wrapped around the motor shaft.
*/
-across_body_screws_outside_measured = 33.3;
-across_body_screws_inside_measured = 32.0;
-
-inside_ = 28.0;
-
main_body_width_measured = 28.0;
main_body_length_measured = 31.0;
-main_body_diagonal_measured = 79.0;
main_body_height_measured = 1.5;
+arm_width_measured = 3.6;
+arm_length_measured = 79.0;
+arm_height_measured = main_body_height_measured;
-main_body_arm_width_measured = 3.6;
+motor_diameter_measured = 7;
+motor_height_measured = 17;
+motor_radius_measured = motor_diameter_measured / 2;
-cube([main_body_width_measured,
- main_body_length_measured,
- main_body_height_measured]);
+/*this is how far down the motor sticks below the circuit board*/
+motor_z_offset_measured = 5;
+motor_z_translate = (motor_height_measured - arm_height_measured) / 2 - motor_z_offset_measured;
+cube([main_body_width_measured,
+ main_body_length_measured,
+ main_body_height_measured],
+ center = true);
+rotate(45){
+ cube([arm_width_measured,
+ arm_length_measured,
+ arm_height_measured],
+ center = true);}
+rotate(-45){
+ cube([arm_width_measured,
+ arm_length_measured,
+ arm_height_measured],
+ center = true);}
+// TODO: move motor out by motor_radius amount
+rotate(45) {
+ translate([arm_length_measured / 2, 0, motor_z_translate]){
+ cylinder(h = motor_height_measured,
+ r = motor_radius_measured,
+ center = true); } }
/*
This file is part of 3d-printables.