SU1200007A1 - Versions of vibro-carrier gas-static support - Google Patents

Abstract

1. Vibration-bearing gas-static support, containing a sleeve mounted in the housing, a shaft axle and having pressure supply channels for evenly circumferential gas supply, characterized in that, in order to increase the stability of the shaft rotation at high vibration frequencies and variable loads, it is equipped with a generator a pulsating fluid flow, and the sleeve is made with circumscribing circumferences between the gas supply channels and closed chambers connected to the generator, the walls of which are The rions of the shaft are elastic. (L

Description

2, Vibro-bearing gas-static bearing, containing a sleeve mounted in the housing, enclosing the shaft journal and having pressure gas supply channels evenly spaced around the circumference, characterized in that in order to increase the stability of the shaft rotation at high vibration frequencies and variable loads, it is equipped with a generator a pulsating flow of liquid; bones and plungers, and the sleeve on the housing side is made with an annular gas supply chamber, the wall of which is elastic on the shaft side, the housing is made with circumferential pockets, connected with the generator of pulsating fluid flow and radialHbiMrf apertures, wherein said pockets communicates with the annular chamber of the sleeve, wherein the radially placed holes the said plungers.

interacting with one of the ends with the elastic wall of the annular chamber of the sleeve.

3. Vibro-bearing gas-static bearing, comprising a sleeve mounted in the housing, covering the shaft journal and having pressure gas supply channels evenly spaced around the circumference, which is equipped with a generator to increase the stability of the shaft rotation at high vibration frequencies and variable loads. a pulsating fluid flow and an elastic liner mounted between the casing and the sleeve and rigidly connected to them, and the casing is made with radial holes arranged around the circumference, schayuschimis generator with pulsating fluid flow.

one

The invention relates to mechanical engineering, in particular to gas-lubricated bearings, and can be used as bearing assemblies for machine spindles.

The purpose of the invention is to increase the stability of the shaft rotation at high oscillation frequencies and variable loads.

Fig. 1 shows a vibro-bearing support according to embodiment 1; in Fig. 2, section A-A in Fig. 2; G, fig.Z - support for option II; figure 4 - section bb in fig.Z, fig.Z - support for option III; figure 6 - section bb In. 5.

The gas-static vibrating carrier of version I includes a housing 1, a sleeve 2 mounted therein, enclosing the axle shaft 3, and a generator 4 of a pulsating fluid flow. The sleeve 2 has pressure channels 5 which are evenly spaced around and closed chambers 6 between them connected to the aforementioned generator 4, the walls 7 of which are elastic on the shaft 3 side.

The vibration support of variant II comprises a housing 1, a sleeve 2 mounted therein, enclosing a shaft pin 3, and a generator 4 of a pulsating fluid flow.

The sleeve 2 is uniformly spaced around the circumference of the channels 5 of the gas supply under pressure and from the side of the housing 1 is complete with an annular gas supply chamber 8, the wall 9 of which from the side of the shaft 3 is made elastic.

The housing 1 is provided with pockets 10 arranged circumferentially connected to said generator 4.

and radial holes 11, which communicate the said pockets 10 with an annular chamber 8. In the radial holes of the housing there are plungers 12, which interact with one of the

the ends with the elastic wall 9 of the annular chamber 8 of the sleeve 2.

The vibration support of variant III comprises a housing 1, a sleeve 2 mounted therein, enclosing a shaft pin 3, and a generator 4 of a pulsating fluid flow.

The sleeve 2 is uniformly spaced around the circumference of the channels 5 of the gas supply under pressure.

A resilient insert 13 is mounted and rigidly connected with them between the housing 1 and the sleeve 2. The housing J is made with radial holes 14 arranged around the circumference, closed W1 on the shaft 3 side by an elastic insert 13, and communicating with said generator 4.

The gas-static vibration support works as follows.

When a pulsating fluid flow created by the generator 4 is fed into the chambers 6 (figs, 1 and 2) and into the pockets 10 (figs. 3 and 4), sections of the liner 2 are elastically deformed in the radial direction, and when pulsating fluid flows in the cavity of the holes 14 liner 2 moves in a radial direction.

Aa

Mechanical oscillations of the sections of the liner (I and II variants) or the inserts (III variant) are transmitted to the Carrier gas layer and act on the rotating support element in the form of fast pulses.

The frequency and amplitude of oscillations are smoothly controlled by the generator of the pulsating fluid 4 in a wide range.

The proposed vibro-bearing gas-static bearing generates oscillations on the rotating shaft, which increase the stability of the shaft rotation, suppressing the so-called fractional-velocity vortex of the rotating shaft in the air bearing and adding additional energy to the oscillating shaft, for example, to the treatment area (grinding).

Claims (3)

1. A vibro-bearing gas-static housing, a sleeve wrapping around the shaft journal and having gas supply channels under pressure evenly spaced around the circumference, characterized in that, in order to increase the shaft rotation stability at high vibration frequencies and variable loads, it is equipped with a pulsating fluid flow generator, and the sleeve is made with closed chambers located around the circumference between the gas supply channels and connected to the said generator, the walls of which are mounted on the shaft side with a support containing lined in elastic. SU „.1200007 2. Vibration-bearing gas-static support, comprising a sleeve mounted in the housing, wrapping a shaft journal and having gas supply channels evenly spaced around the circumference under pressure, characterized in that, in order to increase the stability of the shaft rotation at high vibration frequencies and variable loads, it is equipped with a pulsating generator fluid flow and plungers, and the sleeve on the housing side is made with an annular gas supply chamber, the wall of which is elastic on the shaft side, the housing is arranged with circles with pockets connected to a pulsating fluid flow generator, and radial holes communicating the said pockets with the annular sleeve chamber, said plungers being placed in the radial holes interacting one of the ends with the elastic wall of the annular sleeve chamber. 3. Vibration-bearing gas-static support, comprising a sleeve mounted in the housing, covering the shaft journal and having gas pressure channels evenly spaced around the circumference, characterized in that, in order to increase the stability of the shaft rotation at high vibration frequencies and variable loads, it is equipped with a generator pulsating fluid flow and an elastic liner mounted between the housing and the sleeve and rigidly connected to them, and the housing is made with radial holes located around the circumference, together schimisya generator with pulsating fluid flow.