SU1741975A1 - Self-centering chuck - Google Patents

Abstract

Usage: in the machine tool industry, in particular in self-centering clamping chucks. The invention of the torque is transmitted to the elements of the planetary mechanism, in particular to the central wheel (8), then through the satellites 9 to the carrier 7, and then through the parasitic gears 5. mounted on axles 6 rigidly fixed in the housing to the spiral disk 3 the mechanism for moving the cams 2, which, interacting with the cams 2, brings them together by clamping the divider. At the same time, due to the fact that the moment of inertia of the cam movement mechanism is selected from the corresponding I | Ј wears the h S-g-, where I is the moment of inertia of the planetary mechanism, 12 is the moment of inertia of the cam movement mechanism, , f2 is the friction coefficient of the cam movement mechanism; U is the gear ratio of the cam movement mechanism, as well as due to parasitic gears located in the cartridge, the cartridge in the proposed cartridge eliminates cam lobes when the cartridge operates at high frequencies of rotation and stops, 1 sludge. (/ C yu ate

Description

The invention relates to the field of machine tools, in particular to self-centering clamping chucks.

The aim of the invention is to improve the reliability of fixing the part at high rotational frequencies by eliminating the appearance of self-clamping cams.

The drawing shows a self-centering cartridge, general view, longitudinal section.

The self-centering cartridge, in the case 1 of which the cams 2 connected to the mechanism of their movement are installed in the radial grooves, is made in the form of a spiral disk 3, the spiral of which interacts with the mentioned cams and whose internal surface has a gear 4 which engages parasitic gears 5 mounted on axles x 6 fixed in housing 1. Gears 5 interact with the planet carrier 7 of the planetary gear associated with the drive and containing the central wheel 8, satellites 9, the solar wheel 10, rigidly attached to the flange 11, which through the intermediate ring 12 is connected to the housing 1.

The cartridge works as follows.

The torque is transmitted from the drive to the central wheel 8, then through the satellites 9 to the carrier 7 and through the parasitic gears 5 to the spiral disk 3 of the cam movement mechanism 2. Spiral disk 3. turning, moves the cams 2, which converge and clamp the part. When rotating at high frequencies, the cams 2 move under the action of centrifugal forces to the periphery, and, consequently,

Turn the disk 3, however, the disk cannot turn as it is connected with the planetary mechanism, the moment of inertia of which is chosen according to the following relation from the 5th condition of dynamic equilibrium:

. . Ufi. 2 5: - And,

f2

where h is the moment of inertia of the planetary mechanism;

2 - the moment of inertia of the cam movement mechanism;

fi is the friction coefficient of the planetary mechanism;

15 f2 is the coefficient of friction of the cam movement mechanism,

U is the gear ratio of the cam movement mechanism.

When the cartridge stops, due to the fact that the moment of inertia of the cam movement mechanism is greater than the moment of inertia of the planetary mechanism, the possibility of self-isolation of the cam is eliminated.

Claims (1)

Claims of Invention, (25 Clamping Self-Centering Pat-, In the radial grooves of the housing of which there are clamping cams with a mechanism for their movement connected with a drive through the planetary mechanism, about 30 are 30. in order to increase the reliability of fastening at high rotational frequencies, the planetary mechanism is associated with the cam movement mechanism, by means of parasitic gears inserted into the device 35, the axes of which are fixedly mounted in the cartridge case.