RU2125505C1 - Boring chuck - Google Patents

Abstract

FIELD: boring chucks used in capacity of holders of cutting tool in machining of holes on boring and other metal-cutting machines. SUBSTANCE: boring chuck has body, tool holder located in body locating hole, mechanism for moving the tool holder in the form of micrometer screw and screw for locking the tool holder. Made in locating hole of chuck body and on mating part of tool holder are flat contact areas. Besides, chuck body has supporting surface for tool holder on the side of cutting edge. Screw for locking the tool holder is installed with displacement from center of body locating hole towards the side of cutting edge of tool holder. EFFECT: higher rigidity of chuck due to exclusion of radial displacement of tool holder relative to chuck body and exclusion of vibrations of end part of tool holder with cutting edge. 4 dwg

Description

 The invention relates to the processing of metals by cutting, namely, holders of a cutting tool for machining holes on boring and other metal cutting machines.

 Known constructions of boring cartridges containing a housing, a tool holder and a mechanism for moving it, for example, Russian patent N 2053048, class. B 23 B 29/00, 29/03, 1996; author St. USSR N 1117131, class B 23 B 29/00, 1984; Kuznetsov Yu. I. et al. Equipment for CNC machines.-M.: Mechanical Engineering, 1990, p. 385, fig. 56.

 Closest to patentable is the boring cartridge according to the patent of Russia N 2053048, class. B 23 B 29/00, 29/03, 1996. This cartridge contains a housing, a tool holder located in a cylindrical landing hole of the housing, a mechanism for its movement, made in the form of a micrometer screw, and a screw for fixing the tool holder mounted in the center of the cartridge in its center.

 Setting the cutter to the desired size of the bore is performed by rotating the micrometer screw with the screw loosened to fix the tool holder. At the end of the setting, the tool holder is clamped by the said screw through an intermediate element - gasket.

 With this design, due to inaccuracies in the manufacture of parts and the presence of gaps in the bore between the chuck body and the tool holder, as well as the gasket, the tool holder can not be rotated relative to the chuck body with significant cutting forces, which leads to oscillations of the cutting tool.

 The problem to which the invention is directed, is to increase the rigidity of the boring cartridge.

 The technical result that is achieved by the patented device is to eliminate the radial displacement of the tool holder relative to the cartridge case without using an intermediate element between them and excluding the oscillations of the cutting tool.

 This is achieved by the fact that in the landing hole of the cartridge case and on the reciprocal part of the tool holder, flat contact sections are made, on the side of which a screw is installed in the cartridge case for fixing the tool holder.

 In this embodiment, due to the shape of the landing hole of the housing and the reciprocal part of the tool holder, their flat sections directly contacting each other prevent the tool holder from turning relative to the case, which increases the rigidity of the boring chuck.

 Also, the stiffness of the chuck is enhanced by the fact that the chuck body has a supporting surface for the tool holder from the cutting edge side, and the screw for fixing the tool holder is installed in the chuck body with an offset from the center of the housing bore hole towards the cutting edge of the tool holder.

 In this embodiment, a shoulder is formed between the center of the landing hole and the axis of the specified screw, the impact on which, when the screw is screwed in, rotates the tool holder within the gaps between the flat contact areas until the tool holder rests in the chuck body, which excludes oscillations of the cutting edge. The fixed support of the tool holder on the cartridge case dampens vibration, which increases the purity of product processing.

 In FIG. 1 shows a General view of the proposed boring cartridge; in FIG. 2 - the same, top view; in FIG. 3 - view of the cartridge in arrow A; in FIG. 4 -patron, a section along BB in FIG. 2.

 The boring chuck contains a housing 1 with a shank 2, a tool holder 3, which is located in the housing bore hole 4, a tool holder moving mechanism made in the form of a micrometer screw 5, and a screw 6 for fixing the tool holder mounted in the cartridge case. Flat contact sections 7 are made in the landing hole of the cartridge case and on the reciprocal part of the tool holder. These sections are located symmetrically and diametrically opposite to the longitudinal axis of the cartridge.

 In the cartridge case there is a recess 8 with a supporting surface 9 for the tool holder on the cutting edge side - interchangeable platinum 10. A screw 6 for fixing the tool holder is installed in the cartridge case on the side of the flat contact sections 7 and is shifted by a distance "e" from the center of the bore hole to the cutting side tool holder edges.

 The micrometer screw 5 is axially displaced relative to the cartridge case by a washer 11 mounted in the annular groove of the micrometer screw and attached to the cartridge case by a screw 12. The micrometer screw is threaded to the sleeve 13, which is rigidly connected to the tool holder 3.

 Setting the extension of the cutting insert to the required size of the bore is carried out by rotating the micrometer screw 5 with the screw 6 open. The tool holder 3 is translationally moving relative to the cartridge case within its stroke. At the end of the setting, the tool holder is clamped with a screw 6, which directly acts on the tool holder, rotates it in the landing hole 4 within the gaps between the flat contact sections 7 until the tool holder touches the supporting surface 9 of the cartridge case.

 During the operation of the boring chuck, the flat contact sections of the housing and the tool holder, as well as the fixed support of the tool holder on the cartridge case, exclude radial displacements of the tool holder relative to the housing and oscillations during cutting, increase the rigidity of the cartridge, allow higher cutting conditions and improve the quality of machining.

Claims (2)

 1. Boring cartridge containing a housing, a tool holder located in the housing bore hole, a tool holder moving mechanism made in the form of a micrometer screw, and a screw for fixing the tool holder mounted in the cartridge housing, characterized in that in the housing bore of the cartridge case and on the mating part of the tool holder made flat contact areas, on the side of which a screw is installed in the cartridge case for fixing the tool holder.  2. The boring chuck according to claim 1, characterized in that the chuck body has a supporting surface for the tool holder from the cutting edge side, and the screw for fixing the tool holder is installed in the chuck body with an offset from the center of the housing bore hole towards the cutting edge.

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