├── LICENSE
├── README.md
├── fritzing
└── parts
│ ├── GY273-QMC5883L.fzpz
│ ├── GY273-QMC5883L.tgz
│ ├── GYBMEP_BME-BMP280_Breakout.fzpz
│ ├── GYBMEP_BME-BMP280_Breakout.tgz
│ ├── u-blox-NEO-6M-GPS_Breakout.fzpz
│ └── u-blox-NEO-6M-GPS_Breakout.tgz
├── img
├── README.md
├── bme280_gybmep.png
├── board_2relays_keyes.png
├── board_2relays_sainsmart.png
├── board_pcd8544_blue.png
├── board_pcd8544_red.png
├── board_raspberrypi_3_model_b.png
├── board_raspberrypi_4_model_b.png
├── board_raspberrypi_model_a_plus_rev1_1.png
├── board_raspberrypi_model_b_v2.png
├── coax_metal_power_socket.png
├── coax_power_plug.png
├── coax_power_plug_3p5.png
├── coax_power_socket.png
├── dupont_female.png
├── gallery.png
├── hard_disk_35_inches.png
├── hdmi_micro_right_angle_connector.png
├── lcd_1602a.png
├── make_index
├── mpu6050_gy521.png
├── pin_female.png
├── pin_headers.png
├── pin_right_angle_double.png
├── pin_right_angle_high.png
├── pin_right_angle_low.png
├── pin_right_angle_low_custom.png
├── push_button.png
├── push_switch_8mm.png
├── qmc5883l_gy273.png
├── rocker_switch.png
├── rpi-micro-media-hub.png
├── suptronics_x835.png
├── ublox_neo6m_gps.png
├── usb2_hub_7p_amazon_basics.png
├── usb_audio_adapter_ugreen.png
├── usb_hard_disk_toshiba.png
├── usb_hub_4p_amazon_basics.png
├── usb_male_micro_b_connector.png
├── usb_male_type_a_connector.png
├── usb_male_type_b_connector.png
└── wifi_usb_edimax.png
├── misc_boards.scad
├── misc_gadgets.scad
├── misc_parts.scad
└── rpi-micro-media-hub.scad
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527 | to the third party based on the extent of your activity of conveying
528 | the work, and under which the third party grants, to any of the
529 | parties who would receive the covered work from you, a discriminatory
530 | patent license (a) in connection with copies of the covered work
531 | conveyed by you (or copies made from those copies), or (b) primarily
532 | for and in connection with specific products or compilations that
533 | contain the covered work, unless you entered into that arrangement,
534 | or that patent license was granted, prior to 28 March 2007.
535 |
536 | Nothing in this License shall be construed as excluding or limiting
537 | any implied license or other defenses to infringement that may
538 | otherwise be available to you under applicable patent law.
539 |
540 | 12. No Surrender of Others' Freedom.
541 |
542 | If conditions are imposed on you (whether by court order, agreement or
543 | otherwise) that contradict the conditions of this License, they do not
544 | excuse you from the conditions of this License. If you cannot convey a
545 | covered work so as to satisfy simultaneously your obligations under this
546 | License and any other pertinent obligations, then as a consequence you may
547 | not convey it at all. For example, if you agree to terms that obligate you
548 | to collect a royalty for further conveying from those to whom you convey
549 | the Program, the only way you could satisfy both those terms and this
550 | License would be to refrain entirely from conveying the Program.
551 |
552 | 13. Use with the GNU Affero General Public License.
553 |
554 | Notwithstanding any other provision of this License, you have
555 | permission to link or combine any covered work with a work licensed
556 | under version 3 of the GNU Affero General Public License into a single
557 | combined work, and to convey the resulting work. The terms of this
558 | License will continue to apply to the part which is the covered work,
559 | but the special requirements of the GNU Affero General Public License,
560 | section 13, concerning interaction through a network will apply to the
561 | combination as such.
562 |
563 | 14. Revised Versions of this License.
564 |
565 | The Free Software Foundation may publish revised and/or new versions of
566 | the GNU General Public License from time to time. Such new versions will
567 | be similar in spirit to the present version, but may differ in detail to
568 | address new problems or concerns.
569 |
570 | Each version is given a distinguishing version number. If the
571 | Program specifies that a certain numbered version of the GNU General
572 | Public License "or any later version" applies to it, you have the
573 | option of following the terms and conditions either of that numbered
574 | version or of any later version published by the Free Software
575 | Foundation. If the Program does not specify a version number of the
576 | GNU General Public License, you may choose any version ever published
577 | by the Free Software Foundation.
578 |
579 | If the Program specifies that a proxy can decide which future
580 | versions of the GNU General Public License can be used, that proxy's
581 | public statement of acceptance of a version permanently authorizes you
582 | to choose that version for the Program.
583 |
584 | Later license versions may give you additional or different
585 | permissions. However, no additional obligations are imposed on any
586 | author or copyright holder as a result of your choosing to follow a
587 | later version.
588 |
589 | 15. Disclaimer of Warranty.
590 |
591 | THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
592 | APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
593 | HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
594 | OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
595 | THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
596 | PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
597 | IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
598 | ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
599 |
600 | 16. Limitation of Liability.
601 |
602 | IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
603 | WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
604 | THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
605 | GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
606 | USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
607 | DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
608 | PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
609 | EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
610 | SUCH DAMAGES.
611 |
612 | 17. Interpretation of Sections 15 and 16.
613 |
614 | If the disclaimer of warranty and limitation of liability provided
615 | above cannot be given local legal effect according to their terms,
616 | reviewing courts shall apply local law that most closely approximates
617 | an absolute waiver of all civil liability in connection with the
618 | Program, unless a warranty or assumption of liability accompanies a
619 | copy of the Program in return for a fee.
620 |
621 | END OF TERMS AND CONDITIONS
622 |
623 | How to Apply These Terms to Your New Programs
624 |
625 | If you develop a new program, and you want it to be of the greatest
626 | possible use to the public, the best way to achieve this is to make it
627 | free software which everyone can redistribute and change under these terms.
628 |
629 | To do so, attach the following notices to the program. It is safest
630 | to attach them to the start of each source file to most effectively
631 | state the exclusion of warranty; and each file should have at least
632 | the "copyright" line and a pointer to where the full notice is found.
633 |
634 |
635 | Copyright (C)
636 |
637 | This program is free software: you can redistribute it and/or modify
638 | it under the terms of the GNU General Public License as published by
639 | the Free Software Foundation, either version 3 of the License, or
640 | (at your option) any later version.
641 |
642 | This program is distributed in the hope that it will be useful,
643 | but WITHOUT ANY WARRANTY; without even the implied warranty of
644 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
645 | GNU General Public License for more details.
646 |
647 | You should have received a copy of the GNU General Public License
648 | along with this program. If not, see .
649 |
650 | Also add information on how to contact you by electronic and paper mail.
651 |
652 | If the program does terminal interaction, make it output a short
653 | notice like this when it starts in an interactive mode:
654 |
655 | Copyright (C)
656 | This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
657 | This is free software, and you are welcome to redistribute it
658 | under certain conditions; type `show c' for details.
659 |
660 | The hypothetical commands `show w' and `show c' should show the appropriate
661 | parts of the General Public License. Of course, your program's commands
662 | might be different; for a GUI interface, you would use an "about box".
663 |
664 | You should also get your employer (if you work as a programmer) or school,
665 | if any, to sign a "copyright disclaimer" for the program, if necessary.
666 | For more information on this, and how to apply and follow the GNU GPL, see
667 | .
668 |
669 | The GNU General Public License does not permit incorporating your program
670 | into proprietary programs. If your program is a subroutine library, you
671 | may consider it more useful to permit linking proprietary applications with
672 | the library. If this is what you want to do, use the GNU Lesser General
673 | Public License instead of this License. But first, please read
674 | .
675 |
--------------------------------------------------------------------------------
/README.md:
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1 | # OpenSCAD Raspberry Pi Library
2 |
3 | OpenSCAD library of various objects to use in Raspberry Pi-based projects
4 |
5 | This is a simple library of objects that I designed to assist
6 | myself in creating various projects based on the Raspberry Pi.
7 | The main goal is to have a realistic representation of the size
8 | of the overall assemble, to aid in building a suitable case for
9 | the projects. I used the same OpenSCAD software to design
10 | 3D-printed or laser-cut cases.
11 |
12 | ## Raspberry Pi Media Hub
13 |
14 | One of the first goal where I used this library, was to design a
15 | case for a little **Media Hub**, based on the Raspberry Pi. The
16 | case is designed to be made of Medium-density fibreboard (MDF)
17 | with laser cutting.
18 |
19 | 
20 |
21 | See the **[img/README.md file](img/README.md)** for a gallery of snapshot images.
22 |
23 | 
24 |
25 | #### Raspberry Pi Boards
26 |
27 | * Raspberry Pi Model B v.2
28 | * Raspberry Pi Model A+ rev.1.1
29 | * Raspberry Pi 3 Model B v.1.2
30 |
31 | #### Components
32 |
33 | * 1602A LCD panel 16x2 characters
34 | * SainSmart Two-relays module
35 | * Keyes Two-relays module
36 | * PCD8544 LCD module, blue PCB, pins below
37 | * PCD8544 LCD module, red PCB, pins above
38 | * GPS u-blox NEO-6
39 | * GYBMEP: BME280 pressure, humidity and temperature sensor
40 | * GY-521: MPU-6050 Accelerometer and Gyroscope
41 | * GY-273: QMC5883L 3-Axis Magnetic Sensor
42 | * X835 SupTronics 3.5 SATA HDD shield for the Raspberry Pi
43 |
44 | #### Miscellaneous Parts
45 |
46 | * Coaxial power plug 5.0 mm
47 | * Coaxial power plug socket, with 2.1 mm pin
48 | * Mini push button
49 | * Metal momentary push switch 8 mm
50 | * Matrix of 2.54 mm dupont female connectors
51 | * Matrix of 2.54 mm female connectors
52 | * Matrix of 2.54 mm pins
53 | * Pin header, 2.54 mm, right angle, low profile
54 | * Pin header, 2.54 mm, right angle, high profile
55 | * USB male Type-A connector
56 | * USB male Micro-B connector
57 |
58 | #### Gadgets
59 |
60 | * USB external hard disk 2.5" (Toshiba)
61 | * SATA 3.5 inches hard disk
62 | * UBS 2.0 hub 7 ports, Amazon Basics
63 | * UBS 3.0 hub 4 ports, Amazon Basics (**WARNING**: does not work with the Raspberry Pi, VIA Labs chip, USB ID 2109:2811)
64 | * UGREEN USB Audio Adapter
65 | * Nano WiFi USB dongle by Edimax
66 |
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/img/README.md:
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1 | # Parts Gallery
2 |
3 | 
4 | 
5 | 
6 | 
7 | 
8 | 
9 | 
10 | 
11 | 
12 | 
13 | 
14 | 
15 | 
16 | 
17 | 
18 | 
19 | 
20 | 
21 | 
22 | 
23 | 
24 | 
25 | 
26 | 
27 | 
28 | 
29 | 
30 | 
31 | 
32 | 
33 | 
34 | 
35 | 
36 | 
37 | 
38 | 
39 | 
40 | 
41 |
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/img/make_index:
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1 | #!/bin/sh
2 |
3 | echo "# Parts Gallery"
4 | echo
5 | for file in *.png; do
6 | if [ "$file" = "gallery.png" -o "$file" = "rpi-micro-media-hub.png" ]; then
7 | continue
8 | fi
9 | module="$(echo ${file} | sed 's/\.png//')"
10 | echo "![${module}](${file} \"${module}\")"
11 | done
12 |
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/misc_boards.scad:
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1 | //------------------------------------------------------------------------
2 | // OpenSCAD models of miscellaneous components and devices:
3 | // various Raspberry Pi models, SainSmart Relays, PCD8544 LCD, etc.
