SU1509215A1 - Device for clamping parts - Google Patents

Abstract

The invention relates to a machine-building industry and can be used in precision automatic devices, for example, stepper devices, where instantaneous fixation of angular and longitudinal movements of axes and shafts is required. The invention is directed to improving the accuracy of the shaft. This is achieved by fixing the shaft 7 on the outer surface of the cup 5, the flange 6 of which is rigidly fixed on the shaft 7 and on the inner surface of the ring 3 fixed on the housing 1. There is no direct deformation of the shaft, since the tension created by the ring 3 and the cup 5 is not transmitted to the shaft 7, and the length of the ring 3 in the longitudinal direction is selected based on the length of the cup 5 of the range of micro-movements and the condition of holding the required load. In this case, the magnetostriction deformation of the ring 3 is carried out in the radial direction. When magnetizing both windings, the shaft 7 is released and the shaft freely moves with the cup 5. 2 Il.

Description

The invention relates to instrumentation engineering, and can be used in precision automatic devices, for example, step-by-step, where instantaneous fixation of angular and longitudinal movements of axes and shafts is required.

The aim of the invention is to increase the accuracy of positioning of parts of the 10 ’'shaft *' type.

Figure 1 shows a device, a longitudinal section; figure 2 is a section aa in figure 1.

The device consists of a housing 1, 15 to which a screw 3 is attached a ring 3 with a toroidal winding 4. The ring 3 is mounted on a glass 5, which has a flange 6, rigidly connected to the part-shaft 7. In the stack 20. is not installed sleeve 8 with a cylindrical winding 9, having a flange 10. The end face of the sleeve 11 abuts against the bottom 12 of the glass 5. The glass 5 and ring 3 are made of 25 yen from materials having the same magnetostriction sign. ·

The device operates as follows,

Empty the cup 5 and the ring 3 are made of magnetostrictive materials with positive magnetostriction. In the initial state, the ring 3 covers the cup 5 with an interference fit. When feeding the toroidal winding 4, the diametral when feeding the cylindrical winding 9, the diametric size of the cup 5 'decreases due to the fact that the transverse magnetostriction has a negative sign, and this leads to the formation of a gap between the cup 5 and the ring 3. The shaft 7 is freed up to work out the movement. When the windings are de-energized, the elastic elements - ring 3 and glass 5. return to their original position.

Claims (1)

Claim A device for clamping parts, containing two coaxially located elastic elements made of magnetostrictive materials, is different in that, in order to improve the accuracy of positioning parts such as a shaft, one elastic element is made in the form of a glass with a flange designed for interaction with the shaft, and installed in the sleeve glass with a flange having a cylindrical winding, and another elastic element is rigidly connected to the housing and made in the form of a ring mounted on a glass with a toroidal winding, while the end face in the opposite side of the flange is designed to interact with the bottom of the glass, and the ring and glass are made of 35 materials bearing ’one sign the magnesian size of the ring 3 is increased, and tostriction. ΛζΑ.