RU2190064C2 - Well and well operation - Google Patents

Abstract

FIELD: construction, repair and operation of water intakes of underground water, water supply systems, oil and gas industry. SUBSTANCE: well includes operational string of pipes, outer and inner perforated pipes of filter with plugged lower but of outer pipe and filtering backfill of granulated material in zone close to filter and between them installed uneasily with operational string of pipes, transducer of dynamic level of water, member to remove sand and sediment. The latter has feed-drain pipe-line, jet-type pump, solenoid valve, element transmitting vibration to tubular backfill. It includes submersible pump and springs. Element transmitting vibration has bearing flange on shoe of operational string. It is combined with foam polystyrene filter-gland placed in enclosure. Non-perforated part of filtering string is mounted freely for movement on spring, its movement is limited by thrust flange. Perforated part of string is located between water confining strata with lower end of settler in the form of hemisphere " floating " in water-bearing horizon and held in static state in vertical position on shoe of operational string of pipes thanks to own weight and formation pressure. In periods of regeneration of backfilling and pouring of filtering material perforated part is given free vibrations and displaces due to action percussion element transmitting vibration. It includes striker- cylinder, spring, thrust journal-bushing, spring bullhead, cable, cable drive switched on by signal from standby and master transducers of dynamic level of water in observation and production wells. It excludes false switching on of regeneration mechanism caused by drop of water level in water-bearing horizon proper and not in zone close to filter because of collimation. In correspondence with invention periodic regeneration is conducted by water hammer under automatic condition advancing collimation under variants of passive and active regeneration. Passive regeneration is automatically conducted constantly during operation of pump and change of pressure in water supply system by water distribution point. With this in mind pressure in well water-lifting pipe is changed by submersible pump owing to change of water distribution in external water supply and to limited discharge of well in time intervals 6-9 and 17-20 hours of maximum water distribution and in time interval 0-3 hours of maximum transit of water into water tower. This alters porosity of backfill around filtering string traveling on spring thanks to compression or stretching of spring. During regeneration conditions preventing sand clogging, formation of sediment and closing of sand washout cavities are created. Active regeneration is carried out by single or several cycles described below by specified program or manually with time- intensified processes of colmatage. Periodic short-time switching off of submersible pump and momentary, 0.1 s controlled planned water hammer on return valve, its disc and body advancing colmatage is fed with this in mind. By it filtering string is displaced on spring. Vibration load is applied normally to axis of pipe to internal lower part of settler of filtering string freely " floating " in water-bearing horizon with the aid of vibrator for time of 5 min or under in advance to water hammer for time minimally required to diminish side cohesive force between filtering string and backfill. EFFECT: prevention of colmatage in zone near filter and in well filter in process of water production by longitudinal and lateral movement of filtering string and its backfill caused by vibration. 5 cl, 11 dwg

Description

 The group of inventions relates to the device, equipment and operation of wells for water, that is, to the field of groundwater abstractions, vertical drainage systems, replenishment of groundwater through injection wells, as well as oil and gas wells, and is intended for cleaning wells from various matting deposits and sand and can be used for water supply and in the fields of oil and gas industry.

 A well is known to be a water well in which mechanical vibrations and regeneration of the annular filling are carried out, which contains coaxially perforated filter pipes with filling of granular material between them, a submersible pump, an element for transmitting vibrations from the filling pump and a spring, for example (see ed. Certificate of the USSR 150603636 Cl. E 03 B 3/18, 1987).

 The reasons that impede the achievement of the technical result indicated below when using the known device include the fact that annular regeneration in the prefilter zone and pipes is not carried out in a known well, which, regardless of the annular regeneration, certainly leads to annular mudding, a decrease in the specific flow rate and termination of work wells earlier than the norm, and the device complicates the conditions for water withdrawal and causes sanding of the filter with constant vibration of the annular filling with a running pump Through the caverns of the annulus formed during the sampling, it does not solve the problems of removing sand and sediment from deep wells without dismantling the submersible pump and installing the treatment unit.

 A well-known filter is a water well that improves the maintainability of the filter column in the event of its early decommissioning due to damage and contains a perforated pipe, a sealing cone made of sheet steel, an elastic gasket, flanges, bushings, a column of mounting pipes, stops and nuts, cam with couplings, for example (see ed. St. USSR 1654474, class E 03 B 3/18; 3/06, 1991).

