SU408188A1 - STAND FOR TESTING OF GEARS - Google Patents

Description

one

The invention relates to testing machines and stands.

A known steid for testing gears, comprising a drive, spindles for test wheels, a loading device with a torsion moment torque meter, a casing located in it a torsographic flywheel mounted with precision bearings on a driven spindle, a spring-flexible coupling element of a flywheel with a driven spindle current collection device and power-recording equipment.

The proposed stand is characterized in that the casing is filled with a heavy non-conducting fluid, the torsiographic flywheel is hollow and mounted with a bullet buoyancy in the casing. The size of the gap between the casing and the flywheel is selected from the condition that the damping torque is proportional to the speed of rotation of one surface relative to another for a given viscosity of the liquid.

In addition, two thermal compensators with plugs loaded in the direction of the flywheel axis are diametrically opposed to one of the end walls of the housing.

This allows to increase the accuracy and stability of measurements, as well as to expand the range

frequencies recorded angular oscillations of the test wheels.

Pa drawing shows a block diagram of the proposed stand.

The test bed for gears 1 and 2 contains spindles 3 and 4 for the test wheels, a loading device 5 with a torsion torque gauge; casing 6,

filled with heavy non-conducting fluid 7; a torsiographic flywheel 8 located therein with zero operation; it is made hollow and installed in non-precision axes on the driven spindle 4; spring-flexible element 9 connection of the flywheel 8 with the casing 6; load cells 10, glued to the element 9; flywheel 11 stabilizing the rotation of the drive spindle 3; a direct current drive 12 connected by screws 13 and 14 and a belt 15 with a spindle 3.

In addition, the stand has a current collection device 16, an amplifier-recording apparatus consisting of an amplifier 17-19,

oscilloscopes 20-24, a microphone 25 for measuring the noise level and a photo sensor 26 for retrieving information on the change in braking torque and two temperature compensators 27 and 28 mounted diametrically opposite to one

ns end walls of the casing 6, supplied

Spring 8 in the direction of the axis of the flywheel 8 plungers 29 and 30.

The size of the gap between the casing 6 and the flywheel 8 is selected from the condition of ensuring the proportionality of the damping moment of the speed of rotation of one surface relative to another for a given viscosity of the liquid.

The described stand works as follows.

The test gears 1 and 2 are mounted on the spindles 3 and 4, respectively, the DC drive 12 is turned on and the recording equipment is amplified.

The signals taken from the bridge circuit of the strain gauges 10 are transmitted by wire through the current collector 16 to the amplifier 17 and then to the vibrators of the loop oscilloscope 21, on which the curves characterizing the accumulated kinematic and cyclic errors of the test transmission can be recorded simultaneously or separately. Visually, these curves can be observed on the screens of oscilloscopes 22-24.

The supporting fluid, in addition to unloading the precision supports of the sensitive element of the electrotor chiograph system of the test bench, allows to protect the torsiographic flywheel 8 from impacts and vibrations and create a moment that damps the natural oscillations of the torsographic system.

Temperature variations in the volume of supporting fluid in a wide range are compensated by two thermal compensators.

27 and 28 with spring-loaded plungers 29 and 30.

Subject invention

Claims (2)

1. A gear test stand containing a drive, spindles for test wheels, a loading device with a torsion moment brake meter, a casing located in it a torsiographic flywheel mounted with precision bearings on a driven spindle, a spring-flexible coupling element of a flywheel with a driven a spindle, a current collection device and an amplifier-recording apparatus, characterized in that, in order to increase the accuracy and stability of measurements, as well as to expand the frequency range the recorded angular oscillations of the test wheels, the casing is filled with a heavy non-electrically conductive liquid, the torsiographic flywheel is hollow and installed with zero buoyancy in the casing, and the gap between the casing and the flywheel is selected based on the proportionality of the damping moment of the speed of rotation of one surface relative to another at a given viscosity of the liquid . 2. A stand according to claim 1, characterized in that two thermal compensators with diameters loaded in the direction of the flywheel are fitted diametrically opposite one of the end walls of the casing.