RU86656U1 - PLASTIC HYDROPULSE IMPACT DEVICE - Google Patents

Abstract

1. The device impulse effects on the reservoir containing a composite housing connected to the string of tubing and placed in it a pressure concentrator, a ball valve with a seat, slotted windows, a spring-loaded shut-off element having the form of a piston and a distribution mechanism, characterized in that a pressure concentrator, a ball valve with a seat, slotted windows and a spring-loaded locking piston are located in the upper part of the housing, and the locking piston with the possibility of interaction with its upper with a ball valve, which, in turn, serves for hydraulic separation of the annular cavity of the well through the cut-out windows from the working cavity of the tubing, and the distribution mechanism is located in the lower part of the housing and consists of a piston-pusher and a spring-loaded valve with a seat, which serves to hydraulic separation of the valve cavity from the cavity under the piston-pusher, while the cavity under the locking piston, above the piston-pusher and the valve of the distribution mechanism have a hydraulic connection with the working awn tubing and the cavity under the piston-pusher hydraulically connected with the shell side cavity. ! 2. The device according to claim 1, characterized in that the diameter of the locking piston is greater than the bore diameter of the ball valve on the seat, and the diameter of the piston-pusher is larger than the bore diameter of the valve of the distribution mechanism on its seat, respectively, by the calculated values.

Description

The utility model relates to devices used in the oil and gas industry, mainly for multiple pulsed impacts on the bottom-hole zone to increase oil recovery.

A device is known for multiple pulses of depressions and shock waves in the treated interval of the formation (see "Impacts on the bottomhole zone of wells", by A.A. Popov, M., Nedra, 1990, p. 106), consisting of an implosion chamber with a top an expanded part and pressure concentrates, a plunger rigidly fixed on the rope and a spring-loaded valve installed in the lower part of the device.

The disadvantage of this device is the low efficiency of its work to obtain the desired result after hydropercussion on the bottom-hole formation zone. This is due to the fact that the plunger drive in the form of a tractor hoist winch does not provide a sufficiently fast ram lift speed and, accordingly, instant opening of the bore between the lower end of the ram during its lifting and the lower expanded part of the implosion chamber, which is a necessary condition for obtaining sufficient power of hydroblow.

A device is known hydroimpulsive effects on the reservoir, adopted as a prototype (see RF patent No. 2147336, 04/10/2000), which contains a column of tubing, an implosion chamber with pressure concentrates and slotted windows, a plunger with an actuator, a spring-loaded valve, the upper and lower sub with branch channels, respectively mounted on the tubing string and the implosion chamber, the plunger being provided with slots, a saddle and a distribution mechanism. The plunger drive is made in the form of at least one hydraulic cylinder with a hollow rod and a piston rigidly fixed to the rod with a reversing switch. The distribution mechanism is made in the form of a spring-loaded spool and a spring-loaded locking element with a throttling hole, forming a transition cavity with the lower part of the plunger.

The disadvantages of the device include the complexity of the design, the possibility of failure of the reversing switch and the distribution mechanism when penetrating into their hydraulic cavities of reservoir sand.

The inventive device solves the problem of increasing the effectiveness of repeated exposure to the bottomhole formation zone.

This goal is achieved by the fact that in the proposed device of hydroimpulse effects on the reservoir containing a composite housing connected to the string of tubing and with a pressure concentrator, a ball valve with a seat, slotted windows, a spring-loaded shut-off element having the form of a piston and distribution the mechanism, unlike the prototype, a pressure concentrator, a ball valve with a seat, slotted windows and a spring-loaded locking piston are located in the upper part of the housing, and the locking ruthenium - with the ability to interact with its upper highlander with a ball valve, which, in turn, serves for hydraulic separation of the annular cavity of the well through the slotted windows from the working cavity of the tubing, and the distribution mechanism is located in the lower part of the housing and consists of a piston-pusher and a spring-loaded valve with a seat serving for the hydraulic separation of the valve cavity from the cavity under the piston-pusher, while the cavity under the shut-off piston, above the piston-pusher and the valve of the mechanism have hydraulic connection with the working cavity of the tubing, and the cavity under the plunger piston is hydraulically connected to the annular cavity, the diameter of the locking piston is larger than the bore diameter of the ball valve on the seat, and the diameter of the piston-pusher is larger than the bore diameter of the distribution mechanism by its saddle, respectively, at the calculated values.

In FIG. The device of hydroimpulse impact on the reservoir in the initial position.

