SU1741978A1 - Flat drill - Google Patents

Abstract

Usage: in material processing to form holes in glass and ceramics. SUMMARY OF THE INVENTION: The first drill bit comprises a shank and a working part with three cutting edges 8, 9, 10 uniformly circumferentially formed by edges 3, 4, 5 of a three-sided pyramid. Two additional faces 6, 7 and cutting edges 8 11 ki 11, 12 are made on the working part. Face 6 is cut by the top of a three-sided pyramid with a plane at an angle a to the plane passing through the abscissa axis of the pyramid parallel to the base edge of the first face 3 of the pyramid, and a plane at an angle to the plane passing through the ordinate axis of the pyramid parallel to the base of the latter, Face 7 is formed by cutting the main cutting edge 9 with a plane at an angle to this edge. The cutting edge 11 is formed by the intersection of an additional face 6 with the main face 3, which has an edge parallel to the x-axis. The cutting edge 12 is formed by the intersection of face 7 with face 4. The angles of inclination of the planes under which the cuts mentioned above are made are equal to each other and are between 8 and 9 °. 3 il. (L S xj .N ChE XI 00 Fig 2

Description

The invention relates to the machining of hard brittle materials, namely, tools for forming holes in glass and ceramics.

A cutting tool is known which includes a shank and a working part with three cutting edges uniformly circumferentially formed by main and transition faces.

However, performance is reduced due to insufficient tool stiffness.

The first drill is also known, which includes the shank and the working part with three cutting edges uniformly circumferentially formed by the faces of a trihedral pyramid.

The known drill bit has a pointed point that is pointed at both sides at an angle of 90 °, which does not participate in the cutting process, as a result of which a dead point occurs at the center of the glass surface.

The consequence of this technical effect is the destruction of the glass and reduced performance.

The aim of the invention is to increase productivity by improving the geometry of the glass.

This goal is achieved by the fact that in the first drill, containing the shank and the working part with three evenly circumferential cutting edges formed by the faces of the triangular pyramid, two additional faces are made on the working part with two additional cutting edges, the first additional edge being formed by a cut plane passing through the abscissa axis of the pyramid parallel to the edge of the base of one of the main faces, and the plane located at an angle to the plane passing through the ordinate pi the ramids are parallel to the base of the latter, and the second additional face is formed by a cut of the main cutting edge formed by other main edges, a plane at an angle to the edge, the additional cutting edges being formed by the intersection of additional edges with one main edge having an edge parallel to the axis abscissa, and another main face on which the apex is located farthest from the base of the truncated pyramid, with the angles of inclination of the said planes being equal to each other and Aulus was 8 - 9 °.

Figure 1 presents the first drill, a General view; Fig. 2 shows the cutting part of the working part of the drill in three projections; on figd - two additional sides of a drill. The drill bit contains a shank 1 and a working part 2, which is made in

5 as a pyramid with grandee 3-7. Faces 3-5 are the main faces of a triangular pyramid, which form the main cutting edges 8-10 evenly spaced around the circumference.

Face 6, the first additional, formed by cutting the top of a three-sided pyramid by a plane located at an angle a to the plane X passing through the abscissa axis of the pyramid parallel to the edge

5 of the base of the first face 3 of the pyramid, and the plane located at an angle / 3 to the plane Y, passing through the ordinate axis of the pyramid parallel to the base of the last.

0 Face 7, the second additional, is formed by cutting the main cutting edge 9 by a plane located at an angle to this edge.

The cutting edge 11 is the first additional edge and is formed by the intersection of the additional face 6 with the main face 3, which has an edge parallel to the x-axis.

The cutting edge 12 is the second additional edge and is formed by the intersection of face 7 with face 4 (main), on which the top is furthest from the base of the truncated pyramid.

5 The angles of inclination of the a, ft, y planes at which the above-mentioned cuts are made are equal to each other and are between 8 and 9 °.

The first drill works as follows.

At the initial stage of drilling, the main and cutting edge 8 and the additional cutting edge 11 come into operation first, followed by the additional cutting edge

45, the edge 12, which creates the best conditions for the main cutting edges 9 and 10 to enter during the drilling process.

After all the mentioned cutting edges come into operation, a strictly 50 centric drilling process is started, guided by the main cutting edges 8-10. At the exit from the material, the main cutting edge 8 and the additional cutting edge 11 come out first, making all other cutting edges light out . In this way, greater freedom of cutting is ensured and the central dead point is eliminated during the cutting process.

Example. The first drill is made of an alloy of the VK-6, VK-8 brand.

The edges of the drill may have a diamond or carbide coating, in the latter case, the body of the drill is made of carbon steel.

The working part is approximately 2/3 of the total length of the drill.

Sharpening the cutting edge 11 is performed by cutting the top of a three-sided pyramid by tilting the tool to the right at an angle a - 8 ° with simultaneous tilting down at an angle of / 3 8 °.

The sharpening of the cutting edge 12 is made by tilting the cutting edge 9 by an angle of 8 ° with respect to the sharpening tool.

When the angle angle is less than 8 °, friction increases and the drilling process does not make sense.

When drilling with such a drill, holes of average diameter in silicate glass with a thickness of 6 mm (flat glass), the productivity per shift is 890 - 900 holes.

Claims (1)

Invention Formula Piercing drill containing a shank and a working part with three cutting edges uniformly circumferentially five 0 five Kami formed by the edges of a triangular pyramid, characterized in that, with the aim of increasing productivity by improving the geometry of the drill, two additional faces with two additional cutting edges are made on the working part, with the first additional face being formed by cutting the top of the three-sided pyramid with a plane located at an angle to the plane passing through the abscissa axis of the pyramid, parallel to the edge of the base of one of the main faces, and the plane located at an angle to the plane passing through the axis o the pyramid's dinat is parallel to the base of the latter, and the second additional face is formed by a cut of the main cutting edge formed by other main edges, a plane at an angle to the edge, and the additional cutting edges are formed by intersecting the additional edges with one main edge having an edge parallel to the abscissa axis, and another main face on which the vertex is furthest from the base of the truncated pyramid, with the angles of inclination of said planes being equal to it is 8 - 9 °. Fig.Z