Thingiverse
Rigid Carriage Y for HyperCube Evolution
di EagleB3
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The main goal is to obtain the most rigid sealing of the X axes. The second goal is the most rigid fixation of the Y-axis bearings.
To date, only one part has been printed to check dimensions. This carriage has not yet been installed on any printer.
I create a carriage with the following parameters:
Diameter Y-axe = 10 mm.
Fastening the cover of the axis Y = DIN 912 M3x55, 4 pieces.
Mounting bearings Y axis = 55 mm (2xLM10UU or 1xLM10LUU).
The diameter of the bearing channel Y = 18.6 (for subsequent machining).
The diameter of the axes X = 8mm.
Mount axis X = DIN931 M3x16 2 pieces + DIN912 M3x12 2 pieces.
The diameter of the channels of the axes X = 7.6 (for subsequent machining).
Roller axis smooth rod with a diameter of 5mm.
The diameter of the channel axis of the rollers = 4.6 mm (for subsequent machining).
The endstop X is angled, clued on the carriage. The STL file for endstop X is attached to the project, but it will be better to interrupt the infrared ray
To date, only one part has been printed to check dimensions. This carriage has not yet been installed on any printer.
I create a carriage with the following parameters:
Diameter Y-axe = 10 mm.
Fastening the cover of the axis Y = DIN 912 M3x55, 4 pieces.
Mounting bearings Y axis = 55 mm (2xLM10UU or 1xLM10LUU).
The diameter of the bearing channel Y = 18.6 (for subsequent machining).
The diameter of the axes X = 8mm.
Mount axis X = DIN931 M3x16 2 pieces + DIN912 M3x12 2 pieces.
The diameter of the channels of the axes X = 7.6 (for subsequent machining).
Roller axis smooth rod with a diameter of 5mm.
The diameter of the channel axis of the rollers = 4.6 mm (for subsequent machining).
The endstop X is angled, clued on the carriage. The STL file for endstop X is attached to the project, but it will be better to interrupt the infrared ray
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