SU767590A2 - Device for calibrating soil dynamometers - Google Patents

Description

(54) DEVICE FOR TARIING GROUND

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The invention relates to the field of measurement technology and can be used in the calibration of ground dynamometers in the construction of underground structures and alluvial 5 territories.

Main Invention 1} describes a device for calibrating soil dynamometers, comprising a housing filled with soil, with an upper 10 and a lower crumb, each of which has elastic diaphragms, a sealing enclosure, and a pressure system including a pump, receiver, pipelines, connections Receiver with 15 volumes, formed by the upper and lower covers and elastic diaphragms. .

 , The pressure is created by the pump, and the LIQUID or gas through the receiver and 20 T1) pipelines transmits it to the ground by the upper and lower diaphragms and is recorded with a pressure gauge.

However, due to the influence of the vertical walls of the hull, the geometry of the sizes and the 25 locations of the calibrated dynamometers, as well as the composition and moisture of the soil in its array, the redistribution of stresses occurs, which leads to significant errors in the ZD DINOMOMETERS

calibration of instruments and to a decrease in the metrological reliability of the research conducted on the stress state of soils.

To reduce the effect of redistribution of stresses in the soil mass, multiple calibration of devices, processing of the inner surface of the body to reduce the impact of ground rubbing on the wall, etc. are used.

These measures are not sufficiently effective, and of low productivity, since they do not provide the possibility of immediate coyrol for redistributing the soil stress field during the calibration process.

The purpose of the present invention is to improve the accuracy of calibration.

This goal is achieved due to the fact that a liner is inserted into the base, made in the form of a disk, in which a lower eLastichny hydrochamber with a diaphragm is installed, made in the form of coaxially arranged annular Cylinders, each of which is connected to a pressure system.

FIG. 1 shows the proposed device, front view, FIG. 2, section A-A in FIG. one.

The device comprises a thick-walled cylindrical body 1 mounted on the base 2. The inner surface of the body 1 is lined along its height with an elastic cylindrical shell 3. The upper and lower edges of the shell 3 are connected along the perimeter with the body 1, which is filled with soil 4 and has a top cover 5, rubber hydrocamera b, the base of which is the elastic diaphragm 7. The liner 8 is inserted into the base of the housing 1 in the form of a dike, in which the lower elastic hydrochamber is installed, made / 1 in the form of a coaxially arranged ring cylinders 9, 10 and 11, connected by a common elastic diaphragm 12. Each of the annular cylinders 9, 10 and 11 is connected to a pressure system including a pump connected to a receiver (not shown) to which the pressure gauge 13 and the pipelines are connected,. connecting the receiver with a cavity, 6th i top cover 5 and elastic diaphragm 7 of the hydro chamber b, and also a cavity 14 in which the liner 8 is installed. The device contains horizontal dynamometers 15 and. 16, installed, in the housing 1, and inputs 17 and 18.

The device works as follows. .

After checking the operation of the system of pressure and control devices, they load the housing 1 with soil 4, establish graduated ground dynamometers 15 and 16, close the top cover 5 of housing 1, and make zero reading of pressure control devices connected to annular cylinders 9,10 and 11, and dynamometers 15 and 16. The device’s pressure system is turned on, and air or fluid from the receiver is fed to hydro chamber b and

the liner 8, the predetermined pressure is transmitted to the ground 4 through the upper diaphragm 7 and through the liner 8 and the diaphragm 12. The readings of the pressure gauge 13, dynamometers 15 and 16, and pressure instruments connected to chambers 9, 10 and 11 and cavity 14 are measured. in the whole pressure range under study. According to the results of the measurements made, a calibration graph of the soil under study was developed: output dynamometers. Due to the difference in the degradability of the environment in which the device is located during calibration, the difference in distances in the central and peripheral parts of housing 1 is taken into account when building the calibration curve. The pressure difference is added to the readings of the sensors located near the housing wall.

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Thus, the invention improves the accuracy of the calibration of dynamometers, and also provides research to determine the optimal shape of the dynamometer, its orientation in the soil mass.

Claims (1)

1. Author's certificate of the USSR W 473921, cl. G 01 L 25/00, 1972. (prototype). eleven