SU450977A1 - Device for measuring friction moment in a cylindrical pair - Google Patents

Description

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The invention relates to a measurement technique and can be used to study the effects of friction between cylindrical pairs.

The known devices for measuring the moment of friction in the test pair, containing the loading mechanism of the test pair with a normal load, the sample rotation mechanism, a cantilevered measuring beam with strain gauges and a recording device with a tape drive mechanism, have a low measurement accuracy.

In order to improve the measurement accuracy in the proposed device, the loading mechanism of the test pair with a normal load is fixed at the free end of the cantilever measuring beam and made in the form of two pivotally connected pads, covering the outer element of the test friction pair and erected on the other side with a screw pair through a calibrated spring, and the swing mechanism the sample is made in the form of a rectangular frame with coaxial holes on its two opposite sides for mounting on the inner element of the test pair s, the two other sides of which are located, respectively, the vessel for the loading fluid and the balancing goods with a microswitch.

FIG. 1 shows the proposed device, a general view; in fig. 2 - the same, top view.

A microswitch 2 is mounted on a stand 1 and a measuring beam 3 with strain gauges is cantilevered.

The loading mechanism of the tested samples is located at the free end of the ball.

normal load, made in the form of two pads 4 and 5, interconnected by a hinge 6. The test specimens are made in the form of a cylinder 7 and partial liners 8, installed between the pads 4 and 5, assembled by a screw pair 9 through a calibrated spring 10, which creates the required normal load in a pair of friction. Partial liners 8 and pads 4 and 5 are shorter than cylinder 7, with the middle part being clamped between the partial liners. The cylinder has the ability to rotate in the inserts 8 when a torque is applied to it that exceeds the friction force in the test pair. At the ends of the cylinder, protruding behind the pads 4

and 5, fixedly mounted frame 11 of the mechanism of its rotation. The rotation mechanism is balanced relative to the axis of the cylinder and is designed as a frame 11 with an emphasis 12, with which it can act on the microswitch 2. On the side walls of the frame 11 there are coaxial mounting holes equal to the diameter of the inner element of the test pair, and the distance between them is slightly less than the length sample. On the other two sides of the frame, on one side is hanging a vessel 13 for receiving a loading fluid, and on the other side loads 14 are balanced, balancing the frame and the vessel relative to the axis of the cylinder 7. The device is equipped with a loading fluid supply system containing a container 15 with liquid located above the vessel 13, a nozzle with an electromagnetic shut-off valve 16 and a calibrated jet, supplying the fluid flowing to the tank 15 into the vessel 13. The device is equipped with an electric recording device 17 with a tape mechanism connected through the amplifier 18 with the sensors 19 of the measuring beam 3. Ms sherykl1chatched1 .., 2 is installed with the possibility of entering into 5 with the stop 12 of the frame 11 of the mechanism for rotating the sample at the moment of moving - the sample from the spot. The microswitch is electrically connected to the solenoid shut-off valve 16 and the tape drive mechanism of the recording device 17 and has the ability to control their operation. The device works as follows. In the initial position, the stop 12 of the frame 11 acts on the microswitch 2. The cylinder 7 of the test pair is compressed between the partial liners 8 pads 4 and 5. The loading fluid from the tank 15 through the valve 16 enters the vessel 13. The weight of the liquid in this vessel creates The moment, which tends to turn the frame 11 with the cylinder 7. When the torque exceeds the moment from the friction forces in the test pair, the cylinder 7 with the frame 11 rotates. At the moment the frame moves from the spot, microswitch 2 is activated and switches on the tape-driving mechanism of the registering device 17 and the shut-off valve actuator 16. At the same time, the loading of the loading fluid is stopped and the magnitude and nature of the starting friction torque change is recorded. The subject of the invention is a device for measuring the friction moment in a cylindrical pair, which contains the loading mechanism of the friction pair under study with a normal load, the sample rotation mechanism, a cantilever measuring beam with strain gauges and a recording device with a tape drive mechanism, in order to increase the measurement accuracy in it the loading mechanism of the test pair with a normal load is fixed on the free end of the cantilevered measuring beam and is made in the form of two hinged pads, the outer firing element of the test pair is fired and screwed on the other side through a tared spring, and the sample rotation mechanism is made in the form of a rectangular frame with coaxial holes on its two opposite sides for mounting on the inner element of the test pair, on the other two sides there are respectively a vessel for loading fluid and balancing loads with a microswitch.

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