SU528467A1 - Device for studying the temperature characteristics of torque sensors - Google Patents

Description

The cooling unit 21 is equipped with a thermo regulator 22 and thermosensitive elements 23–24 installed by the main and auxiliary nasal devices on U 1U.

The lamp 26 ontnchesk ststema 2 /, the phonograph 2 and the photoconductor 2U, forming in conjunction with the mirror 3, the DZ device and the adjusting resistor 3i, the sensor of noncompensation, are attached to the housing 25.

The motion coils 32, the reference impedance 33, the resistor 34 and the power source 35 are combined with differently aligned magnets Z, an equilibration system.

The power supplies Zn and 37 serve as a source of electrical signals to the studied and reference microconverters 6- / and 11 - 12, respectively.

The device for measuring small moments works as follows.

The nasal devices 5 and 10 and the cones 9 and 14 of the coordinate measuring tables 8 and 13 are set, respectively, to the studied and reference micron-converters b-7 and 11 -12, with polarities of torques MI and M generated by them, relative to the axis Oi- Oz are chosen counter.

Using the tables 8 and 13 and the sources 36 and 37, the required coordinates of the micro-transducers 6, 7 and 11, 12, as well as the necessary power modes are set.

By adjusting the resistor 31, the initial zero position of the device 30 is corrected. Then, the heat chamber 17 and the thermal control system are turned on, and the required temperature is created inside the heat chamber 17, affecting the microfreader under study 6-7.

Due to the instability of the torque characteristics of the micron converters 6-7, an unbalancing moment occurs, which takes away the cup 1 with the mirror 3 and changes the readings of the device 30.

In the coil 32, through the resistor 34, a balancing current from the source 35 is supplied, the counting of which is made according to the number 33.

Thermal sensing elements 23-24 register the temperature difference in the lower and upper parts of the sensing element and control the operation of the thermostat 22 and the cooling unit 21, which absorbs the excess tenlo from the heater 20.

Additionally, the heat shield 15 and air labyrinth 16 prevent the residual portion of heat from entering the housing 25, where the sensing element is placed, increasing the temperature stability of the latter.

The introduction of a reference microtransmitter 11–12 counter-activated by a sensor with a sensor allows to significantly improve the accuracy of measurement of moment instability

characteristics of the microconverter 6-7 due to the reduction of the influence of the systematic errors of the microsensors on the research results.

The presence directly on the table 8 of the termo camera G /, inside of which the investigated micron-converter 6-7 is mounted, mounted respectively on the landing device 5 and the table 8, makes it possible to eliminate the removal operation on the non-reinstalled elements 6-7

It is also heated in an external thermostat, which also improves the measurement accuracy.

The tilt of the screen 15, air labyrinth 16, thermosensitive elements 23-24, thermostat 22 and the cooling unit can significantly reduce the temperature difference between the upper and lower parts of the sensitivity of the element, automatically compensate for this difference and thereby increase the accuracy of measuring the instability of the moment characteristic of the micron transducer 6-7.

Claims (2)

1. A device for examining the temperature characteristics of the pressure sensors, comprising a housing, an under-suspension part, installed in the suspension and equipped with a nasal seat for the torque sensor being in use, a zero-indicator of the angular position of the movable part, and a magnetoelectric moment compensator, characterized in that In order to increase accuracy, it is equipped with a moment sensor installed on the movable part and connected with the test with a sensor and thermostats with temperature control systems in the working chamber, inside of which the test sensor was installed on the heat shielding. 2. The device according to claim 1, characterized in that the heat shielding system is designed as a controlled cooler and a tenl screen, which are installed between the thermostat and the moving part. Sources of information taken into account in the examination. 1.Avt. St. No. 449259, cl. G Oil 3/14, 1973 (prototype). 2. Avt. St. jYo 356494, cl. G OIL 3/00, 1971 guv i-hell