RU2131327C1 - Tool for working parts coated by metal deposition - Google Patents

Abstract

FIELD: metal working. SUBSTANCE: tool includes cutter having head and body with П --shaped slit dividing cutter by stationary and elastically deformed portions, elastically deformed members and hard-alloy roller arranged between elastically deformed members successively with cutter. П --shaped slit of cutter is filled with vibration suppression material. EFFECT: enhanced strength of tool at working parts coated by metal deposition, enhanced quality and accuracy of shape of worked part. 1 dwg

Description

 The invention relates to mechanical engineering, in particular, can be used in the turning of parts with metal coatings of non-ferrous metals and their alloys, obtained by detonation or plasma spraying.

 The essence of the invention lies in the fact that the tool for processing parts with sawn metal coatings contains a cutter having a head and a body with a U-shaped slot dividing the cutter into stationary and elastically deformable parts, elastically deformable elements and a carbide roller placed between these elastically deformable elements and installed in series with the cutter, while the U-shaped slot of the cutter is filled with vibration damping material.

 The technical results of the invention are to increase the resistance of the tool for processing parts with sawn metal coatings, as well as improve the quality and accuracy of the shape of the treated surface and reduce the vibration intensity of the tool for treating parts with sprayed metal coatings through the use of a carbide roller located between the elastically deformable elements installed in series with the cutter , and filling the U-shaped slot with anti-vibration material.

 The invention is illustrated by the drawing, which shows a tool for processing parts with sprayed metal coatings.

 The tool is used to process a workpiece 1 with a sprayed metal coating 2, for example, of copper, aluminum, bronze and contains a cutter consisting of a head 3 and a body 4, in which a U-shaped slot 5 is made, dividing the cutter into a stationary 6 and elastically deformable 7 parts. A carbide roller 8, located between the elastically deformable elements 9 and rotating on the axis 10, is mounted in series with the cutter, while the U-shaped slot 5 is filled with vibration-absorbing material, for example, porous rubber.

 Tool for processing parts with sprayed metal coatings works as follows. Before the cutter begins directly processing the sprayed metal coating 2 containing solid inclusions, pores and viscous grains of the base material, the surface of the workpiece 1 is rolled in by a carbide roller 8. As a result, the viscous surface layer of the sprayed metal coating is hardened and brittle with minimal wear of the carbide roller 8 , which, in turn, leads to a significant reduction in vibrations and wear of the cutter.

 The elastically deformable parts 7 of the cutter and the elastically deformable elements 9, between which the carbide roller 8 is located, are a system of plane-parallel springs, the deformation of which during operation does not change the geometry of the working part of the cutter and carbide roller 8.

 Running in with a carbide roller 8, installed between the elastically deformable elements 9, significantly reduces the shape error of the workpiece, creates favorable conditions for processing the sprayed metal coating 2 with a cutter, providing the required accuracy and quality of the treated surface of the sprayed metal coating.

 Thus, the present invention reduces the wear and vibration intensity of the tool for processing parts with sprayed metal coatings, improves the quality and accuracy of the shape of the treated surface of the sprayed metal coating.

Claims (1)

 A tool for processing parts with sprayed metal coatings, characterized in that it contains a cutter having a head and a body with a U-shaped slot dividing the cutter into stationary and elastically deformable parts, elastically deformable elements and a carbide roller placed between these elastically deformable elements and installed in series with the cutter while the U-shaped slot of the cutter is filled with vibration-absorbing material.