RU2536437C1 - Bellows borehole pump - Google Patents

Abstract

FIELD: motors and pumps.

SUBSTANCE: bellows borehole pump contains the modular cylindrical body 1. In the bottom part of the body 1 the plunger 4 with the return spring 6, piston 7 with the rod 8 is located. In the middle part of the body 1 the phase separator designed as a metal bellows 11 is located, one end of which is fixed in the stepped hole of the pump body 1, and second is tightly covered by round plate 15, which is rigidly connected to the rod 8 of the piston 7. In the top part of the body 1 the valve block 16 is installed with two parallel channels 17 and 18 for arranging of suction and injection valves 19 and 20 respectively. From the one side the channels 17 and 18 of the valve block 16 are connected with the cavity of the bellows 11, from the other side the channels 17 and 18 of the valve block 16 are connected with suction and injection branch pipes 23 and 24 respectively. The suction tube 23 and body 1 of the pump have respectively the holes 25 and 31 for intake of formation fluid. The output of the injection branch pipe 24 is connected with the pump output.

EFFECT: improvement of reliability, maintainability, convenience of mounting, resource of the pump operation.

8 cl, 1 dwg

Description

The invention relates to the field of pump engineering, in particular to pumping units intended for lifting liquids from great depths, for example from wells.

Known submersible borehole diaphragm pump (patent No. 103144, IPC F04B 47/08, published date 03/27/2011), comprising a plunger pump with an eccentric drive and a return spring, a bevel gear, an induction motor, a compensator for thermal expansion of oil, check and drain valves, a cable line, while the pump assemblies are made up of separate modules and are interconnected by means of flange connections, the joints are sealed by radial radial seals, and the shafts are connected by splined couplings.

The disadvantages of the known submersible borehole pump are the low efficiency of the pump due to the diffusion of associated gas in the formation fluid through the rubber diaphragm into the oil chamber of the pump; the use of a bevel gear and an eccentric drive in the design of the pump leads to vibrations, which contributes to the rapid wear of radial radial seals, leads to oil leakage into the formation fluid, and as a result, premature failure of the installation. The use of a slit mesh in the pump as a filtering element does not allow for sufficient filtering of the liquid from mechanical impurities, which leads to the formation of a sand plug at the pump inlet, its clogging and failure of the entire installation.

A well-known bellows deep-seated pumping unit (RF patent No. 83299, IPC F04B 47/08, published date 05/27/2009), taken as a prototype, which contains a piston hydraulic actuator with a closed oil circulation circuit and a drive from a submersible electric motor and a pump with a cylindrical housing and a valve block, which includes suction and discharge valves located on the same axis, between the piston cavity of the hydraulic actuator and the suction cavity of the pump there is a media separator made in the form of a bellows, one end of which is fixed to the core truncated pump and via an adapter connected to the valve block and another unattached and freely movable end hermetically closed circular plate cooperating with a pusher through the pressure equalizing mechanism between the piston cavity and the discharge cavity at the end of the hydraulic drive pump suction stroke.

The disadvantages of the well-known bellows deep-seated pump unit are the low reliability of the pump unit due to the possibility of bending the pusher in the process of operation of the bellows and as a result jamming of the pressure equalization mechanism and failure of the pump unit; the direct fastening of one of the ends of the bellows on the pump housing reduces the reliability of fastening, as well as the maintainability of the unit; placement of suction and discharge valves in the device’s body on one axis increases the dimensions (length) of the unit, which reduces its operational capabilities. In addition, the absence of a filter element at the inlet of the pump leads to the ingress of mechanical impurities (sand) between the working parts of the slide valves, which reduces the efficiency of the valves, gradually violating the tightness of the valve pairs. Valve pairs, due to adverse valve operating conditions, quickly wear out, which leads to failure of the valves and the need for repair or replacement of valves. All this leads to a temporary suspension of the well and ultimately a decrease in the productivity of the well.

The objective of the invention is the creation of a compact easy-to-use bellows-type deep well pump with increased reliability.

The technical result obtained by solving the problem is to increase the reliability of the device, ease of installation, maintainability, reduce the overall dimensions of the device, to increase the operating life by eliminating jamming and destruction of moving structural elements.

The specified technical result is achieved by the fact that in the bellows-type deep well pump containing a cylindrical housing in which a piston actuator with a closed oil circulation circuit and a valve block is installed, which includes suction and discharge valves, a medium separator is placed between the piston cavity and the pump suction cavity, made in the form of a bellows, one end of which is mounted on the pump casing, and the other is hermetically closed by a round plate, according to the invention, the round plate is rigidly connected to the piston eye, driven by a plunger, the suction and discharge valves are placed in parallel channels made in the valve block, while the channels are connected on one side to a cavity formed by a bellows and a round plate, and on the other hand, the suction and discharge channels are connected to the suction and discharge nozzles, respectively, while the suction nozzle and the pump housing are provided with openings for fluid inlet, the outlet of the discharge nozzle is connected to the outlet of the pump.

Placing the suction and discharge valves in parallel channels of the valve block allows to reduce the dimensions (length) of the pump, which reduces the weight and size characteristics of the device, expands its functionality, allowing the pump to be used to produce formation fluid, for example, in curved deviated low-yield wells.

The rigid connection of the round bellows plate with the piston rod driven by the plunger allows to increase the reliability of the bellows during operation.

