SU1038804A1 - Device for measuring concrete building structure deformation - Google Patents

Abstract

A DEVICE FOR MEASURING DEFORMATIONS OF CONCRETE CONSTRUCTION STRUCTURES, including a housing, an active and compensating resistance strain gages and a fastener, so that with the purpose of expanding the functionality and increasing accuracy, it is equipped with a diamond saw, the housing is made with a metal a cantilever plate, two rubber. prisms and a slip of two layers of wax paper and a layer of lubricant between them, and the mounting device is in the form of a cord with a dynamometer, while the gasket is fixed on one and 3 rubber prisms, an active strain gauge - on the gasket, and a compensating strain gauge - on a metal cantilever plate. 9

Description

The invention relates to the construction, in particular to the measurement of deformations of building structures under load. A device for measuring deformations of building structures is known, including two stops and an elastic rod with a strain gauge 1. The disadvantage of this device lies in its low accuracy, since the transfer of deformation proceeds sequentially through several elements. The closest to the present invention is a device for measuring deformations of concrete building structures, including a housing, an active and compensating strain gages and fastener 2. A disadvantage of the known device is the low accuracy due to the influence of deformations of the rubber grip on the strain of the strain resistor / and also the impossibility to determine mechanical stresses at unloading of the scientific research institute of the concrete construction site. The purpose of the invention is to expand the functionality and increase accuracy,. : The goal is achieved by the fact that a device for measuring the deformations of concrete building structures, including a body, an active and compensating strain gages and fastener, is equipped with a diamond saw, the body is made with a metal cantilever plate, two rubber prisms and a lining of two layers of wax paper and a layer of lubricant between them, and the fastener - in the form of a cord with a dinometer, while the gasket is attached to one of the rubber prisms, the active teresistor on the gasket, and the computer sensational strain gauge on a metal cantilever plate FIG. 1 shows a device, side view in FIG. 2, the same, top view; in fig. 3 —forked A in FIG. one; in fig. 4 and 5 - fastening the device on the building construction. The device consists of a housing 1, which is made in the form of a plate of electrically insulating material. Rubber prisms 2 and 3 are attached to the casing. A metal console is attached to plate 4, to which a compensating strain gage 5 is glued. Two layers of tracing paper 6, between which there is a layer of lubricant, are attached to the end of prism 2. An active tensoriser 8 is glued to the upper tracing paper with edge 7, which allows it to move relative to the tracing top layer. The fastening of two tracing paper layers to the rubber prism 2 is shown in FIG. 3. Places of gluing the tracing-paper strips to the prism are indicated with the position 9. The device is fastened to the structure using a cord 10 with a dynamometer 11, there is a measuring device 12. The device works as follows. When measuring stresses in the corner portion of a square reinforced concrete rack (Figs. 4 and 5), the device is pressed against the previously prepared platform with a cord 10, which has a dynamometer 11 for controlling the pressing force of the prism 2. The transverse creep of the prism 2 is neutralized with grease impregnated two layers of tracing paper b. Neutralization occurs due to the movements of the surface of the abutment 2 relative to the first layer of tracing paper, the first layer of tracing paper relative to the second layer and the second layer of tracing paper relative to the surface of the asset th gage, gage 8 is supported on the concrete surface due to frictional forces, which are much larger than that of the lubricated surfaces. The transfer of creep to the compensating strain gauge 5 is eliminated due to the fact that it is fixed on the console plate 4. The dimensions of plate 4 are chosen so that after pressing the active strain gauge to concrete, the compensating strain gauge is as close as possible to the concrete surface and is separated from it by a slight air gap for in order to be in the same temperature conditions with an active strain gauge. The linear expansion coefficient of plate 4 corresponds to the coefficient of concrete. The strain gages are connected to the ISD-3 static strain gauge. After installation and connection of the instrument with the static deformation meter 12, the corner portion of the product is cut with a diamond tool. If the concrete was compressed, then after the undercut, its deformation occurs, which is proportional to the stresses in it, the magnitude of which determines the magnitude of the stresses. The use of the device will improve the accuracy of determining the deformations and mechanical stresses in concrete with removable strain gauges.

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Claims (1)

· DEVICE FOR MEASURING DEFORMATIONS OF CONCRETE BUILDING STRUCTURES, including a housing, active and compensating strain gages and a mounting device, which requires that, in order to expand its functionality and improve accuracy, it is equipped with a diamond saw, the housing is made of metal cantilever plate, two rubber prisms and a gasket of two layers of wax paper and a layer of lubricant 'between them, and the mounting device is in the form of a cord with a dynamometer, while the gasket is fixed to one of the rubber new prisms, the active strain gauge is on the gasket, and the compensating strain gauge is on. on a metal cantilever plate.