 The reasons that impede the achievement of the technical result indicated below when using a filter include the fact that in a known filter, as a result of mudding during operation, it is difficult to dismantle the filter due to the presence of threaded connections and the complexity of installation and construction, as well as a decrease in flow rate due to mudding in filter zone and sanding problems.

 The closest device of the same purpose to the claimed device in the group of inventions according to the totality of features is a water well filter, in which mechanical vibrations of the annular sprinkling of the prefilter zone of the well are carried out, which contains a support frame of a perforated pipe, wire spirals, a filter coating in the form of a mesh, brackets and flexible hose with compressor or pump, for example (see ed. St. USSR 1661306, class E 03 B 3/18, 1989).

 The reasons that impede the achievement of the technical result indicated below when using the known filter adopted for the prototype include the fact that in the known filter, an elastic hose and staples reduce the filter duty cycle, low regeneration efficiency due to the elasticity of the hose, the device also requires high energy consumption to overcome compressive forces soil and is very inefficient due to mudding, reaching from 10-15 cm to 2-3 m in radius from the barrel of the filter column, and also does not solve problems with sanding and repair odnostyu a filter column.

 The closest device of the same purpose to the claimed device in the group of inventions according to the totality of features is a well in which mechanical regeneration of the annular filling and removal of sand and sediment from the sump of the well during sampling is carried out, which contains internal and external perforated pipes with a filtering filter placed between them material and spring-loaded electromagnetic rings, electromagnet, jet pump, solenoid valve, supply and exhaust pipe, sensor a dynamic water level in the well and an actuator, for example (see ed. St. USSR 1335656, class E 03 B 3/15; 3/18, 1986).

 The reasons that impede the achievement of the specified technical result when using a well-known well include the fact that in the well-known well mechanical annular regeneration is not carried out in the filter zone due to the absence of vibration in it, sand and sediment are not removed from the wellbore and sump from deep wells ( more than 100 m) during sampling, the filter duty cycle decreases by the electromagnets placed in it, false switching on of the regeneration device by the dynamic water level sensor in the wells is not excluded by reducing the flow of water in the aquifer, rather than prifiltrovoy area due to clogging.

 There is a known method of hydrodynamic vibration processing of operating wells by restoring the permeability of the filter zone mainly due to the transmission of hydrodynamic pressure pulses to it with fixed oscillations of the working body in the filter column, where the minimum pressure amplitude values correspond to the moment of restoration of the filter permeability and bottom-hole zone, for example (see Fig. 112, p. 225 and p. 224, paragraph 3 below, the book "Vibration Engineering and Technology in Pile and Drilling Operations", authors M. G. Zeitlin, V. .V. Verstov, G.G. Azbel, ed. Stroyizdat, Leningrad, 1987).

 The reasons that impede the achievement of the technical result indicated below when using the well-known method of treating a well include the fact that in the known method of treating a well that has been colmated during operation by precipitation, the treatment is carried out after dismantling the piping, production pump, cleaning the borehole with a chute, and installing vibration equipment and vibrations of 20-30 minutes several times with breaks of 10-15 minutes, which does not provide an effective restoration of permeability prifiltrovoy second zone does not exclude sandsing annulus during water intake.

 The closest method of the same purpose to the claimed method in the group of inventions according to the totality of features is a method of shock-vibration treatment of an artesian well, in which, by means of shock-vacuum treatment, the well is decolmatized and wedged out, which consists in hydromechanical destruction of mud and clay with preliminary cleaning of sand deposits and clay in the area of the main watercourse and the consequent creation of intense pressure pulses of a certain frequency and vacuum cavities, for example (see p. 28, Journal "Water Supply and Sanitary Engineering" 6, 1999).

 The reasons that impede the achievement of the technical result indicated below when using the known method adopted for the prototype include the fact that in the known method of processing the well, it is also necessary to process the already formed co-matant during the operation of the well, spend a lot of time on the regeneration cycle and on their preparation related with installation and dismantling of equipment in the field of the main water inflow, the high cost of the work to restore the productivity of the well, up to 30% of the cost of a new well, the low efficiency of the destruction of the mud after it is formed on the fixed outer side of the filter pipe, since the filter string in the area of the watercourse does not exceed 25% of its entire surface area, then 75% of its surface area and the corresponding filtering areas of the watercourse zones around the filter the columns are susceptible to mudding and remain untreated, which is why after treatment the period of increasing the water withdrawal between the regeneration periods is unreasonably reduced, decreasing the life of the well against regulatory 5-6 times.

