SU885465A1 - Device for treating filter and adjoining zone of water well - Google Patents

Description

The invention relates to the field of exploitation of water wells and can be used to clean their filters and filter zone in case of mudding and contamination with mechanical impurities. ⁵

A device for processing the filter and the filter zone of a water well is known, comprising a vibrator and a central tube rigidly attached to it, on the outer surface of which disks are attached so that they are located in the filter part of the well. The upper disc is equipped with spring-loaded _<5 spring-loaded check valves and a mandrel with a sealing element.

The disadvantage of this device is the presence of vibration, which leads to its premature wear, increased operation noise, and insufficient efficiency of processing the well and the filter.

The purpose of the invention is to increase the efficiency of processing the filter and the filter zone of the water well.

This goal is achieved by the fact that the device is equipped with a shock absorber and an additional spring-loaded disk mounted above the upper disk with an electrode and studs mounted in it, connecting the upper disk to the additional one, while the electrode is mounted above the check valve mounted on the upper disk.

The drawing shows a well with a device for processing the filter and the filter zone, a vertical section.

The device consists of a central pipe 1 mounted by a support 2 on the filter pipe 3. On the central pipe 1, disks 4 are fixedly fixed with a pitch of 0.5 ”0.8 mm, the diameter of which is

5-8 mm is smaller than the inner diameter of the filter pipe 3. The length of the pipe 1 is selected so that the dis ·, .ki 4 are located in the filter zone of the well. The upper disk 5 is provided with holes 6 and an annular mandrel 7 located at its edges and made in the form of a channel-shaped washer. In the holes 6 are mounted spring-loaded check valves 8, which can pass fluid only in the direction from top to bottom. An annular mandrel 7 has a hollow sealing element 9 made, for example, of acid-resistant rubber. The internal cavity of the sealing element 9 through the hose 10 is connected to a source 11 of compressed air.

Above the upper disk 5 on the studs 12, a spring-loaded disk 13 is mounted with a mounted electrode 14 connected to a current pulse generator 15. The negative electrode is the filter pipe 3. To return the spring-loaded disk 13 to the initial position, the springs 16 serve, and the reciprocating movement of the pipe 1 provides a shock absorber 17 · A pipe 18 is mounted in the upper part of the pipe 1, which is designed to supply air to the well when airlift is pumping liquid , which is carried out through the tube 19., The device operates as follows.

Compressed air is supplied through the hose 10 to the cavity of the sealing element 9 and in this way the place of contact of the upper disk 5 with the filter pipe 3 is sealed. From the generator 15 current pulses, the accumulated electric energy is supplied to the electrode 14. Between the electrode 14 and the non-return valve 8 a high-voltage pulse spark discharge is formed. Under the action of a spark discharge, the check valve 8 moves, opening the hole 6. The resulting shock wave and hydraulic flow move the fluid in all directions, including through the opening 6, affecting the upper disk 5 and the spring-loaded disk 13. Due to the mass inertia pipe 1 with discs 4 and 5 is shifted down with a certain time lag compared with valve 8. In this case, the hole 6 is closed under the action of the spring of the check valve 8 and the movement of the upper disk 5.

The spring-loaded disk 13 moves upward along the studs 12, creating an additional instantaneous vacuum in the discharge zone and thereby accelerating the return of the check valve 8 and sucking up another portion of the liquid through the gap between the disk 13 and the filter pipe 3.

After the end of hydrodynamic effects, the pipe 1 returns to its original position under the action of the shock absorber 17, and the spring-loaded disk 13 ~ under the action of the spring 16.

At the next spark discharge, the process repeats. As a result of repeated repetition of strokes, pipe 1 with disks 4 performs pulsed reciprocating movements, creating local disturbances in the filter zone that destroy sediments and pump liquid into the bottom-hole zone of the aquifer. Moreover, this process is dynamic pulsating in nature, and the pressure generated in this case can be arbitrarily large and limited only by the pressure in the sealing element 10.

At the end of the treatment cycle, the current pulse generator 15 is turned off, the pressure in the sealing element 9 is relieved, and airlift pumping of the liquid from the well is performed. In this case, air is supplied to the well through the tube 18, and the liquid is ejected through the tube 19.

The advantages of the proposed device are the absence of direct effects of vibration on the filter pipe and mechanical joints, which increases their service life; lack of need to seal the wellhead, practical noiselessness, as well as the ability to achieve any pressure in the filter zone and in the filter zone at an unlimited depth of the aquifer, as a result of which the reagent can be partially or completely abandoned. All in all, it makes it possible to increase the efficiency of processing the filter and the filter zone of the well.

