RU1832182C - Device for static and dynamic calibration of resistance strain gages - Google Patents

Abstract

The invention relates to a measurement technique. Essence: to provide the possibility of creating static and dynamic deformations with the specified parameters by the stops 9, the gapless coupling of the levers of the gripping mechanism 4 with grooves in the middle part of the beam 2 is adjusted. Then the lower part of the beam 2 is stretched or compressed by a stretching mechanism 7 - compression and is fixed to the housing 1 by wedge clamps 6. The deformation of the lower part of the beam is set by adjusting the gap between the tension-compression mechanism 7 and the stop 9. To create a dynamic th deformation middle portion of the beam 2 is released retention mechanism - the shutter. 1 ill. about Se fe a and N:; and N. L7

Description

The invention relates to a measurement technique.

The purpose of the invention is to expand the scope by providing the ability to create both static and dynamic strains with specified parameters.

The drawing shows the proposed device for calibration.

The device consists of a housing 1, a beam 2 with strain gauges 3 installed on its entire active surface, made with a thickening in the middle part, associated with grippers 4, which are covered by a sleeve 5 of the holding-lowering mechanism, while the beam is connected by wedge clamps 6 at one end with case 1, and another with a tension-compression mechanism 7 and a linear displacement meter 8, adjustable stops 9 are installed on the case.

In static calibration with adjustable stops 9, the limit gap S is established, the beam 2 with the strain gauges 3 installed on it, when the grippers 4 are removed from the mate 4, the retention-release mechanism is deformed by a predetermined value by the tension-compression mechanism 7, the strain value is set and monitored by linear displacement meter 8. Deformation of the beam is sensed by strain gauges and recorded by secondary equipment,

When dynamically calibrating the tensor resistors using wedge clamps 6, the gapless contact of the supporting surfaces in the middle part of the beam 2 with the supporting surfaces of the grippers 4 of the holding-lowering mechanism is adjusted. Adjustable stops 9 set the limit gap S. By the mechanism 7 of tension-compression, the beam is deformed by a predetermined amount, while only part of the beam is subjected to deformation between the grippers 4 of the holding-release mechanism and the mechanism of 7 tension-compression, when the beam is released, it extends to

the whole beam. Moreover, if both parts of the beam are identical in stiffness, then their deformations change to half the specified value, i.e. the deformation of the previously deformed part is reduced by 2 times, and its second part is increased to the same value. If the beam parts are made of different stiffness, then their deformations differ inversely with their

stiffness factors.

The technical and economic advantage of the proposed device lies in the fact that both static and dynamic deformations are reproduced on the same device, which will reduce the amount of equipment needed to study the metrological characteristics of strain gages. In addition, the deformation value is set without preliminary and subsequent analytical calculations, which increases the productivity of calibration work.

Claims (1)

Claims A device for static and dynamic calibration of strain gauges, comprising a housing, a beam of equal cross-section for placing strain gauges on its surface, characterized in that, in order to expand the scope and increase the productivity of calibration, it is additionally equipped with a tension-compression mechanism, a meter linear movement of the lower end of the beam and the gripping, holding and lowering mechanism, the beam being made in the form of two symmetrical parts of equal cross-section of a square shape and equal length with bulges in the middle of the beam and at its ends, with one end of the beam rigidly connected to the body, and the second - with a tension-compression mechanism and a linear displacement meter of the lower the end of the beam, and the gripping, holding and lowering mechanism is associated with the middle part of the beam.