4 | //
5 | // Author: Niccolo Rigacci
6 | // Version: 1.0 2017-12-14
7 | // License: GNU General Public License v3.0
8 | //------------------------------------------------------------------------
9 |
10 | include ;
11 |
12 | // Interference for 3D union(), difference() and intersection();
13 | // used to avoid the manifold problem.
14 | interf = 0.1;
15 |
16 | //------------------------------------------------------------------------
17 | // 1602A LCD panel 16x2 characters.
18 | //------------------------------------------------------------------------
19 | module lcd_1602a() {
20 | $fn = 32;
21 | translate([4.5, 5.5, 1.8]) color([64/255, 64/255, 128/255]) cube([71, 24, 7]);
22 | color("green") linear_extrude(height = 1.8) difference() {
23 | square(size=[80, 36]);
24 | translate([3, 3]) circle(r=3.2/2, center = true);
25 | translate([80 - 3, 3]) circle(r=3.2/2, center = true);
26 | translate([80 - 3, 36 - 3]) circle(r=3.2/2, center = true);
27 | translate([3, 36 - 3]) circle(r=3.2/2, center = true);
28 | }
29 | }
30 |
31 | //------------------------------------------------------------------------
32 | // Matrix of 2.54 mm pins.
33 | //------------------------------------------------------------------------
34 | module pin_headers(cols, rows) {
35 | w = 2.54; h = 2.54; p = 0.65;
36 | for(x = [0 : (cols -1)]) {
37 | for(y = [0 : (rows - 1)]) {
38 | translate([w * x, w * y, 0]) {
39 | union() {
40 | color("black") cube([w, w, h]);
41 | color("gold") translate([(w - p) / 2, (w - p) / 2, -3]) cube([p, p, 11.54]);
42 | }
43 | }
44 | }
45 | }
46 | }
47 |
48 | //------------------------------------------------------------------------
49 | // Two-relays module manufactured by SainSmart (or alike).
50 | //------------------------------------------------------------------------
51 | module board_2relays_sainsmart() {
52 | // Board with 3.0 mm holes.
53 | pcb_thick = 1.6;
54 | difference() {
55 | color("darkgreen") cube([39.0, 51.0, pcb_thick]);
56 | translate([2.75, 2.75, -interf]) {
57 | translate([ 0, 0, 0]) cylinder(r=1.5, h=(2 + interf * 2), $fn=16);
58 | translate([33.5, 0, 0]) cylinder(r=1.5, h=(2 + interf * 2), $fn=16);
59 | translate([ 0, 45.5, 0]) cylinder(r=1.5, h=(2 + interf * 2), $fn=16);
60 | translate([33.5, 45.5, 0]) cylinder(r=1.5, h=(2 + interf * 2), $fn=16);
61 | }
62 | }
63 | translate([ 3.8, 12.2, pcb_thick]) color("blue") cube([15, 19, 16]);
64 | translate([20.2, 12.2, pcb_thick]) color("blue") cube([15, 19, 16]);
65 | translate([ 3.8, 4, pcb_thick]) color("blue") cube([15, 8, 10.2]);
66 | translate([20.2, 4, pcb_thick]) color("blue") cube([15, 8, 10.2]);
67 | translate([ 9, 46.5, 1.6]) pin_headers(4, 1);
68 | translate([ 9, 46.5, 1.6]) dupont_female(4, 1, [-1, 1, 0]);
69 | translate([24, 46.5, 1.6]) pin_headers(3, 1);
70 | }
71 |
72 | //------------------------------------------------------------------------
73 | // Two-relays module manufactured by Keyes.
74 | //------------------------------------------------------------------------
75 | module board_2relays_keyes() {
76 | // Board with 3.6 mm holes.
77 | difference() {
78 | color("red") cube([45.5, 55, 2]);
79 | translate([3.5, 9, -interf]) {
80 | translate([ 0, 0, 0]) cylinder(r=1.8, h=(2 + interf * 2), $fn=16);
81 | translate([38, 0, 0]) cylinder(r=1.8, h=(2 + interf * 2), $fn=16);
82 | translate([0, 40, 0]) cylinder(r=1.8, h=(2 + interf * 2), $fn=16);
83 | translate([38, 40, 0]) cylinder(r=1.8, h=(2 + interf * 2), $fn=16);
84 | }
85 | }
86 | translate([7.5, 15, 2]) color("blue") cube([15, 19, 16]);
87 | translate([23, 15, 2]) color("blue") cube([15, 19, 16]);
88 | translate([14.5, 48, 2]) pin_headers(6, 1);
89 | }
90 |
91 | //------------------------------------------------------------------------
92 | // PCD8544 LCD module (from Nokia 5110/3310 phones), blue PCB.
93 | // Pin on bottom, 3.2 mm holes spaced 34.5 x 41
94 | //------------------------------------------------------------------------
95 | module board_pcd8544_blue() {
96 | difference() {
97 | color("darkblue") cube([43, 45.5, 1.2]);
98 | translate([4.25, 2.25, -interf]) {
99 | translate([ 0.0, 0, 0]) cylinder(r=1.6, h=(1.2 + interf * 2), $fn=16);
100 | translate([34.5, 0, 0]) cylinder(r=1.6, h=(1.2 + interf * 2), $fn=16);
101 | translate([ 0.0, 41, 0]) cylinder(r=1.6, h=(1.2 + interf * 2), $fn=16);
102 | translate([34.5, 41, 0]) cylinder(r=1.6, h=(1.2 + interf * 2), $fn=16);
103 | }
104 | }
105 | // Frame and LCD screen.
106 | difference() {
107 | translate([1.5, 6.0, 1.2])
108 | color("silver") cube([40, 34, 4]);
109 | translate([3.25, 7.5, 1.2 + 4 - 0.5])
110 | cube([36.5, 26, 0.6]);
111 | }
112 | translate([10.5, 2 + 2.54, 0])
113 | rotate(a=180, v=[1, 0, 0]) {
114 | pin_headers(8, 1);
115 | dupont_female(8, 1, [1, 1, 0]);
116 | }
117 | }
118 |
119 | //------------------------------------------------------------------------
120 | // PCD8544 LCD module (from Nokia 5110/3310 phones), red PCB.
121 | // Pin on top, 2.5 mm holes spaced 40 x 39
122 | //------------------------------------------------------------------------
123 | module board_pcd8544_red() {
124 | difference() {
125 | color("red") cube([43.5, 43.0, 1.2]);
126 | translate([1.75, 2.0, -interf]) {
127 | translate([ 0, 0, 0]) cylinder(r=1.25, h=(1.2 + interf * 2), $fn=16);
128 | translate([40, 0, 0]) cylinder(r=1.25, h=(1.2 + interf * 2), $fn=16);
129 | translate([ 0, 39, 0]) cylinder(r=1.25, h=(1.2 + interf * 2), $fn=16);
130 | translate([40, 39, 0]) cylinder(r=1.25, h=(1.2 + interf * 2), $fn=16);
131 | }
132 | }
133 | // Frame and LCD screen.
134 | difference() {
135 | translate([1.75, 5, 1.2])
136 | color("silver") cube([40, 34, 4]);
137 | translate([3.5, 7, 1.2 + 4 - 0.5])
138 | cube([36.5, 26, 0.6]);
139 | }
140 | translate([11.5, 42.5, 0])
141 | rotate(a=180, v=[1, 0, 0]) {
142 | pin_headers(8, 1);
143 | dupont_female(8, 1, [-1, 1, 0]);
144 | }
145 | }
146 |
147 | //------------------------------------------------------------------------
148 | // Sub-models for the Raspberry Pi Models
149 | //------------------------------------------------------------------------
150 | module video_rca() {
151 | x = 10; y = 9.8; z = 13;
152 | d = 8.3; h = 9.5;
153 | color("yellow") cube([x, y, z]);
154 | translate([-h, y / 2, (d / 2) + 4])
155 | rotate(a=90, v=[0, 1, 0])
156 | color("silver") cylinder(r=(d / 2), h=h);
157 | }
158 | module audio_jack() {
159 | x = 11.4; y = 12; z = 10.2;
160 | d = 6.7; h = 3.4;
161 | color("blue") cube([x, y, z]);
162 | translate([-h, y / 2, (d / 2) + 3])
163 | rotate(a=90, v=[0, 1, 0])
164 | color("blue") cylinder(r=(d / 2), h=h);
165 | }
166 | module ethernet_connector(x, y, z) {
167 | color("silver") cube([x, y, z]);
168 | }
169 | module usb_connector(x, y, z) {
170 | f = 0.6; // Flange
171 | color("silver") cube([x, y, z]);
172 | translate([-f, y - f, -f])
173 | color("silver") cube([x + f * 2, f, z + f * 2]);
174 | }
175 | module hdmi_connector(x, y, z) {
176 | color("silver") cube([x, y, z]);
177 | }
178 | module microusb_connector(x, y, z) {
179 | color("silver") cube([x, y, z]);
180 | }
181 | module capacitor(d, h) {
182 | color("silver") cylinder(r=(d / 2), h=h);
183 | }
184 | module micro_sd_card() {
185 | color("silver") translate([0, 0.0, -1.5]) cube([14, 13, 1.5]);
186 | color("darkblue") translate([2, -3.2, -1.0]) cube([11, 15, 1.0]);
187 | }
188 | module audio_video(size_x) {
189 | color([58/255, 58/255, 58/255]) {
190 | cube([size_x, 7, 5.6]);
191 | translate([size_x, 7 / 2, 5.6 / 2]) rotate([0,90,0]) cylinder(d=5.6, h=2.6);
192 | }
193 | }
194 |
195 | //------------------------------------------------------------------------
196 | // Raspberry Pi Model B v.2
197 | //------------------------------------------------------------------------
198 | module board_raspberrypi_model_b_v2() {
199 |
200 | $fn = 32;
201 | x = 56; y = 85; z = 1.6; // Official PCB size
202 | //ex = 15.40; ey = 21.8; ez = 13.0; // Official Ethernet offset
203 | ex = 16.00; ey = 21.3; ez = 13.5; // Measured Ethernet offset
204 | ux = 13.25; uy = 17.2; uz = 15.3; // Official USB connector size
205 | hx = 11.40; hy = 15.1; hz = 6.15; // Official HDMI connector size
206 | mx = 7.60; my = 5.6; mz = 2.40; // Official micro USB power connector size
207 |
208 | // The origin is the lower face of PCB.
209 | translate([0, 0, z]) {
210 | translate([x - 2 - ex, y - ey + 1, 0]) ethernet_connector(ex, ey, ez);
211 | translate([1.5, 1.0, 0]) pin_headers(2, 13);
212 | //translate([1.5, 1.0, 0]) dupont_female(1, 6, [-1, -1, 0]);
213 | translate([2.1, 40.6, 0]) video_rca();
214 | translate([0, 59.0, 0]) audio_jack();
215 | translate([18.8, 85 - uy + 7.7, 0]) usb_connector(ux, uy, uz);
216 | translate([x - hx + 1.2, 37.5, 0]) hdmi_connector(hx, hy, hz);
217 | translate([x - mx - 3.6, -0.5, 0]) microusb_connector(mx, my, mz);
218 | translate([14, -18, -4.4]) sd_card(); // Inserted
219 | //translate([14, -32, -4.4]) sd_card(); // Extracted
220 | translate([x - mx, -3, 1.2]) rotate(a=180, v=[0, 0, 1]) usb_male_micro_b_connector();
221 | translate([49.35, 12.75]) capacitor(6.5, 8);
222 | translate([18.8 + 0.625, 83, 10.4]) wifi_usb_edimax();
223 | translate([0, 0, -z]) {
224 | color("green") linear_extrude(height=z)
225 | difference() {
226 | square([x, y]);
227 | raspberrypi_model_b_v2_holes();
228 | }
229 | }
230 | }
231 | }
232 |
233 | //------------------------------------------------------------------------
234 | // Holes for the Raspberry Pi Model B v.2.
