RU2099164C1 - Self-centering jaw chuck - Google Patents

Abstract

FIELD: machine-tool industry; may be used in heavy and general engineering. SUBSTANCE: jaw chuck has body 1, 2, spiral discs 4, 6 coaxially accommodated in body, cams 5, 7 installed in recesses of body and discs, and rotary drive of discs. Rotary drive is made in the form of three bevel pinions 12 located in body. Rotary drive is located between spiral discs 4 and 6, ring 10 and satellite bevel pinions 8 with axles 9. Made on spiral discs 4, 6 and ring 10 are bevel gear rings 11 meshed with satellite bevel pinions 8 and bevel pinions 12. Disc spirals have different direction. Ring has hole 10 to receive axles 9 of satellite bevel pinions 8. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the field of machine tools and can be used in general and heavy engineering for turning thin-walled parts.

Known cam self-centering cartridge, comprising a housing, in the hub of which a spiral disk is centered with a recess on the landing surface of the disk. The spiral of the disk interacts with the teeth of the cams located in the radial grooves of the housing [1]
The disadvantage of this cartridge is that the fastening of a thin-walled part leads to deformation of the latter, which reduces the accuracy of processing.

 Known cam self-centering cartridge (prototype of the invention), comprising a housing in which two spiral discs are installed, interacting with the respective cams.

 Spiral disks mesh with their gears respectively with gears installed in the housing.

 The cams are placed in the grooves of the housing [2] The disadvantage of this cartridge is the insecurity of clamping a thin-walled part without deformation.

 The invention solves the problem of reducing the deformation of fixed thin-walled parts.

 To solve this problem, in a self-centering cam cartridge containing the main and additional spiral disks installed in the housing, interacting with the main and additional cams installed in the grooves of the housing and moved helically by rack and pinion gears, the main and additional spiral disks are respectively equipped with right and left spirals, coaxially located and interact with the drive bevel gears of the housing through satellite bevel gears located between them and their axes and installed in the holes of a ring provided with a toothed bevel gear meshed with the three mentioned bevel gears installed in the housing.

 The essence of the invention is illustrated in the schematic drawing.

 In the detachable housing 1.2 of the cartridge with the casing 3, a spiral disk 4 (with a right spiral) interacting with the cams 5 and a spiral disk 6 (with a left spiral) interacting with the cams 7 are installed. The spiral disks 4,6 are engaged with their gear rings, respectively with satellite bevel gears 8, which are mounted with their axles 9 in the radial holes of the ring 10 provided with a gear bevel gear 11, which it is constantly engaged with the bevel gears 12. The gears 12 are fixed in the pin housing and 13 and provided with turnkey square recesses 14. The jaws 5,7 are arranged in radial grooves 15 of the housing 1. The dowels 16 serve to transmit torque. The sleeve 18 is pressed into the housing and is used to install gears 12. The split ring 19 is used to install gears 8 with axles 9.

 The operation of the device is as follows.

To fix the thin-walled part 17, it is installed in the center of the cartridge so that some cams are outside and others inside. Insert the key into the square socket of one of the gears 12 and rotate it. Moreover, when the corresponding cams come in contact with the surface of a thin-walled part, for example, the upper ones, they will stop, and with them
and a spiral disk meshed with it. The second cams, lower, will continue to move until they come into contact with the inner surface of the thin-walled part and the final clamping of the part occurs.

 In this case, the deformation of a thin-walled part is completely or substantially eliminated. Turning the key in the opposite direction releases the part.

Claims (1)

 A self-centering cam cartridge containing spiral disks coaxially located in the housing, a helical disk rotation drive in the form of a bevel gear and cams installed in the grooves of the disks and the housing, characterized in that the spiral disk rotation drive is equipped with three bevel gears mounted in the housing, satellite bevel gears, having axes, as well as a ring located between spiral disks, in which holes are made under the axis of satellite bevel gears, moreover, on spiral di On the side and on the ring there are bevel gears meshing, respectively, with satellite bevel gears and bevel gears installed in the housing, while the disk spirals have different directions.