SU1640466A1 - Aerostatic support of a body of revolution - Google Patents

Abstract

The invention relates to instrument making and can be used in supporting devices where a high stability of the position of the axis of rotation is required, in particular in optical video and audio recordings. The purpose of the invention is to increase the stability of the position of the axis of rotation and to improve the operating conditions. The aerostatic support of rotation contains a stationary element, made in the form of two parts rigidly fastened together, forming a mating spherical and flat surfaces, as well as a movable element in the form of a flat disk. The corresponding spherical and flat mating surfaces of the disk are formed by a central hole of spherical shape and the plane of the disk. An annular receiving chamber and channels through which compressed air is supplied to the working surfaces are made in the stationary element. The support is arranged so that the center of the spherical bearing surface is located on the opposite side of the working surface of the flat disk. The design forms a permanent connection of the movable and fixed elements. This makes it possible to increase the stability of the system by reducing the likelihood of harmful self-oscillations and to create opportunities for using the device with different orientations of the axis of rotation relative to the direction of gravity. 1 il.

Description

The invention relates to instrument making and can be used in support devices where a high stability of the position of the axis of rotation is required, in particular in optical video and audio recordings.

The purpose of the invention is to increase the stability of the position of the axis of rotation and to improve the operating conditions.

The drawing shows an aerostatic bearing rotation, a general view.

The aerostatic support of rotation contains a movable 1 and a fixed 2 elements, one of which, in this case the fixed element 2, is made in the form of two parts 3 fastened together.

and 4, forming a conjugate spherical W and flat AI supporting surfaces. The stationary element 2 is placed inside a movable element 1, made in the form of a flat disk, the corresponding mating spherical B2 and flat A2 support surfaces of which are formed by a central hole of spherical shape and a disk surface. In the stationary element 2, channels 5 are provided for supplying compressed air to the nozzles 6 on the mating supporting surfaces from the pressure source (not shown). In the stationary element 2 there is also an annular receiving chamber 7, through which

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compressed air to the support surfaces. The support is arranged so that the center D of the spherical support surface B of radius R is located on the opposite side of the working surface A2 of the flat disk 1.

Aerostatic rotation support operates as follows.

The compressed air from the pressure source enters the annular receiving chamber 7 and then through channels 5 to the nozzles 6 onto the adjoining spherical Bi and flat AI bearing surfaces, by aerostatic suspension of the moving element.

The use of a compact aerostatic rotational support, which forms an integral joint between moving and stationary structural elements, improves the stability of the system by reducing the likelihood of harmful self-oscillations and creates opportunities for using the device with different orientations of the axis of rotation relative to the direction of gravity.

Reversing the position of the movable and stationary elements allows you to create with the same angular and

radial stiffness of the support additional service facilities, such as vacuum clamping of parts, the use of automatic centering of parts, and also improve the accuracy of the position of the axis of rotation.

Claims (1)

Aerostatic support of rotation, containing movable and stationary elements mating on two, spherical and flat, sliding surfaces, one of the elements is made in the form of two parts fastened together, and the other is in the form of a disk with a central hole of spherical shape, with In the stationary element, this channel has channels for supplying compressed air to the mating surfaces from the pressure source, characterized in that, in order to increase the stability of the position of the rotation axis and improve the operating conditions tion, the spherical surface center is located on the opposite side of the disc working surface, wherein a flat disk element is arranged to provide rotation. B {/