SU1078028A1 - Hydraulic jar - Google Patents

Abstract

HYDRAULIC YAS, containing a body with a number of seats on the inner surface and a locking element, characterized in that, in order to increase the impact energy and reliability of operation, each seat is made of two conical concentric sleeves, between which there is an elastic sealing element, and an internal sleeve performed collet. (L ek X O O X)

Description

The invention relates to the oil and gas industry, in particular, to technical means for eliminating the sticking of pipes in a squigikin.

A device is known for releasing a string of pipe stuck in a borehole, operating in a line-up with a drill / 1 tool, comprising a body, a spindle with a die, a rod, a rupture link, and a floating part G12.

The disadvantages of this device are the multi-element and complexity of the design, most of the parts are mobile when working, the presence of oil under high pressure inside the housing requires adherence to tightness, and if solid particles get into the oil, the pores can seize, which reduces the reliability of the device.

The closest technical solution to the invention is a hydraulic c, comprising a housing with a number of seats on the inner surface and a locking element in the form of a ball. 2 3,.

A disadvantage of the known sa is a small impact energy due to the elasticity of the locking element.

The aim of the invention is to increase the energy of the Impact and the reliability of the operation of the sa.

This goal is achieved by the fact that in a hydraulic unit comprising a body with a number of seats on the inner surface and a locking element, each seat is made of two conical concentric sleeves, between which an elastic sealing element is installed, the inner sleeve being made as a collet.

The drawing shows a general view of the hydraulic sa, section.

The jar consists of a hollow body 1 having connecting threads 2 at the ends. Inside the body there are annular recesses 3 in which saddles are mounted, with which the locking element interacts in the shape of a ball 4. The saddles consist of two concentric tapered bushings with a collar in the upper part, outer 5, inner b, made in the form of an expanding collet and having through slots 7. A sealing element made of an elastic material 8 is installed between the saddle bushings. In the upper part of the body 1 there are radial holes 9 in which fracturable calibrated diaphragm 10, preloaded nut 11. The bottom of the housing 1 there collection chamber 12, the washer 13 is limited from below with the through holes 14 and dwell, room 15.

Hydraulic c works in the arrangement of the drill string and is connected to them using 2 to 1 threads. During the drilling process, drilling mud flows through the central channel through the device to the bottom of a well. In the event of sticking the drill string, the string system is pulled in and the pipes are thrown with a mouth of a pipe 4, which will slide into the upper seat, which is built into the recess 3 of the housing 1, and will block the central channel. 4 (subject to continued operation of the pumps), an overpressure is created, which additionally in the vertical direction of growth there is no drill string. At. When the calculated pressure is reached, the ball 4 will open the petals of the inner sleeve 6 and push through the saddle, while due to the abrupt relieving of stresses in the material of the pipe string, a powerful wave pulse will pass through it. After which the ball 4 with the children in. the next saddle, the process REPLAYS again and so until the last saddle passes through the cachar, after which it enters the collection chamber 12 and remains there above the restriction washer 13, through which the drilling mud is circulated through the holes 14. The protrusion 15 serves to evenly distribute the spheres in the accumulation chamber 12. If necessary, the process is repeated with the help of other balls thrown from the wellhead. A sealing element 8 located between the outer 5 and inner 6 sleeves serves to seal the pliers 7. To ensure emergency circulation of the drilling fluid in the event that the ball 4 is stuck in one of the saddles in the holes 9 in the upper part of the housing 1, breakable diaphragms 10 are provided pressed by nuts 11. To destroy them (the pressure of diaphragm destruction is higher than the pressure at which the ball passes through the saddle), the pressure in the drill string of pipes above the ball rises to the calculated value, after which the circulation is carried out through the holes in the case sa.

For effective operation of the devices after the ball passes through the saddle, it is necessary to drastically reduce the pressure in the cavity of the drill string of pipes, which requires that the distance between the seats, taking into account the compressibility of the fluid and the volume of the internal cavity of the drill string of pipes, was determined by the dependence

lg L-LO (h + оС4Р /, where С 0 а 4f 3 10780284 the length of the drillstring — the advantages of the proposed pipe from the installation — is the possibility of installing a second-rate start of the saddle / sagging of the sticking of the column, Alina drillstring pipes, since the release of pipes from the mouth to the month, pipe columns depends on the time the installation of the pervogol production work on the creation of the saddle) impulses. In addition, the simplicity of the compressible-struc- ture coefficient and the presence of injected tariroti and liquid, and the temperature of the diaphragms destroyed by diaphragms will allow a pressure drop over 10 to increase the reliability of the design,. . ball. sa

Claims (1)

(541 HYDRAULIC YAS, containing a housing with a number of seats on the inner surface and a locking element, characterized in that, in order to increase impact energy and reliability, each seat is made of two conical concentric bushings between which an elastic sealing element is installed, and the inner sleeve is made collet.