SU847077A1 - Dynamometer for measuring stresses in concrete structures - Google Patents

Description

(54) DYNAMOMET1R FOR STRESS MEASUREMENT IN CONCRETE STRUCTURES

one

and

The invention is related to measurement technology and is intended to investigate the stress state of building structures, especially underground structures.

A known device for measuring stresses in massive structures, made in the form of a pressure gauge, is connected to an elastic vessel filled with liquid, placed in the thickness of the masonry and perceives the measured pressure fl.

. However, B: this deformation device is transmitted to the measuring device through the liquid, and not directly to the measuring device.

The closest to the technical essence of this invention is a dynamometer for measuring stresses in concrete structures, containing a cantilever elastic element in the form of an I-beam, rigidly fixed in the structure under study, and the measuring instrument G23.

The main disadvantage of this device is that it is suitable only for short-term measurements and does not allow measurements with high measurement accuracy.

The purpose of the invention is to improve the measurement accuracy, which will allow to obtain reliable data for the rational design of tunnel structures.

The goal is achieved due to the fact that at the free end of the elastic element along its height and length there is a notch forming

10 two consoles in the form of flanges of an I-beam, on the outer sides of which are perpendicular to the longitudinal axis of the axis and coaxially placed stops, the ends of which are made in the form of spherical surfaces. . .

Figure 1 shows the device, side view; Fig.2 is a section A-A in Fig.1; on fig.Z - sect. bb in figure 1.

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A dynamometer for measuring stresses in concrete structures contains a cantilevered steel I-beam 1, which, for example, is cemented into. well 2, drilled in the already constructed structure 3. At the free end of the I-beam 1, protruding to the outside of the structure 3, along its height and length, a cutout is made that forms two / cantilevers 4 and 5 in the form of I-beam 1

perpendicular to the longitudinal axis and coaxially placed stops, for example, heels 6–9, the ends of which are respectively made in the form of spherical surfaces 10–13. Screws 6-9 have nuts respectively 14-17 ..

The stresses arising in the structure affect the part of the dynamometer fixed in the structure 3, which is compressed. The corresponding deformation is experienced by the cantilever part 4 and 5 of the dynamometer, which is measured by determining their displacements between the steel spherical surfaces 10-13. For this purpose, a special removable mechanical mechanism can be used. For example, a mass-indicator with a 1 µ micron division accuracy (not shown).

Thus, this dynamometer makes it possible to measure with high accuracy, and it is not subject to the influence of high humidity in underground structures and is simple to manufacture.

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Claims (3)

1. USSR author's certificate f76028, cl. G 01 L 1/02, 03/27/48. 2.Ruzga 3. Electrical resistance strain gauges. M., Mir, 1964 p. 262-2.73, (prototype) .. „G W