SU1180689A1 - Tensometer - Google Patents

Abstract

A TENSOMETER containing a fixed support, a reservoir with a working fluid installed on it, a capillary connected at one end with a reservoir, a wire placed in the latter, characterized in that, in order to expand its functionality, it is equipped with a set of electrically connected supports, Each of which is intended for installation on the measurement object, with a driver installed at the other end of the capillary,. the tank is made in the form of a hydraulic cylinder. The piston of which is spring-loaded and its free end is intended for alternate contact with the said supports, the tank is mounted rotatably with respect to the fixed support and t is equipped with a rotation angle sensor electrically connected with the set of said supports and the hydraulic strut piston; and the other is thrown over the crank and electric (LK is associated with a set of the indicated supports, the capillary is made stepwise, and the strain gauge is equipped with a second hydraulic cylinder, hydraulically connected) connected to Pill rum. 00 o od 00 QD

Description

The invention relates to a measurement technique and can be used to measure the deformations of solids.

The aim of the invention is to expand the functionality of the device.

The drawing shows a strain gauge, about 111;

The strain gauge contains a fixed support 1, a reservoir 2 with a working fluid (for example, mercury), mounted on support 1, a capillary 3, one end connected to reservoir 2, wire 4, placed in the latter. The strain gauge contains a set of electrically connected supports 5 5 each, and one of which is intended for installation on object 6 of measurements of knobs 7 installed at the other end of capillary 3. Reservoir 2 is designed as a hydraulic cylinder, the piston 8 of which is sealed and its free end is for alternating contact with supports. The reservoir 2 is installed with the possibility of rotation of a relatively non-movable support and is equipped with a rotation angle sensor electrically connected to the set of supports 5 and the piston of the tank 2. One end of the wire 4 is connected to the end of the piston of the tank 2, and the other is thrown over the knob and electrically connected to the set of supports five.

The capillary p 3 is staggered, and the strain gauge is equipped with a second hydraulic cylinder 10, hydraulically connected to the capillary 3.

The device works as follows.

When the object 6 is deformed, the relative position of the supports 5 changes, in order to register a change in which their initial position is predetermined. To do this, turn the knob 7 clockwise until it stops, while the wire 4 acts on the spring-loaded BlueHb B and moves it inside the tank 2. The latter is turned so that the next support 5 is oriented opposite the free end of the piston 8 ,, and release the knob 7. Under the action of the spring closes the electric - chain support 5 piston 8 - wire 4, which allows the secondary appliance w to fix the resistance of the wire 4.

At the same time, the electrical circuit of the support 5 - piston 8 - angle sensor 9 - closes. The position of the supports 5 relative to the support 1 is thus determined. With the deformation of the first object 6, the position of the supports 5 with respect to the support 1 changes. With repeated measurements, {x changes the resistance: -; the aforementioned chains. Lingual changes in the distance are determined by the change in the resistance of the wire characteristics of the wires and the ratios between the diameter of the piston 8 and the diameter of that part of the capillary 3 in which the liquid level is located during measurements.

If it is necessary to change the sensitivity of the strain gauge, the piston of the second hydraulic cylinder 10 is moved so that the level of the working fluid is moved to the appropriate level of the capillary 3, when moving into the cavity of the large diameter capillary, the measurement sensitivity decreases.

The strain gauge is also applicable when registering measurements of the size and shape of tubular objects. In this case, the support 1 is installed in the geometric center of the pipe section, and the walls of the pipe support are used as supports 5.

The proposed tensometer is possible; to register not only the resizing, but also the shape of the object with high accuracy in a wide range.

Claims (1)

TENSOMETER containing a fixed support, a reservoir with a working fluid mounted on it, a capillary connected at one end to the reservoir, a wire located in the latter, characterized in that, in order to expand the functionality, it is equipped with a set of electrically connected supports, each of which - rykh is intended for installation on the measurement object, with a screw installed on the other end of the capillary. The reservoir is made in the form of a hydraulic cylinder, the piston of which is spring-loaded and its free end is designed for alternating contact with the indicated supports, the tank is mounted to rotate relative to the fixed support and t is equipped with a rotation angle sensor electrically connected to the set of the indicated supports and the piston of the hydraulic cylinder, one end of the wire is connected to the end face of the piston, and the other is thrown through the collar and is electrically connected to the set of the indicated supports , the capillary is made stepwise, and the strain gauge is equipped with a second hydraulic cylinder hydraulically connected to the capillary. SU., „1180689>