[video member=miotatsu stream_platform=twitch project=riscy medium=drawing title="Finishing The Case (2/2)" vod_platform=youtube id=JO3Gwc_MbYo annotator=Miblo] [0:02][Return from reboot and continue looking into our misaligned bracket] [1:48][Fix the position of our second bracket's cutout, and the width of both] [5:26][Admire our bracket cutouts with the guts] [7:17][Cut out an area of the top to accommodate the slanted upper part of the bracket] [17:14][Admire the cutout without the guts] [18:13][Plan to apply the upper cutout to the second bracket, and model our detailing, lugs and snaps] [19:51][Apply the upper cutout to the second bracket] [21:47][Admire our cutouts with the guts, and add the lip to our plan] [24:40][Embark on modelling the lip for the brackets] [36:15][Add 3mm screw holes to the lip] [56:58][Model structural support for the bracket lip, introducing support() module] [1:12:01][Admire the bracket area with the whole model] [1:13:48][Apply a structural support to the right end of the bracket lip] [1:15:23][Break][:admin] [1:15:34][Return and apply a structural support to the left end of the bracket lip] [1:20:15][Admire the finished bracket area with the whole model] [1:22:48][Model the detailing around the lower half of the HiFive Unleashed access cutout] [1:57:03][Admire the case bottom] [1:59:45][Render the case bottom] [2:01:20][Note our usual warning: "Object may not be a valid 2-manifold and may need repair!"] [2:02:44][:Research exporting[ref site=WikiBooks page="OpenSCAD User Manual/Export" url=https://en.wikibooks.org/wiki/OpenSCAD_User_Manual/Export][ref site=WikiBooks page="OpenSCAD User Manual/STL Export" url=https://en.wikibooks.org/wiki/OpenSCAD_User_Manual/STL_Export]] [2:06:40][Export our case bottom model as .stl and get a costing ($340.92) from Craftcloud[ref site=Craftcloud url=https://www.craftcloud3d.com/][ref site=Autotiv page="Selective Laser Sintering (SLS)" url=https://autotiv.com/selective-laser-sintering]][:admin :research] [2:18:23][Render our case top after refraining from marking it as transparent] [2:20:44][Plan our technique for assembling the PC and case] [2:24:07][Export our case bottom as .stl and get a costing ($339.09) from Craftcloud[ref site=Craftcloud url=https://www.craftcloud3d.com/]][:admin :research] [2:27:42][Admire our model] [2:29:03][Fix the tab recess of our Graphics card's bracket] [2:35:40][Introduce case_top() module] [2:38:46][Admire our whole case without the guts] [2:39:35][Delete our stray square] [2:41:27][Plan to model our detailing, rim, lugs and snaps] [2:43:43][Begin to model the detailing around the upper half of the HiFive Unleashed access cutout] [2:47:27][Break][:admin] [2:47:39][Return and continue modelling the detailing around the upper half of the HiFive Unleashed access cutout] [3:01:18][Admire our HiFive Unleashed access cutout] [3:02:20][Model the detailing up the length of the bracket cutouts] [3:13:21][Admire our brackets area] [3:13:52][:Research the lugs part of the internal cantilever snap-to-fit detailing[ref site=formlabs page="How to Design 3D Printed Snap Fit Enclosures" url=https://formlabs.com/blog/designing-snap-fit-enclosures/]] [3:18:07][Snap-to-fit detailing: Model the 3mm rim around the bottom of the case] [3:40:27][Admire our case bottom] [3:42:04][Admire our whole model] [3:43:02][:Research the lugs part of the internal cantilever snap-to-fit detailing[ref site=formlabs page="How to Design 3D Printed Snap Fit Enclosures" url=https://formlabs.com/blog/designing-snap-fit-enclosures/]] [3:47:45][Snap-to-fit detailing: Model the lugs at the corners of the top of the case, introducing lug() module] [3:58:31][Admire our progress with the snap-to-fit detailing] [4:01:30][Increase the length of the lugs, and reduce their depth by 0.5mm] [4:03:49][Admire our progress with the snap-to-fit detailing in the context of the whole model] [4:04:33][Spot a small mistake with the lugs] [4:05:24][Fix the lugs] [4:08:24][Admire our whole case] [4:10:16][:Research the snaps part of the internal cantilever snap-to-fit detailing[ref site=formlabs page="How to Design 3D Printed Snap Fit Enclosures" url=https://formlabs.com/blog/designing-snap-fit-enclosures/]] [4:15:08][Snap-to-fit detailing: Model the snap notches on the bottom of the case] [4:45:11][Admire our snap-to-fit notches, and render the case bottom] [4:46:18][Note our usual warning: "Object may not be a valid 2-manifold and may need repair!"] [4:47:40][Admire our case bottom with the guts] [4:50:58][:Research the locks part of the internal cantilever snap-to-fit detailing[ref site=formlabs page="How to Design 3D Printed Snap Fit Enclosures" url=https://formlabs.com/blog/designing-snap-fit-enclosures/]] [4:55:32][Snap-to-fit detailing: Design the shape of our snap lock, introducing snap()[ref site=formlabs page="How to Design 3D Printed Snap Fit Enclosures" url=https://formlabs.com/blog/designing-snap-fit-enclosures/]] [5:16:33][Snap-to-fit detailing: Apply our first snap lock to the case top] [5:27:36][Snap-to-fit detailing: Reduce the length of our snap locks[ref site=formlabs page="How to Design 3D Printed Snap Fit Enclosures" url=https://formlabs.com/blog/designing-snap-fit-enclosures/]] [5:31:35][Snap-to-fit detailing: Fine-tune the position of our snap lock] [5:33:29][Snap-to-fit detailing: Apply the remaining snap locks to the case top] [5:43:57][Toggle on the rest of the case top] [5:47:29][Snap-to-fit detailing: Affix each snap lock to the case top with a 0.5mm thick pad, moving two locks closer to the case] [6:28:13][Admire our whole case] [6:30:23][Admire our whole model] [6:31:38][Orient our models for exporting] [6:37:15][Render and export RISC-V_PC_case_top.stl][:admin :drawing] [6:38:28][Render and export RISC-V_PC_case_bottom.stl][:admin :drawing] [6:40:24][Run through the Craftcloud 3D Printing order process[ref site=Craftcloud url=https://www.craftcloud3d.com/]][:research] [6:49:36][Thank you, everyone, with thoughts and prayers for @Miblo] [/video]