SU1346352A1 - Twist bit - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in the design and manufacture of twist drills equipped with carbide cutting plates. The aim of the invention is to increase the drilling performance by increasing the lateral rigidity of the drill. The spiral drill is made with a tight angle from the inclination of the spiral chip grooves 3, that the cross section at the end of the full profile chip groove is rotated around the axis of the drill in the direction opposite to the front surface of the cutting plates 1 by an angle of 55-80 relative to the cross section at the beginning of the cutting plates. At the same time, the most favorable mutual arrangement of the axis of maximum moment of resistance is ensured in the most dangerous cross section for bending at the end of the full profile chip groove and the direction of the transverse component cutting forces. 3 il. S cl

Description

The invention relates to mechanical engineering and can be used in the design and manufacture of twist drills equipped with carbide cutters.

The purpose of the invention is to increase the drilling productivity by increasing the lateral rigidity of the drill.

FIG. 1 shows a twist drill with cutting plates, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section bb In FIG.

The drill bit contains one or several cutting plates 1, the working part 2, chip spiral grooves 3 with an angle of inclination co, a shank 4, for example cylindrical, with a flat face 5 for resting the locking screw and the end 6, a cone 7 of increasing rigidity.

A spiral drill with cutting plates (Fig. 1) is made with such an angle about the inclination of the spiral flute grooves that the cross section at the end of the full profile flute (Fig. 3) is rotated around the axis of the arrow in the direction opposite to the front surface of the cutting plates by the angle S, 55- 80 relative to the cross section (FIG. 2) at the beginning of the cutting inserts.

Angle o (. (Limited to 55 ° -80 ° due to the fact that, depending on the cutting plate layout chosen in the design of the drill, it can vary within the specified limits. At the same time, the most favorable mutual arrangement is provided at an angle close or equal

in magnitude 90 (Fig. 3), the axis of maximum moment of resistance Wцgцp (в) in the most dangerous cross section for transverse bending at the end of a chipboard

grooves and directions of transverse component cutting forces (their projections P to the section at the end of the chip grooves are indicated by dotted lines). With the accelerated design of drills of the proposed construction, the angle of rotation of the section at the end of the chip groove is assumed to be equal to oi) 67 (arithmetic average of the limiting values of the specified range of the angle eL). This ensures the maximum possible rigidity of the drill bit close to it for those accepted for designing diameter ;, the length and profile of the chip grooves of the drill.

Due to the fact that the cross section of the drill at the end of the full profile chip groove is rotated around the drill axis in the direction opposite to the front surface of the cutting plates, at an angle of 55-80 relative to the cross section passing through the beginning of the cutting plates, increase the drilling performance by increasing the transverse rigidity of the drill.

Claims (1)

Invention Formula A spiral drill containing one or several plates, a working part with hard grooves, a shank and thickened;) On the wall with a supporting end, characterized in that, in order to increase the drilling performance by increasing the transverse rigidity of the drill, the cross section at the end of the full profile chip The grooves are rotated around the axis of the drill in the direction opposite to the front surface of the cutting plates at an angle of 55-80 relative to the cross-section at the beginning of the cutting plates. / - / I C} ig.g vd Fig.z