SU1589084A1 - Method and apparatus for determining force - Google Patents

Abstract

This invention relates to a measurement technique and can be used to measure static forces. The aim of the invention is to improve the accuracy of force measurement. The bridge formed by a resistor is powered by a direct current source. The measured force P is applied to the force-feed rod 7 and through it to the elastic compression element 2, the output signal of the bridge circuit is measured. After that, with the help of the jack 5, the cylinder support is raised to the edge of the inner cylinder; The value of the measured force is judged by the sum of the first and second measurements, and the error caused by creep is compensated for. 2 sec. f-ly, 1 ill.

Description

The invention relates to measuring technique and can be used to measure static forces.

The aim of the invention is to increase the accuracy of measuring force by compensating for errors caused by creep.

The method for measuring the force consists in determining the deformation of loaded elastic tensile and compression elements with simultaneous compensation of the deformation caused by creep. The elastic elements are alternately loaded, while loading one of the elastic element unloads Another, determine the difference in the deformation of each elastic element before loading and growing and the value of the applied force is judged by the sum of these two measurements.

The drawing shows a diagram of a device for implementing the method of measuring FORCE.

The device for implementing the method of measuring the force contains two elastic elements of tension 1 and compression 2 with strain gauges mounted on them, an external digital support concentrically located with them 3. The device for alternately overloading the elastic elements is made in the form of two jacks 5 and 6 concentrically arranged in one housing The inside of the elastic element 1 of the extension includes a side-transmitting rod 7.

Strain gages mounted on each elastic element are included in. diagonally opposite shoulders of the bridge.

Between the end face of the outer support cylinder 3 and the flange located in the upper part of the elastic element 1, there must be a gap so that when loading the elastic element 2 of Compression, the force action is not transmitted to the elastic element 1 of tension.

The method of measuring force is as follows.

The bridge formed by the strain gauges is powered by a direct current source. Measured force P butt. They are coupled to the power-driving rod 7 and through it to the elastic compression element 2, then the output signal of the bridge 5 circuit is measured. After that, using the jack 5, raise the support cylinder 3 to the edge of the inner cylinder 1, use the jack 6 to unload the inner cylinder 2, and measure the output signal of the bridge circuit a second time.

The value of the measured force is judged by the sum of the first and second measurements.

Claims (2)

Claim 15 1. The method of determining the force, which consists in determining the deformation of loaded elastic tensile and compression elements, characterized in that, in order to improve accuracy by compensating for the error caused by creep, the elastic elements are alternately loaded, while loading one elastic element synchronously unload another, determine the difference in the deformation of each elastic element before loading and after, and the value of 25 applied force is determined by the sum of these two measurements. 2. A device for determining the force, containing concentrically arranged hollow cylinders, a flange made in the upper part of the inner cylinder, which it rests on the end of the outer cylinder, strain gages mounted on the wall of the inner cylinder, a power-conducting rod installed on its bottom, characterized in that, in order to increase accuracy by compensating for the error caused by creep, it is equipped with two concentrically arranged jacks, a second inner cylinder and strain gauges, fixed and on the walls of the latter, with one jack raspod ₀ false under the outer cylinder and the other - under the second inner cylinder.