RU120035U1 - TOOL WITH INDUCTOR TURNING DEVICE - Google Patents

Abstract

A tool for finishing and hardening processing, containing an indenter with a working part, characterized in that it additionally contains a device for turning the indenter in the form of a rotary head with a limb, in which the indenter is rigidly fixed.

Description

The invention relates to the field of engineering technology, namely to the design of tools for finishing and hardening of parts by smoothing on metal cutting machines.

The roughness parameters and the physicomechanical properties of the ironed surface depend on the chosen tool design, the material and the surface characteristics of the working part of the tool. The working part of the smoother is subjected to intense wear and temperature in the contact zone, so the material must have high hardness, resist abrasion, have a high compressive strength, high thermal conductivity and heat resistance.

To improve the smoothing tool, various tool designs, sharpening forms and the material of the working part of the tool have been developed.

A known tool for finishing hardening by smoothing, including a shank, with which it is attached to the holder, the working part of the smoother, fixed in the shank and made in the form of a torus, the axis of which is perpendicular to the axis of the shank (SU No. 776896).

The closest is the tip for the tool used for finishing the external surfaces by smoothing, consisting of a shank (indenter) with a working part (SU No. 498152).

The disadvantage of these tools is the low tool life due to intensive wear of the working part of the indenter.

Depending on the processing conditions, the resistance of indenters made from natural diamonds varies from 8 to 38 hours of working time, and indenters made of synthetic diamonds and synthetic corundums have a slightly lower resistance. The service life of the tool can be increased several times as a result of more complete use by turning them a certain angle, rearranging them in height or turning around the axis as they wear out (Torbilo V.M. Diamond smoothing. M., Mechanical Engineering, 1972, p.23) .

No tools were found with a device for changing the position of the working part of the tool indenter without reinstalling it in the holder body.

To reduce the time and laboriousness of changing the position of the working part of the indenter and its more rational use due to the accuracy of fixing its position, a tool for finishing and hardening processing is proposed, containing an indenter with a working part fixed in a rotary head with a limb.

The possibility of rotation of the indenter by an angle β makes it possible to replace the worn surface of the indenter in the contact spot with the worn out one. In this case, the worn surface is shifted with the help of a rotary head by a distance L. The value of the angle of rotation a is selected from the condition of the displacement of the center of the contact spot relative to the indenter tip by the distance Lрr, which ensures replacement of the worn surface by an worn one.

In Fig.1 shows a tool with an indenter rotation device, Fig.2 is a front view of the tool, Fig.3 is a snapshot of the working part of the indenter after surface treatment and changing the position of the indenter.

The tool contains an indenter 1 with a working part 2, mounted in a movable head 3 with a limb 4 with degree divisions. The division value of the dial scale may represent another indicator of the movement of the moving head. The working part 2 of the indenter 1 processes the surface of the workpiece 5.

The tool works as follows.

The indenter 1 is fixed in the movable head 3 and installed in the tool body (not shown in Fig.). The working surface 2 of the tool indenter 1 treats the surface of the workpiece 5. As the wear progresses, the tool position is regularly changed by tilting (in this example, by an angle α = 7 °). By regularly turning the head by a predetermined value of the angle along the limb (in this example, β = 51 °), the working part of the indenter is shifted towards the unworn part of the tool. The number of permutations depends on the radius of the working part. In the picture, the number of changes in the position of the rotary head was N = 7.

The use of the proposed tool will significantly reduce the complexity and time to change the position of the working part of the indenter and will allow more efficient use of the tool.

Claims (1)

Tool for finishing and hardening processing, containing an indenter with a working part, characterized in that it further comprises an indenter rotation device in the form of a rotary head with a limb, in which the indenter is rigidly fixed.