SU521381A1 - Device for the formation of wells in the ground - Google Patents

Description

Body 9, which can be made passive, in the form of a cone, as shown in FIG. 1, or active, for example, with organs cutting and transporting soil.

The front section 1 is auxiliary and serves to pull up the rest of the device, while sections 2,3, ... P. are basic and serve to carry out the working stroke of the machine. The hydraulic jack 4 is installed in the front section 1, its force is transmitted to the working sections 2.3 ... p. through the rod 10. The working fluid is supplied to the elastic shells 8 and hydro

jack 4 through distributors 5 and 6, which can be controlled, for example, with the help of electromaterials 11.

The elastic shells 8 are made of an elastic material, for example rubber, and have an O-profile in a free state (Fig. 2) with a thickening 12 in the rear part for attachment to the frame 7. The shells 8 are provided with threads 13, for example, from steel cable. located in the thickness of the shell and fastened with it. The threads 13 are directed along the axis of the machine and fixed to the hinges 14, through which the screws 15, fastening the shell 8 to the frame 7. In the front part, the shell has a spike 16 in the form of a cuff connecting with the previous shell and closing the gap between the section mi from getting into the ground.

The operation of the device is as follows.

The working stroke of the device begins with the supply of fluid through the distributor 6 into the shells 8 of the main sections 2,3, .... The shells expand, tightly against the walls 17 of the well (the position shown in Fig. 2 by the dotted line). Threads 13 do not interfere with expansion of the shell, since the shell expands in the transverse (tangential) direction (Fig. 3). Next, the fluid is supplied through the distributor 5 to the hydraulic wiper 4, and section 1 together with the working body moves forward, resting through the rod 10 and the frames 7 on the shells 8. The resulting longitudinal pushing force is perceived by the threads 13, and due to their inextensibility

the deformation of the elastic shells 8 is insignificant, and the working stroke of section 1 with the working body turns out to be almost equal to the stroke of the hydraulic jack 4. Continuing forward, the working body 9 is inserted into undeveloped soil together with section 1.

After the end of the working stroke, the valve 6 switches sections 2, 3 ... n to drain the liquid, and section 1 to the filling. The shell of section 1, moving apart, comes into contact with the ground, and the shells of sections 2.3 ... n, shortening, moving away from the walls of the borehole. Distributor 5 switches the hydraulic jack 4 to reverse, and sections 2.3 ... n push forward, moving to the starting position for the working stroke. The cuffs 18 made of resilient material close the joints between the sections from penetrating & no soil and at the same time allow the sections to move relative to each other when the working stroke is performed (the junction between sections 1 and 2), the shells 8 and the inclined frames 7,

The length of the elastic shells 8 is chosen based on the ultimate force transmitted by the shell without slipping along the borehole walls and the strength of the threads 13. The number of main sections 2.3 ... n is chosen based on the necessary force to advance the working body. The number of auxiliary sections 1 is selected based on the effort required to retract the main sections and pipelines lying in the well.

F

formula of invention

A device for the formation of wells in the ground, including a housing with elastic shells attached to its surface and a pushing actuator, characterized in that, in order to increase the magnitude of the working stroke of the device and simplify the design, elastic shells are made in the form of closed cavities with cuffs elastic shells are rigid threads that are attached to the body of the device together with shells.

-1Л 7

.

-12

7 8 to W 5 Figure 2

/ -v 2 W2v22Sic "- jf T TJ. j-rtr. , 7

Pua.J