235 | //------------------------------------------------------------------------
236 | module raspberrypi_model_b_v2_holes() {
237 | x = 56; y = 85;
238 | translate([(x - 18), 25.5]) circle(r=(2.9 / 2), $fn=16);
239 | translate([12.5, (y - 5)]) circle(r=(2.9 / 2), $fn=16);
240 | }
241 |
242 | //------------------------------------------------------------------------
243 | // Raspberry Pi Model A+ rev.1.1
244 | //------------------------------------------------------------------------
245 | module board_raspberrypi_model_a_plus_rev1_1() {
246 |
247 | $fn = 32;
248 | x = 56; y = 65; z = 1.60; // Measured PCB size
249 | hx = 11.40; hy = 15.1; hz = 6.15; // Measured HDMI connector size
250 | ux = 13.25; uy = 13.8; uz = 6.0; // Measured USB connector size
251 | mx = 5.60; my = 7.6; mz = 2.40; // Measured micro USB power connector size
252 |
253 | // The origin is the lower face of PCB.
254 | translate([0, 0, z]) {
255 | translate([1.0, 7.1, 0]) pin_headers(2, 20);
256 | translate([x - hx + 1, 32.0 - (hy / 2), 0]) hdmi_connector(hx, hy, hz);
257 | translate([x - mx + 1, 10.6 - (my / 2), 0]) microusb_connector(mx, my, mz);
258 | translate([18, y - 12, 0.8]) usb_connector(ux, uy, uz);
259 | translate([20.5, 0.8, -z]) micro_sd_card();
260 | translate([x - 12.8, 50, 0]) audio_video(12.8);
261 | translate([18.6, y - 6, 1.4]) wifi_usb_edimax();
262 | translate([x + 2.2, 10.55, 1.2]) rotate(a=270, v=[0, 0, 1]) usb_male_micro_b_connector();
263 | translate([0, 0, -z]) {
264 | color("green") linear_extrude(height=z)
265 | difference() {
266 | hull() {
267 | translate([ 3, 3]) circle(r=3);
268 | translate([x-3, 3]) circle(r=3);
269 | translate([x-3, y-3]) circle(r=3);
270 | translate([ 3, y-3]) circle(r=3);
271 | }
272 | raspberrypi_model_a_plus_rev1_1_holes();
273 | }
274 | }
275 | }
276 | }
277 |
278 | //------------------------------------------------------------------------
279 | // Holes for the Raspberry Pi Model A+ rev.1.1.
280 | //------------------------------------------------------------------------
281 | module raspberrypi_model_a_plus_rev1_1_holes() {
282 | x = 56;
283 | translate([3.5, 3.5]) circle(r=(2.75 / 2), $fn=16);
284 | translate([(x - 3.5), 3.5]) circle(r=(2.75 / 2), $fn=16);
285 | translate([3.5, 3.5 + 58]) circle(r=(2.75 / 2), $fn=16);
286 | translate([(x - 3.5), 3.5 + 58]) circle(r=(2.75 / 2), $fn=16);
287 | }
288 |
289 |
290 | //------------------------------------------------------------------------
291 | // Raspberry Pi 3 Model B v.1.2.
292 | //------------------------------------------------------------------------
293 | module board_raspberrypi_3_model_b() {
294 | x = 56; y = 85; z = 1.60; // Measured PCB size
295 | ex = 15.9; ey = 21.5; ez = 13.5; // Ethernet measure
296 | ux = 13.1; uy = 17.1; uz = 15.5; // Measured USB connector size
297 | hx = 11.40; hy = 15.1; hz = 6.15; // Measured HDMI connector size
298 | mx = 5.60; my = 7.6; mz = 2.40; // Measured micro USB power connector size
299 | // The origin is the lower face of PCB.
300 | translate([0, 0, z]) {
301 | translate([1.0, 7.1, 0]) pin_headers(2, 20);
302 | translate([x - ex - 2.3, y - ey + 2.1, 0]) ethernet_connector(ex, ey, ez);
303 | translate([ 2.5, 85 - uy + 2.1, 0]) usb_connector(ux, uy, uz);
304 | translate([20.5, 85 - uy + 2.1, 0]) usb_connector(ux, uy, uz);
305 | translate([x - hx + 1.8, 25, 0]) hdmi_connector(hx, hy, hz);
306 | translate([x - 12.8, 50, 0]) audio_video(12.8);
307 | translate([20.5, 0.8, -z]) micro_sd_card();
308 | translate([x - mx + 1, 7, 0]) microusb_connector(mx, my, mz);
309 | translate([x + 2.2, 10.55, 1.2]) rotate(a=270, v=[0, 0, 1]) usb_male_micro_b_connector();
310 | translate([0, 0, -z]) {
311 | color("green") linear_extrude(height=z)
312 | difference() {
313 | hull() {
314 | translate([ 3, 3]) circle(r=3);
315 | translate([x-3, 3]) circle(r=3);
316 | translate([x-3, y-3]) circle(r=3);
317 | translate([ 3, y-3]) circle(r=3);
318 | }
319 | raspberrypi_3_model_b_holes();
320 | }
321 | }
322 | }
323 | }
324 |
325 | //------------------------------------------------------------------------
326 | // Holes for the Raspberry Pi B+, 2B, 3B, 3B+ and 4B Models.
327 | //------------------------------------------------------------------------
328 | module raspberrypi_3_model_b_holes() {
329 | x0 = 3.5; y0 = 3.5; x = 49; y = 58;
330 | translate([x0, y0]) {
331 | translate([0, 0]) circle(r=(2.75 / 2), $fn=16);
332 | translate([x, 0]) circle(r=(2.75 / 2), $fn=16);
333 | translate([0, y]) circle(r=(2.75 / 2), $fn=16);
334 | translate([x, y]) circle(r=(2.75 / 2), $fn=16);
335 | }
336 | }
337 |
338 | //------------------------------------------------------------------------
339 | // Raspberry Pi 4 Model B - (Credits to Richard Jelbert)
340 | //------------------------------------------------------------------------
341 | module board_raspberrypi_4_model_b() {
342 | fn = 64;
343 | x = 56; y = 85; z = 1.40; // Measured PCB size
344 | ex = 15.9; ey = 21.5; ez = 13.5; // Ethernet port size
345 | ux = 13.1; uy = 17.1; uz = 15.5; // Measured USB connector size
346 | hx = 7.80; hy = 6.5; hz = 3; // Measured micro HDMI connector size
347 | mx = 7.60; my = 9; mz = 3.20; // Measured USB-C power connector size
348 | module rpi4_cpu() { color("silver") cube([15, 15, 2.4]); }
349 | module rpi4_ram() { color("black") cube([15, 10.2, 1]); }
350 | module rpi4_wifi() { color("silver") cube([12, 10, 1.5]); }
351 | module rpi4_cameracon() { color("black") cube([22, 2.5, 5.5]); }
352 | module rpi4_usbc_connector(x, y, z) { color("silver") cube([x, y, z]); }
353 | // The origin is the lower face of PCB.
354 | translate([0, 0, z]) {
355 | translate([56-32.5-7.5,3.5+25.75-7.5,0]) rpi4_cpu();
356 | translate([56-32.5-7.5,3.5+43.75-7.5,0]) rpi4_ram();
357 | translate([7,6.5,0]) rpi4_wifi();
358 | translate([(56/2)-12,(4-1.25),0]) rpi4_cameracon();
359 | translate([(56)-22.3,(45),0]) rpi4_cameracon();
360 | translate([1.0, 7.1, 0]) pin_headers(2, 20);
361 | translate([x-(ex/2)-45.75, y - ey + 2.1, 0]) ethernet_connector(ex, ey, ez);
362 | translate([x-(ux/2)-27, 85 - uy + 2.1, 0]) usb_connector(ux, uy, uz);
363 | translate([x-(ux/2)-9, 85 - uy + 2.1, 0]) usb_connector(ux, uy, uz);
364 | translate([x - hx + 1.8, (3.5+7.7+14.8-(hy/2)), 0]) hdmi_connector(hx, hy, hz);
365 | translate([x - hx + 1.8, (3.5+7.7+14.8+13.5-(hy/2)), 0]) hdmi_connector(hx, hy, hz);
366 | translate([x - 12.8, 50, 0]) audio_video(12.8);
367 | translate([x - mx + 1, (3.5+7.7-(my/2)), 0]) rpi4_usbc_connector(mx, my, mz);
368 | //translate([20.5, 0.8, -z]) micro_sd_card();
369 | translate([0, 0, -z]) {
370 | color("green") linear_extrude(height=z)
371 | difference() {
372 | hull() {
373 | translate([ 3, 3]) circle(r=3, $fn = fn);
374 | translate([x-3, 3]) circle(r=3, $fn = fn);
375 | translate([x-3, y-3]) circle(r=3, $fn = fn);
376 | translate([ 3, y-3]) circle(r=3, $fn = fn);
377 | }
378 | raspberrypi_3_model_b_holes();
379 | }
380 | }
381 | }
382 | }
383 |
384 | //------------------------------------------------------------------------
385 | // GPS u-blox NEO-6M.
386 | //------------------------------------------------------------------------
387 | module ublox_neo6m_gps() {
388 | x = 24; y = 36; z = 0.80;
389 | holes_x = 18;
390 | holes_y = 30;
391 | hole_off_x = (x - holes_x) / 2;
392 | hole_off_y = (y - holes_y) / 2;
393 | pin_off_x = (x - 2.54 * 5) / 2;
394 | color([239/255, 32/255, 64/255]) linear_extrude(height=z) {
395 | difference() {
396 | square(size = [x, y]);
397 | translate([hole_off_x, hole_off_y]) circle(r=1.5, center=true, $fn=24);
398 | translate([hole_off_x + holes_x, hole_off_y]) circle(r=1.5, center=true, $fn=24);
399 | translate([hole_off_x, hole_off_y + holes_y]) circle(r=1.5, center=true, $fn=24);
400 | translate([hole_off_x + holes_x, hole_off_y + holes_y]) circle(r=1.5, center=true, $fn=24);
401 | }
402 | }
403 | translate([2, 12, z]) color("silver") cube(size=[15, 12, 2.4]);
404 | translate([9, 33, z+0.7]) color("gold") cylinder(r=1.3, h=1.4, center=true, $fn=24);
405 | //translate([pin_off_x, 3.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_headers(5, 1);
406 | translate([pin_off_x, 3.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_right_angle_low(5, 1);
407 | }
408 |
409 | //------------------------------------------------------------------------
410 | // GYBMEP: BME280 pressure, humidity and temperature sensor.
411 | //------------------------------------------------------------------------
412 | module bme280_gybmep() {
413 | x = 10.5; y = 14; z = 1.5;
414 | pin_off_x = (x - 2.54 * 4) / 2;
415 | color([134/255, 49/255, 117/255]) linear_extrude(height=z) {
416 | difference() {
417 | square(size = [x, y]);
418 | translate([2.8, 10.9]) circle(r=1.5, center=true, $fn=24);
419 | }
420 | }
421 | translate([6.0, 9.6, z]) color("silver") cube(size=[2.5, 2.5, 0.93]);
422 | //translate([pin_off_x, 2.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_headers(4, 1);
423 | translate([pin_off_x, 2.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_right_angle_low(4, 1);
424 | }
425 |
426 | //------------------------------------------------------------------------
427 | // GY-521: MPU-6050 Accelerometer and Gyroscope.
428 | //------------------------------------------------------------------------
429 | module mpu6050_gy521() {
430 | x = 21; y = 15.6; z = 1.2;
431 | color([30/255, 114/255, 198/255]) linear_extrude(height=z) {
432 | difference() {
433 | square(size = [x, y]);
434 | translate([3, y-3]) circle(r=1.5, center=true, $fn=24);
435 | translate([x-3, y-3]) circle(r=1.5, center=true, $fn=24);
436 | }
437 | }
438 | translate([8.3, 5.6, z]) color([60/255, 60/255, 60/255]) cube(size=[4.0, 4.0, 0.9]);
439 | //translate([0.34, 2.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_headers(8, 1);
440 | translate([0.34, 2.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_right_angle_low(8, 1);
441 | }
442 |
443 | //------------------------------------------------------------------------
444 | // GY-273: QMC5883L 3-Axis Magnetic Sensor.
