SU1620605A1 - Hydraulic jar - Google Patents

Abstract

The invention relates to a drilling technique and is intended to eliminate the sticking of a boring tool. The goal is to increase the efficiency of the operation of the SSA by increasing the impact energy. In the middle part of the hollow body (PC) 1 cc an inner annular ledge is made. Inside PC 1, a rod 2 forming a hydraulic chamber with its walls is telescopically mounted. Limiters B are installed on its outer surface. Pistons 3 and 4 are freely mounted between them.

Description

Potential energy accumulated with each other, for example, spring 5. In the working position, parts of the hydraulic chamber above and below pistons 3 and 4 are connected by hydraulic means made in the form of two channels P located in the body of the rod P. Outputs b and a of channels P are located above the limiters B of the rod 2 and between the pistons 3 and 4, and the outputs a and b of the other between the pistons 3 and 4 and under the restrictions of the B of the rod 2. At the outputs of the channels b, check valves K are installed above and below the limiters. the occurrence of stuck drilling tools under the action of voltage drill string 2 with the stopper rod B, which is a striker and, and the piston 4 is moved slowly. The piston 3 remains stationary and the spring 5 is charged with the potential energy of compression. As the rod 2 moves due to a certain redistribution of fluid, the limiter B of the rod 2 produces a blow to PC 1 and the piston 3 due to the potential energy of the spring 5 makes an additional blow to the stop B and PC 1. The arrangement of the outputs a of channels P determines the amount of column deformation springs 5. 3 Il.

The invention relates to equipment for drilling wells, namely, devices for eliminating the sticking of a drilling tool, especially under conditions of deep and ultra-deep drilling.

The aim of the invention is to increase the efficiency of the ssa by increasing the impact energy.

FIG. 1 shows a longitudinal section of the hydraulic ssa in the initial position; in fig. 2 - the same, when charged to strike upwards; in fig. 3 - the same, when striking up.

Hydraulic ss (Fig. 1) contains a hollow body 1 with expanded L and B and a narrowed C (due to an internal annular protrusion in the middle part of the body) cylindrical cavities, a rod 2 forming a hydrochamber with successively installed limiters Pistons 3 and 4 are freely installed, interconnected by a potential energy accumulator, for example, a spring 5. In the rod, means of hydraulic communication of parts of the hydraulic chamber above and below the pistons are made in the form of bypass channels П, some of which are x and it is located between the limiters, and other used, equipped with check valves K for one channel located above limiters, and for the other - under the limiters rod. The sealing of the cavities is carried out using cuffs 6-8.

Hydraulic ss works as follows.

The body and stem are connected to the drill chamber when sticking occurs.

When a drilling tool is stuck, the drill string is under tension, under the action of which the slow movement of the rod 2 with the stop B, which is both the die and the piston 4, starts. The piston 3 remains stationary due to filling the cavity with liquid A and The potential energy is compressed, which is in addition to the tensile energy of the drill string pipe.

As the rod 2 moves, part of the outlets a of the bypass channels P falls from the initial position in the constricted cavity C into the expanded cavity A (Fig. 2). In this case, the fluid from the expanded cavity

A begins to flow into the expanded cavity B and the piston 3 is set in motion, moving inside the expanded cavity A and opening an annular gap between the outer defining piston 3 and the wall of the expanded cavity A. The fluid, previously in a compressed state, is allowed outflow from the expanded cavity A to the expanded cavity B, the pressure in the expanded cavity A is sharply

decreases and under the action of stretching the parts of the column, together with the body 1 and the rod 2, are set in motion in opposite directions. Limiter-striker B of stock 2 produces a blow to the body 1, and

piston 3, increasing its kinetic energy due to the potential energy of the battery, makes an additional blow to the limiter-striker B and body 1 (Fig. 3). The location of the outputs of the channels P,

essentially determines the magnitude of the column deformation and potential energy battery.

To strike down, it is enough to change the direction of the external load.

on stock. In this case, the sequence

operations are repeated, and the lower end of the body is subjected to impact.

Pneumatic, hydraulic known devices or springs capable of developing forces of several tens of tons can be used as a potential energy accumulator.

Claims (1)

Claims of the invention Hydraulic ss, comprising a hollow body with an inner annular protrusion in the middle part, telescopically mounted in the body and forming a hydraulic chamber with its walls, a rod with two limiters installed in series on its outer surface and freely The pistons mounted between them and the means of hydraulic communication in the working position of the parts of the chamber above and below the pistons, characterized in that, in order to increase the efficiency of operation of the SSA by increasing the impact energy, the means of hydraulic communication are made in the form of two stem bodies located in the body the channels, the outlets of one of the channels are located above the stem limiters and between the pistons, and the outlets of the other between the pistons and under the stem limiters, and check valves are installed at the channel outlets above and below the limiters, and Connected to each other by a potential energy battery. FIG. I fig.Z