RU2053053C1 - Cutting tool - Google Patents

Abstract

FIELD: machining. SUBSTANCE: cutting tool has working part 1 and tool stem 2 connected with it and having oppositely disposed centering cylindrical surface with the center lying on the axis of working part and eccentric surface. Tool stem 2 is placed in bushing hole having the same shape. EFFECT: enhanced quality. 3 dwg

Description

 The invention relates to the processing of metals by cutting and can be used in the construction of drills, reamers, countersinks, milling cutters and other tools.

 Known cutting tool having a working part and a shank with an eccentric surface.

 A disadvantage of the known tool is the low reliability of the mount. This is because the cylindrical eccentric and concentric working parts of the surface of the tool shank make contact with similar surfaces of the eccentric sleeve with not their entire surface, i.e. the contact of these surfaces is carried out by one cylindrical side of the shank with the sleeve and is not more than 50% of their nominal area.

 The purpose of the invention is to increase the reliability of fastening the tool.

 The goal is achieved in that the eccentric and concentric working parts of the surface of the tool shank are located opposite each other along its entire length, while the cross-sectional profile of the shank is formed by two circular arcs, the center of one of which is located on the axis of the tool, and the center of the other is offset by the amount of eccentricity.

 Figure 1 shows a General view of the tool; figure 2 section aa in figure 1; figure 3 - fixing the eccentric shank of the tool in the eccentric sleeve.

The cutting tool, for example, a drill, includes a working part 1 and a connecting shank 2, made with the opposing centering concentric surface 3 with a radius R _c and an eccentric surface 4 with a radius R _e . In this case, the cross-sectional profile of the shank is formed by two arcs of circles, the center of one of which coincides with the axis of the tool, and the center of the other is shifted by the eccentricity e.

 The assembly of the cutting tool, for example, drill 1, with an eccentric sleeve 6 is as follows. Drill 1 with a shank 2 is inserted into the bore of a sleeve 6 similar in shape to it. Then, with a wrench gripped by the flats 5 made on the tool, the tool is rotated around the axis while the eccentric surfaces 4 of the shank and the bushings radially interlock. And thus, the tool and the sleeve, centering on the concentric surfaces 3, are securely fastened to each other. Dismantling is carried out in the reverse order.

 The operation of the tool, for example, drill, is as follows.

 When drilling under the influence of a torque, the shaft ends in the sleeve radially and the torque is transmitted to the tool due to the active profile engagement of the eccentric surfaces of the shaft and the sleeve, as well as due to the friction force arising from the effect of jamming of these surfaces. From the axial separation of the shank and the sleeve holds the friction force that occurs when jamming eccentric surfaces. Axial loads are transmitted to the tool through the end surfaces.

 Due to the implementation of eccentric and concentric surfaces opposite each other along the entire length of the shank, when interlocking, almost full contact in the circumferential direction of the mating surfaces of the shank and the sleeve is made, which, as a result, increases their contact area up to two times and increases the reliability of fixing the tool in the sleeve.

 From the use of the proposed tool, the technical and economic effect will be expressed in increasing the reliability of fastening the tool. This improves tool performance.

Claims (1)

 CUTTING TOOL, comprising a working part connected to a shank having a cylindrical eccentric and concentric with the working part of the surface, characterized in that said cylindrical surfaces are opposed to each other for a length equal to the length of the shank, while the cross-sectional profile of the shank is formed by two circular arcs, the center of one of which is located on the axis of the working part, and the center of the other is offset relative to the axis by the amount of eccentricity.

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