpg|center|thumb|600x600px]]

Next, pick the material Hydroflask → Black Mug, and now you are ready to engrave your thing! When you are finished, RESET THE SPACE! Put the Rotary Tool away and replace it with the HoneyComb Table.

Next, pick the material Hydroflask → Black Mug, and now you are ready to engrave your thing! When you are finished, RESET THE SPACE! Put the Rotary Tool away and replace it with the HoneyComb Table.