445 | //------------------------------------------------------------------------
446 | module qmc5883l_gy273() {
447 | x = 13.6; y = 18.5; z = 1.15;
448 | pin_off_x = (x - 2.54 * 5) / 2;
449 | color([30/255, 114/255, 198/255]) linear_extrude(height=z) {
450 | difference() {
451 | square(size = [x, y]);
452 | translate([2.5, y-3]) circle(r=1.5, center=true, $fn=24);
453 | translate([x-2.5, y-3]) circle(r=1.5, center=true, $fn=24);
454 | }
455 | }
456 | translate([5.1, 8.3, z]) color([60/255, 60/255, 60/255]) cube(size=[3.0, 3.0, 0.9]);
457 | //translate([pin_off_x, 2.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_headers(5, 1);
458 | translate([pin_off_x, 2.54, 0]) rotate(a=180, v=[1, 0, 0]) pin_right_angle_low(5, 1);
459 | }
460 |
461 | //------------------------------------------------------------------------
462 | // X835 V1.1 SATA board for the Raspberry Pi, by Suptronics.com.
463 | //------------------------------------------------------------------------
464 | module suptronics_x835() {
465 |
466 | pcb_x = 101.6; pcb_y = 162.8; pcb_z = 1.75; // X835 board PCB size.
467 | legs_above_height = 11.7; legs_below_height = 32; // Legs sizes.
468 | legs_offset_x = 6.0; legs_offset_y = 3.5; // Legs distance from edges.
469 | usb_x1 = 14.5; usb_y1 = 13.2; usb_z1 = 5.75; // USB socket body.
470 | usb_x2 = 0.5; usb_y2 = 14.4; usb_z2 = 7.00; // USB socket external flange.
471 | usb_x3 = 10.0; usb_y3 = 12.0; usb_z3 = 4.50; // USB socket hole.
472 | usb_x4 = 10.0; usb_y4 = 11.0; usb_z4 = 1.60; // USB socket Key.
473 | usb_pos = [27.0, 48.0, 80.976, 101.976]; // USB sockets positions.
474 | rpi_mod_b_x = 56; rpi_mod_b_y = 85; // Raspberry Pi Model B PCB size.
475 | rpi_mod_b_holes_offset = 3.5; // Distance from the edges.
476 | hd_stands_pos = [37.60, 69.35, 113.80]; // Hard disk stands positions.
477 | hd_a5 = 3.18; // HD bottom screw holes from edge.
478 | pow_x = 14.0; pow_y = 9.0; pow_z = 11.0; // Power socket size.
479 | pow_hole_diam = 6.2; pow_hole_x = 9.5; // Power socket hole.
480 | pow_pin_diam = 2.55; // Power socket pin.
481 | legs_above_pos = [
482 | [ 0, 0],
483 | [49, 0],
484 | [ 0, 58],
485 | [49, 58]
486 | ];
487 | legs_below_pos = [
488 | [legs_offset_x, legs_offset_y],
489 | [pcb_x - legs_offset_x, legs_offset_y],
490 | [pcb_x - legs_offset_x, pcb_y - legs_offset_y],
491 | [legs_offset_x, pcb_y - legs_offset_y]
492 | ];
493 |
494 | // Submodule for standing legs.
495 | module x835_leg(height) {
496 | hole_depth = 5;
497 | hole_diam = 2.6;
498 | difference() {
499 | cylinder(r=5.20/2, h=height, $fn=6);
500 | translate([0, 0, -interf]) cylinder(r=hole_diam/2, h=hole_depth, $fn=32);
501 | translate([0, 0, height-hole_depth+interf]) cylinder(r=hole_diam/2, h=hole_depth, $fn=32);
502 | }
503 | }
504 |
505 | // Submodule for hard disk standings.
506 | module x835_hd_stand() {
507 | hd_stand_height = 2.70;
508 | hd_stand_diam = 5.50;
509 | hd_stand_hole_diam = 2.50;
510 | translate([0, 0, -(hd_stand_height / 2)])
511 | color("silver") difference() {
512 | cylinder(center=true, r=hd_stand_diam/2, h=hd_stand_height, $fn=48);
513 | cylinder(center=true, r=hd_stand_hole_diam/2, h=hd_stand_height+interf*2, $fn=32);
514 | }
515 | }
516 |
517 | // Submodule for USB ports.
518 | module x835_usb_port() {
519 | color("silver")
520 | difference() {
521 | union() {
522 | cube(center=true, size=[usb_x1, usb_y1, usb_z1]);
523 | translate([(usb_x1 - usb_x2) / 2, 0, 0])
524 | cube(center=true, size=[usb_x2, usb_y2, usb_z2]);
525 | }
526 | translate([(usb_x1 - usb_x3) / 2 + interf, 0, 0])
527 | cube(center=true, size=[usb_x3, usb_y3, usb_z3]);
528 | }
529 | color([0/255, 0/255, 198/255]) translate([(usb_x1 - usb_x3) / 2, 0, usb_z4 / 2])
530 | cube(center=true, size=[usb_x4, usb_y4, usb_z4]);
531 | }
532 |
533 | // Submodule for 12 V power socket.
534 | module x835_power_socket() {
535 | color([35/255, 35/255, 35/255])
536 | difference() {
537 | cube(center=true, size=[pow_x, pow_y, pow_z]);
538 | translate([(pow_x-pow_hole_x)/2+interf, 0, (pow_y - pow_hole_diam) / 2])
539 | rotate(a=90, v=[0, 1, 0])
540 | cylinder(center=true, r=pow_hole_diam/2, h=pow_hole_x, $fn=32);
541 | }
542 | color("silver")
543 | translate([(pow_x - pow_hole_x) / 2, 0, (pow_y - pow_hole_diam) / 2])
544 | rotate(a=90, v=[0, 1, 0])
545 | cylinder(center=true, r=pow_pin_diam/2, h=pow_hole_x, $fn=32);
546 | }
547 |
548 | translate([0, 0, legs_below_height]) {
549 | // The PCB.
550 | color ([43/255, 53/255, 77/255]) linear_extrude(height=pcb_z) {
551 | difference() {
552 | square(size=[pcb_x, pcb_y]);
553 | // Bottom legs holes.
554 | for(center = legs_below_pos) {
555 | translate(center) circle(r=1.25, $fn=24);
556 | }
557 | // RPi holes.
558 | translate([pcb_x - rpi_mod_b_y, rpi_mod_b_x])
559 | rotate(a=270, v=[0, 0, 1])
560 | raspberrypi_3_model_b_holes();
561 | // HD holes.
562 | for(pos = hd_stands_pos) {
563 | translate([pcb_x - hd_a5, pos]) circle(r=1.25, $fn=24);
564 | translate([hd_a5, pos]) circle(r=1.25, $fn=24);
565 | }
566 | }
567 | }
568 | // HD stands.
569 | for(pos = hd_stands_pos) {
570 | translate([pcb_x - hd_a5, pos, 0]) x835_hd_stand();
571 | translate([hd_a5, pos, 0]) x835_hd_stand();
572 | }
573 | // USB ports.
574 | translate([pcb_x - (usb_x1 / 2), 0, pcb_z + (usb_z2 / 2)]) {
575 | for(pos = usb_pos) {
576 | translate([0, pos, 0])
577 | x835_usb_port();
578 | }
579 | }
580 | // Power socket.
581 | translate([pcb_x - (pow_x / 2), pcb_y - 25.8, pcb_z + pow_z / 2])
582 | x835_power_socket();
583 | }
584 | // Bottom legs.
585 | for(center = legs_below_pos)
586 | translate(center) x835_leg(legs_below_height);
587 | // Top legs.
588 | translate([pcb_x - rpi_mod_b_y + rpi_mod_b_holes_offset, rpi_mod_b_x - rpi_mod_b_holes_offset, legs_below_height + pcb_z])
589 | rotate(a=270, v=[0, 0, 1])
590 | for(center = legs_above_pos)
591 | translate(center) x835_leg(legs_above_height);
592 | }
593 |
--------------------------------------------------------------------------------
/misc_gadgets.scad:
--------------------------------------------------------------------------------
1 | //------------------------------------------------------------------------
2 | // Author: Niccolo Rigacci
3 | // Version: 1.0 2017-12-14
4 | // License: GNU General Public License v3.0
5 | //------------------------------------------------------------------------
6 |
7 | include ;
8 |
9 | //------------------------------------------------------------------------
10 | // Powered USB 3.0 Hub 4 ports, Amazon Basics.
11 | //------------------------------------------------------------------------
12 | module usb_hub_4p_amazon_basics() {
13 | x = 91; y = 41; z = 16;
14 | h1 = 6;
15 | color([92/255, 92/255, 92/255]) {
16 | cube(size = [x, y, z]);
17 | rotate(a = 90, v = [0, 1, 0]) {
18 | translate([-z/2, y/2, x + h1/2]) cylinder(r1 = 7/2, r2 = 6/2, h = h1, center = true, $fn = 32);
19 | translate([-z/2, y/2, x + 20/2]) cylinder(r = 4/2, h = 20, center = true, $fn = 32);
20 | }
21 | }
22 | for (x_pos = [15, 35, 55, 75])
23 | translate([x_pos, -2, 9]) rotate(a = 180, v = [1, 0, 0]) usb_male_type_a_connector();
24 | translate([x + 1, 31, z/2]) rotate(a=270, v=[0, 0, 1]) coax_power_plug();
25 | }
26 |
27 | //------------------------------------------------------------------------
28 | // Powered USB 2.0 Hub 7 ports, Amazon Basics.
29 | //------------------------------------------------------------------------
30 | module usb2_hub_7p_amazon_basics() {
31 | x = 68.5; y = 87; z = 24.5;
32 | color([92/255, 92/255, 92/255]) {
33 | linear_extrude(height=z)
34 | union() {
35 | polygon(points=[[0,0],[x,0],[x,53.5],[42,83.3],[0,y],[0,82.5],[5,81],[5,6.5],[0,4.5]]);
36 | translate([x-30, 53.5]) circle(r=30, center=true, $fn=64);
37 | }
38 | translate([36, 41, -5])
39 | linear_extrude(height=5 + interf)
40 | difference() {
41 | square([24.3,23.2],center=true);
42 | square([18.3,16.6],center=true);
43 | square([5.7, 23.2 + interf * 2],center=true);
44 | }
45 | }
46 | for (y_pos = [36, 45.25, 54.50, 63.75, 73])
47 | translate([3, y_pos, 14]) rotate(a=90, v=[0,0,1]) rotate(a=90, v=[0, 1, 0]) usb_male_type_a_connector();
48 | for (y_pos = [17.0, 26.25])
49 | translate([70.5, y_pos, 14]) rotate(a=270, v=[0,0,1]) rotate(a=90, v=[0, 1, 0]) usb_male_type_a_connector();
50 | translate([1.5, 16.5, 12.5]) rotate(a=90, v=[0,0,1]) usb_male_type_b_connector();
51 | translate([1.5, 28.0, 9.0]) rotate(a=90, v=[0, 0, 1]) coax_power_plug_3p5();
52 | }
53 |
54 | //------------------------------------------------------------------------
55 | // UGREEN USB Audio Adapter.