 The closest method also, but used in construction and acceptable in the claimed method, as a group of inventions, as an element of the method, according to a set of features, is a method of trenchless laying of communications, in which by applying a vibration load to the inner surface of the head of the pipe to be laid, friction forces between the lateral surface of the pipe and the soil, increasing the penetration rate and supporting damped vibrations as the length of the forced pipe increases, for example (see USSR USSR 4354066, dated December 31, 1987, class E 02 F 5/18).

 The reasons that impede the achievement of the technical result indicated below when using the known method include the fact that in the known method of trenchless laying of communications, a vibration load is applied to a pipe rigidly pinched in soil at both ends, vibrations are applied from only one end of a long pipeline, a vibrator load is applied when the movement of the pipe in new areas with soil dense on both sides of the pipe, the pipe pinched on both sides experiences great pressing forces of up to 500-700 atm and and the driving force up to 5000 kN, which requires a lot of energy, metal-consuming mechanisms and considerable time for preparation and pressing of the pipe, and for the effective value of the longitudinal movement of the driving force against the force of gravity is within or equal to 0.35-0.5.

 The invention consists in the following.

 1. The filter column, comprising only a small part of the entire wellbore, is separated from the rest of its stationary part and is movable to improve contact with the medium in an upright position.

 2. The well-known strong tight hermetic packing in coaxial pipes, preventing the penetration of sand into the wellbore at the upper boundary of the aquifer, is made at the lower end of the production casing in the form of a packing gland in a housing with polystyrene foam filling from granules that are lighter than water and pressed against it bottom up in the casing and prevent the penetration of sand, freely pass, increasing water flow rate.

 3. The filter column is made in one piece with the sump or separately through two movable oil seals (option) of drainage wells and is placed between the floating glands in the aquifer.

 4. The filter column is installed already in the finished holes of the wells and after installation it experiences a slight lateral pressure of the filtering dust and the same water pressure inside and outside in a static state, and during regeneration periods due to its preliminary vibration, the lateral soil pressure decreases by 5-6 times and actually slightly exceeds the dead weight of the filter column located in the spring, which requires small forces for longitudinal movement and effective removal and prevention of formation colmatant on its outer surface, causing mechanical displacement of the sprinkler and its removal from the Kolmatant due to transverse and longitudinal vibrations of the free lower end of the filter column and displacement of the sprinkler, where the caverns of the filter zones formed during water removal are closed due to the removal of fine fractions of sand and colmatant in the wellbore and sump, which is automatically removed from it and accumulates in isolation from the total cavity of the wells without getting into the pump, and is periodically removed once every 6-12 months from a well in a cyclone container together with a pump for inspection, repair or replacement.

 A single technical result that can be obtained by carrying out a group of inventions, in particular, is expressed in increasing the efficiency of annular regeneration, in the beneficial use of water hammer energy, in localizing the process of clogging, in reducing the time and possibility of replacing and improving filter installation, in improving filter contact columns with a filter medium, reducing the time of regeneration cycles, reducing the cost of work due to the possibility of increasing the effectiveness of periodic annular vibration and transverse and longitudinal movement of the filter pipe with automatic prevention of clogging, the beneficial use of the energy of water hammer or a change in water pressure in the water supply network at different times of the day, as well as in increasing the impact on the movable filter by the impact of the cylinder head while reducing its impact force and mass hammering at the same time, or by using the effect of gravity of ballast cylinders of water wells of large vertical drainage.

The specified single technical result in the implementation of the group of inventions for the object-method is achieved by the fact that in the known method of operating a well, created by the optimal operation of a submersible pump with a well stop and:
1) with periodic regeneration of the filter zone and filter, removing sand from the sump without stopping and dismantling the submersible pump, or with stopping and dismounting it in wells with a depth of more than 100 m.

