SU881326A1 - Down-hole water gun - Google Patents

Description

(54) BOTTOM HYDROMONITOR

I

The invention relates to a mining technique, namely, to devices for hydraulic mining of minerals through boreholes. The invention can be applied to the development of mineral deposits through boreholes, the reservoir of which has low power, and the host rocks do not contain a useful component, for example, such as sedimentary and loose deposits of gold, uray, rare metals, etc.

A device for underground mining of minerals by a hydraulic method is known, including the laying of pipes for supplying pressurized water, a jetting shaft sharnnarno fixed to the stand, shtangu, viit, sleeve, cable and rollers for removing the jetting shaft from the vertical position to the horizontal. STVO; derived from such a mechanism to a horizontal position, it occupies a perpendicular position on the axis of the water pipes on the axis of the pipe. Wells, through which with the help of such devices lead the development of mineral layers, are usually drilled vertical.

and at low power of the overburden, with a significant thickness of the productive formation, the jet shaft, and therefore the stream of water flowing out of it, is directed parallel to the plane of the laid down plane, m. This makes it possible to eliminate the processing of higher and lower lying rocks and thus avoid the dilution of the recoverable mass II.

However, with an increase in the depth of the reservoir from 50 m or more

10 it is technically difficult to carry out strictly vertical drilling without deviating the borehole axis from the vertical less than 3 °. This means that in this case, the hydromoitor barrel, which is installed in the working position perpendicular to the base of the pipes, is not parallel to the plate at an angle of deviation from the vertical of the wellbore shaft. As a result, during erosion of a horizontally bedding stratum, the rock enclosures are mined, which results in a high dilution rate. In addition, the presence in the mechanism of control

20

cable, bushings, screws and system of rollers reduces the reliability of its work with increasing depth of recession.

A wellbore monitor is known, comprising a water supplying tube, an interface with it and a stem of the jetting monitor hinged to it, as well as a mechanism for controlling the stem of jetting assembly 2.

A disadvantage of the known hydromonitor is the impossibility of automatically keeping the trunk in a horizontal plane during operation, which entails complexity, control and the possibility of dilution of the extracted mineral.

The purpose of the invention is to provide an automatic retention of the jet shaft in a horizontal plane during operation.

The goal is achieved by the fact that the control mechanism of the shaft of the industrial monitor is made in the form of a plumb line rigidly planted on one axis and a control platform with a frame planted on the said platform with the possibility of moving along its perimeter a shaft pivotally connected to the axis of the plummet and installed with the possibility of rotation around its axes, as well as rigid gi pivotally connected at one end to the stem of the jetting machine, and at the other end to the frame.

FIG. I shows the downhole part of a well jet installed in a well; a longitudinal-vertical section; in fig. 2 is a view A of FIG. one.

The downhole hydromonitor consists of a water supplying pipe 1, coo6iUeHHoro with it and fixed to it using the hinge 2 of the stem 3 of the hydromonitor and the control mechanism of the trunk 3, made in the form of a plumb 5 rigidly planted on the axis 4 and a round b platform with frame 7 planted on the platform 6 with the ability to move along its perimeter, the shaft 8, pivotally connected by means of a hinge 9 with an axis 4 and mounted in a bearing 10 secured by a strap 11 in position 1. The frame 7 is connected by means of a rigid rod 12 with a shaft 3. Herewith m ha 12 one end When a hinge 13 is connected to the barrel 3, jetting, and other, by a pivot 14, -C frame 7. The downhole jet means disposed in the well 15, cased tube 16 and the reservoir 17 autopsied.

Well pumped works as follows.

In the geotechnological well 15, which is cased with pipe 16, is lowered to become 1 pipe for supplying water to the shaft 3 of the jetting machine, which is fixed in position I of the pipes with the help of hinge 2. With the curvature of the borehole 15 and the deviation of its axis from the vertical at a certain angle in the process of descending of 1 pipe 3 of the jetting machine due to

The control mechanism of the trunk is set to a horizontal position as follows. The plummet 5 of the control mechanism, together with the control platform 6 rigidly seated with it on one axis, connected by a hinge 9 to the shaft 8 fixed in the bearing 10, when the axis of the borehole 15 and 1 is deviated from the vertical, tend to occupy a vertical position, and the control platform 6 - horizontal. Control frame 7, freely set

on the control platform 6, it aligns with it the horizontal position and with the help of the hinge 14, the rigid thrust 12 and the hinge 13 displays the trunk 3 and the hydromoitor to the horizontal position. While rotating

When becoming 1 around its axis, plumb line 5 always tends to be in a vertical position, and the entire hinge system in this case holds the stem of the jetting machine in a horizontal position. As a result, the operation of the monitor is strictly horizontal, eliminating the additional work below and below the rock and thus provides high-quality excavation of the horizontal mineral layer 17. The proposed well well allows the development of horizontal layers of minerals at almost any depth significantly reduces the dilution of the extracted rock mass by the host rocks, is simple structurally and reliable in operation.

Claims (2)

1. USSR author's certificate number 61953, cl. E 21 C 45/00, 1939. 2. USSR author's certificate number 374453, cl. E 21 C 45/00, 1969. IS