SU550545A1 - Device for measuring contact force of elastomer seals - Google Patents

Description

one

This invention relates to the field of controlling the performance of elastomer seals, such as lip seals, which are widely used in various engineering fields (mechanical engineering, instrument making, aviation, etc.).

A known device for controlling the contact force of the sealing edge allows us to determine the specific pressure of the edge on the shaft containing the shaft with a small orifice into which air or liquid 1 is injected at the point of contact of the seal with the shaft.

The drawback of the device is the laboriousness of determining the specific contact pressure of the sealing edge in connection with the fact that it takes a long time to find the place of maximum contact of the seal with the shaft and determine the specific pressure.

The closest to the technical essence of this invention is a device for controlling the contact force of elastomer seals, consisting of a composite shaft for placing seals on its cylindrical surface, parts of which are mounted on elements that are radially relative to the shaft axis and are kinematically connected to the meter force of movement of elements 2.

The described device does not allow to measure the contact pressure of the sealing lip on

the shaft, since it does not measure the contact area of the seal with the shaft, but only the contact radial sealing force, i.e., it has limited functionality.

To extend the functionality of the proposed device, nozzles are connected to the compressed air source on the cylindrical surface of the composite shaft.

FIG. 1 shows the described device; in fig. 2 - the same, view along arrow A.

The device consists of throttles 1 placed in the pneumatic chamber 2, the air pressure from which is transmitted through the lever 3 to one of the components of the split shaft and is balanced by the radial force of the cuff 4 mounted on the movable and stationary parts of the composite shaft 5 and 6. The nozzle 7 on one of the shaft components 6, it is an output element of a pneumatic device for measuring linear dimensions, and the size of the nozzles along the shaft axis exceeds the width of the seal contact.

Air is introduced into pneumatic chamber 2 through choke 1 and out through slot 8. Its pressure is measured by pressure gauge 9. Pressure gauge 10 measures the pressure of air entering nozzle 7 through choke 11.

FIG. 2 shows the contact surface 12 of the seal 4 and the nozzle 7.

Controlled seal 4 is put on the parts 5 and 6 of the composite shaft. Through the throttles 1 and 11 serves compressed air into the pneumocamera and the nozzle 7.

The radial force of the cuff 4, striving to bring together the component parts 5 and 6 of the shaft, balances the force of the lever 3 to the component parts of the shaft, created by air pressure.

The air pressure measured by the pressure gauge 9 characterizes the radial force of the cuff 4. The area of the outlet of the nozzle 7 varies depending on the width of the seal contact and is determined by the pressure gauge 10.

Claims (2)

1.Adtorskoe certificate USSR №316948, M. Kl.2 G OIL 1/02, 1968. 2.L. A. Kondakov. "Compaction of hydraulic systems, Moscow, Mashinostroenie, 1972, p. 209-212 (prototype). YU 7Fig. /