 2) periodic regeneration is carried out instantly up to 0.01 with a water hammer, and in automatic, proactive mudding, at the same time as water withdrawal and in various variants, namely passive and active regeneration, passive regeneration is carried out automatically by changing the pressure in the riser by the pump and the external network water supply at different times of the day, and the limited flow rate of the well, for which they move the filter column on the spring with water pressure and change the porosity of the sprinkling of the filter zone, thereby creating conditions that impede causing formation of colmatant and sanding due to the exclusion of cavities, removal of sand in the filter zone formed during water withdrawal, and active regeneration is carried out according to a predetermined program or manually during time-intensive colmatation processes, for which the submersible pump is periodically turned off and an adjustable, preventive clogging a hydraulic shock to the non-return valve, which displaces the filter column on the spring, and during the shock and previously for a period of not more than 5 minutes, a vibration load of the vibration is applied Hur to the internal bottom part of the settler freely "floating" in the aquifer a filter column.

 The specified single technical result in the implementation of the group of inventions for the object device is achieved by the fact that in the known device, the well contains a production string of pipes, coaxially with it one or two inner and outer perforated filter pipes with a blanked lower end of the outer pipe and a filtering bed of granular material between them and in the filter zone, a dynamic water level sensor, an element for transmitting vibrations of the filtering annular filling, containing a submersible pump and a spring, electric a sand and sediment removal unit comprising a jet pump, a supply and outlet pipe and a solenoid valve.

 The feature of the device is that the production string of pipes on the shoe has a stop flange combined with a polystyrene foam filter gland, in which the upper end face of the non-perforated part of the filter string is mounted with a spring, equipped with a stop flange placed on the spring, and the creation mechanism and the transmission of vibration to the pipe and filter dusting of the filter zone additionally contains a cylinder head, a spring, a thrust disc with stiffeners, a cable and a drive mechanism (not shown), -substituted in the sump, and the mechanism of accumulation and removal of sand and sludge, which is further provided with a cyclone container for sand and sludge submersible pump with purified water waste pipe in the hole and sand baffle blades and the upper level sensor in the sump and sand cyclone container.

 In addition, the feature of automating the operation of the device on water supply systems and wells operating directly on the network in systems with a water tower or counter reservoir, which consists in eliminating any costs for decolmation, is that any change in pressure in the water supply network created by the water intake and pump is used due to the limited flow rate of the well and the network resistance along the length, which carries out the movement of the filter column on the spring and its sprinkling during passive regeneration, for which The azhina contains a disk disk, an intermediate nozzle on the water-lifting pipeline, transferring force to the spring from the electric pump casing in the passive mode, and in the active regeneration mode by a forced instantaneous hydraulic shock after the pump stops, for which the well additionally contains a disk disk, an intermediate nozzle, an inverse instantaneous action and safety valves on the pump housing, an adjustable plunger at the wellhead and a vibrator in the sump.

 In addition, a large-diameter vertical drainage well of open irrigation systems to reduce increased lateral pressing forces on the filter column due to the side surface area additionally contains a vibrator at the lower end of the filter column, water ballast cylinders with an inlet valve-valve, an outlet solenoid valve at the bottom, and on top, some contain plungers, others contain valves, and the riser at the wellhead is also equipped with an electrically actuated valve that is shut off for the duration of the regeneration.

 The combination of features listed above in the claims of the device and method allows efficiently regenerating the filters of any wells, since not the entire wellbore is exposed to vibrations and mechanical vibrations, including the conductor, casing, intermediate and production with a pump placed in it, but only a movable part, that is, a filter pipe string, which makes up a small part of the length, and a polystyrene foam filter gland located in the casing at the upper boundary of the aquifer, increases It filters the surface of the well, not allowing sand to enter the wellbore due to the retention of polystyrene foam in the casing, due to reservoir pressure and its specific gravity, which is less than water.

 The claimed group of inventions meets the requirements of the unity of invention, since the group of diverse inventions forms a single inventive concept, moreover, one of the claimed objects of the group — the device (well) —is designed to implement the other claimed object of the group — the method of operation, while both objects of the group of inventions are aimed at solving one and the same task with obtaining a single technical result.

 The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed group of inventions, both for the method object and for the device object, allowed to establish that the applicant did not find analogues, both for the method and for the device of the claimed group, characterized by features identical to all the essential features of both the method and the device - as the closest in the set of features of analogues, Allowed to identify a set of significant in relation to the perceived by the applicant technical result of the distinguishing features for each of the claimed objects of the group set forth in the claims. Therefore, each of the objects of the group of inventions meets the condition of "novelty."

