RU2031197C1 - Load-cell strain gage for measuring ground stresses - Google Patents

Abstract

FIELD: construction. SUBSTANCE: load-cell strain gage for measuring ground stresses consists of body 1 with hole 2 to pass wires of transmitting member 3, cover 4, two flexible membrane 5 with resistance strain gage 6 rigidly connected by ends in body and in the middle to transmitting member by means of ring 7. Transmitting member and membrane have through holes for tensioning screw 8 of flexible gaskets 9 and 10. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to measuring equipment, is intended for measuring stresses in the ground, and can be used for scientific research and in the construction of buildings and structures.

 A known device for measuring normal and tangential components of soil pressure, comprising a housing made in the form of two coaxially arranged rings interconnected by measuring rods, a membrane mounted on the inner ring of the housing and strain gauges [1].

 The closest technical solution to the invention is a device for determining soil pressures, comprising a housing with a bottom and a transmitting element that senses soil pressure in the form of a plate, connected to the housing using braces with sensors having clamps for their tension [2].

 The disadvantages of the known device is the complex deformation of the working plate, which reduces the reliability of the readings, the large inertia, the difficulty of adjusting the measurement limits.

 The purpose of the invention is to increase the reliability and reliability of the measurement.

 The goal is achieved by the fact that in a pulldown for measuring stresses in the soil, including a base element in the form of a ring with a bottom, a transmitting element in the form of a plate and elastic working elements fixed to the base and transmitting elements and having a stress mechanism, the elastic working elements are made in the form of strain gauges membranes mounted on the transmitting element of the middle part. The mechanism of their tension is made in the form of a screw installed in the center of the base element and passed through the holes formed in its bottom, membranes and the transmitting element with the possibility of tightening them.

 In Fig.1 given mesdoza incision; figure 2 is a section aa in figure 1.

 Mesdoza contains a housing 1 with a hole 2 for removal of wires, a transmitting element 3, a cover 4, two elastic membranes 5 with strain gauges 6, rigidly fixed at the ends in the housing and in the middle to the transmitting element using a ring 7. In the transmitting element and the membrane there are through holes for the tension screw 8 between the working body and the housing and between the housing and the cover are elastic gaskets 9 and 10.

 Mesdoza works as follows.

 Stresses in the zone of location of the mesodose cause stretching of the membranes 5. The strain gauges glued to the membranes and included in the half-bridge will deform and change their resistance, causing an imbalance of the bridge, the second half of which is in the strain gauge. By the magnitude of the imbalance recorded by the strain gauge, the researcher determines the magnitude of the stresses at the point in the medium where the device is located.

 Based on the results obtained, the researcher can judge the proximity of certain theoretical developments or calculation methods and the real picture of the distribution of stresses in the foundations of buildings and structures.

Claims (1)

 MEZDOSA FOR MEASURING STRESSES IN SOIL, including a base element in the form of a ring with a bottom, a transmitting element in the form of a plate and elastic working elements fixed to the base and transmitting elements and having a tension mechanism, characterized in that, in order to increase the reliability and reliability of the measurement elastic working elements are made in the form of strain gauge membranes mounted on the transmitting element by the middle part, and the mechanism of their tension is made in the form of a screw installed in the center of the base element and passed through Holes formed in its bottom, membranes and transmitting element, with the possibility of their constriction.

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