thang010146 | Tube notching plasma cutter @thang010146 | Uploaded 1 month ago | Updated 2 days ago
The gray tube is clamped on the green chuck.
The yellow sample tube is fixed on the gray tube with six bolts.
The orange torch can rotate up-down thanks to the revolution joint between the beige and blue plates. It is kept in contact with the gray tube by gravity.
The orange torch can rotate in the horizotal plan (thanks to the revolution joint between the vertical post and blue tube) and is pressed to the yellow sample tube by the pink torsion spring.
The operator rotates the chuck to cut the gray tube along the profile of the yellow sample.
This design was made based on video:
youtu.be/lq0LB0X2hvA
STEP files of this video:
mediafire.com/file/b69umqx8i7eritq/TubeNotchingPlasmaCutterSTEP.zip/file
Inventor files of this video:
mediafire.com/file/oa1pa0zg7u9vl9o/TubeNotchingPlasmaCutterInv.zip/file
The gray tube is clamped on the green chuck.
The yellow sample tube is fixed on the gray tube with six bolts.
The orange torch can rotate up-down thanks to the revolution joint between the beige and blue plates. It is kept in contact with the gray tube by gravity.
The orange torch can rotate in the horizotal plan (thanks to the revolution joint between the vertical post and blue tube) and is pressed to the yellow sample tube by the pink torsion spring.
The operator rotates the chuck to cut the gray tube along the profile of the yellow sample.
This design was made based on video:
youtu.be/lq0LB0X2hvA
STEP files of this video:
mediafire.com/file/b69umqx8i7eritq/TubeNotchingPlasmaCutterSTEP.zip/file
Inventor files of this video:
mediafire.com/file/oa1pa0zg7u9vl9o/TubeNotchingPlasmaCutterInv.zip/file