RU2064612C1 - Gas-dynamic sliding bearing - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: bearing has tabs made of a flexible material and uniformly arranged over periphery. The bases of the tabs are secured to the inner surface of the bearing housing to overlap each other. Each of the tabs is provided with cuts in the side edges near the base. The width of the cuts does not exceed the value of the tab overlapping, and the depth of the cuts is up to 1/3 of the tab width. In operation, a tab is pressed to the bearing housing and bent at the overlapping so that to enter the cuts in another tab. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to mechanical engineering and is intended for use in high-speed mechanisms.

 Known gasdynamic sliding bearing containing a housing with rectangular grooves and petals with mounting rings in contact with the front walls of the grooves and made profiled in an open circuit (1).

 A gasdynamic sliding bearing is also known, which contains uniformly spaced petals of elastic material, mounted on the inner surface of the bearing housing and overlapping each other, and in each petal there are conical holes directed by a smaller diameter to the bearing axis (2).

 A disadvantage of the known bearings is the uneven wear of the petals in the area of their overlap, which reduces the reliability of the bearing in operating conditions.

 The problem to which the invention is directed, is to increase the reliability of the bearing in operating conditions by reducing the uneven wear of the petals.

 The problem is solved in that the gas-dynamic bearing, containing uniformly spaced around the petals of elastic material, fixed with its bases on the inner surface of the bearing housing with an overlap on each other, is characterized in that cutouts with a depth equal to one third of the width are made in the side edges of the petals petal, and with a width not exceeding the size of the overlap of the petals on top of each other, while the cutouts are located at the base of the petals.

 In FIG. 1 shows a gas-dynamic bearing, section; in FIG. 2 - petal, top view.

 The gas-dynamic sliding bearing contains uniformly spaced around the circumference of the petals 1, made of an elastic material. The petals 1 are fixed on the inner surface 2 of the bearing housing so that they overlap each other. In each petal, cutouts 3 are made located at the edges of the sides of the petal at its base. The depth of the cuts is up to one third of the width of the petal, and the width of the cuts does not exceed the size of the overlap of the petals on each other.

 The proposed gas-dynamic sliding bearing operates as follows.

 In the initial state, the petals 1 are pressed against the shaft of the mechanism. When the shaft rotates, they bend from the shaft, pressing in the inner surface 2 of the bearing housing, and each lobe 1 in the overlap zone bends into cutouts 3 of the other petal and, leaning on the edge of cutout 3, bends so that a more uniform gap is created between the blade and the shaft. As a result, the uneven wear of the petals is reduced and the reliability of the bearing is increased. In addition, the bearing capacity of such a bearing is increased.

Claims (1)

 A gas-dynamic sliding bearing, comprising uniformly spaced petals of elastic material, fixed with their bases on the inner surface of the bearing housing overlapping each other, characterized in that cutouts with a depth equal to one third of the width of the petal are made in the side edges of the petals, with a width of not exceeding the size of the lapping of the petals on top of each other, while the cutouts are located at the base of the petals.

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