SU1078003A1 - Apparatus for loosening soil - Google Patents

Abstract

A DEVICE FOR ROOTING THE SOIL, including a screw tip connected to a tubular body, a container for compressed gas, which through an exhaust valve is connected to the gas supply line and to the exhaust ports, which is equipped with a spring-loaded normally-open valve installed at the outlet of the .VIH tank of compressed gas, the locking element of which is located on the side of the tank.

Description

The invention relates to construction and road engineering, devices for loosening soils and, in particular, to working bodies for layer-by-layer destruction of an array during its preliminary development. A device for destroying soil by high-pressure gas pulses is known, which contains a working tip inserted into the ground in the form of a screw drill and a rod attached to it, where a cavity filled with compressed gas is located, which communicates with a source of compressed gas and with outlet rods 1 The closest to the invention to the technical essence is a device for loosening the soil, including a screw tip connected to a tubular body, a container for compressed gas, which through pnoy valve communicates with the lead-in manifold with the exhaust gas and apertures 2. The disadvantage of known devices is the high energy consumption of the process of soil loosening because their construction does not provide varying the pulse energy of the compressed gas in accordance with a specific strength emogo loosened soil. The aim of the invention is to reduce the energy intensity of the loosening process. This goal is achieved by the fact that a device for loosening soils, including a screw tip connected to a tubular body, a container for compressed gas that is connected through an exhaust valve to a gas supply line and to exhaust holes, is equipped with a spring-loaded container at the outlet of the compressed gas normally open valve, the locking element of which is located on the side of the tank. FIG. 1 shows a device for loosening soils; in fig. 2 - normally open spring-loaded valve; in fig. 3 is a view A of FIG. 2. The device contains a screw tip 1 and a tubular body 2 rigidly connected to it with containers for compressed gas 3 and a control chamber 4, an exhaust valve 5 spring-loaded 6 and exhaust openings 7. The device is equipped with a three-way valve 8 for periodic communication through the air duct 9 control chamber with a gas line 10. The valve 5 forms a calibrated gap 11 with an air duct 9. In the air duct 12, a normally-open valve 14 with a spring loaded 13 is installed at the outlet of the compressed gas tank A threaded sleeve 15. The axial movement of the valve 14 is limited to a nut 16. The device operates as follows. By means of an actuator (not shown), the device is deepened to a predetermined depth. Through a three-way valve 8, the gas under pressure from the source enters the control chamber 4, from which, through a calibrated gap 11, fills the containers 3. When the specified gas pressure is reached in the containers 3, switching the three-way valve 8, the control chamber 4 communicates with the atmosphere. By the pressure of the gas in the tank 3, the valve 5 almost instantly goes down. As a result of this, the compressed gas from the tanks 3 through the exhaust openings flows towards the ground and destroys it. If, in this case, the energy of the high-pressure gas pulse corresponds to the optimum, i.e. All the energy is spent on the softening of the soil and only a small part of it is emitted, the gas flow rate in the air ducts 12 is insignificant and the valve 14 will remain in the open position. If the strength of the soil turns out to be less, the soil is released from the funnel, which is accompanied by a high rate of gas outflow from the exhaust holes. As a result, a sharp increase in the gas flow rate occurs in the air duct 12, which causes the valve 14 to compress the spring 13 and close the air duct 12 (in Fig. 2 the valve 14 shows the closed position in dashed lines) . The pressure from the underside of the valve 14 decreases to the pressure at which the exhaust valve 5 under the influence of the spring b returns to its original position and closes the exhaust ports 7. The valve 14 closes under the action of the pressure difference that has occurred, and only when the control chamber 4 communicates with the gas main With the help of a three-way valve 8, as the pressure in the sub-valve space rises to a value close to the residual pressure in the containers 3, it returns to the original open state under the influence of Dinners 13. The cycle of operation of the device is repeated. Due to the presence of a valve 14 in the air duct 12, a high pressure gas pulse energy is reduced in accordance with the specific ground conditions, i.e. provides a value of pulse energy, which allows to destroy the soil with a minimum energy intensity. The use of an adaptive working body allows to reduce the energy intensity of the process of loosening the soil.

Claims (1)

DEVICE FOR GROWING SOIL, including a screw tip connected to the tubular body, a container for compressed gas, which is connected through the exhaust valve to the gas supply line and exhaust openings, characterized in that, in order to reduce the energy consumption of the loosening process, the device is equipped with a tank installed at the outlet for compressed gas, a spring-loaded normally open valve, the shut-off element of which is located on the side of the tank. FIG. 1