SU1375947A1 - Device for testing resistance strain gauges at low temperatures in magnetic field - Google Patents

Abstract

The invention relates to a strain control measurement technique and is used to test strain gages for measuring strain at low temperatures in a magnetic field. The aim of the invention is to improve the accuracy of measurements, increase the range of elastic deformations of a piezoelement at its constant dimensions due to an increase in the uniformity of its stress state. For this piezoelectric. Step 8 is made in the form of a ring with a jumper 9 in the form of a plate mounted perpendicular to the axis of the r 6 and 11 with the possibility of rotation around its axis of symmetry. The jumper may be replaceable. 1 hp f-ly, 1 ill.

Description

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The invention relates to a measurement technique, namely, a technique for controlling deformations, and is used to test resistance strain gages designed to measure deformations at low temperatures in a magnetic field.

The aim of the invention is to improve the measurement accuracy, increase the range of elastic deformations of the strain element at its constant dimensions due to the increase in the uniformity of its stress state.

The drawing shows the proposed device, the cut.

A device for testing tensor resistors contains a cryostat 1 in which a solenoid 2 placed coaxially to the latter is placed, a housing 3, a housing 4, a loading mechanism 5 connected through an active power rod 6 and a ball 7 to the lower supporting platform of the tension element. to accommodate strain gauges. The strain element 8 is a ring with a jumper 9, made in the form of a plate, on the surface of which are strain gauges 10 that are installed with the possibility of rotation around its axis of symmetry. The plane of inclination of the jumper in the example of a specific implementation is made perpendicular to the longitudinal axis of the solenoid 2, i.e. The transverse magnetic field acts on the strain gages. With a change in the angle of the jumper, the angle of the magnetic field on the strain gages changes.

The upper thrust pad of the strain-element 8 is supported through the ball 7 on a passive power rod 11, made in the form of a pipe connected to the housing 3. The tensor element 8 is connected by rods 12 and 13, which in the upper part are made in the form of pipes, with a strain gauge - an inductive sensor 14, with the rod 12 with the sensor core, and the rod 13 with the sensor coil 14. The internal cavities of the housing 3 and the casing 4 are sealed with the help of a bellows 15 and a gasket 16. The loading mechanism is designed as a lever and weights. Jumper 9 is installed perpendicular to axis 6 and 11 and can be made interchangeable with fastening elements at the ends

Device way.

works as follows

When force is applied from the loading mechanism 5 through the tug 6 to the strain element 8, the latter is deformed, compressing along the vertical axis and simultaneously increasing in size along the horizontal axis. In this case, the internal jumper 9 of the strain element 8 expands and deforms the strain gauges attached to the jumper, which are under the influence of a magnetic field formed by the solenoid 2. Moreover, the magnetic field lines are perpendicular to the plane of the strain resistances. Tento element 8 can be calculated in this way by using the strain gauge 8 of the strain gauges of the strain gauges. 9 transmits half of the compressive force perceived by the strainer, which is convenient to account for the forces. The strain of the strain element is measured by the sensor 14 by means of rods 12 and 13. The strain of jumper 9 is calculated from the strain of the strain element along the vertical axis. In order to replace the strain element, case 3 with case 4 and all the contents are removed from cryostat 1, case 4 is removed and the strain element is removed. The assembly is reversed. At the same time, for convenience of assembly, the pull-out 6 at the time of assembly can be spring-loaded (the spring is not shown.

Claims (2)

1. A device for testing resistance strain gages at low temperatures in a magnetic field, containing a cryostat with a solenoid installed coaxially to the latter, a loading mechanism, a strain gage for setting the resistance strain gages, a passive and active power pull to transfer force from the loading mechanism to the strain gage, and a strain gauge of the strain gage to transfer the force from the loading mechanism to the strain gage and the strain gauge of the strain gage to transmit the force from the loading mechanism to the strain gage and strain gauge strain gauge. characterized in that, in order to improve the measurement accuracy, to increase the range of elastic deformations of the strain element with its constant dimensions, the strain element is made in the form An end with a jumper in the form of a plate, installed perpendicular to the axis of the ring along the diameter of the ring with the possibility of rotation around its axis of symmetry. 313759474 2. The device according to claim 1, about tl i- is made interchangeable with fastening elements, such as a jumper of laziness at the ends.