/Designs/Measuring_instruments/RMDS02D/CAD/src/slic3r_config.ini
0,0 → 1,128
# generated by Slic3r 1.2.7-dev on Wed Apr 1 23:52:55 2015
avoid_crossing_perimeters = 0
bed_shape = 0x0,180x0,180x180,0x180
bed_temperature = 50
before_layer_gcode =
bottom_solid_layers = 3
bridge_acceleration = 1000
bridge_fan_speed = 100
bridge_flow_ratio = 1
bridge_speed = 15
brim_width = 10
complete_objects = 0
cooling = 1
default_acceleration = 500
disable_fan_first_layers = 1
dont_support_bridges = 1
duplicate_distance = 6
end_gcode = M104 S0 ; turn off nozzle\nM140 S0 ; turn off heatbed\nG28 X0 ; home X axis\nG1 Y170 F3000 ; move the print to the front\nM84 ; disable motors\n
external_fill_pattern = rectilinear
external_perimeter_extrusion_width = 0
external_perimeter_speed = 90%
external_perimeters_first = 0
extra_perimeters = 1
extruder_clearance_height = 20
extruder_clearance_radius = 20
extruder_offset = 0x0
extrusion_axis = E
extrusion_multiplier = 1
extrusion_width = 0
fan_always_on = 1
fan_below_layer_time = 1
filament_diameter = 1.74
fill_angle = 45
fill_density = 15%
fill_pattern = honeycomb
first_layer_acceleration = 500
first_layer_bed_temperature = 60
first_layer_extrusion_width = 200%
first_layer_height = 0.3
first_layer_speed = 60%
first_layer_temperature = 215
gap_fill_speed = 20
gcode_arcs = 0
gcode_comments = 0
gcode_flavor = reprap
infill_acceleration = 500
infill_every_layers = 1
infill_extruder = 1
infill_extrusion_width = 0
infill_first = 0
infill_only_where_needed = 0
infill_overlap = 15%
infill_speed = 60
interface_shells = 0
layer_gcode =
layer_height = 0.2
max_fan_speed = 100
min_fan_speed = 100
min_print_speed = 15
min_skirt_length = 0
notes =
nozzle_diameter = 0.4
octoprint_apikey = B14197D3716442D4B0BB8F485877E31E
octoprint_host = 192.168.1.106:5000
only_retract_when_crossing_perimeters = 1
ooze_prevention = 0
output_filename_format = [input_filename_base].gcode
overhangs = 1
perimeter_acceleration = 500
perimeter_extruder = 1
perimeter_extrusion_width = 0
perimeter_speed = 45
perimeters = 1
post_process =
pressure_advance = 0
raft_layers = 0
resolution = 0
retract_before_travel = 2
retract_layer_change = 1
retract_length = 1.3
retract_length_toolchange = 3
retract_lift = 0
retract_restart_extra = 0
retract_restart_extra_toolchange = 0
retract_speed = 60
seam_position = aligned
skirt_distance = 4
skirt_height = 1
skirts = 1
slowdown_below_layer_time = 20
small_perimeter_speed = 30
solid_infill_below_area = 70
solid_infill_every_layers = 0
solid_infill_extruder = 1
solid_infill_extrusion_width = 0
solid_infill_speed = 55
spiral_vase = 0
standby_temperature_delta = -5
start_gcode = G28 ; home all axes\nG92 E0.0 ; reset extruder
support_material = 0
support_material_angle = 0
support_material_contact_distance = 0.2
support_material_enforce_layers = 0
support_material_extruder = 1
support_material_extrusion_width = 0
support_material_interface_extruder = 1
support_material_interface_layers = 0
support_material_interface_spacing = 0
support_material_interface_speed = 100%
support_material_pattern = rectilinear
support_material_spacing = 2.5
support_material_speed = 60
support_material_threshold = 0
temperature = 210
thin_walls = 1
threads = 2
toolchange_gcode =
top_infill_extrusion_width = 0
top_solid_infill_speed = 50
top_solid_layers = 3
travel_speed = 130
use_firmware_retraction = 0
use_relative_e_distances = 1
use_volumetric_e = 0
vibration_limit = 0
wipe = 1
xy_size_compensation = 0
z_offset = 0
/Designs/Measuring_instruments/RMDS02D/CAD/src/terarium_pad.scad
3,7 → 3,7
thickness = 10; // thickness of the pad bellow aquarium. hairs lenght is 12mm.
rim_height = 7; // height of upper rim for fixing the aquarium in position.
 
mount_hole = 3.5;
mount_hole = 3.6;
clear = 0.175;
 
 
20,27 → 20,31
};
 
rotate([0,0,45])
cube([x_size, y_size ,4*thickness], center = true);
cube([x_size, y_size ,4*thickness], center = true); // cut out half of top tip
}
cylinder (h = thickness + rim_height, r= mount_hole, $fn=20); // hole for screw head
cylinder (h = thickness + rim_height, r= mount_hole, $fn=20); // hole for screw head
translate ([0, 0, -thickness]) // hole for the screw
cylinder (h = thickness + rim_height, r= mount_hole/2, $fn=10);
rotate([0,0,-45]) // hole for top part mounting nut
translate ([ 0, -x_size/3, thickness/3])
cube([5.5, 2.5, thickness], center = true);
cube([6, 3, thickness], center = true);
 
rotate([90,0,-45]) // hole for top part mounting screw.
translate ([ 0, thickness/4, 0])
translate ([ 0, 1.8, 0])
cylinder (h = thickness + rim_height, r= mount_hole/2, $fn=10);
 
}
 
 
/*
 
translate ([0, 0, 3*thickness]) // separate two parts
 
rotate([180,0,0]) // hole for top part mounting nut
 
 
//Top part
 
difference () {