US2026042183A1PendingUtilityA1
Wall component
Est. expiryAug 8, 2044(~18.1 yrs left)· nominal 20-yr term from priority
Inventors:BÖHM RÜDIGER
B24B 31/02B24B 31/108B24B 31/06
62
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Claims
Abstract
A work container for a vibratory grinding system has a wall component that is provided with macro elevations and with micro elevations.
Claims
exact text as granted — not AI-modified1 . A wall component of a work container for a vibratory grinding system, said wall component comprising an outer jacket surface which extends about a center axis, and an inner wall that is provided with a profiling that has a microstructure in the form of parallel micro elevations and micro depressions,
wherein a macrostructure in the form of macro elevations is superposed on the microstructure.
2 . The wall component according to claim 1 ,
wherein said outer jacket surface is a circular cylindrical outer jacket surface.
3 . The wall component according to claim 1 ,
wherein the macro elevations extend at least for the most part parallel to the micro elevations.
4 . The wall component according to claim 1 ,
wherein the micro elevations and micro depressions in the region of the macro elevations have the same cross-sectional shape as outside the macro elevations.
5 . The wall component according to claim 1 ,
wherein the macro elevations have, in a sectional plane extending perpendicular to the center axis, an outer contour that is symmetrical to a radial beam.
6 . The wall component according to claim 5 ,
wherein the outer contour is of a circular arc shape.
7 . The wall component according to claim 1 ,
wherein the micro elevations and micro depressions have, in a sectional plane extending perpendicular to the center axis, a contour that is symmetrical to a radial beam.
8 . The wall component according to claim 7 ,
wherein the contour is of a circular arc shape.
9 . The wall component according to claim 1 ,
wherein two macro elevations are disposed diametrically opposite one another in each case.
10 . The wall component according to claim 1 ,
wherein the macro elevations are chamfered at at least one axial end.
11 . The wall component according to claim 1 ,
wherein all the elevations are part of a coating.
12 . The wall component according to claim 11 ,
wherein the coating is composed of plastic.
13 . A work container for a vibratory grinding system, said work container comprising a wall component and a base, said wall component comprising an outer jacket surface which extends about a center axis, and an inner wall that is provided with a profiling that has a microstructure in the form of parallel micro elevations and micro depressions, wherein a macrostructure in the form of macro elevations is superposed on the microstructure.
14 . The work container according to claim 13 ,
wherein the base is a turntable.
15 . A method for the vibratory grinding of components in a work container, said work container comprising a wall component and a base, said wall component comprising an outer jacket surface which extends about a center axis, and an inner wall that is provided with a profiling that has a microstructure in the form of parallel micro elevations and micro depressions, wherein a macrostructure in the form of macro elevations is superposed on the microstructure, wherein
the components have a minimum dimension of D min , the micro depressions have, in a sectional plane extending perpendicular to the center axis, a circular arc-shaped contour that is symmetrical to a radial beam and that has a radius R Micro , and the macro elevations have, in a sectional plane extending perpendicular to the center axis, a circular arc-shaped contour that is symmetrical to a radial beam and that has a radius R Macro , wherein
R Macro is greater than R Micro , and
R Micro is between 0.5 and 2 times D min , and/or
R Macro is between 3 and 50 times D min .
16 . A method according to claim 15 ,
wherein R Macro is at least ten times or at least twenty times greater than R Micro .
17 . A method according to claim 15 ,
wherein R Macro is at least twenty times greater than R Micro .
18 . A method according to claim 15 ,
wherein R Macro is at least thirty times or at least forty times greater than R Micro .
19 . A method according to claim 15 ,
wherein R Macro is at least fifty times greater than R Micro .Cited by (0)
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