To verify the compliance of each object of the claimed group of inventions with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the selected prototypes for each object of the claimed group of inventions. The search results showed that each object of the claimed group of inventions does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of each of the objects of the claimed group of inventions on the achievement of the technical result is not revealed from the prior art, in particular the following transformations are not provided for in each of the objects of the claimed group of inventions:
- the addition of a known means by any known part, attached to it according to known rules, to achieve a technical result, in respect of which the effect of such an addition is established;
- replacement of any part of a known product with another known part to achieve a technical result, in respect of which the effect of such a replacement is established;
- the exclusion of any part of the tool (element, action) with the simultaneous exclusion due to its presence of the function and the achievement of the usual result;
- an increase in the number of action elements of the same type to enhance the technical result due to the presence in the tool of precisely such action elements;
- the implementation of a known tool or part of a known material to achieve a technical result due to the known properties of this material;
- the creation of a tool consisting of known parts, the choice of which and the relationship between them are based on known rules, and the technical result achieved in this case is due only to the known properties of the parts of this tool and the relationships between them.

 Therefore, each of the objects of the claimed group of inventions meets the condition of "inventive step".

 The drawings show a device in the claimed group of inventions, where in FIG. 1 shows a well, a longitudinal section for unstable aquifers; in FIG. 2 - the same for sustainable; in FIG. 3 shows a general view of a well with a variant of regeneration of a filter zone by a hydraulic shock of a production pump; in FIG. 4 - placement of a jet pump in a well sump with a high filter height; in FIG. 5 - with a low filter height; in FIG. 6 is a longitudinal section of a cyclone container of sand and sediment; in FIG. 7 is a fragment of a sump with an element for creating an oscillation transmission by an electromagnet with a core for deep wells of a small diameter filter; in FIG. 8 is a general view of an injection well; in FIG. 9 - vertical drainage wells of large diameter open irrigation systems; in FIG. 10 is a fragment of a settler with a mechanism of double-sided shock-vibration action; and in FIG. 11 is an element of a fragment of a sump, placed in a glass of a stopper, for wells with low thickness of the aquifer.

Information confirming the possibility of implementing each object of the claimed group of inventions with the receipt of the specified technical result:
according to the object-method of operating the well, mudding is carried out by proactive regeneration of the filter zone 23, filter 2, automatically changing the pressure of the pump in the riser pipe 8 and the external water supply network during peak hours and water transit to the water tower, which compresses or unloads the spring 15 and through the submersible pump 5 its heel, the thrust bearing and the casing move the column 2 in an upright position, which mechanically changes the porosity of the filter zone 23 and filters 2, 4 with passive regeneration ation. Active regeneration of the filter zone 23 and filter 2 is carried out automatically or manually, for which they turn off the submersible pump 5 and create an instant hydraulic shock of up to 0.1 s in the water pipe 8 with the rotary disk of the check valve 42 and the force is transmitted through it to the pipe 8 and the disk disk 43 and the intermediate pipe 44, compress the spring 15 of the filter column 2 and move it down, clean the colmatant from the outer surface of the outer pipe 2 due to the mechanical effect of the movable pipe 2, and filter the pore space due to the displacement of the dusting, it closes and opens the pores and caverns formed during water sampling, and exclude the entry of fine sand and sediment into the wellbore 2, and before the start of active regeneration for 3-5 min and during regeneration, turn on the vibrator 56 in the sump 30 of the filter 2 and conduct vibrational vibrations of the lower end 30 of the filter column 2 freely located in the aquifer 23 to remove the adhesion forces of the side surface of the filter pipe 2 with dusting 23.

