SU562681A1 - Hydrostatic bearing - Google Patents

Description

The invention relates to machine construction for MOjKGT to be used in the c-gancho group; This requires the creation of high-frequency guides, which carry heavy loads.

The hydrostatic support is known, which comprises a floating support element which is made with a KapsiaLOxf bearing and central supply duct and is in contact with direction S1: S;

However, for stiffness between the movable element and the base part, a control mechanism is necessary, for example, a spool separated from the support for a certain distance, as a result of which the dynamic qualities of the hydrostatic support deteriorate. In addition, the use of such supports does not allow, in combination with them, the use of pump-pocket power supply systems, which leads to the need for double throttling, as a result of which the heat release is increased.

The aim of the invention is to increase the reliability of the hydrostatic support by eliminating an additional control element beyond its limits, enhancing its dynamic qualities, and reducing heat generation.

This is achieved in that the support is provided with a nozzle arranged with a gap in the pentral supply channel of the supporting element 1: ga fixed in the housing and communicating with the drain.

The drawing shows the proposed rt.pocTaTir-iecKaH support.

 contains floating reference element Nfebrr 1 in contact with guide 2 located in the opening of padus 3. Floating support element 1 is made with a carrying pocket 4 and has a central supply channel 5. In the latter, a nozzle 6 is fixed with a gap in the housing. 3 and communicating with the sink. In addition, half: x 7, formed by body 3 and float; and element 1, the rubber is sealed with colts 8.

Hydrostatic bearing with a floating element works as follows.

A force P acts on the hydrostatic support; fluid under pressure is supplied to cavity 7 and lifts element 1 to contact with guide 2. The gap in slot 9 becomes zero at this time. The end face of the nozzle 6 is made flush with the bearing surface of the housing 3. After the pressure in cavity 7 increases to, where P is the force acting on the support and T is the area of the end face of element 1, the floating element 1 will begin to tear off the guide 2 from the body 3 while the pressure will increase. At the same time, due to the increase in the gap i in the slit 9, the pressure grows much slower than before the separation of the guide 2 from the housing 3, since the sleeping resistance begins to decrease and then generally becomes constant. At the same time, the sealing element 10 of element 1 is set to nat close in magnitude to zero (due to the proximity in size of the bottom end and the pocket 4 of element 1). As the load P increases, the gap of the gap 9 decreases, its hydraulic resistance increases, and the pressure in cavity 7 and pocket 4 increases, i.e. there is a reaction to the disturbing load, as a result of which the support develops a greater force, equal and opposite in the direction applied.

Claims (1)

1. USSR Author's Certificate No. 363569, Cl. In 23 1/02, 1970. /ABOUT H- 9 From the pump