SU817349A1 - Hydrostatic support - Google Patents

Description

(54) HYDROSTATIC SUPPORT

FIELD OF THE INVENTION The invention relates to mechanical engineering, in particular to butterfly valves for hydrostatic bearings. A hydrostatic support is known, comprising a sleeve mounted in the housing and encompassing the shaft axle with carrying pockets, communicating with the power source through the corresponding regulator having a core | Bus, with an enclosed inside it forming a chamber with the walls and connected to bearing cardan support. The capillary channels are connected on the one hand to the source of the working medium, and on the other to the bearing pocket of the support 1. The disadvantage of this support is that the regulating element (capillary) of this support senses the pressure of only one pocket directly connected to it. , which leads to a decrease in the value of the additional restoring force arriving per unit of load applied to the support. In addition, the capillary of this regulator is made in the form of a tube of circular cross section, which, as is known, can ensure a smooth and change in its cross section under the action of internal pressure only. When an external pressure is applied to the walls of the tube, no change in cross section occurs initially, and when the pressure reaches a critical value, a sharp change in cross section is observed, associated with the loss of stability of the circle shape. It follows that the range of regulation of this throttle is limited by the limit determined by the moment when the elastic forces of the material filling the cavity begin to exceed the forces of working medium pressure inside the capillary, which degrades the performance of the support. The purpose of the invention is to increase the rigidity of the support by expanding the range of adjustment. This goal is achieved by the fact that in hydrostatic support the chamber between the walls of the regulator body and the capillary is connected to the bearing pocket of the support diametrically opposite the cardan connected to the capillary, and the cross-sectional profile of the capillary is oval. The capillary is fixed in the housing by means of a device made in the form of a biscuit with bevels concentrically arranged inside and outside the end portion of the capillary, respectively, with an elastic gasket with a flange pressed against the housing. In addition, the capillary is made with a confused inlet and a diffuser outlet. In FIG. 1, a diagram of the proposed support with regulators is shown in FIG. 2 - the same cross section; in fig. 3 - regulator, general view; in fig. 4 shows section A-A in FIG. 3

. The hydrostatic bearing contains mounted in the housing 1 and the envelopes of the axle shaft. 2 sleeve 3 with carrying pockets 4. Each carrying pocket 4 communicates with the power source 5 through an appropriate regulator. The regulator 6 has a housing 7 with a resiliently deformable capillary 8 fixed inside it, connected to the carrying Pocket 4 and the cross-sectional profile of which is oval forms (Fig. 4). The capillary p 8 forms with the walls of the housing 7 of the regulator a chamber 9 connected to the carrying pocket 4 located diametrically opposite to the pocket connected to the capillary 8. At the ends of the capillary 8 it is fixed in the casing 7 of the regulator with the help of crackers 10 and rubber pads 11, pressed by flanges 12, Surfaces 13. crackers 10 and surfaces 14 of flanges 12 are made confused by the entrance of the working medium in the capillary and diffuser by the exit of the working medium from the capillary.

The support works as follows. When a load is applied to the pocket 4 of the spore connected to the capillary 8 of the regulator, the pressure of the working medium inside the capillary increases, in TCf, while in the opposite support and the channel of the chamber 9 connected with it the pressure drops. Under the action of the pressure drop inside the capillary 8 and chamber 9, the capillary elastically deformed increases its flow area, which leads to a decrease in its hydraulic resistance, and, consequently, to a further increase in pressure in the support pocket connected to the capillary 8, When changing the direction of the load to the opposite pressure difference inside the capillary 8 and the chamber 9 also changes its

a sign to the opposite and a capillary under the action of this differential reduces its cross section, which ultimately leads to a further decrease in pressure in the pocket. Thus, an additional restoring force appears between the opposite pockets, which ultimately causes an increase in the rigidity of the support.

The proposed design allows to expand the range of regulation and provide a more economical law of regulation ..

Claims (1)

Invention Formula 1, Hydrostatic support comprising a sleeve mounted in the housing and encompassing the shaft journal with load-bearing pockets, each communicating with the power source through a corresponding peryjyjToP having a housing with an elastic form fixed inside it Forming a capillary 5, with its walls, the chamber and connected to the bearing pocket of the support, which is so that in order to increase the rigidity of the support by expanding the range of adjustment, the chamber Q between the walls of the controller casing and the capillary rink is connected to the supporting pocket of the aperios, which is diametrically opposed to the pocket connected to the capillary, while the profile  the cross section of the capillary has  oval shape 2, The support according to claim 1, about aphids, so that the capillary is fixed in the housing by means of a device made in the form of a concentrically arranged, inside and outside, ends of the capillary part of the sucker, with bevels, an elastic gasket to the body flange 3, The support according to claims 1 and 2, about tl and g with the fact that the capillary made with confused input and diffuser output. Sources of information taken into account in the examination 1. The patent of Germany 2121476, CL, F 16 C 17/16, 1973, (Rie.}