 The well contains production casing 1, coaxially mounted one perforated filter casing 2 (Fig. 2) or two pipes 2 and 3 (Fig. 1) with a sealed lower end of the outer tube of the sump 30 in the form of a hemisphere, filtering the backfill 4 of granular material between them and its supporting disk 31 and dusting 23 around the outer filter pipe 2 with a mounting lock 32 located in the aquifer between the stops 12 and 13, the upper end of which is spring-loaded and has a stop flange 14, a spring 15, a movable disk 16 below it on the support flange 17 shoe of the production casing 1 with stiffeners 27 on its outer surface, which forms an annular seal with a casing filter gland 20, with polystyrene filling 18 in the casing 19. As an embodiment, the transmission and oscillation mechanism for deep wells (Fig. 1), where a water hammer has a destructive effect, it contains a shock-vibration projectile of reciprocating action, where longitudinal vibrations can be most effective when the ratio of gravity to the magnitude of the driving force is 0.05-0.5, consisting of a striker-cylinder 10 with brushes 11 outside, a spring 25, a heel-sleeve 24, a cable 9, a thrust disk 26 with stiffeners 27 and perforation holes in it 29, a cable drive mechanism 9 at the mouth wells (not shown). The well also contains a dynamic water level sensor 49, a submersible pump 5, a pressure pipe 8. For mechanization and automation of the accumulation and removal of sand and sediment from the sump 30 of well 1 (Fig. 1, 2, 4, 5, 6) it also contains a mechanism consisting of a solenoid valve 22, a pressure pipe 21, a container cyclone 6 with a pipe 7 for discharging purified water in the well and breaker blades 37, pipelines 35 and 38 to a jet pump 28 with a sand level sensor 34 in a settling tank 30 and a container cyclone 6. For low filter heights 2 jet pump 28 (Fig. 5) is placed in the cyclone container 6, and for a large (20-50 m) cyclone container 6 is displaced down the pipe 35 to the sump 30, and the jet pump 28 is placed on the bottom of the sump 30 (Fig. 4, 6) .

 The well also contains a check valve 42, a pressure relief valve on the pump housing 45, a disc disk 43, an intermediate pipe 44, a plunger 46 at the wellhead, a water lift pipe 8 and a vibrator in the sump 56 to create periodic forced vibrations (Fig. 3) by hydraulic shock.

 For injection wells (Fig. 8), it further comprises a supply pipe 47, a solenoid valve 48 and a vibrator 56.

 For large-diameter vertical drainage wells of open irrigation systems (Fig. 9), the device contains ballast cylinders 59, an electric valve 60, solenoid valves 61, safety valves 62, valves 63 and plunger 46, the filter pipe contains a mounting lock 32 and a vibrator 56 in the lower parts.

 For wells with a limited filter diameter (FIG. 7), the oscillation transmission generating mechanism comprises an electromagnet 39, a core-core 40 and a cable 41, and a variant (FIG. 10) with a two-way shock-vibration action comprises a vibration exciter 51, a drive motor 50, and strikers 52 double-acting, protective cover 53, mounting hook 54 and power cable 55.

 The well works as follows.

 From the beginning of the commissioning of the well and the operation of the submersible pump 5 (Fig. 1, 2, 3, 8, 9) manually or according to a predetermined program from the water level sensor in the observation well or from a time switch (not shown) periodically a drive mechanism (not shown ) through a shock-vibrational projectile with a cable 9 and a striking cylinder 10, strikes at the fifth-sleeve 24, which through the spring 25, compressing it, transfers the load to the thrust disk 26 and through the spring 15 moves the outer filter pipe 2, creating an offset and oscillation in the filter sprinkling 23 of the annulus, preventing nd formation of colmatization and caverns (see Fig. 1). When striking with the striking cylinder 10 against the fifth-sleeve 24 in a well with double filter tubes 2 and 3, the fifth-sleeve simultaneously transfers the power load through the springs 15 and 25 of the outer 2 and inner pipe 3 and moves the annular 23 and annular filling 4, preventing the formation of colmatations and caverns. In the design of the wells (Fig. 7, 10) with an electromagnetic shock source with the transfer of loads and vibrations to the pipes 2 and 3, and sprinkling 23 and 4, voltage is alternately applied and disconnected via cable 41 to the winding of the electromagnet 39 and the core 40, moving along pipe 35, strikes at the heel 24 and, compressing the springs 15 and 25, moves the filter columns 2 and 3 together with sprinkling 23 and backfill 4, and in designs with a double shock-vibration mechanism (Fig. 10), voltage is applied via cable 55 in the drive motor 51 and create the conditions for optimal p benching exciter 50 and the pin 52 double action, displacing The filter column 2 along the axis of a spring 15 upwards or downwards with simultaneous transverse vibrations.

