SU1733945A1 - Apparatus for measuring thickness of lubricant layer in ball bearings - Google Patents

Abstract

The invention relates to the bearing industry and can be used to measure the thickness of a lubricating layer in ball bearings. The aim of the invention is to improve the measurement accuracy by bringing the loading condition of the friction unit to the operating conditions. The installation is equipped with a drive for rotating the ball around the horizontal axis and a lower support for the ball with a horizontal axis of rotation and located in the drive bath. A toroidal chute is made at the bottom of the disc for contacting the ball. The axis of rotation of the bath is aligned with the vertical axis of the gutter. In order to expand the functionality, the installation is equipped with a gas supply system mounted in the housing and connected to the drive bath. The proposed installation allows to bring the conditions closer to real ones, as well as using the video and television system to record, store and reproduce all the processes taking place at the contact of the friction of ball bearings at any time period and with the required speed. 1 hp f-ly, 3 ill. Yo

Description

The invention relates to the bearing industry and can be used to measure the thickness of a lubricating layer in ball bearings.

A device for measuring the thickness of a lubricating layer in ball bearings is known, which comprises two coaxially mounted disks mounted on a base with a vertical axis of rotation, a separator and balls located between the disks and an interference microscope.

A device for measuring the thickness of a lubricating layer in ball bearings is known, which comprises two coaxially mounted disks mounted on a base with a vertical axis.

rotation, a separator and balls located between the discs, a system for feeding a lubricant and its drain to the friction unit, and an interference microscope,

However, the known devices do not allow to simulate the contact conditions of a full-size ball bearing, take into account inaccuracies in the assembly and installation of ball bearing assemblies, as well as the influence of various gaseous media.

The purpose of the invention is to improve the measurement accuracy by approaching the operating conditions.

This goal is achieved by the fact that a device for measuring the thickness of a lubricating layer in ball bearings, comprising a friction unit mounted in a housing,

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made in the form of a drive disc of an optically sensitive material with a vertical axis of rotation and a ball in contact with the disk face, a lubrication system for a friction unit with a power bath with a vertical axis of rotation and a device for measuring the thickness of the lubricating layer are equipped with a drive for rotating the ball around the horizontal axis and the bottom support of the ball with the horizontal axis of rotation placed in the power bath, while the toroidal groove for contact with the ball is made on the bottom end of the disk, and the axis of rotation of the bath is aligned with the tical axis of the gutter.

In addition, in order to expand the functional possibilities, the installation is equipped with a gas supply system mounted in the housing and connected to the drive bath.

FIG. 1 shows the installation, general view; in fig. 2 - friction knot with a drive of a glass and a ball; in fig. 3, too, see above. The friction unit (Figs. 2 and 3) includes a disk 1 of optically sensitive material (for example, quartz glass). This disk is driven into rotation by the engine 2 through a round-drive transmission. The disk is enclosed in a metal casing (Fig. 1). Under the disk there is a ball 4 in contact with the disk by means of a circular chute 5. The ball 4 is mounted on supports 6 freely rotating from friction friction mounted in a glass 7 fixed on a shaft 8 with a vertical axis of rotation from 0 to 90 ° coinciding with the axis of the ball ensuring that the angle between the vector is changed. circumferential speed of the disk and the ball. The shaft 8 is rotated by the electric motor 9. The ball 4 is provided with a drive 10 mounted on the body of the cup 7 to rotate the ball 4 at a certain peripheral speed, providing a certain amount of slip relative to the disk. The drive shaft 11 contains a rubber tip 12, which provides the adhesion of the shaft with the ball 4.

The installation also contains a loading device (not shown), which creates a load at the contact of the friction using the pressure of compressed air, pressing the cup 7.

The installation also includes a lubrication supply and drain system, which consists of a reservoir 13, a pump 14 and a thermostat 15.

In addition, the installation is equipped with a device for supplying various gases to the friction unit, which includes a cylinder 16 with a gearbox, a filter 17, a desiccant 18 and

flow meter 19. To capture the parameters of the friction contact, the installation is equipped with a video television microscopic system consisting of a microscope 20, a television camera 21, a video recorder 22 and a television 23.

The device works as follows.

With the help of compressed air pressure, pressing the cup 7 creates a load in the contact of the friction. By turning on the motors 2 and 10, set the required speed of rotation of the disk 1 and the ball 4. The lubricant is supplied from the reservoir 13 by means of a pump 14 through a thermostat 15. The gas medium (air, nitrogen, argon, helium, hydrogen, etc.) is supplied from cylinder 16 with a gearbox through a filter 17, a desiccant 18 and a flow meter 19 into a glass 7 with a lubricating medium. To provide a certain amount of slippage, the circumferential speed of the ball 4 can be varied by adjusting the rotational speed of the engine 10. The angle between the peripheral speed of the disk 1 and the ball 4 in the range from 0 to 90 ° is changed by fixedly turning on the engine 9 connected through shaft with a glass of 7. for the time corresponding to the rotation of the glass of 7 at the required angle. Using the interference video television and microscopic systems, the thickness of the lubricant layer in ball bearings is determined. , move the cup 7 with the ball 4 along the radius of the disk 1.

The proposed installation allows to bring conditions closer to real ones, as well as using video and television systems to record, store and reproduce all the processes taking place in the contact of the friction of ball bearings at any time period and with the required speed, i.e. analyze and eliminate all installation and assembly errors.

Claims (2)

1. An installation for measuring the thickness of a lubricating layer in ball bearings, comprising a friction unit mounted in a housing, made in the form of a drive disc made of an optically sensitive material with a vertical axis of rotation and a ball in contact with the face of the disc; axis of rotation and a device for measuring the thickness of the lubricating layer, characterized in that, in order to increase the measurement accuracy by bringing the conditions of immersion of the friction unit to the conditions of operation, it is provided with a rotational drive of the ball around the horizontal axis and the lower bearing ball with a horizontal axis of rotation located in the drive bath, the toroidal trough formed on the lower end disk for contact with the ball, and the axis of rotation of the bath is aligned with the vertical axis of the gutter. 2. Installation under item 1, characterized in that, in order to extend the functionality, it is equipped with a gas supply system mounted in the housing and connected to the drive bath. 1 SUCHUCHHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCHCh V / t / s //////, fig 2 fig.Z