SU813169A1 - Method of measuring friction torque in a rolling-contact bearing - Google Patents

Description

one

The invention relates to mechanical engineering, in particular to devices for testing bearings.

A device for determining the rolling bearing friction moment is known, which contains a working shaft mounted on the base with the bearing under test, the outer ring of which is connected to the drive, the loading device and the measuring equipment fli. The disadvantage of this device is that it gives a reduced friction measurement of the friction torque from because the working wap with the vtuk and cup of the loading device fixed on it creates an additional axial and from the dying loads on the tested bearings, the action However, these loads on each of the installed two bearings may be different. When the device operates, unregulated vibrations of the clips with technical bearings are also generated. Also, the device is 71 complex.

installation of the tested bearings, since it requires the disassembly of a number of device knobs during repeated tests.

The purpose of the invention is to provide an opportunity to measure the moment of friction of one rolling bearing of precision instruments under the action of Vibration to increase the accuracy of control and simplify the device.

Claims (1)

This goal is achieved by the fact that a device for determining the moment of friction of bearings, containing a shaft mounted on a base with a test bearing, the outer lance of which is connected to the drive of the loading device and the instrumentation equipment, is equipped with a vibrating drive consisting of two piezoceramic plates connected with with the generator of their power supply and mounted with the possibility of the same elastic contact on the diametrically opposite sides of the outer peg of the investigated under ipnika and piezoobrazovatel with serially connected to it a detector, a low-pass filter, a amplifier, a variable component ejection unit of the frictional moment, and a first resistor input, the second input of which is connected to the output of the usiptep, and the shaft is made in the form of two one-piece cylinders of different diameters, and matched with a smaller mmvi diameter with an internal bearing lance, and a large one with a piezo-transform, while the recorder is connected to a power generator by means of a forming unit of the rotational speed of the bearing rivoda. Fig 1 shows a block diagram of the device; in fig. 2 is a view A in FIG. 1. The device dp for determining the moment of friction of rolling bearings contains a vibration drive consisting of two piezoceramic plates 1 connected to a power generator 2 and pressed with balanced elastic contact with the outer ring 3 of the depressed bearing, piezo-transform 4 with a connected to it successively by a kidney consisting of detector 5, low pass filter 6, amplifier 7, friction torque component 8, and a recorder 9 with two inputs for recording variable and constant allowed constituents frictional torque; a shaft 10, an additional generator 11 and a unit 12 formating the rotational speed of the bearing on the generator 2 of the power supply. The device operates as follows. The test bearing 3 is mounted on the shaft 1O, matched with its inner ring with a smaller shaft diameter. When power is applied to the piezoceramic plates 1 from the generator 2, the oscillating movement of the piezoceramic plates 1 causes the outer ring of the bearing 3 to rotate together with the rolling elements. When the generator 11, which is tuned to the back frequency, is turned on, the piezotransducer 4 through the resonator shaft transfers the action of the vibration to the tested bearing 3. The rotating outer ring for the crank of the rolling body under the action of the moment of friction in the bearing of the stretch turn the inner lance for the gripper As a result, the torque through the shaft Yu is transmitted to the piezo transducer 4 and its demolition takes place with a change in the signal strength of the electrical pop on the piezoelectric transforms. The signal of the 9th electric field processes, with the aid of detector 5, filter 6 of ordinary frequencies, amplifier 7, block 8, the neoteMeHHOff component of the frictional torque and is recorded by the recorder 9 as a record of two frictional moment changes during rotation of the podipnik. Each of the blocks of the subsequent Chain of piezoelectric transducer 4 operates according to a well-known principle. Moreover, the first input of the recorder, connected to the output of block 8, is supplied with a signal proportional only to the variable component of the friction moment, and to the second input of the recorder, connected to the output of the amplifier 7, a full signal is proportional to the constant and variable components of the moment of friction. The power signal (from the generator 2) of the piezoceramic plates of the drive 1 is fed to the block 12 of forming the rotational speed of the bearing. The generated frequency mark signal is fed to the recorder 9 and the bearing rotation frequency is recorded on the graph of the moment of friction in the form of marks. Application as a drive of piezoceramic plates with balanced elastic contact The bearing bearing allows for the testing of one bearing and simplifies the design of the device, since there is no need for a drive shaft, technological bearings and other elements of the known device. In addition, the effect of additional loads of these apections on the bearing under study is eliminated, which improves the accuracy of determining the moment of friction. Improving the accuracy and simplifying the design is also achieved by using a special piezo former to measure the torque t, as a variable, as well as the constant of its components. The design of the piezotransducer, which contains the shaft in the form of two one-piece cylinders of different diameters that perform the function of the resonator together with the piezoelectric element, allows, in addition to torque measurement, to create an effect on the bearing under test, which also simplifies the device. The invention The device dp determine the moment of friction rolling bearings containing mounted on the base of the working shaft with the test bearing, the outer ring of which is connected to the drive 5S a house, a load device and a contour-measure apparatus, characterized in that, in order to increase the accuracy of control and simplification of the structure, it is equipped with a vibration actuator consisting of two piezoceramic plates connected to their power supply generator and mounted with the possibility of equal elastic contact along diametrically opposite sides of the outer ring of the bearing under study and piezotransform with successively connected with it a detector, a low-pass filter, an amplifier, an extraction unit belt sos9 6 the pressure moment of the trench, and the first input of the resistor, the second input of which is connected to the output of the amplifier, and the wap is made in the form of two integral dividers of different dial-gutter, and is matched with a smaller diameter, with an internal bearing ring, and a large one with a piezoelectric transform, while the recorder by means of a unit for forming the rotational speed of the bearing is connected to a drive generator. Sources of information taken into account in the examination of 1, USSR Copyright Certificate No. 495575, class, QOl M 13/04, 1973.. t-j