 Regeneration (Fig. 3) is carried out using an adjustable hydraulic shock, turning off the submersible pump 5, and the water moving through the water-lifting pipe 8, due to the small inertia of the rotors of the electric motor pumps and stopping them, breaks the continuity of the flow at the wellhead in the pipe 8, forming a vacuum, and instantly changes the direction of motion at the opposite speed, rushing down, and strikes the check valve disk 42 and through its body, pipe 8, disk disk 43 and intermediate pipe 44, flange 14, compresses the spring 15, flailing and moving the filter column 2 down, and the dusting 23 does not have time to move down after the first shock impulse and only together with the lifting of the spring 15 and filter 2 up slowly moves and is cleaned of the mud, excluding cavities in the annulus and preventing sand from breaking into the barrel wells and sump.

 In the injection well (Fig. 8), water is supplied to the aquifer through the solenoid valve 48 through the pipe 47 through the holes (not shown) of the perforated disk disk 43 and the supporting pipe 44 and enters through the filter 2 into the aquifer 23, and after increasing the water level in well 1 is higher than that specified by the sensor 49 or from the time relay over the filter cycle time intervals, its valve 48 is closed and the submersible pump 5 is turned on, which alternates pumping and regeneration cycles to restore the permeability of the filter zones Wells 1 and the water from it moves in the opposite direction through the filter 2 to the pump 5 and then through the disk check valve 42 through the pipe 8 enters the surface, at the same time through the sand level sensor 34 in the settling tank 30 of the filter 2, the solenoid valve 22 opens and water for a few minutes through the pipe 21, the supply and outlet pipe 35 enters the jet pump 28, creating a vacuum in the sand accumulation zone 33, and transports it through the pipe 35 to the cyclone container 6, where due to chipping blades 37 and an increase in the volume of water the speed drops the flow stream and it, separating from the sand, is discharged back into the borehole through the pipe 7, and the sand and sediment deposited in the cyclone-container 6 are removed at the next pump elevations. Together with this flushing, after raising the water at the wellhead and creating pressure in the riser 8 and increasing the effect of the backwash, the filter 2 and the filter zone 23 are regenerated by shaking it, for which an adjustable hydraulic shock is created by turning off the pump 5, and water, changing the direction of movement, strikes the disk of the rotary check valve 42 and through its body, the pipe 8, the perforated disk disk 43, the intermediate pipe 44, the stop flange 14 compresses the spring 15, moving the filter 2 and about pump 23. Water injection and pumping cycles alternate depending on the contamination of the water pumped into the aquifer in a ratio of time, respectively, in hours 100/1 to 1000/1, one hour of regeneration consists of 45-55 minutes of pumping and 3-5 minutes regeneration of the filter 2 and sprinkling 23 water hammer by turning off the production pump.

 The work of the vertical drainage well of large diameter of the open irrigation systems (Fig. 9) in the absence of the possibility of creating a pressing force on the spring 15 by hydraulic shock is carried out by creating the effect of gravity, for which it is created by closing according to a given program, or the signal of the water sensor, or manually valve 60 at the wellhead, and pump 5 increases the pressure in the riser 8 and the water, overcoming the spring force of the safety valve-valve 62, fills the ballast cylinders 59, increasing the pressure with a mass of water the force on the spring 15 of the filter column 2 in the periods of its regeneration, and at the same time, an additional pressure on the spring 15 creates a working pump 5 by increasing the pressure on the heel, the thrust bearing of the body of the electric pump 5, pipe 8, disk plate 43 with the valve 60 closed, as well as additional pressing force on the spring 15 creates compressible air in the adjustable ballast cylinders 59 with the valve 63. An additional removal of the lateral pressure of the dusting 23 on the filter column 2 is carried out by a vibrator 56, which include 3-5 m in before regeneration and during it.

 After the regeneration cycle is completed by the signal of the time relay, the valve with the electric actuator 60 opens and, as a result, the pressure in the pipe 8 drops, and the valve-valve spring 62, overcoming the water pressure, closes the water supply to the ballast cylinder 59 and opens the solenoid valve 61, releasing water into the barrel wells, while filling the ballast cylinders 59 with air through the plunger 46 at the wellhead, and the filter column 2 on the spring 15 moves upward, cleaning the sprinkling 23 and the pipe 2 from various clogging formations.

 Work sumps 30 wells (Fig. 1, 2, 3, 8, 9), carried out by the above method in wells with a small height of the aquifer, can be carried out (Fig. 11) in a glass 57, made in the lower stop 13.

