SU1474212A1 - Device for measuring soil density - Google Patents

Abstract

The invention relates to a control and measuring technique and can be used to control the density of a soil. The aim of the invention is to expand the field of application by determining the density of coarse soils. A device for measuring the density of soils is mounted on a base machine and contains a density meter, made in the form of a V-shaped beam, one end of which is equipped with a device for excavation in the form of two side barrels and a grapple fixed between them, and the other with a device for measuring the volume of a dug hole in as a rigid plate with an elastic balloon connected to the hydraulic control system. 4 il.

Description

one

The invention relates to instrumentation and can be used to control the density of the soil, consisting of a material with a wide range of fractional composition, with large volumes of earthworks, such as the construction of bulk hydraulic structures.

The purpose of the invention is to expand the field of application by determining the density of coarse soils.

FIG. 1 shows a device for measuring the density of soils, a general view; in fig. 2 - density meter, top view; in fig. 3 - a device for measuring the volume of a dug hole, front view; in fig. 4 - the same, side view.

A device for measuring the density of soils is mounted on a base machine 1 and contains a densitometer consisting of a V-shaped beam 2, at the ends of which there are fastening forks 3 and 4. On the fork 4 there is a hydraulic cylinder 5 and a barrow-grab earth-moving equipment consisting of two side barrels 6 driven by a hydraulic motor and a grab 7 fixed between them. On the fork 3 there is a hydraulic cylinder 8 and a device for determining the volume of a dug hole, consisting of a plate 9 with edges 10 and a rigid cylinder 11 fixed on it, Commercially form the wells, the plate 9 is placed on a block 12 comprising the reversible .seb volumetric flow meter and a pressure sensor. From the block 12 inside the cylinder tube 13 departs, through which the injection and pumping of oil from the elastic cylinder takes place. On block 12, a fitting 14 is located to which the oil pipe from the hydraulic system controlling the base machine 1 is attached, on the same block 12 there is a connector 15 for connecting a volumetric reversing flow meter with a indicating device located in the cab of the base machine 1. The density meter is connected to the base machine by means of a hinge .

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A device for measuring the density of coarse soils works as follows.

The base machine 1 approaches a place where it is intended to measure the density of the soil. With the help of the hydraulic cylinder 5, the excavation device is pressed to the ground, while simultaneously turning on the barrels 6, which produce two vertical kerfs in the ground, and at the same time penetrating into it. When the specified recess of the barre is reached, the jaws of the grapple 7 are closed. darling between the barrels. After that, with the help of the hydraulic cylinder 5, the excavation device is lifted. Barra 6 allows to obtain sufficiently smooth lateral surfaces of the hole and prevent them from being destroyed during excavation. The base machine 1 rotates around an axis of rotation at an angle equal to the sharp angle of the Y-shaped beam 2, and a device for determining the volume of a dug hole is located above the dug hole.

By means of the hydraulic cylinder 8, the device for determining the volume of the well is lowered until the edges are pressed into the rim of the well. Then, through the fitting 14, the block 12 and the tube 13 are pumped into an elastic bottle AND hydraulic oil. Oil pumping occurs until the pressure in the oil pipe reaches a predetermined value. In this case, the pressure sensor is triggered and sends a command to the solenoid valve, which stops the flow of oil to the volume gauge. Since the oil is practically not compressible, the volume of oil pumped into the elastic cylinder is equal to the volume of the well, and since the oil is under pressure, the elastic cylinder 11 fills the entire volume of the well. Thereafter, the device for determining the volume of the well is lifted using the hydraulic cylinder 8. At the same time, the oil is pumped out, while the reversing flow meter shows the volume of oil pumped, which is in total with the volume that is constantly in the device for determining the volume of the dug hole, is the volume of the well. By knowing the mass of soil extracted from the well and its volume, the density of the soil is calculated.

Claims (1)

Invention Formula A device for measuring the density of soils, mounted on a base machine and containing a density meter and a hydraulic control system, characterized by heme, in order to expand the scope by determining the density of coarse-grained soils, the density meter is made in the form of a Y-shaped beam connected to the base machine by means of a hinge with one end of the beam equipped with a device for excavating the soil in the form of two side barrels and a grapple fixed between them, and the other one with a device for measuring the volume of a dug hole in the form of JCOMM plate with an elastic balloon connected to the hydraulic control. Phie.1 eleven eight Fyg.2 P Oh. 12 si i one  U eleven