// The Estes A8-3 and C6-7 motors have diameter of 17.7 mm,
// length 69.5 mm. The Estes Alpha launch pad has rod diameter 3.4 mm.
-motor_diam = 17.7 + 0.6; // add some tolerance
+motor_diam = 17.7 + 1.2; // add some tolerance
motor_len = 69.5 + 0.5;
segment_overlap = 15;
-loose_fit_diam_diff = 0.5; // cylinder with outer diameter d1
+loose_fit_diam_diff = 1.1; // cylinder with outer diameter d1
// will fit loosely into the hole with inner diameter
// d1 + loose_fit_diam_diff
-tight_fit_diam_diff = 0.25; // cylinder with outer diameter d1
+tight_fit_diam_diff = 0.4; // cylinder with outer diameter d1
// will fit tightly into the hole with inner diameter
// d1 + tight_fit_diam_diff
eps = 0.01;
infty = 250;
+// rod holder
+
+module rod_holder() {
+ // rod hole holder
+ hull() {
+ translate([motor_diam/2 + thick_wall + thin_wall + rod_diam/2, 0, 0])
+ cylinder(r = rod_diam/2 + thin_wall, h = thick_wall);
+ translate([motor_diam/2 + thick_wall - thin_wall - rod_diam/2, 0, 0])
+
+ cylinder(r = rod_diam/2 + thin_wall, h = 3*thick_wall);
+ }
+}
+
+module rod_hole() {
+ // rod hole
+ translate([motor_diam/2 + thick_wall + thin_wall + eps + rod_diam/2, 0, 0])
+ cylinder(r = rod_diam/2, h = infty);
+}
+
//----------------- MOTOR MODULE -----------------------------
module fin() {
fin2();
};
- // rod hole holder
- hull() {
- translate([motor_diam/2 + thick_wall - rod_diam/2 - thin_wall,
- 0, segment_overlap])
- scale([1, 1.4, 1])
- cylinder(r = rod_diam/2 + thin_wall, h = eps);
- translate([motor_diam/2 + thick_wall + thin_wall + rod_diam/2, 0, segment_overlap + rod_hole_side])
- scale([1, 1.1, 1])
- cylinder(r = rod_diam/2 + thin_wall, h = rod_hole_height);
- translate([motor_diam/2 + thick_wall - rod_diam/2 - thin_wall,
- 0, segment_overlap + 2*rod_hole_side + rod_hole_height])
- scale([1, 1.4, 1])
- cylinder(r = rod_diam/2 + thin_wall, h = eps);
- };
-
// motor clip
for (angle = [120, -120]) rotate([0, 0, angle]) intersection() {
translate([clip_inner_space, -infty/2,
rotate([0, 0, -120])
translate([-infty/2, 0, 0]) cube(infty);
};
+
+ translate([0, 0, motor_len + motor_wall])
+ scale([1, 1, -1])
+ rod_holder();
};
module motor_module() {
cylinder(r = 3, h = infty);
};
- // rod hole
- translate([motor_diam/2 + thick_wall + thin_wall + eps + rod_diam/2, 0, 0])
- cylinder(r = rod_diam/2, h = infty);
+ rod_hole();
};
};
module central_tube_solid() {
cylinder(r = motor_diam/2 + thick_wall, h = central_tube_h);
+ rod_holder();
};
module central_tube() {
translate([0, 0, -eps])
cylinder(r = motor_diam/2 + thick_wall - thin_wall,
h = infty);
+ rod_hole();
};
};
} else {
// production
-assign($fn = 128) {
+$fn = 128;
translate([motor_diam + thick_wall, 0, 0])
motor_module();
front_cone();
}
-}