Thus, the above information shows that when using the claimed group of inventions, the following set of conditions is fulfilled:
- a tool embodying the claimed invention in its implementation is intended for use in industry, namely in the construction and operation of wells for water supply systems in various industrial fields, watering, irrigation, irrigation, as well as for the oil and gas industry;
- for the claimed group of inventions in the form as described and in the independent claims of the claims, the possibility of its implementation using the means and methods described above and known prior to the priority date is confirmed.

 Therefore, the claimed group of inventions meets the condition of "industrial applicability". With a high degree of reliability in operation and maintainability.

Claims (5)

 1. A well including a production string of pipes, an outer and inner perforated filter pipe coaxially with it with a blanked bottom end of the outer pipe and a filter bed of granular material in and between the filter zone, a dynamic water level sensor, a sand and sediment removal element containing a feed a discharge pipe, a jet pump and a solenoid valve, an element for transmitting vibrations of the annular filling, containing a submersible pump and springs, characterized in that the well is additionally equipped with an electric it has a support flange on the shoe of the production casing, which is combined with a polystyrene foam filter gland in the casing, on which the non-perforated part of the filter column is freely bounded by the stop flange with the possibility of movement on the spring, and its perforated part is made between floating "in the aquifer the lower end of the sump in the form of a hemisphere and held in a static state in an upright position on the shoe ion column due to its own weight and reservoir pressure, and during the periods of regeneration of sprinkling and filling of the filter material it receives free vibrations and movements from the element for creating transmission of shock vibrations, which has a cylinder head, spring, heel-sleeve, spring support disk, cable and cable drive based on the signal of the backup and main sensors of the dynamic water level of the observation and working wells, eliminating false switching on the regeneration mechanism due to a decrease in the water level in the aquifer itself, and e prifiltrovoy zone in view of clogging.  2. A method of operating a well created by optimal operation of a filter string with a submersible pump with periodic shutdown of the well and regeneration of the prefilter zone and the filter with the removal of sand from the sump without stopping or stopping the pump in wells up to 100 m deep without dismantling and dismantling the submersible pump, at a well depth of more than 100 m, characterized in that the periodic regeneration is carried out by a hydraulic shock in an automatic proactive mode of mudding, in various versions, namely passively and active regeneration, passive conduct automatically automatically during pump operation and pressure changes in the water supply network during tapping, changing the pressure in the water pipe of the well by means of a submersible pump by changing the tapping in the external water supply network and the limited flow rate of the well during maximum tapping hours from 6-9 hours and from 17-20 h and a maximum from 0-3 h of every day water transit to the water tower, which changes the porosity of the dust around the filter column moving on the spring due to compression or extension of the spring, which creates conditions during regeneration that prevent sanding, the formation of colmatant and the closure of caverns of sand removal from the filter zone during water extraction, and the active regeneration is carried out by one or more of the following cycles according to a given program or manually during time-intensive colmatation processes, for which it is periodically briefly turned off the submersible pump works and delivers instantaneous up to 0.1 s, adjustable, anticipatory mudding, the planned hydraulic shock to the check valve, its disk and body than the filter column is displaced on the spring, and during the impact, and previously, for the time minimally necessary to reduce the lateral adhesion forces of the filter column with sprinkling, but not more than 5 minutes, a vibration load is applied normally to the pipe axis with a vibrator to the inner lower part of the filter column settler floating in an aquifer.  3. The well according to claim 1 or 2, characterized in that the element for generating and transmitting oscillations with an adjustable water hammer after stopping the pump is additionally equipped with an instantaneous check valve and a disk disc, rigidly clamped on the water pipe, with an intermediate pipe, adjustable a plunger at the wellhead and a vibrator in the lower part of the sump from its inner side.  4. Well according to one of paragraphs. 1-3, characterized in that the creation element of the transmission of oscillations of large diameter wells of open irrigation systems is additionally equipped with a gate valve with an electric actuator at the wellhead, ballast water cylinders, a lower end connected by an inlet valve-valve with a water pipe and an outlet solenoid valve in communication with the internal cavity wells, and the upper end at the wellhead associated with the atmosphere, some with a plunger and others with a cork valve.  5. Well according to one of paragraphs. 1-4, characterized in that the element for removing sand and sediment entering into it from the barrel and sump of deep wells without removing equipment and stopping the pump is additionally equipped with a cyclone-container of sand and sediment with a discharge pipe of purified water into the well, jack blades sand and sensors of the upper level of sand in it and a sump.

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