Planers: Difference between revisions
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{{Projects infobox | |||
|image = Thickness planer.svg | |||
[[ | |designer = [[User:Tim|Timothy Schmidt]] | ||
|date = 2021 | |||
|tools = [[Wrenches]] | |||
|parts = [[Frames]], [[Nuts]], [[Bolts]], [[Plates]], [[End caps]] | |||
|techniques = [[Shelf joints]], [[Tri joints]] | |||
|stl = | |||
|git = | |||
}} | |||
=Challenges= | =Challenges= | ||
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=Approaches= | =Approaches= | ||
<youtube>ZFFzmJfv5No</youtube> | |||
=Parts= | =Parts= |
Revision as of 17:46, 28 March 2021
Project: Planers
Tools: | Wrenches |
---|---|
Parts: | Frames, Nuts, Bolts, Plates, End caps |
Techniques: | Shelf joints, Tri joints |
Challenges
Planers or thicknessers use a spinning blade or series of cutting tools to flatten a board to a desired thickness. Thicknessing wood can require a powerful motor and sharp tools moving quickly. Engineering a safer tool than commercial equivalents is a goal, but great care with respect to safety should be practiced around any such tool.
Approaches
Parts
- Dewalt portable planer
- Shelix helical carbide cutting head - shares tooling with lathe and mill
Interoperability
Development targets
- Replimat planer (frame, pillow block bearings, flat steel blades sharpened on grinder with replimat linear bearing attachment, motor, V wheels, sheet stock, hardware)
References