SU407013A1 - REVERSIBLE HYDRAULIC BREAKER FOR WELLS FORMATION - Google Patents

Description

The invention relates to the construction of pipelines and is intended to form wells in soils.

A known reverse piercer for the formation of wells includes a housing within which hydraulic shock mechanisms are located at both ends. Each of the mechanisms has a pressure and drain cavity, a piston with an integrated tubular valve and a firing pin, and between the pistons and the inner surface of the housing there is a cavity filled with compressed gas.

However, the known device has a complex control unit. In addition, for the stable operation of the piercer, it is necessary to install a hydraulic accumulator in the pressure line, which also complicates the design and reduces the speed of the control system.

In order to eliminate the non-enumerated deficiencies, the pressure chamber of one of the hydraulic percussion mechanisms is connected to the drain cavity of the other, and the gold-bars have longitudinal grooves and are designed to interact with bushings fixed on the inner surface of the housing.

In addition, pas parts of the inner surface of the sleeves are formed by longitudinal grooves, and the end of each sleeve, remote from the piston, is made with a protrusion that interacts with the restrictive shoulder located on

outer side of the tubular spool.

FIG. 1 shows the proposed hydraulic breaker, longitudinal section; in fig. 2 is a section along I-I in FIG. one.

5 A reversible hydraulic breaker includes a housing 1, into which are installed two hydropercussion mechanisms of similar design, each containing, respectively, pressure A, B and drain C and D cavities. Cavity A constantly

0 is connected to the cavity B, and the floor of the .6 is connected to the cavity –G, respectively, by means of channels passing into the wings x 2 and 5.

Each hydropercussion mechanism includes a hammer 4, a piston 5, a tubular zolot 6, a spring 5 and a sleeve 8. On the hammer there is an annular groove that forms a protrusion 9. In the gold pipe there are longitudinal grooves, and on the outer surface of the slide there is a restrictive shoulder 10. On 8 there are longitudinal grooves and a protrusion 11. The bushings are fixed in the housing with the help of screws 72. The pistons of the hydroshock mechanisms form a cavity D with the housing filled with compressed gas. The right end of the case is closed by a lid 13.

5 From the pump, the pressurized fluid enters through cavities A and B. In this case, the head of the right hydropercussion mechanism is fixed in the extreme right position, and in the left central section, the ariom of the mechanism moves

0 spool 6 in the left position to the restrictive collar 10, after which the piston 5 begins to move to the right, compressing the gas in the strip D of the nod fluid from the cavity B into the drain line. At the end of the working stroke, the dowel 4, the protrusion 9, moves the spool 6 to the right until the longitudinal groove joins cavity A, so that the pressure in cavities A and B is grown, and the spool under the action of the spring 7 takes the right position, reliably interconnecting the cavities L and B. As a result, the porsche and the head begin to move to the left under the action of compressed gas, at the same time displacing fluid from cavity A into cavity B along longitudinal grooves in the spool and bushing. Immediately before the impact of the striker against the anvil, the piston moves the spool to the left until the grooves in the spool overlap with the sleeve, thus the cavities L and B are separated, and the spool takes the left position. The cycle is repeated. As a result, the hydraulic breaker moves to the left, the passage of the well. For reversing the hydraulic breakdown, the valor and hydraulic system drain are sufficiently set in P1, as a result of the firing pin of the left percussion mechanism, it is fixed in the leftmost arm, and the firing pin of the right mechanism of the device strikes against the cover 13, and the piercer will move to the right, exit the well. The subject matter of the invention 1. Reversible hydraulic test for the formation of wells, including a housing, inside which at both ends are placed hydraulic percussion mechanisms, each of which has a pressure and drain cavity, a piston with a built-in tubular slide valve and a firing pin, and between hydraulic percussion mechanisms m and The inner surface of the housing is formed by a cavity filled with compressed gas, characterized in that, in order to increase the speed and reliability of the reversal, the pressure cavity of one of the hydraulic shock x mechanism is connected with another cavity Nina ate and slides have longitudinal slots and are configured to cooperate with sleeves fixed to the inner surface of the housing. 2. The hydraulic punch of claim 1, characterized in that the part of the inner surface of the sleeves is formed by the groove, and the end of each sleeve, remote from the piston, is made with a protrusion that interacts with the limiting collar located on the outer side of the tubular zolotnik.

AT 2

L 5