This project is currently in an experimental phase and is undergoing rapid developments.
3D print the CORNERCUBE.STL file 8 times using an FDM printer. Once completed, insert three M4 nuts into the slots on the inside of each corner cube. Then, fold the corner cubes together to form a cube.
Fold the sides of each corner cube inward to form a cube shape, repeating this process for all eight corner cubes. Next, select four of the 200mm aluminum extrusions. Gather ten M3 nuts. Slide the M3 nuts into the aluminum extrusions. Create two assemblies with two M3 nuts each and two assemblies with three M3 nuts each.
Insert the folded corner cubes into the aluminum extrusions. Form a square shape using four corner cubes and four aluminum extrusions. Ensure that the extrusions with two M3 nuts are positioned at the top and bottom, and those with three M3 nuts are placed on the sides. Make sure the corner cubes are oriented upwards. Add the Mid Panel and secure it to the frame using bolts.
Grab the ITX motherboard, 4x spacers, 4x and M3 nuts. Carefully position and align the motherboard onto the designated holes in the mid panel. Ensure not to over tighten the bolts to avoid damaging the motherboard.
Gather your PSU and the 3D printed case designed for the PSU. Insert the four M3 nuts into the designated slots. Slide the PSU into the case and secure it by tightening six M3 bolts at the top. Once the PSU is securely locked into the case, you can attach it to the mid panel by tightening the M3 bolts from the rear of the mid panel.
The PSU case can be attached to the designated holes on the mid panel using M3 bolts to secure it to the frame. Once this step is completed, proceed with assembling the rest of the frame. Add four short aluminum extrusions, and on top of those, assemble another square frame as built in step 3.
Retrieve Panel part C to attach it to the bottom part of the frame. Depending on the hardware configuration, users have the option to add two 120mm fans onto the frame by using M3 bolts and nuts. Additionally, attach the feet (part N) of your choice. These can be connected to the corner cube (part B) using an M4 bolt.
Once these steps are completed for all four corners, flip the case as indicated in the graphic. Please note that the case may be slightly loose at this point.
For Step 7, if you opted for an aluminum rear panel (part E), follow these instructions. If you chose a different material, proceed to Step 8. To attach your GPU to the rear panel, fold the parts as illustrated in the graphic. Please note that the graphic may vary depending on the number of GPU slots you have.
Once you've completed folding the parts to attach your GPU to the rear panel, secure it to the frame using M4 bolts.
This step is designated for non-aluminum rear panels (part E). Ensure you've printed the rear panel attachments (part P). Attach these parts onto the rear panel using M3 nuts and bolts. Once this is completed, attach the rear panel to the frame using M4 bolts.
Insert the GPU into its slot, ensuring you hear a click from the motherboard indicating it's properly seated. Attach the GPU onto the rear panel using a set of M3 nuts and bolts. Depending on the GPU, this may require 1, 2, or 3 sets.
After installing the GPU, it's a good opportunity to manage all the cables from the hardware to the PSU.
One of the cables to install is the PSU extension (part O), which needs to be attached to the rear panel using a set of M3 nuts and bolts. Once installed, insert the other end into the PSU.
Collect the components for the front IO, including the case (part J), power button (part L), and the USB-C cable (part M). In the downloads folder, you'll find a simple DE-MO keycap, but users have the freedom to use any keycap of their choice.
Assemble the front IO components according to the provided graphic. Ensure that the cables have enough room and are clamped securely between the case to prevent any interference.
If you have chosen an AIO cooler, attach it to the top panel of the case using the screws or bolts provided with the cooler. Alternatively, if you have selected a CPU cooler, you can install two 120mm fans on the top panel.
In this example, an AIO cooler is used, but this choice will not affect the following steps.
Once the AIO cooler or 120mm fans are installed, proceed to install the front IO case using a set of M3 nuts. Ensure that you first insert the front IO cables into the designated hole in the mid panel. After this step is completed, attach the top panel using four M4 bolts.
Ensure all cables are correctly installed before attaching the side panels. You have the freedom to choose the type of panels—whether aluminum, perforated, or non-perforated—that best suit your preferences.
Disclaimer: This project is currently in an experimental phase and is undergoing rapid developments. DE-MO Computer is not liable for any hardware failure or damage that may occur as a result of building or using this case. The user assumes full responsibility for the assembly, quality, and compatibility of components within the case. DE-MO Computer advises users to exercise caution and diligence when building their system. By using this case, the user acknowledges and accepts that DE-MO Computer is not responsible for any issues or damages that may arise.