Claims (2)

The invention relates to the field of operation of water wells and can be used to clean their filters and filter zones during clogging and contamination with mechanical impurities. A device for processing the filter and the near-filter zone of a water well is known, which contains a vibrator and a central tube rigidly attached to it, on the outer surface of which disks are attached so that they are located in the filter portion of the well. The upper disc is provided with pre-tensioned check valves and a mandrel with a sealing element. The disadvantage of this device is the presence of vibration, which leads to its premature wear, increased work noise, as well as insufficient efficiency of treatment of the well and filter. The purpose of the invention is to increase the processing efficiency of the filter and the filter zone of the water well. The supplied chain is achieved by the fact that the device is equipped with a shock absorber and an additional spring-loaded disk mounted above the upper disk with an electrode mounted on it 8 and studs connecting the upper disk to the additional disk, while the electrode is installed above the check valve fixed on the upper disk. The drawing shows a well with a device for filter processing and a filter zone, a vertical section. The device consists of a central tube 1 installed by a support 2 on the filter tube 3. On the central tube 1 there are rigidly fixed Discs 4 in increments of O, 5O, 8 mm, whose diameter is 5-8 mm less than the inner diameter of the filter tube 3. Pipe length 1 388 is chosen in such a way that the dis-k are located in the filter zone of the well. The upper disc 5 is provided with openings 6 and an annular mandrel 7 located along its edges and made in the form of a channel-shaped washer. In the openings 6 spring-loaded check valves 8 are mounted, which can pass the liquid only from top to bottom. In the annular mandrel 7 is installed a hollow sealing element 9, made, for example, of acid-resistant rubber. The inner cavity of the sealing element 9 is connected via a hose 10 to a source 11 of compressed air. Above the upper disk 5 on the studs 12 a spring-loaded disk 13 is installed with a built-in electrode T connected to the generator 15 current pulses. The negative electrode is a filter tube 3. For returning the spring-loaded disc 13 to the initial position, there are springs 16, and a reciprocating movement of the tube 1 provides a shock absorber 17. In the upper part of the tube 1 there is a tube 18 mounted to supply air to the well at: air-lift pumping a liquid that is carried out through the tube 19 .. The device operates as follows. Through the hose 10, compressed air is supplied to the cavity of the sealing element 9, and thus they seal the contact area of the upper disc 5 with the filter tube 3. From the generator 15 current pulses, the accumulated electrical energy is supplied to the electrode. A high-voltage pulsed spark discharge is formed between the element k and the non-return valve 8. Under the action of the spark discharge, the non-return valve 8 moves, opening the opening 6. The resultant wave and hydraulic flow move the fluid in all directions, including through the opening 6, affecting the upper disk 5 and the spring-loaded disk 13. Due to the inertia of the mass of the pipe 1, the discs t and 5 are displaced downwards with some lag in time compared to the valve 8. At the same time, the version 6 is closed under the action the spring of the check valve 8 and the movement of the upper disk 5. The spring-loaded disk 13 through the studs 12 moves upwards, creating an additional instant of depression and accelerates the discharge valve 8 and accelerates the alternate portion of the liquid through the gap between the disk 13 and the filter pipe 3. After the end of the hydrodynamic action of the pipe 1 is returned to its original position by the action of the shock absorber 17, and the spring-loaded suit 13 is under the action of the spring 16. At the next spark discharge, the process is repeated. As a result of repeated repetition of the reserves, the pipe 1 with the disks makes pulsed reciprocating movements, creating local perturbations in the filter zone, destroying sediments and injecting fluid into the bottomhole zone of the aquifer. Moreover, this process is of a dynamic pulsating nature, and the pressures generated during this can be arbitrarily large and limited only by the pressure in the sealing element 10. At the end of the processing cycle, the current pulse generator 15 is turned off, the pressure in the sealing element 9 is relieved, and the well is pumped out . At the same time, air is supplied to the well through tube 18, and liquid is ejected through tube 19. The advantages of the proposed device are the absence of direct vibration effect on the filter tube and mechanical connections, which increases their service life; there is no need to seal the wellhead, virtually noiselessness, and the possibility of achieving any pressures in the filter zone and in the filter zone at an unlimited depth of the aquifer, as a result of which the reagent can be partially or completely rejected. In general, it allows to increase the processing efficiency of the filter and the filter zone of the well. Claim 1. Device for processing the filter and filter zone of a water well, containing a central tube with discs, the upper of which has a seal and openings with spring-loaded non-return valves, so that, in order to increase the efficiency of filter processing and the filter zone water well, it is equipped with a shock absorber, and an additional spring-loaded disk mounted above the upper disk with an electrode and studs mounted in it, a connection of 85 6S6 additional disk with upper disk. 2. The device according to claim 1, about tl and that the electrode S is installed above the check valve. Sources of information taken into account in the examination 1. USSR author's certificate W «172188, cl. E 03 B 3/18, 1977.