RU79613U1 - DEVICE FOR CLEANING A WELL FROM A TIGHT BOTTOM - Google Patents

Abstract

The utility model relates to the oil and gas industry, in particular, to devices for cleaning wells from dense sand, hydrate and proppant plugs.

A device for cleaning a well from a tight plug contains a housing, a piston installed in it with a central through channel and a bit. New in the device is that the housing is rigidly connected to the tubing, and on the outer surface of the piston there are helical grooves in which, with the possibility of sliding, the elements of the guide sleeve are rigidly connected to the housing. The helical grooves may include straight sections parallel to the longitudinal axis of the piston.

The inventive design of the device allows you to create, for example, alternating maximum possible rotational and shock loads on the tube due to the impact on it through the working body of the weight of the entire tubing. The force of action on the plug is determined by the strength characteristics of the tubing.

Description

The utility model relates to the oil and gas industry, in particular, to devices for cleaning wells from dense sand, hydrate and proppant plugs.

Known hydroshock device UG-100 for cleaning wells from proppant plugs, consisting of a housing connected through a hydraulic cylinder with a connecting pipe equipped with an annular piston mounted inside the adapter, which is connected through the shank to the lower end of the pipe of the lift column. A saddle is installed in the middle part of the detachable body, the end valve is spring-loaded to its lower end (see Mashkov V.A. et al. Pilot tests of a hydropercussion device for breaking and removing dense proppant plugs in perforation intervals during ANPD. and technology for well completion and sidetracking: scientific research / OAO NPO Bureniy. - Krasnodar, 2006. P. 363-371). The device destroys the cork by creating a shock.

The disadvantage of this device is an inefficient way to break the cork - if there is a binder in the cork during impact, it is densified and hardened; the presence of return springs in the device leads to a decrease in reliability and an increase in the abrasive wear of spring-loaded parts.

A device for cleaning a well from a tight plug is known, which is a double-acting springless hydraulic hammer, which includes a housing, a piston installed in it — a hammer with a central through channel, which is capable of impacting a drill bit with an anvil on a working tool (F.F.Voskresensky. Drilling valve machines of shock action. - M ,: Gostoptekhizdat, 1963, - P. 44-55.). The device is used for shock - rotary drilling of wells. The disadvantages of the device are: low impact force and the impossibility of independent rotation.

The utility model is aimed at increasing the rate of destruction of a dense cork, as well as increasing the reliability of the structure due to its simplification and reduction of hydraulic losses.

The problem is solved in that the device for cleaning the well from a tight plug contains a housing, a piston installed in it with a central through channel and a bit. New in the device is that the housing is rigidly connected to the tubing, and on the outer surface of the piston there are helical grooves in which, with the possibility of sliding in them, elements of the guide sleeve are rigidly connected to the housing. The helical grooves may include straight sections parallel to the longitudinal axis of the piston.

The claimed design of the device allows you to create the maximum possible rotational, alternating, for example, with shock, load on the tube due to the impact on it through the working body of the weight of the entire tubing. The force of action on the plug is determined by the strength characteristics of the tubing. The simplicity of the design of the device significantly increases its reliability.

The drawing shows a General view of the proposed device.

The device comprises a housing 1, rigidly connected to the guide sleeve 2 and a piston 3 installed therein. A chisel 4 is fixed on the piston 3. Grooves 5 are made on the outer surface of the piston 3, for example, having screw and straight sections, in which they can slide into them the protrusions 6 of the guide sleeve 2 are placed. The housing 1 is mounted, for example, on a flexible tubing 7, the device is located in a string 8 of tubing placed in a casing 9 with a tight plug 10 formed in it. In the piston 3 and up Lot 4 has a through channel 11.

The device operates as follows. After lowering it on a flexible tubing 7 to a level of 0.5 m above the tight plug 10, the pressure in the pipes is increased to 20 MPa. In this case, the piston 3 with the fixed bit 4 moves downward, moving out of the housing 1, and the bit 4 abuts against the plug 10. By moving the flexible tubing 7 down, the housing 1 is moved, while the protrusions 6 slip in the grooves 5 of the piston 3 the rotation of the bit 4 in the plug 10 (when the protrusions 6 slide along the helical grooves) and, for example, an alternating blow on it

plug 10 (in the presence of straight sections in the grooves 5). The housing 1 is lowered to the stop of the guide sleeve 2 in the bit 4, the piston 3 completely enters the housing 1. The cuttings of the plug 10 are washed directly through the channel 11 through the inner cavity of the tubing string 8. After washing the drilled interval, the housing 1 is moved upward by the movement of the flexible tubing 7, the protrusions 6 slide in the grooves 5, and the destruction of the plug 10 is repeated by the reverse rotation of the piston 3 with a bit 4 until the piston 3 completely leaves the housing 1, after which the described operation of drilling the cork is repeated until it is completely destroyed.

The use of this device allows to increase the efficiency of the well cleaning process by increasing the rate of destruction of the plug and increasing the reliability of the device.

Claims (2)

1. A device for cleaning a well from a tight plug, comprising a housing, a piston installed in it with a central through channel and a bit, characterized in that the housing is rigidly connected to the tubing and screw grooves are made on the outer surface of the piston, in which, with the possibility of sliding in them, placed elements of the guide sleeve, rigidly connected to the housing. 2. The device according to claim 1, characterized in that the helical grooves include straight sections parallel to the longitudinal axis of the piston.