SU1685689A1 - Method for regrinding cutting tool - Google Patents

Abstract

The invention relates to metal working and can be used in the tool industry for sharpening cutting tools. The purpose of the invention is to improve the quality of sharpening. Grinding wheel 1 moves along processed i face 2 along formed edge of cutting wedge 4 with feed rate Snp and rotates it around its axis, providing cutting speed V, which vector is directed opposite to edge. The support plate 5 is set along the surface of face b in the edge section along the length, equal to the width of the working surface of the grinding wheel, and move it along this face to the tool at a speed of SBp and is pressed against it with a force of PN 3 or

Description

00

with

The invention relates to metalworking and can be used, for example, in the tooling industry for sharpening cutting tools.

The purpose of the invention is to improve the quality of sharpening.

Fig, 1 shows a diagram of the implementation of the method; figure 2 - diagram of the forces acting in the system; on fig.Z - side view of the tool.

Abrasive tool - face grinding wheel 1 moves along the machined face 2 along the formed edge 3 of the cutting wedge 4 of the cutter with the feed rate Snp and rotates it around its axis, providing the cutting speed V, which vector is directed opposite to the edge,

The support plate 5 is installed along the surface of the face 6 on the edge section along the length equal to the width of the working surface of the grinding wheel, and move it along this face to the tool with the speed of Spd and pressed to it with a force of PN.

The normal cutting force component Ru on the cutting surface acts as a distributed load q, which in section L can cause deformation of the cutting wedge. The pressing force PN should compensate the resultant force on this section Ru, the normal component of the cutting force on the plate Py and will be determined in the following way

P Py cos / 5 + Py cos / - -Pz sin (Py + P) sin / Ј1}

where the angle of the sharpening wedge

PZ is the tangential component of the cutting force on the plate.

About 00

ate about

00

about

The movement of the plate along the non-machinable face on the tool provides advanced processing as compared to the main part, which results in an increase in specific tangential forces ensuring the contact of the plate material with the formed edge in order to maintain its equilibrium force state and effective heat removal conditions. Due to this, the specified quality of the cutting wedge can be obtained with more intensive processing modes.

Below is an example implementation of the method.

When sharpening a knife, a paper-cutting machine made of 9XC.HRC 62 steel with a grinding wheel 12A2X45 40 A 51 3 L KB 200/160 M04100 with machining modes U 35 m / s; 5pr 6m / min; , 015mm / dx, along the non-machinable face, install a support plate with a thickness of mm and a width of mm, and move it to the tool with a speed of Sup -1 mm / min.

In addition, at the site of the plate with a length of 4 mm, a pressing force of 6N is created.

f,

and

FIG L

All this leads to the equilibrium state of the cutting wedge, which eliminates its deformation and ensures the straightness of the cutting edge and flatness of the front surface, and also allows, under conditions of better heat removal, to increase the depth of grinding by 1.5 times with no burrs.

Claims (1)

Claims The method of sharpening a cutting tool, in which each of its edges is sequentially brought into contact with an end surface of an abrasive tool, which is reported to move relative to the edge of the cutting tool, characterized in that, in order to improve the quality of the sharpening, take the backing plate one of the edges of the cutting tool and upon contact of its second face with the end surface of the abrasive tool the said plate is pressed against the first face of the cutting tool and still simultaneously with the abrasive tool.