56 | //------------------------------------------------------------------------
57 | module usb_audio_adapter_ugreen() {
58 | x = 70; y = 55; z = 22; rca_h = 5.5; rca_d = 8.4;
59 | color([224/255, 224/255, 224/255]) difference() {
60 | cube(size = [x, y, z]);
61 | translate([-interf, 7.5, 10]) rotate(a=90, v=[0, 1, 0]) cylinder(r=(3.5/2), h=20, $fn=24);
62 | translate([-interf, y-7.5, 10]) rotate(a=90, v=[0, 1, 0]) cylinder(r=(3.5/2), h=20, $fn=24);
63 | }
64 | translate([-rca_h/2, 20.2, 14.8]) rotate(a = 90, v = [0, 1, 0]) color("gold") cylinder(r = rca_d/2, h = rca_h, center = true, $fn = 32);
65 | translate([-rca_h/2, y-20.2, 14.8]) rotate(a = 90, v = [0, 1, 0]) color("gold") cylinder(r = rca_d/2, h = rca_h, center = true, $fn = 32);
66 | translate([x + 6.5/2, y / 2, z/2]) rotate(a = 90, v = [0, 1, 0]) color("white") cylinder(r = 8/2, h = 6.5, $fn=32, center=true);
67 | translate([x + 20/2, y / 2, z/2]) rotate(a = 90, v = [0, 1, 0]) color("white") cylinder(r = 4.5/2, h = 20, $fn=32, center=true);
68 | }
69 |
70 | //------------------------------------------------------------------------
71 | // Toshiba external USB 2.5" hard disk.
72 | //------------------------------------------------------------------------
73 | module usb_hard_disk_toshiba() {
74 | x = 79; y = 119; z = 16;
75 | color([92/255, 92/255, 92/255]) cube(size = [x, y, z]);
76 | translate([(x - 5) / 2, 110, z]) color("white") cube(size = [5, 2, 0.1]);
77 | color([64/255, 64/255, 64/255]) {
78 | // USB connector.
79 | translate([40, y, 4.5]) cube(size = [16, 18, 6]);
80 | translate([40 + 3.5, y + 18, 4.5]) cube(size = [9, 15, 6]);
81 | translate([40 + 8, y + 40.5, 7.5]) rotate(a = 90, v = [-1, 0, 0]) cylinder(r = 3.5/2, h = 15, center = true, $fn = 32);
82 | }
83 | }
84 |
85 | //------------------------------------------------------------------------
86 | // Hard disk 3.5 inches form factor.
87 | //------------------------------------------------------------------------
88 | module hard_disk_35_inches() {
89 | hd_a1 = 26.10;
90 | hd_a2 = 147.00;
91 | hd_a3 = 101.60;
92 | hd_a4 = 95.25;
93 | hd_a5 = 3.18;
94 | hd_a6 = 44.45;
95 | hd_a7 = 41.28;
96 | hd_a8 = 28.50;
97 | hd_a8b = 41.61;
98 | hd_a9 = 101.60;
99 | hd_a10 = 6.35;
100 | hd_a13 = 76.20;
101 | hole_depth = 3.80;
102 | module screw_hole() {
103 | cylinder(center=true, r=1.5, h=hole_depth, $fn=32);
104 | }
105 | color("grey")
106 | difference() {
107 | cube(size=[hd_a3, hd_a2, hd_a1]);
108 | translate([(hd_a3-97.0)/2, hd_a2-7.20+interf, -interf]) cube(size=[97.0, 7.20, 9.0]);
109 | // Bottom holes.
110 | hole_z = hole_depth / 2 - interf;
111 | translate([hd_a5 + hd_a4, hd_a2 - hd_a7 - hd_a13, hole_z]) screw_hole();
112 | translate([hd_a5 + hd_a4, hd_a2 - hd_a7 - hd_a6, hole_z]) screw_hole();
113 | translate([hd_a5 + hd_a4, hd_a2 - hd_a7, hole_z]) screw_hole();
114 | translate([hd_a5, hd_a2 - hd_a7 - hd_a13, hole_z]) screw_hole();
115 | translate([hd_a5, hd_a2 - hd_a7 - hd_a6, hole_z]) screw_hole();
116 | translate([hd_a5, hd_a2 - hd_a7, hole_z]) screw_hole();
117 | // Side holes.
118 | translate([hole_z, hd_a2 - hd_a8 - hd_a9, hd_a10]) rotate(a=90, v=[0, 1, 0]) screw_hole();
119 | translate([hole_z, hd_a2 - hd_a8 - hd_a8b, hd_a10]) rotate(a=90, v=[0, 1, 0]) screw_hole();
120 | translate([hole_z, hd_a2 - hd_a8, hd_a10]) rotate(a=90, v=[0, 1, 0]) screw_hole();
121 | translate([hd_a3 - hole_z, hd_a2 - hd_a8 - hd_a9, hd_a10]) rotate(a=90, v=[0, 1, 0]) screw_hole();
122 | translate([hd_a3 - hole_z, hd_a2 - hd_a8 - hd_a8b, hd_a10]) rotate(a=90, v=[0, 1, 0]) screw_hole();
123 | translate([hd_a3 - hole_z, hd_a2 - hd_a8, hd_a10]) rotate(a=90, v=[0, 1, 0]) screw_hole();
124 | }
125 | // SATA connector.
126 | color([20/255, 20/255, 10/255])
127 | translate([50, hd_a2-7.5, interf]) {
128 | difference() {
129 | cube(size=[43.0, 7.5, 6.24]);
130 | translate([(43.0-37.2)/2, 7.5 - 5.4 + interf, -interf])
131 | cube(size=[37.20, 5.4, 6.25 - 1.50]);
132 | }
133 | translate([17.7, 0, 2.1]) {
134 | cube(size=[20.6, 7.5, 1.25]);
135 | translate([0, 0, -(2.4-1.25)]) cube(size=[1.15, 7.5, 2.4]);
136 | }
137 | translate([4.8, 0, 2.1]) {
138 | cube(size=[10.4, 7.5, 1.25]);
139 | translate([10.4-1.15, 0, -(2.4-1.25)]) cube(size=[1.15, 7.5, 2.4]);
140 | }
141 | }
142 | }
143 |
--------------------------------------------------------------------------------
/misc_parts.scad:
--------------------------------------------------------------------------------
1 | //------------------------------------------------------------------------
2 | // OpenSCAD models of miscellaneous components and devices:
3 | // Pin headers, SD-Card, Edimax WiFi nano dongle, etc.
4 | //
5 | // Author: Niccolo Rigacci
6 | // Version: 1.0 2017-12-14
7 | // License: GNU General Public License v3.0
8 | //------------------------------------------------------------------------
9 |
10 | //------------------------------------------------------------------------
11 | // Rocker switch.
12 | //------------------------------------------------------------------------
13 | module rocker_switch() {
14 | x1 = 19.0; y1 = 12.0; z1 = 10.5;
15 | x2 = 21.5; y2 = 15.0; z2 = 2.0;
16 | x3 = 0.75; y3 = 4.9; z3 = 8.5;
17 | x4 = 15; y4 = 10; z4 = 4;
18 | step = 6.8;
19 | pin = 3;
20 | union() {
21 | color("brown") translate([-(x1 / 2), -(y1 / 2), -z1]) cube([x1, y1, z1]);
22 | color("brown") translate([-(x2 / 2), -(y2 / 2), 0]) cube([x2, y2, z2]);
23 | color("brown") rotate(a=10, v=[0, 1, 0]) translate([-(x4 / 2), -(y4 / 2), 0]) cube([x4, y4, z4]);
24 | for(i = [0 : (pin -1)]) {
25 | translate([-(((pin - 1) * step / 2)) + (step * i) - (x3 / 2), -(y3 / 2), -(z1 + z3)])
26 | color("silver") cube([x3, y3, z3]);
27 | }
28 | }
29 | }
30 |
31 | //------------------------------------------------------------------------
32 | // Coaxial power plug 5.0 mm.
33 | //------------------------------------------------------------------------
34 | module coax_power_plug() {
35 | $fn = 32;
36 | rotate(a=270, v=[1, 0, 0]) {
37 | translate([0, 0, -4]) color("silver") cylinder(r=5/2, h=8, center=true);
38 | color([82/255, 82/255, 82/255]) {
39 | translate([0, 0, 5]) cylinder(r1=8/2, r2=10/2, h=10, center=true);
40 | translate([0, 0, 19]) cylinder(r1=10/2, r2=7/2, h=18, center=true);
41 | translate([0, 0, 35.5]) cylinder(r=4/2, h=15, center=true); // Cable
42 | translate([0, 0, -9]) cylinder(r=5/2, h=2, center=true); // Tip
43 | }
44 | }
45 | }
46 |
47 | //------------------------------------------------------------------------
48 | // Coaxial power plug 3.5 mm.
49 | //------------------------------------------------------------------------
50 | module coax_power_plug_3p5() {
51 | $fn = 32;
52 | rotate(a=270, v=[1, 0, 0]) {
53 | translate([0, 0, -4.5]) color("silver") cylinder(r=3.5/2, h=9, center=true);
54 | color([82/255, 82/255, 82/255]) {
55 | translate([0, 0, 6]) cylinder(r1=7/2, r2=10/2, h=12, center=true);
56 | translate([0, 0, 20]) cylinder(r1=10/2, r2=7/2, h=16, center=true);
57 | translate([0, 0, 35.5]) cylinder(r=4/2, h=15, center=true); // Cable
58 | translate([0, 0, -9.5]) cylinder(r=3.5/2, h=1, center=true); // Tip
59 | }
60 | }
61 | }
62 |
63 |
64 | //------------------------------------------------------------------------
65 | // Coaxial power plug socket, with 2.1 mm pin.
66 | //------------------------------------------------------------------------
67 | module coax_power_socket() {
68 | r1 = 5.00; h1 = 4;
69 | r2 = 4.00; h2 = 8.0;
70 | r3 = 2.75; h3 = 10; // Hole
71 | r4 = 6.50; h4 = 2.2; // Bolt
72 | r5 = 1.05; h5 = 3.0; // Center pin
73 | x1 = 2.2; y1 = 0.3; z1 = 5;
74 | step = 4.5;
75 | color([0.15, 0.15, 0.15]) difference() {
76 | union() {
77 | cylinder(r=r1, h=h1, $fn=18);
78 | translate([0, 0, -h2]) cylinder(r=r2, h=h2, $fn=18);
79 | }
80 | translate([0, 0, -h3 + h1 ]) cylinder(r=r3, h=(h3 + 0.1), $fn=18);
81 | }
82 | color("silver") cylinder(r=r5, h=h5, $fn=18);
83 | translate([0, 0, -(h4 + 2)]) color("gray") cylinder(r=r4, h=h4, $fn=6);
84 | translate([-(x1 / 2), (step - y1) / 2, -(h2 + z1)]) color("gold") cube([x1, y1, z1]);
85 | translate([-(x1 / 2), -(step + y1) / 2, -(h2 + z1)]) color("gold") cube([x1, y1, z1]);
86 | }
87 |
88 | //------------------------------------------------------------------------
89 | // Coaxial power plug socket, with 2.1 mm pin. Metal body.
90 | //------------------------------------------------------------------------
91 | module coax_metal_power_socket() {
92 | r1 = 6.20; h1 = 2.20; // Collar
93 | r2 = 4.80; h2 = 14.50; // Main body
94 | r3 = 2.77; h3 = 7.28; // Hole
95 | r4 = 7.80; h4 = 2.30; // Bolt
96 | r5 = 1.05; h5 = h3-2.4; // Center pin
97 | x1 = 3.0; y1 = 0.4; z1 = 10; // Negative pin
98 | color("silver") difference() {
99 | union() {
100 | cylinder(r=r1, h=h1, $fn=18);
101 | translate([0, 0, -h2]) cylinder(r=r2, h=h2, $fn=36);
102 | }
103 | translate([0, 0, -h3 + h1 ]) cylinder(r=r3, h=(h3 + 0.1), $fn=24);
104 | }
105 | translate([0, 0, -5.1]) color("silver") cylinder(r=r5, h=h5, $fn=18);
106 | translate([0, 0, -(h4 + 2)]) color("gray") cylinder(r=r4, h=h4, $fn=6);
107 | translate([0, 0, -(h2 + 5.90)]) color("silver") cylinder(r=1.25, h=5.90, $fn=24);
108 | translate([-(x1 / 2), r2-y1*2, -(h2 + z1)]) color("silver") cube([x1, y1, z1]);
109 | }
110 |
111 | //------------------------------------------------------------------------
112 | // Metal momentary push switch 8 mm.
