SU340917A1 - ELECTROMECHANICAL DEVICE FOR TEMPERATURE - Google Patents

Description

FROM: O, b.rete does not refer to the 0 | area 11z; measurement technology and can be used for the KOMinewcaaHH tem-scale in the process of strain measurement using eiHS measurement of apt.

Electromechanical devices are known for temperature collapse during iamerean deformations with the use of strain gauge instrumentation, containing measuring müst recording Typyp's device, for example, an electronic potentiometer with a rheochord included in one of the arms of the measuring bridge, the temperature absorption circuit, and the poliometer of the temperature gauge, and polio. to the panel of the electronic robot gauge with a cantilevered Zoruga ball with glued on it tenses, odeschiki, and a cam that interacts with the beam special profile, ugreolein on the shaft of the electron potentiometer.

However, such devices are designed for work with only one type of strain gauge.

The proposed device differs from the known one in that it is provided with a cracker attached to a cradle, which is able to move along the beam and change its working length.

This allows the device to be used with various THinaiMH sensors.

The drawing shows the described device.

It contains an E31 measuring bridge / and an electronic one, a potentiometer, ometer 2, to the panel of which is attached a cam 3 of the corresponding special profile and a U-shaped CKOi6a 4 with a cracker 5 fixed in it.

elastic cantilever beam 6, which

pasted 7 sensor sensors included in one

from the shoulders of the measuring bridge. Free

end of beam 6 interacts with cam

3 and equipped for friction and elimination of tangential forces — according to DSHI1Nick 8. The working length of beam 6 is varied by moving the cracker 5 using a micrometer screw 9 equipped with a 1M1BO1M W. With a measuring sensor And glued to the test

details 12 and wc in the other arm of the measuring bridge, the signal goes to

input recording pr.nbora 13.

The device works as follows.

. Beforehand, the thermal characteristic of the working strain gauge 11 is compiled experimentally, according to which the fixing point of beam 6 in the clamp 4 is determined with screw 9, then the deformation-free sensor and the initial temperature / 1 measurement | Ntela1 S balance balanced H, measured by The authoritative diagram of MO.sta is zero, and there is no signal on the recording device. With an increase in temperature, the detail is, and, with it, 11 ten-latches), up to three times the potential of one of the nodes of the diagonal increases by AG. Together with that, the temperature of the thermonar also increases to the value of / 2, n emf. Thermocouples are supplied by a 1Ktp01N | LOW potentiometer and a cam 3, led 1CJ on the shaft of a reichord of the electric notsiometer, bends the beam 6 with heat traps 7; the upper sensor is maximized by its co-operation (1); the lower sensor is enlarged; as a result, the other node of the three-dimensional diagonal of the tank is increased by AG. As a result, the potential difference M1 between the measuring nodes is equal to zero, i.e., the 1-nm bridge remains balanced and At a temperature of 2. TaiKHM, the tension from the tensor | Datpi1ka with a change in temperature will only allow deformations of the part under investigation to change. Subject matter for the second n electrically, fur, fur: compensation in the process of measuring deformations using a strain gauge equipment, containing a dead bridge, a register device, such as an electronic notsiometer with a hologram, turned off a one-stump thermal compensation platform, measured in one of the shoulders of the measuring bridge, and implemented in the view of the cross-section of the bridge and the target body of the sensor; with load cells pasted on it, and interacting with the beam to) a special profile hinge mounted on the shaft of the electronic note holder A meter, characterized in that, in order to provide an opportunity for using devices with different types of strain gauges, it is equipped with a cracker attached to a strap, which is able to move along the beam and change its operating length.