SU932214A1 - Device for measuring deformation - Google Patents

Description

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

A device is known for determining the mechanical properties of rocks ⁵ , made in the form of a pressure cylinder, filled with liquid under pressure, on the surface of which a rubber or metal elastic membrane is fixed, and dynamometer rings with load cells glued to them are placed ohmic resistance [1].

The disadvantages of this device 15 include the difficulties of connecting to the measuring equipment and switching sensors glued to the clamping element.

Closest to the proposed technical essence and the achieved result is a device for measuring deformation, containing an elastic pneumatic cushion 25 and mounted on it a supporting element with strain gauges. The supporting element is made in the form of a mounting tape on which strain gauges are fixed. Slots are cut out in the mounting tape and strain gauges are inserted into the slots so that strain gauge grids are placed on one side of the tape, and their ends extend to its reverse side [2].

The disadvantages of the known device are the unevenness of pressing the load cells to the surface of the tested structure and measurement errors associated with the difficulties of connecting the load cells to the measuring equipment.

The purpose of the invention is improving the accuracy of measurements.

This goal is achieved by the fact that in a device for measuring deformation containing an elastic pneumatic cushion and a supporting element with load cells mounted on it, the supporting element is made in the form of rods with sliding contact pads located on their lateral surfaces.

In addition, the ends of the rods interacting with the pneumatic cushion are made in the form of truncated cones. ι

In FIG. Fig. 1 schematically shows a device for measuring strain on the horizontal surfaces of the test structure; 2 3 the same for measuring strains on the vertical surfaces of the tested structure, in Fig. C - the same for measuring strains on the inner surfaces of the tested structure.

The device consists of a housing 1, in which there is an elastic air bag 2 and a support element in the form of rods 3 with load cells 4, which are brought into contact with the surface of the test structure 5. On the lateral surfaces of the rods are sliding contact pads 6, through which the load cells are switched 4. To remove the measuring information, clamping contact pins 7 are used.

The device operates as follows.

The housing 1 of the device is moved so that due to the elastic properties of the cushion 2 (to create a predetermined clamping force at the place of contact of the sensors 4 with the surface of the test structure 5. In this case, the rods 3 take a relative position in accordance with the surface profile of the test structure 5, and the clamping force for different load cells is the same and independent of the relative position of the rods 3, thereby increasing the reliability of the adhesion of the load cells 4 with the surface of the test structure 5.

The proposed design of the support element allows you to save non-. exchange base of strain gauges, since the movement of the rods is possible only along their axes.

The execution of the ends of the rods 3, interacting with the pneumatic cushion, in the form of truncated cones allows for the same elasticity of the cushion to increase the independent movement of the rods relative to each other and thereby reduce the error introduced into the measurements by the mutual influence of the rods.

The sliding contact pads 6 provide a matrix connection of strain gauges during the mutual movement of the rods to the measuring equipment. The matrix method of connecting strain gauges allows one to reduce the number of connecting wires that introduce measurement errors.

Using the proposed device makes it possible to increase the accuracy of measurements due to the constancy of the measuring force on each of the rods of the supporting element, regardless of the degree of complexity of the profile of the 15-surface of the test structure and maintaining a constant base of strain gauges regardless of the mutual movement of the rods, as well as expanding the allowable range of non-uniformity of the surfaces under study with complex profile and facilitate the connection of load cells to the measuring equipment.

Claims (2)

the same for measuring deformations on the vertical surfaces of the structure under test, in FIG. 3 the same for measuring deformations on the internal surfaces of the structure under test. The device consists of a housing 1 in which an elastic pneumatic pad 2 and a supporting element in the form of rods 3 with strain gauges 4 are placed, which are brought into contact with the surface of the structure under test 5. On the lateral surfaces of the rods there are sliding contact pads 6 with which The strain gages 4 are switched. For the removal of the measurement information, the pressure terminals 7 are used. The device operates as follows. The housing 1 of the device is moved in such a way that, due to the elastic properties of the cushion 2, to create, in the place of contact of the sensors 4 with the surface of the test structure 5, a given downforce. In this case, the rods 3 adopt a mutual arrangement in accordance with the surface profile of the test structure 5, and the clamping force for different strain gauges is the same and independent of the relative position of the rods 3, thereby increasing the reliability of adhesion of the strain gauges 4 to the surface of the tested structure 5. The proposed design of the support element allows you to save un-. The base of strain gauges, since the rods can only be moved along their axes. Making the ends of the rods 3 interacting with the pneumatic cushion in the form of truncated cones allows, with the same elasticity of the pillow, to increase the independent movement of the rods relative to each other and thereby reduce the error introduced into the measurements of the mutual influence of the rods. Sliding contact pads 6 provide a matrix connection of strain gauges with the relative movement of the rods to the measuring equipment. The matrix method of connecting strain gauges allows to reduce the number of connecting wires that introduce errors in the measurements. The use of the proposed device makes it possible to increase the measurement accuracy due to the constancy of the measuring force on each of the rods of the support element, regardless of the degree of complexity of the surface profile of the structure under test and maintaining a constant base of strain gauges regardless of the mutual movement of the rods, as well as expanding the allowable range of uneven surfaces with complex profile and facilitate the connection of strain gauges to the measuring equipment. Claim 1. A device for measuring deformations, comprising an elastic pneumatic cushion and a supporting element mounted thereon with strain gauges, characterized in that, in order to improve the measurement accuracy, the supporting element is made in the form of rods with sliding contact pads, located on them side surfaces. 2. A device according to claim 1, characterized in that the ends of the rods interacting with the pneumatic bottom are made in the form of truncated cones. Sources of information taken into account in the examination 1. The author's certificate of the USSR 110374, cl. G 01 B 7/18, 1955. 2. Authors certificate of the USSR, 164106, cl. G 01 B 7/18, 1963 (prototype).