113 | //------------------------------------------------------------------------
114 | module push_switch_8mm() {
115 | $fn = 32;
116 | h1 = 3.3;
117 | h2 = 9.0;
118 | h3 = h2 + 1.0;
119 | x1 = 1.5; y1 = 0.5; z1 = 4.5;
120 | step = 3;
121 | translate([0, 0, 0]) color("silver") cylinder(r=12/2, h=h1);
122 | translate([0, 0, h1]) color("silver") cylinder(r=7.5/2, h=1.5);
123 | translate([0, 0, -h2]) color("silver") cylinder(r=7.8/2, h=h2);
124 | translate([0, 0, -h3]) color("white") cylinder(r=4.8/2, h=1.1);
125 | translate([0, 0, -6]) color("gray") cylinder(r=11.3/2, h=2.4, $fn=6);
126 | translate([-(x1 / 2), (step - y1) / 2, -(h3 + z1)]) color("gold") cube([x1, y1, z1]);
127 | translate([-(x1 / 2), -(step + y1) / 2, -(h3 + z1)]) color("gold") cube([x1, y1, z1]);
128 | }
129 |
130 | //------------------------------------------------------------------------
131 | // Mini push button.
132 | //------------------------------------------------------------------------
133 | module push_button() {
134 | $fn = 24;
135 | r1 = 2.0; h1 = 4;
136 | r2 = 3.1; h2 = 6.5;
137 | r3 = 5.0; h3 = 8.0;
138 | r4 = 4.5; h4 = 1.8; // Nut.
139 | x1 = 2.5; y1 = 0.3; z1 = 6;
140 | step = 5;
141 | translate([0, 0, h2]) color("black") cylinder(r=r1, h=h1);
142 | translate([0, 0, 0]) color("silver") cylinder(r=r2, h=h2);
143 | translate([0, 0, -h3]) color("gray") cylinder(r=r3, h=h3);
144 | translate([0, 0, 2]) color("gray") cylinder(r=r4, h=h4, $fn=6);
145 | translate([-(x1 / 2), (step - y1) / 2, -(h3 + z1)]) color("gold") cube([x1, y1, z1]);
146 | translate([-(x1 / 2), -(step + y1) / 2, -(h3 + z1)]) color("gold") cube([x1, y1, z1]);
147 | }
148 |
149 | //------------------------------------------------------------------------
150 | // Matrix of 2.54 mm dupont female connectors.
151 | //------------------------------------------------------------------------
152 | module dupont_female(cols, rows, wire_v) {
153 | w = 2.54; h = 14;
154 | wire_d = 1.2;
155 | z = 2.74; // Stay 0.2 mm above the pin connector.
156 | for(x = [0 : (cols -1)]) {
157 | for(y = [0 : (rows - 1)]) {
158 | translate([w * x, w * y, z]) {
159 | color([0.2, 0.2, 0.2]) cube ([w, w, h]);
160 | translate([w / 2, w / 2, h]) {
161 | color("red") cylinder(r=wire_d / 2, h=2.5);
162 | translate([0, 0, 2.5]) rotate(a=90, v=wire_v)
163 | color("red") cylinder(r=wire_d / 2, h=10, $fn=12);
164 | }
165 | }
166 | }
167 | }
168 | }
169 |
170 | //------------------------------------------------------------------------
171 | // Matrix of 2.54 mm female connectors.
172 | //------------------------------------------------------------------------
173 | module pin_female(cols, rows=1) {
174 | w = 2.54; h = 8.5; p = 0.65;
175 | for(x = [0 : (cols -1)]) {
176 | for(y = [0 : (rows - 1)]) {
177 | translate([w * x, w * y, 0]) {
178 | union() {
179 | color([0.2, 0.2, 0.2]) difference() {
180 | cube([w, w, h]);
181 | translate([(w - p) / 2,(w - p) / 2,h - 6]) cube([p, p, 6.1]);
182 | }
183 | color("gold") translate([(w - p) / 2, (w - p) / 2, -3]) cube([p, p, 3]);
184 | }
185 | }
186 | }
187 | }
188 | }
189 |
190 | //------------------------------------------------------------------------
191 | // Matrix of 2.54 mm pins.
192 | //------------------------------------------------------------------------
193 | module pin_headers(cols, rows) {
194 | w = 2.54; h = 2.54; p = 0.65;
195 | for(x = [0 : (cols -1)]) {
196 | for(y = [0 : (rows - 1)]) {
197 | translate([w * x, w * y, 0]) {
198 | union() {
199 | color("black") cube([w, w, h]);
200 | color("gold") translate([(w - p) / 2, (w - p) / 2, -3]) cube([p, p, 11.54]);
201 | }
202 | }
203 | }
204 | }
205 | }
206 |
207 | //------------------------------------------------------------------------
208 | // Pin header, 2.54 mm, right angle, low profile.
209 | //------------------------------------------------------------------------
210 | module pin_right_angle_low(cols) {
211 | w = 2.54; p = 0.65;
212 | d = (w - p) / 2;
213 | for(x = [0 : (cols -1)]) {
214 | translate([w * x, 0, 0]) {
215 | color("black") translate([0, 2 + d, 0]) cube([w, w, w]);
216 | color("gold") translate([d, d, -3]) cube([p, p, 3 + w / 2]);
217 | color("gold") translate([d, d + 8 + w, d]) rotate(a=90, v=[1, 0, 0]) cube([p, p, 6 + w + 2]);
218 | }
219 | }
220 | }
221 |
222 | module pin_right_angle_low_custom(cols) {
223 | w = 2.54; p = 0.65;
224 | d = (w - p) / 2;
225 | for(x = [0 : (cols -1)]) {
226 | translate([w * x, 0, 0]) {
227 | color("black") translate([0, 0, 0]) cube([w, w, w]);
228 | color("gold") translate([d, d, -3]) cube([p, p, 3 + w + p]);
229 | color("gold") translate([d, 7.3 + d, w + 0.1]) rotate(a=90, v=[1, 0, 0]) cube([p, p, 7.3]);
230 | }
231 | }
232 | }
233 |
234 |
235 | //------------------------------------------------------------------------
236 | // Pin header, 2.54 mm, right angle, high profile.
237 | //------------------------------------------------------------------------
238 | module pin_right_angle_high(cols) {
239 | w = 2.54; p = 0.65;
240 | d = (w - p) / 2;
241 | for(x = [0 : (cols -1)]) {
242 | translate([w * x, 0, 0]) {
243 | color("black") cube([w, w, w]);
244 | color("gold") translate([d, d, -3]) cube([p, p, 9]);
245 | color("gold") translate([d, d + 8, 9 - 3 - p]) rotate(a=90, v=[1, 0, 0]) cube([p, p, 8]);
246 | }
247 | }
248 | }
249 |
250 | //------------------------------------------------------------------------
251 | // Pin hreader, 2.54 mm, right angle, double line.
252 | //------------------------------------------------------------------------
253 | module pin_right_angle_double(cols) {
254 | w = 2.54; p = 0.65;
255 | d = (w - p) / 2;
256 | for(x = [0 : (cols -1)]) {
257 | translate([w * x, 0, 0]) {
258 | color("black") translate([0, 2 + d + w, 0]) cube([w, w, w]);
259 | color("black") translate([0, 2 + d + w, w]) cube([w, w, w]);
260 | color("gold") translate([d, d, -3]) cube([p, p, 3 + w / 2 + w]);
261 | color("gold") translate([d, d + w, -3]) cube([p, p, 3 + w / 2]);
262 | color("gold") translate([d, d + 8 + w + w, d + w]) rotate(a=90, v=[1, 0, 0]) cube([p, p, 6 + w + 2 + w]);
263 | color("gold") translate([d, d + 8 + w + w, d]) rotate(a=90, v=[1, 0, 0]) cube([p, p, 6 + w + 2]);
264 | }
265 | }
266 | }
267 |
268 | //------------------------------------------------------------------------
269 | // Secure Digital Memory Card 24x32 mm.
270 | //------------------------------------------------------------------------
271 | module sd_card() {
272 | color("blue")
273 | linear_extrude(height=2.1)
274 | polygon([[0, 0], [24, 0], [24, 32], [4.5, 32], [0, (32 - 4.5)]]);
275 | }
276 |
277 | //------------------------------------------------------------------------
278 | // USB male Type-A connector.
279 | //------------------------------------------------------------------------
280 | module usb_male_type_a_connector() {
281 | $fn = 32;
282 | translate([0, -12/2, 0]) color("silver") cube(size=[12, 12, 4], center=true);
283 | color([82/255, 82/255, 82/255]) {
284 | translate([0, 22/2, 0]) cube(size=[16, 22, 8], center=true);
285 | translate([0, 22 + 4/2, 0]) cube(size=[7, 4, 7], center=true);
286 | translate([0, 22 + 4 + 15/2, 0]) rotate(a=90, v=[1, 0, 0]) cylinder(r=4/2, h=15, center=true);
287 | }
288 | }
289 |
290 | //------------------------------------------------------------------------
291 | // USB male Micro-B connector.
292 | //------------------------------------------------------------------------
293 | module usb_male_micro_b_connector() {
294 | x1 = 6.85; y1 = 6.70; z1 = 1.80; // Metal part
295 | x2 = 10.5; y2 = 19; z2 = 7; // Plastic part
296 | r1 = 3.2; r2 = 2.4; h = 10; // Plastic cone part
297 | $fn = 32;
298 | translate([0, -y1/2, 0]) color("silver") cube([x1, y1, z1], center = true);
299 | color([82/255, 82/255, 82/255]) {
300 | translate([0, y2/2, 0]) cube([x2, y2, z2], center = true);
301 | translate([0, y2 + h/2, 0]) rotate(a=270, v=[1, 0, 0]) cylinder(r1=r1, r2=r2, h=h, center=true);
302 | translate([0, y2 + h + 5, 0]) rotate(a=90, v=[1, 0, 0]) cylinder(r=3.5/2, h=10, center=true);
303 | }
304 | }
305 |
306 | //------------------------------------------------------------------------
307 | // USB male Type-B plug.
308 | //------------------------------------------------------------------------
309 | module usb_male_type_b_connector() {
310 | x1 = 8.0; y1 = 12.5; z1 = 7.5; // Metal part
311 | x2 = 12; y2 = 31; z2 = 11; // Plastic part
312 | r1 = 4; r2 = 3.5; h = 12; // Plastic cone part
313 | $fn = 32;
314 | color("silver") difference() {
315 | translate([0, -y1/2, 0]) cube([x1, y1, z1], center = true);
316 | translate([ x1/2, -y1/2, z1/2]) rotate(a=45, v=[0,1,0]) cube([2, y1 + 0.2, 2], center = true);
317 | translate([-x1/2, -y1/2, z1/2]) rotate(a=45, v=[0,1,0]) cube([2, y1 + 0.2, 2], center = true);
318 | }
319 | color([82/255, 82/255, 82/255]) {
320 | translate([0, y2/2, 0]) cube([x2, y2, z2], center = true);
321 | translate([0, y2 + h/2, 0]) rotate(a=270, v=[1, 0, 0]) cylinder(r1=r1, r2=r2, h=h, center=true);
322 | translate([0, y2 + h + 5, 0]) rotate(a=90, v=[1, 0, 0]) cylinder(r=4/2, h=10, center=true);
323 | }
324 | }
325 |
326 | //------------------------------------------------------------------------
327 | // Micro HDMI right-angle connector.
