I’m very pleased with how the case turned out. I made a blog post detailing the design process: Creating a custom Nyquist case … The middle section is the widest part of the body and will support both plates being countersunk on top of it. I’d like to experiment with brass heat inserts to provide some inner threads to the tenting bolt holes. Nyquist Rev 3 kit contents: 1. As a final step, walk through all the dimensions you set and verify that they’re what you expect. Learn more. You can toggle this kind of line with the X shortcut. The PCB itself is 110mm wide, putting the center point at 55mm. Close. https://kprepublic.com/collections/case/products/anodized-aluminium-case-for-sp50-50-custom-keyboard-acrylic-panels-stalinite-diffuser-can-support-rotary-brace-supporter. log in sign up.
We use optional third-party analytics cookies to understand how you use GitHub.com so we can build better products.
After an extrude, the sketch on which it was based will automatically hide, so click on the lightbulb next to the Nyquist case sketch to show it again.
Lastly, I add a 1mm fillet to all the outer edges of the case, including those along the jack cutouts. The dotted lines are so-called Construction Lines.
As a totally unnecessary but nice to have step, you can adjust the appearance of your model within Fusion by using the appearances menu (A).
User account menu.
If you’re curious about the key mapping, checkout my Iris Build. $19.99. Log in sign up.
In this step, I’ll extrude to both sides of the sketch profile. The support settings are important! With the case ready to go, you can assemble the keyboard, as I explained in my Nyquist Build Log. Use a carriage head bolt dipped in plastidip or coated in rubber, for more grip, lower footprint and less components.
No, but bakingpy is working on a new rev that hopefully will. Once you’re sure about the dimensions, hit the Make button in the Tools tab of the toolbar. In the first case the tolerances were too tight, requiring quite a bit of force to get the plate to sit in the case. This is good for 1 complete case for 2 halves.
I want the plate to be countersunk into the case. 4. Anybody know if this will fit? Then, when defining parameters for a hole diameter, add + (2 * PrinterTolerance), and when adding parameters for sides, add + PrinterTolerance. You signed in with another tab or window. Keyboard lovers Clicking and Clacking in a content rich, friendly place. Nyquist - Plates/Case. $14.90 Save $0.90 Mechanical keyboard anode aluminum case 60%. Press question mark to learn the rest of the keyboard shortcuts. Work fast with our official CLI. Looking for cases WITHOUT exposed switches for a Nyquist split 60%. I spoke to bakingpy and he's cool … Press J to jump to the feed. You can always update your selection by clicking Cookie Preferences at the bottom of the page. $14.99. That way I might not even need a hex or wing nut to hold the bolt in place. User account menu.
When importing the SVG, I noticed some curved lines are squiggly. With the Extrude command (E), we can make a body based on a sketch profile. If nothing happens, download GitHub Desktop and try again.
Next up, add some body to the spacer holes. Download the case STL files on Thingiverse, Cheat sheet: Custom keyboard mounting styles. Someone suggested I use carriage head bolts, that have a flat cap. An ordinary ruler will do fine. Are the case dimensions right? This way, if I decide to change the bolt size to something larger, the hole and body will move automatically. I took a width of 1,25mm and defined a new parameter: SpacerBodyDiameter = SpacerDiameter + (2 * 1,25). You’ll need to rotate the view around to be able to select the sketch profiles this time. Retraction: Force retraction between layers, minimum travel for retraction 3,00mm. Be sure to change it back to Join so that you’ll add the outer edge instead of stripping it away. The design file for the exterior screw case has 2 top, 2 bottom, and 8 middle layer pieces.
I measured the diameter of the spacers and they’re about 3mm wide. Top/Switch layer - Each half uses 1 of these 1.1. Let’s get to work! The PCBs are compatible with the currently available Nyquist cases and the SP50 case. To do that, I’ll define a few offsets, measured from the edge of the plate: You can apply an Offset by pressing O and selecting the sketch curves you want to offset. I want the tenting holes to be spaced uniformly across the edge, so I add a construction line (X) across the top and the bottom of the case, and define a distance from that line to the center of the hole: TentingBoltHoleDiameter * 2 + 10 mm. Posted by. You’ll see that the Operation automatically changes to Cut. This gives another perspective: Since the exact location of the TRRS jack differs depending on which side you’ve soldered the jack, and because we need a bit of leeway in placing the PCB, I add 3mm of clearance to each side. It’s very sturdy, provides flexibility in tenting and tilting the case, is succesful in hiding the damage of the edges of the plate and it looks quite good to boot! It doesn’t need to be very sturdy since the forces don’t act upon it sideways, the body will only need to keep the spacer in place. There's 4 different types of pieces the case uses: 1. This way, we can hide the SVG when done, making it easier to select the right sketch profiles later on.
I kept the same mappings, with a couple exceptions. Let’s get started with the actual design. The scale, then, is 126 ÷ 94.827 = 1,328 with a bunch more numbers after the comma. I’ll need the following: To be able to tent the keyboard I want to use four screws per case, and some way to easily fasten them. Here's case design files for the Nyquist. I have both a Levinson and a Nyquist. Parameters help tremendously in reusing dimensions, making it easy to adjust features across the model all at once. 3 features an on-board controller (ATmega32u4) with DFU bootloader and USB-C port. Nyquist Case, a sketch I now added to model the case itself in. You’ll now end up with this almost complete sketch: The last part we need to add are the cutouts for the TRRS and USB jacks, so the PCB and cables will fit inside of the case.
TRRS Cable. With the file exported, I can now print it. The case should be fully functional, but it doesn’t look very nice with the rough edges everywhere.
The sketch above is based on some existing Iris and Nyquist cases I saw, that had four holes along the edge. Let’s extrude the case in a couple of steps so it’s easier to see what happens. The case protects your iPad or tablet from scratches, bumps and impact, while the keyboard makes it quick and easy to type. KBDfans 5° 60% keyboard aluminum case. The inner edges for the bottom plate need support, else they will droop and it’ll become a mess, making the print unusable. The goal of this subreddit is to provide daily links to interesting mechanical keyboard content.
For slicing, I use Simplify3D, but other slicers like Cura or Slic3r are perfectly fine and are more affordable alternatives for the same purpose. Like the spacer holes, the tenting screw holes will also need a body.
Since they’re circles, the Colinear relationship isn’t a good fit: I used the Coincident constraint instead. There's only 2 different types of pieces the case uses: This case was designed to use M2 screws and standoffs. A folio is a book-style case that covers the back and front of your iPad, and may include a detachable or built-in keyboard. 4.