SU1352102A1 - Hydrodynamic bearing - Google Patents

Abstract

The invention makes it possible to increase the durability and reliability of a pair of friction in a bearing composed of materials with different microhardness of the working surfaces of the pair and made of alumina-mineral-ceramic materials with similar values of linear expansion coefficients. When the bearing sleeve 3 rotates, its working surface carries gas into the lubricating gap of variable cross section. As a result of compression of the gas in the zone of the minimum gap, an increased pressure is created, a division of the sleeve is 3 pairs of friction from the shaft 1. The aerodynamic pressure forces balance the load on the sleeve 3. 1 Il. S ate about KD

Description

FIELD OF THE INVENTION The invention relates to precision engineering and instrument-making, namely to high-speed gas bearings of precision instruments.

The purpose of the invention is to increase the durability and reliability of the gas-dynamic bearing.

The drawing shows the gas-dynamic bearing, longitudinal section.

The gas-dynamic bearing contains a stationary element of a friction pair, consisting of a shaft 1, on which the followers 2 are rigidly fixed. On the shaft 1 with an optimal lubricating gap, there is a movable element of a pair of friction — a sleeve 3. The parts of the gas-dynamic bearing are made of alumina mineral-ceramic-materials with similar values of linear expansion coefficients. At the same time, one of the elements of the friction pair (mobile or stationary) is made of a material, for example, CM-332, with a microhardness of 1900-2000 kgf / mm, and the other element is made of a material, for example, 22XC, containing a glass phase and having a microhardness equal to 0.55 - 0.68 units of the microhardness of the material of the first element.

Gas dynamic bearing works as follows.

When the sleeve 3 of the sub-shaft rotates, its internal working surface carries gas into the lubricating gap of variable cross section. As a result of gas compression in the zone of minimum clearance, an increased pressure is created separating the movable element of the friction pair - the sleeve from the stationary shaft 1, resulting in a rotating sleeve.

3 "pops up. The aerodynamic pressure forces balance the weight of the rotating sleeve 3.

During the start-up of the device, before the rotating sleeve reaches the speed of "ascending", as well as when the sub-shaft stops, dry friction of the working surfaces of the gas-dynamic bearing takes place. Reliability and durability of the bearing

determined by its operation in the dry friction mode.

The given ratios of microhardness of alumina mineraloceramic materials for mobile and stationary elements of a pair of friction and the presence

glass phases in a material with a lower microhardness eliminate the occurrence of gas-dynamic subshell jamming and increase its durability (compared to the known ones) by a factor of 100 or more.

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Claims (1)

Invention Formula five The gas-dynamic support containing mobile and stationary elements of a friction pair, made of various alumina-mineral-ceramic materials with similar values of linear expansion coefficients, characterized in that, in order to increase durability and reliability of operation, one of the elements of the friction pair is made of a material for example, CM-332, with a microhardness of 1900-2000 kgf / mm, and another element made of a material, for example 22XC, containing a glass phase and having a microhardness equal to 0.55-0.68 units of the microhardness of the material la first element.