328 | //------------------------------------------------------------------------
329 | module hdmi_micro_right_angle_connector() {
330 | x1 = 5.85; y1 = 6.00; z1 = 2.30; // Metal part
331 | x2 = 11.20; y2 = 17.80; z2 = 8.00; // Plastic part1
332 | x3 = 19.54; y3 = 11.20; z3 = 7.50; // Plastic part2
333 | x4 = 28.80; y4 = 7.50; z4 = 6.50; // Plastic part3
334 | cable_len = 50;
335 | $fn = 32;
336 | translate([0, -y1/2, 0]) color("gold") cube([x1, y1, z1], center = true);
337 | color([32/255, 32/255, 32/255]) {
338 | translate([0, y2/2, 0]) cube([x2, y2, z2], center = true);
339 | translate([(x2-x3)/2, y2-y3/2, 0]) cube([x3, y3, z3], center = true);
340 | translate([(x2-x4)/2, y4/2 + (y2-y3), 0]) cube([x4, y4, z4], center = true);
341 | translate([-cable_len/2, y4/2 + (y2-y3), 0]) rotate(a=90, v=[0, 1, 0]) cylinder(r=4/2, h=cable_len, center=true);
342 | }
343 | }
344 |
345 |
346 | //------------------------------------------------------------------------
347 | // Nano WiFi USB dongle by Edimax (EW-7811UN).
348 | //------------------------------------------------------------------------
349 | module wifi_usb_edimax() {
350 | x1 = 12.0; y1 = 12.0; z1 = 4.5;
351 | x2 = 15.0; y2 = 5.5; z2 = 7.0;
352 | color("gold") cube([x1, y1, z1]);
353 | translate([(x1 - x2) / 2, y1, (z1 - z2) / 2])
354 | color("black") cube([x2, y2, z2]);
355 | }
356 |
--------------------------------------------------------------------------------
/rpi-micro-media-hub.scad:
--------------------------------------------------------------------------------
1 | //------------------------------------------------------------------------
2 | // OpenSCAD project of an enclosure for a Raspberry Pi media hub.
3 | //
4 | // The enclosure accomodates the following parts:
5 | // * The Raspberry Pi 3 Model 3
6 | // * A 7 ports powered USB hub
7 | // * An USB audio dongle with RCA jacks
8 | // * An USB external hard disk
9 | // * Some push buttons on the front panel
10 | //
11 | // Author: Niccolo Rigacci
12 | // Version: 2.0 2018-08-28
13 | // License: GNU General Public License v3.0
14 | //------------------------------------------------------------------------
15 |
16 | include ;
17 | include ;
18 |
19 | // Set greather than zero for an exploded 3D view.
20 | explode = 40;
21 |
22 | // Interference for 3D intersections and differences
23 | interf = 0.1;
24 |
25 | // Thickness of laser cut.
26 | lcut = 0.2;
27 |
28 | // Wall thikness.
29 | thick = 4;
30 | notch_x = 10;
31 |
32 | // Inside size.
33 | case_x = 250;
34 | case_y = 150;
35 | case_z = 70;
36 |
37 | // Some panels have an overlapping edge.
38 | front_edge = 6;
39 | side_edge = 3;
40 |
41 | // Foot diameter.
42 | foot_d = 8;
43 |
44 | // Hole for plastic tie, measure 1 x 3.5 mm.
45 | plastic_tie_hole = [1.2, 3.7];
46 |
47 | // There are four flanges for top panel screws.
48 | flange_size = 17;
49 | flange_notch = 7;
50 | flange_hole_center = 5;
51 |
52 | // Components position into the case
53 | display_hole_x = 73;
54 | display_hole_y = 25;
55 | raspberry_offset_x = case_x - 9;
56 | raspberry_offset_y = 7;
57 | usb_hub_offset_x = 87.5 + 2;
58 | usb_hub_offset_y = case_y - 68.5;
59 | usb_audio_offset_x = usb_hub_offset_x + 8;
60 | usb_audio_offset_y = case_y;
61 | hd_offset_x = 10;
62 | hd_offset_y = 2;
63 |
64 | //------------------------------------------------------------------------
65 | // Spacing and position for push buttons.
66 | //------------------------------------------------------------------------
67 | buttons_w = 32;
68 | buttons_h = 32;
69 | buttons_pos = [
70 | [0, -buttons_h/2, 0], // Bottom
71 | [-buttons_w/2, 0, 0], // Left
72 | [buttons_w/2, 0, 0], // Right
73 | [0, buttons_h/2, 0], // Top
74 | [0, 0, 0], // Center
75 | [-buttons_w*1.2, -buttons_h/2, 0], // Lower left
76 | [-buttons_w*1.2, buttons_h/2, 0] // Upper left
77 | ];
78 |
79 | //------------------------------------------------------------------------
80 | // Interlocking notches and holes.
81 | //------------------------------------------------------------------------
82 | notch_x_pos = [
83 | [notch_x * 1.5, -thick/2],
84 | [case_x - notch_x * 1.5, -thick/2],
85 | [case_x/2, -thick/2]
86 | ];
87 |
88 | notch_x_hole_pos = [
89 | [side_edge + thick + notch_x*1.5, front_edge + thick/2],
90 | [side_edge + thick + case_x/2, front_edge + thick/2],
91 | [side_edge + thick + case_x - notch_x*1.5, front_edge + thick/2],
92 | [side_edge + thick + notch_x*1.5, case_y + front_edge + thick*1.5],
93 | [side_edge + thick + case_x/2, case_y + front_edge + thick*1.5],
94 | [side_edge + thick + case_x - notch_x*1.5, case_y + front_edge + thick*1.5]
95 | ];
96 |
97 | notch_z_pos = [
98 | [-thick/2, notch_x*1.5],
99 | [-thick/2, case_z - notch_x*1.5],
100 | [case_x + thick/2 - interf, case_z - notch_x*1.5],
101 | [case_x + thick/2 - interf, notch_x*1.5]
102 | ];
103 |
104 | notch_z_hole_pos = [
105 | [notch_x*1.5, thick/2 + front_edge],
106 | [case_z - notch_x*1.5, thick/2 + front_edge],
107 | [notch_x*1.5, case_y + front_edge + thick * 1.5],
108 | [case_z - notch_x*1.5, case_y + front_edge + thick * 1.5]
109 | ];
110 |
111 | //------------------------------------------------------------------------
112 | // Corner coordinates (extreme points) of top and bottom panels.
113 | // A 45 deg cut is made to avoid the 90 deg angle.
114 | //------------------------------------------------------------------------
115 | corner_x0 = 0;
116 | corner_y0 = 0;
117 | corner_x1 = case_x + (thick + side_edge) * 2;
118 | corner_y1 = case_y + (thick + front_edge) * 2;
119 | corner_cut = (side_edge * 2) / sqrt(2);
120 |
121 | //------------------------------------------------------------------------
122 | // Holes for plastic cable ties, measure 1 x 3.5 mm.
123 | //------------------------------------------------------------------------
124 | module usb_audio_holes() {
125 | translate([ -1, 0]) square(size=plastic_tie_hole, center=true);
126 | translate([55+1, 0]) square(size=plastic_tie_hole, center=true);
127 | translate([55+1, 30]) square(size=plastic_tie_hole, center=true);
128 | translate([ -1, 30]) square(size=plastic_tie_hole, center=true);
129 | }
130 |
131 | module usb_hd_holes() {
132 | y1 = 8; y2 = 83;
133 | translate([ -1, y1]) square(size=plastic_tie_hole, center=true);
134 | translate([79+1, y1]) square(size=plastic_tie_hole, center=true);
135 | translate([79+1, y2]) square(size=plastic_tie_hole, center=true);
136 | translate([ -1, y2]) square(size=plastic_tie_hole, center=true);
137 | }
138 |
139 | //------------------------------------------------------------------------
140 | // Array of push buttons and holes.
141 | //------------------------------------------------------------------------
142 | module buttons_array() {
143 | translate([0, 0, explode])
144 | for(position = buttons_pos)
145 | translate(position) push_switch_8mm();
146 | }
147 | module buttons_holes() {
148 | for(position = buttons_pos)
149 | translate(position) circle(r=4, $fn=32);
150 | }
151 |
152 | //------------------------------------------------------------------------
153 | // Place components inside the case.
154 | //------------------------------------------------------------------------
155 | module inside_components() {
156 | usb_hub_z = 24;
157 | display_x = 80; display_y = 36;
158 | hd_y = 79;
159 | translate([usb_hub_offset_x, usb_hub_offset_y, 0])
160 | rotate(a=90, v=[0, 0, 1])
161 | usb2_hub_7p_amazon_basics();
162 | translate([usb_audio_offset_x, usb_audio_offset_y, 0])
163 | rotate(a=270, v=[0, 0, 1])
164 | usb_audio_adapter_ugreen();
165 | translate([hd_offset_x, case_y - 3, usb_hub_z + 2])
166 | rotate(a=270, v=[0, 0, 1])
167 | usb_hard_disk_toshiba();
168 | translate([raspberry_offset_x, raspberry_offset_y, 3])
169 | rotate(a=90, v=[0, 0, 1])
170 | board_raspberrypi_3_model_b();
171 | translate([raspberry_offset_x - 90, raspberry_offset_y + 27.1, 17])
172 | rotate(a=90, v=[0, 0, 1])
173 | usb_male_type_a_connector();
174 | translate([case_x/2, -thick, case_z/2])
175 | rotate(a=90, v=[1, 0, 0])
176 | buttons_array();
177 | //translate([(case_x - display_x)/2, 1.8, (case_z - display_y)/2])
178 | // rotate(a=90, v=[1, 0, 0])
179 | // lcd_1602a();
180 | }
181 |
182 | //------------------------------------------------------------------------
183 | // Case components.
184 | //------------------------------------------------------------------------
185 |
186 | //---------------------------------------------------------------
187 | // Make a centered array of (X x Y) holes.
188 | //---------------------------------------------------------------
189 | module vent_holes(x, y, diameter) {
190 | $fn = 6;
191 | step = diameter * 2;
192 | radius = diameter / 1.8;
193 | offset_x = (step * (x - 1)) / 2;
194 | offset_y = (step * (y - 1)) / 2;
195 | for (i = [1:x]) {
196 | for (j = [1:y]) {
197 | translate([(i - 1) * step - offset_x, (j -1) * step - offset_y])
198 | circle(r=radius);
199 | }
200 | }
201 | }
202 |
203 | //---------------------------------------------------------------
204 | // Side panel, with an eventual slot for inserting the SD-Card.
205 | //---------------------------------------------------------------
206 | module side_panel_2d(sd_slot=false) {
207 | difference() {
208 | square(size = [case_z, case_y + (thick + front_edge) * 2]);
209 | // Holes for interlocking notches.
210 | for (pos = notch_z_hole_pos)
211 | translate(pos) square(size=[notch_x - lcut, thick - lcut], center=true);
212 | // Holes for screw flange notches.
213 | translate([case_z - thick * 1.5, front_edge + thick + flange_size/2]) square(size=[thick - lcut, flange_notch - lcut], center=true);
214 | translate([case_z - thick * 1.5, case_y + front_edge + thick - flange_size/2]) square(size=[thick - lcut, flange_notch - lcut], center=true);
215 | if (sd_slot) {
216 | //translate([-interf, front_edge + thick + raspberry_offset_y + 18])
217 | translate([-interf, front_edge + thick + raspberry_offset_y + 20])
218 | square(size=[7, 17]);
219 | }
220 | }
221 | }
222 | module side_panel(sd_slot=false) {
223 | linear_extrude(height = thick) side_panel_2d(sd_slot);
224 | }
225 |
226 | //---------------------------------------------------------------
227 | // Top panel.