The device comprises a composite housing 1, in the upper part of which there is a pressure compensator 2, a ball valve 3 with a seat 4, a spring-loaded locking piston 5, interacting with its upper end with a ball valve 3, and slotted windows 6 made in the housing 1. The slotted windows 6 are used to hydraulic separation of the annular cavity of the well from the working cavity of the tubing. In the lower part of the housing 1 there is a distribution mechanism consisting of a piston-pusher 7 and a spring-loaded valve 8 with a seat 9, which serve to hydraulically separate the cavity 10 of the valve 8 from the cavity 11 under the piston-pusher 7. The cavity 12 under the shut-off piston, the cavity 13 above the piston-pusher 7 and the cavity 10 of the valve 8 are in fluid communication with the working cavity of the tubing through the channel 14 made in the body of the housing 1, and the cavity 11 under the piston-pusher 7 is hydraulically connected to the annular cavity of the borehole of channel 15. In addition, the diameter of the locking piston 5 is larger bore diameter of the ball valve 3 on the seat 4, as well as the diameter of the piston-pusher 7 larger diameter landing valve 8 to seat 9, respectively, to the calculated values. The device is connected to the tubing 16.

The device operates as follows.

On the tubing string 16, the device is lowered into the well to the level of the upper holes of the casing string perforation interval. Then, the working fluid is supplied into the pipe string under pressure, which enters through the channel 14 in the cavity 12, 13 and 10, while simultaneously acting from below on the shut-off piston 5, from above - onto the piston-pusher 7, from below - onto the valve 8, and also from above - on the surface of the ball valve 3, limited by the diameter of the seat on the seat 4. The pressure is transmitted from below through the shutoff valve 5 to the ball valve 3 and from above through the piston-pusher 7 to the valve 8 of the distribution mechanism. Due to the fact that due to the difference in the diameters of the shut-off piston 5 and the bore diameter of the ball valve 3 on the seat 4 and, accordingly, the difference in their areas, the force difference from the influence of the fluid pressure will always be directed from the bottom upwards in total with the spring force. In this case, the valve 3 will always be in the closed position at any pressure. Similarly, due to the difference in the areas of the piston-pusher 7 and the bore diameter of the valve 8 on the seat 9, the force difference from the influence of the liquid pressure will be directed from top to bottom. In this case, the valve 8 will be in the closed position when this difference in effort does not exceed the force of the valve spring, calculated in this case to open the valve at a certain design pressure. When the pressure of the liquid in the tubing increases to a value that exceeds the design pressure, the difference in effort on the piston-rod 7 will also increase to a value exceeding the force of the valve spring 8, after which the piston-rod 7 moves downward and opens the valve 8 As a result of this, the fluid flow rushes through the open valve, the cavity 11 and the channel 16 into the annulus simultaneously from the cavity of the tubing and cavity 12, in which the pressure is released to a value at which the force from the impact The pressure on the ball valve 3 from above will exceed the force acting from below. At this moment, the ball valve 3 instantly opens, while simultaneously providing quick displacement of fluid from the cavity 12 into the annulus through the open valve 8 and also a quick flow of fluid from the cavity of the tubing through the slotted windows 6 into the annulus and then through the perforation holes of the well in the bottomhole formation zone. After depressurization, the cycles for stimulating the formation are repeated as many times as necessary.

Thus, the claimed device allows to improve the effectiveness of the impact of the bottomhole formation zone for its fracture.

Information sources:

1. Impact effects on the bottomhole zone of wells. A.A. Popov, M., Nedra, p. 106.

2. RF patent No. 2147336, 04/10/2000

Claims (2)

1. The device impulse effects on the reservoir containing a composite housing connected to the string of tubing and placed in it a pressure concentrator, a ball valve with a seat, slotted windows, a spring-loaded shut-off element having the form of a piston and a distribution mechanism, characterized in that a pressure concentrator, a ball valve with a seat, slotted windows and a spring-loaded locking piston are located in the upper part of the housing, and the locking piston with the possibility of interaction with its upper with a ball valve, which, in turn, serves for hydraulic separation of the annular cavity of the well through the cut-out windows from the working cavity of the tubing, and the distribution mechanism is located in the lower part of the housing and consists of a piston-pusher and a spring-loaded valve with a seat, which serves to hydraulic separation of the valve cavity from the cavity under the piston-pusher, while the cavity under the locking piston, above the piston-pusher and the valve of the distribution mechanism have a hydraulic connection with the working awn tubing and the cavity under the piston-pusher hydraulically connected with the shell side cavity. 2. The device according to claim 1, characterized in that the diameter of the locking piston is greater than the bore diameter of the ball valve on the seat, and the diameter of the piston-pusher is larger than the bore diameter of the valve of the distribution mechanism on its seat, respectively, by the calculated values.