This project is currently in an experimental phase and is undergoing rapid developments.
3D print the CORNERCUBE.STL file 8 times using an FDM printer. Once completed, insert three M4 nuts into the slots on the inside of each corner cube. Then, fold the corner cubes together to form a cube.
Fold the sides of each corner cube inward to form a cube shape, repeating this process for all eight corner cubes. Next, select four of the 200mm aluminum extrusions. Gather ten M3 nuts. Slide the M3 nuts into the aluminum extrusions. Create two assemblies with two M3 nuts each and two assemblies with three M3 nuts each.
Insert the folded corner cubes into the aluminum extrusions. Form a square shape using four corner cubes and four aluminum extrusions. Ensure that the extrusions with two M3 nuts are positioned at the top and bottom, and those with three M3 nuts are placed on the sides. Make sure the corner cubes are oriented upwards. Add the Mid Panel and secure it to the frame using bolts.
Grab the ITX motherboard, 4x spacers, 4x and M3 nuts. Carefully position and align the motherboard onto the designated holes in the mid panel. Ensure not to over tighten the bolts to avoid damaging the motherboard.
Gather your PSU and the 3D printed case designed for the PSU. Insert the four M3 nuts into the designated slots. Slide the PSU into the case and secure it by tightening six M3 bolts at the top. Once the PSU is securely locked into the case, you can attach it to the mid panel by tightening the M3 bolts from the rear of the mid panel.
The PSU case can be attached to the designated holes on the mid panel using M3 bolts to secure it to the frame. Once this step is completed, proceed with assembling the rest of the frame. Add four short aluminum extrusions, and on top of those, assemble another square frame as built in step 3.
Retrieve Panel part C to attach it to the bottom part of the frame. Depending on the hardware configuration, users have the option to add two 120mm fans onto the frame by using M3 bolts and nuts. Additionally, attach the feet (part N) of your choice. These can be connected to the corner cube (part B) using an M4 bolt.
Once these steps are completed for all four corners, flip the case as indicated in the graphic. Please note that the case may be slightly loose at this point.
For Step 7, if you opted for an aluminum rear panel (part E), follow these instructions. If you chose a different material, proceed to Step 8. To attach your GPU to the rear panel, fold the parts as illustrated in the graphic. Please note that the graphic may vary depending on the number of GPU slots you have.
Once you've completed folding the parts to attach your GPU to the rear panel, secure it to the frame using M4 bolts.
This step is designated for non-aluminum rear panels (part E). Ensure you've printed the rear panel attachments (part P). Attach these parts onto the rear panel using M3 nuts and bolts. Once this is completed, attach the rear panel to the frame using M4 bolts.
Insert the GPU into its slot, ensuring you hear a click from the motherboard indicating it's properly seated. Attach the GPU onto the rear panel using a set of M3 nuts and bolts. Depending on the GPU, this may require 1, 2, or 3 sets.
After installing the GPU, it's a good opportunity to manage all the cables from the hardware to the PSU.
One of the cables to install is the PSU extension (part O), which needs to be attached to the rear panel using a set of M3 nuts and bolts. Once installed, insert the other end into the PSU.
Collect the components for the front IO, including the case (part J), power button (part L), and the USB-C cable (part M). In the downloads folder, you'll find a simple DE-MO keycap, but users have the freedom to use any keycap of their choice.
Assemble the front IO components according to the provided graphic. Ensure that the cables have enough room and are clamped securely between the case to prevent any interference.
If you have chosen an AIO cooler, attach it to the top panel of the case using the screws or bolts provided with the cooler. Alternatively, if you have selected a CPU cooler, you can install two 120mm fans on the top panel.
In this example, an AIO cooler is used, but this choice will not affect the following steps.
Once the AIO cooler or 120mm fans are installed, proceed to install the front IO case using a set of M3 nuts. Ensure that you first insert the front IO cables into the designated hole in the mid panel. After this step is completed, attach the top panel using four M4 bolts.
Ensure all cables are correctly installed before attaching the side panels. You have the freedom to choose the type of panels—whether aluminum, perforated, or non-perforated—that best suit your preferences.
Disclaimer: This project is currently in an experimental phase and is undergoing rapid developments. DE-MO Computer is not liable for any hardware failure or damage that may occur as a result of building or using this case. The user assumes full responsibility for the assembly, quality, and compatibility of components within the case. DE-MO Computer advises users to exercise caution and diligence when building their system. By using this case, the user acknowledges and accepts that DE-MO Computer is not responsible for any issues or damages that may arise.