228 | //---------------------------------------------------------------
229 | module top_panel_2d() {
230 | difference() {
231 | square(size = [case_x + (thick + side_edge) * 2, case_y + (thick + front_edge) * 2]);
232 | translate([ 60, case_y-35]) vent_holes(12, 9, 3.5);
233 | translate([210, 45]) vent_holes(10, 7, 3.5);
234 | translate([side_edge + thick + flange_hole_center, front_edge + thick + flange_hole_center]) circle(r=1.5, $fn=16);
235 | translate([side_edge + thick + case_x - flange_hole_center, front_edge + thick + flange_hole_center]) circle(r=1.5, $fn=16);
236 | translate([side_edge + thick + flange_hole_center, front_edge + thick + case_y - flange_hole_center]) circle(r=1.5, $fn=16);
237 | translate([side_edge + thick + case_x - flange_hole_center, front_edge + thick + case_y - flange_hole_center]) circle(r=1.5, $fn=16);
238 | // Cut corners with a 45 deg cut.
239 | translate([corner_x0, corner_y0]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
240 | translate([corner_x1, corner_y0]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
241 | translate([corner_x1, corner_y1]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
242 | translate([corner_x0, corner_y1]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
243 | }
244 | }
245 | module top_panel() {
246 | linear_extrude(height = thick) top_panel_2d();
247 | }
248 |
249 | //---------------------------------------------------------------
250 | // Bottom panel.
251 | //---------------------------------------------------------------
252 | module bottom_panel_2d() {
253 | hole_r = 1.5;
254 | $fn = 28;
255 | difference() {
256 | square(size = [case_x + (thick + side_edge) * 2, case_y + (thick + front_edge) * 2]);
257 | translate([ 60, 40]) vent_holes(10, 6, 3.5);
258 | translate([208, 110]) vent_holes(10, 8, 3.5);
259 | // Square hole for USB hub.
260 | translate([side_edge + thick, front_edge + thick])
261 | translate([usb_hub_offset_x - 52.6, usb_hub_offset_y + 23.5])
262 | square([23.2 + 0.2, 24.3 + 0.2]);
263 | // Raspberry Pi screw and vent holes.
264 | translate([side_edge + thick, front_edge + thick])
265 | translate([raspberry_offset_x, raspberry_offset_y])
266 | rotate(a=90, v=[0, 0, 1]) {
267 | raspberrypi_3_model_b_holes();
268 | translate([56/2, 32]) vent_holes(6, 7, 3.0);
269 | }
270 | // Holes for interlocking notches.
271 | for (pos = notch_x_hole_pos)
272 | translate(pos) square(size=[notch_x - lcut, thick - lcut], center=true);
273 | translate([side_edge + thick + usb_audio_offset_x, case_y - 38])
274 | usb_audio_holes();
275 | translate([hd_offset_x + side_edge + thick, case_y - 3 + front_edge + thick])
276 | rotate(a=270, v=[0, 0, 1])
277 | usb_hd_holes();
278 | // Holes for plastic ties holding the HDMI cable.
279 | hdmi_pos = raspberry_offset_x - 43 + thick + side_edge + (21 / 2);
280 | translate([hdmi_pos + 3.5, case_y + front_edge + thick - 7]) square(size=plastic_tie_hole, center=true);
281 | translate([hdmi_pos - 3.5, case_y + front_edge + thick - 7]) square(size=plastic_tie_hole, center=true);
282 | // Cut corners with a 45 deg cut.
283 | translate([corner_x0, corner_y0]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
284 | translate([corner_x1, corner_y0]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
285 | translate([corner_x1, corner_y1]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
286 | translate([corner_x0, corner_y1]) rotate(a=45, v=[0, 0, 1]) square(size=corner_cut, center=true);
287 | }
288 | }
289 | module bottom_panel() {
290 | linear_extrude(height = thick) bottom_panel_2d();
291 | }
292 |
293 | //---------------------------------------------------------------
294 | // Front panel.
295 | //---------------------------------------------------------------
296 | module front_panel_2d() {
297 | difference() {
298 | square(size = [case_x, case_z]);
299 | //translate([case_x / 2, case_z / 2]) square(size = [display_hole_x, display_hole_y], center = true);
300 | translate([case_x/2, case_z/2]) buttons_holes();
301 | // Holes for screw flanges notches.
302 | translate([flange_size/2, case_z - thick * 1.5]) square(size=[flange_notch - lcut, thick - lcut], center=true);
303 | translate([case_x - flange_size/2, case_z - thick * 1.5]) square(size=[flange_notch - lcut, thick - lcut], center=true);
304 | }
305 | for (pos = notch_z_pos)
306 | translate(pos) square(size = [thick+interf, notch_x], center = true);
307 | for (pos = notch_x_pos)
308 | translate(pos) square(size=[notch_x, thick+interf], center=true);
309 | }
310 | module front_panel() {
311 | linear_extrude(height = thick) front_panel_2d();
312 | }
313 |
314 | //---------------------------------------------------------------
315 | // Back panel.
316 | //---------------------------------------------------------------
317 | module back_panel_2d() {
318 | offset_z = 0;
319 | difference() {
320 | square(size = [case_x, case_z]);
321 | translate([usb_hub_offset_x - 35.5, offset_z + 3]) square(size = [28, 22]); // USB hole
322 | translate([usb_audio_offset_x + 13.5, offset_z + 7]) square(size = [28, 15]); // RCA audio hole
323 | translate([usb_audio_offset_x + 3.5, offset_z + 6]) square(size = [48, 9]);
324 | translate([raspberry_offset_x-43, -interf]) square(size = [21, 13+interf]); // HDMI cable hole
325 | translate([case_x-16, 24]) circle(r=4, $fn=28); // Power jack hole
326 | // Holes for screw flanges notches.
327 | translate([flange_size/2, case_z - thick * 1.5]) square(size=[flange_notch - lcut, thick - lcut], center=true);
328 | translate([case_x - flange_size/2, case_z - thick * 1.5]) square(size=[flange_notch - lcut, thick - lcut], center=true);
329 | }
330 | for (pos = notch_z_pos)
331 | translate(pos) square(size = [thick+interf, notch_x], center = true);
332 | for (pos = notch_x_pos)
333 | translate(pos) square(size=[notch_x, thick+interf], center=true);
334 | }
335 | module back_panel() {
336 | linear_extrude(height = thick) back_panel_2d();
337 | }
338 |
339 | //------------------------------------------------------------------------
340 | // Four feet below the bottom panel.
341 | //------------------------------------------------------------------------
342 | module foot_2d() {
343 | difference() {
344 | circle(r=foot_d, $fn=32);
345 | translate([foot_d, foot_d]) circle(r=foot_d*0.8, $fn=32);
346 | }
347 | }
348 | module foot() {
349 | color("grey") linear_extrude(height = thick) foot_2d();
350 | }
351 | module feet_assembled() {
352 | foot_offset = 5;
353 | foot_x0 = foot_d + foot_offset;
354 | foot_y0 = foot_d + foot_offset;
355 | foot_x1 = case_x + (thick + side_edge) * 2 - foot_d - foot_offset;
356 | foot_y1 = case_y + (thick + front_edge) * 2 - foot_d - foot_offset;
357 | translate([foot_x0, foot_y0, -(thick + explode * 1.3)]) foot();
358 | translate([foot_x0, foot_y1, -(thick + explode * 1.3)]) rotate(a=270, v=[0, 0, 1]) foot();
359 | translate([foot_x1, foot_y0, -(thick + explode * 1.3)]) rotate(a=90, v=[0, 0, 1]) foot();
360 | translate([foot_x1, foot_y1, -(thick + explode * 1.3)]) rotate(a=180, v=[0, 0, 1]) foot();
361 | }
362 |
363 | //---------------------------------------------------------------
364 | // There are four flanges to screw the top panel.
365 | //---------------------------------------------------------------
366 | module screw_flange_2d(notch=true) {
367 | difference() {
368 | polygon(points=[[0,0],[flange_size,0],[0,flange_size]]);
369 | translate([flange_hole_center, flange_hole_center]) circle(r=1, $fn=6);
370 | }
371 | if (notch) {
372 | translate([flange_size/2, -thick/2 + interf]) square(size=[flange_notch, thick + interf*2], center=true);
373 | translate([-thick/2 + interf, flange_size/2]) square(size=[thick + interf*2, flange_notch], center=true);
374 | }
375 | }
376 | module screw_flange(notch=true) {
377 | linear_extrude(height = thick) screw_flange_2d(notch);
378 | }
379 | module screw_flange_assembled() {
380 | pad_x0 = thick + side_edge;
381 | pad_y0 = thick + front_edge;
382 | pad_x1 = case_x + (thick + side_edge);
383 | pad_y1 = case_y + thick + front_edge;
384 | translate([pad_x0, pad_y0, case_z - thick]) screw_flange();
385 | translate([pad_x1, pad_y0, case_z - thick]) rotate(a=90, v=[0, 0, 1]) screw_flange();
386 | translate([pad_x1, pad_y1, case_z - thick]) rotate(a=180, v=[0, 0, 1]) screw_flange();
387 | translate([pad_x0, pad_y1, case_z - thick]) rotate(a=270, v=[0, 0, 1]) screw_flange();
388 | translate([pad_x0, pad_y0, case_z]) screw_flange(notch=false);
389 | translate([pad_x1, pad_y0, case_z]) rotate(a=90, v=[0, 0, 1]) screw_flange(notch=false);
390 | translate([pad_x1, pad_y1, case_z]) rotate(a=180, v=[0, 0, 1]) screw_flange(notch=false);
391 | translate([pad_x0, pad_y1, case_z]) rotate(a=270, v=[0, 0, 1]) screw_flange(notch=false);
392 | }
393 |
394 | //---------------------------------------------------------------
395 | // The case assembled in 3D layout.
396 | //---------------------------------------------------------------
397 | module case_assembled() {
398 | translate([0, 0, -explode]) bottom_panel();
399 | translate([thick + side_edge -explode, 0, thick]) rotate(a = 90, v = [0, -1, 0]) color("red") side_panel();
400 | translate([case_x + side_edge + thick * 2 + explode, 0, thick]) rotate(a=90, v=[0, -1, 0]) color("red") side_panel(sd_slot=true);
401 | translate([side_edge + thick, front_edge + thick - (explode * 0.5), thick]) rotate(a = 90, v = [1, 0, 0]) color("skyblue") front_panel();
402 | translate([side_edge + thick, front_edge + thick * 2 + case_y + (explode * 0.5), thick]) rotate(a = 90, v = [1, 0, 0]) color("skyblue") back_panel();
403 | //translate([0, 0, case_z + thick + explode]) top_panel();
404 | screw_flange_assembled();
405 | feet_assembled();
406 | }
407 |
408 | //------------------------------------------------------------------------
409 | // All the pieces layed-out in 2D, for laser cutting.
410 | //------------------------------------------------------------------------
411 | module case_layed_out() {
412 | translate([0, 0]) bottom_panel_2d();
413 | translate([0, -case_y - 30]) top_panel_2d();
414 | translate([0, case_y + 30]) front_panel_2d();
415 | translate([0, case_y + case_z + 40]) back_panel_2d();
416 | translate([case_x + 30, 0]) side_panel_2d();
417 | translate([case_x + 30, -case_y - 30]) side_panel_2d(sd_slot=true);
418 |
419 | for (x = [30, 50, 70, 90]) {
420 | for (y = [40, 60]) {
421 | translate([case_x + x, case_y + y]) foot_2d();
422 | }
423 | }
424 | for (x = [20, 40, 60, 80]) {
425 | translate([case_x + x, case_y + 90]) screw_flange_2d(notch=true);
426 | }
427 | for (x = [20, 40, 60, 80]) {
428 | translate([case_x + x, case_y + 110]) screw_flange_2d(notch=false);
429 | }
430 | }
431 |
432 | //------------------------------------------------------------------------
433 | // The rendering!
434 | //------------------------------------------------------------------------
435 | //case_assembled();
436 | //translate([side_edge + thick, front_edge + thick, thick]) inside_components();
437 |
438 | case_layed_out();
439 |
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