The technical result is also achieved by the fact that the pump casing is made prefabricated, consisting of at least two parts interconnected by a detachable connection, for example, using a threaded part (nipple), which allows for convenient installation of pump assemblies, simplify the assembly / disassembly process products, as well as ensure its high maintainability.

Fixing the open end of the bellows in the stepped opening of the pump housing by means of a cup pressed by the end surface of the nipple increases the reliability of fixing the bellows to the pump housing without displacement, prevents damage during operation, eliminates leakage between the piston cavity and the pump suction cavity, improves the assembly / disassembly of the product .

The execution in the bottom of the glass of the Central hole for the direction of movement of the rod eliminates misalignment and jamming of the rod during operation, which increases the reliability of the pump.

Placing the valve block (module) in the stepped opening of the pump casing and securing it by pressing the end face of the nipple allows you to securely fix the valve block in the casing in compliance with the alignment with respect to the pump casing, and also improves the ease of use, allows you to quickly install / replace the module in the pump casing , improves the assembly / disassembly of the product, increases its maintainability.

The technical result is also achieved by the fact that the inlet openings of the pump housing are protected by a filter element made in the form of a spring installed in the upper part of the pump housing between the support elements, which allows the use (replacement) of the spring with different inter-turn distances depending on the size of the mechanical particles present in reservoir fluid, which improves the quality of the input fluid. In addition, the use of a spring as a filter element reduces the amount of accumulated filtered solid particles at the inlet to the pump, since due to vibration of the spring during the operation of the pump the spring is self-cleaning by shaking, grinding and releasing stuck particles of mechanical impurities from the inter-turn gaps of the spring, which eliminates sand plug formation at the pump inlet.

The implementation of the locking elements in the form of balls eliminates the ingress of solid particles contained in the reservoir fluid between the ball and the annular seat due to the small contact area of these elements, which prevents loss of valve tightness.

The implementation of the locking elements and seat seats of the valves from a hard wear-resistant and acid-resistant material, for example tungsten carbide, eliminates the destruction of the valves under the influence of the aggressive medium of the pumped liquid and the mechanical impurities contained in it, which increases the life of the product.

The design of the bellows-type deep-well pump is simple to manufacture, made collapsible due to the detachable connection of individual parts and assemblies, which allows for high maintainability of the product, simplify the assembly / disassembly of the product.

The presence of these signs allows us to conclude that the novelty of the technical solution.

When comparing the claimed solution with other technical solutions in the given technical field, no totality of features has been identified that distinguish the claimed solution from the prototype, which allows us to conclude that the technical solution meets the criterion of "inventive step".

Thus, the claimed solution is new, has an inventive step, industrially applicable.

The drawing shows a General view of the bellows depth pump.

The bellows submersible pump comprises a prefabricated cylindrical housing 1, consisting of several, for example four, parts 2, interconnected by means of detachable connections, for example, using threaded parts - nipples 3. At the bottom of the housing 1 there is a plunger 4 mounted in the hydraulic cylinder 5 , the return spring 6 and the piston 7 with the rod 8 are installed in the housing 9 of the hydraulic cylinder 5. The housing 9 is equipped with holes 10 for the passage of fluid (oil).

In the middle part of the housing 1 there is a media separator made in the form of a metal bellows 11, one end of which is fixed in the stepped opening of the pump housing 1 by means of a nozzle 12 pressed by the end surface of the nipple 3. In the bottom of the nozzle 12 there is a central hole 13 for moving the rod 8 and radial holes 14 for the passage of fluid (oil) connected to the holes 10. The second end of the bellows 11 is sealed by a round plate 15, which is rigidly connected to the rod 8 of the piston 7, for example, by means of a threaded connection .

In the upper part of the housing 1, a valve block (module) 16 is installed with two parallel channels 17 and 18 for accommodating the suction and discharge valves 19 and 20, respectively, with shut-off elements made in the form of balls 21 and 22 from a hard wear-resistant and acid-resistant material, for example tungsten carbide. On the one hand, the channels 17 and 18 of the valve block 16 are connected with the cavity of the bellows 11, on the other hand, the channels 17 and 18 of the valve block 16 are connected coaxially with the suction and discharge pipes 23 and 24, respectively. The suction pipe 23 is provided with openings 25 for fluid inlet. The nozzles 23 and 24 are fixed in the lower and upper guides 26 and 27. The upper guide 27 is provided with an opening 28 for the exit of fluid and is fixed in the sub 29 with the outlet 30. To enter the reservoir fluid in the housing 1 there are slotted holes 31 that are protected from mechanical impurities present in the reservoir fluid, a filter element made in the form of a spring 32 installed in the pump housing 1, for example, in the supporting elements 33.

The bellows submersible pump operates as follows. When the pump is immersed in the well, the formation fluid enters the pump through the slotted inlet openings 31 of the housing 1 and the filter element 32. The liquid purified from solids enters through the openings 25 into the suction pipe 23, filling it. Under the influence of hydrostatic pressure, the suction valve 19 of the valve block 16 opens and the formation fluid fills the bellows cavity 11.

When you turn on the submersible motor (not shown), the plunger 4, which is at the initial time in the lower working position, begins to move upward, compresses the spring 6, while the oil pressure in the piston cavity increases. As a result, the piston 7 with the rod 8 moves upward, compressing the bellows 11, the pressure of the reservoir fluid in the cavity of the bellows 11 increases, while the suction valve 19 is closed and the pressure valve 20 is opened. The formation fluid is displaced under high pressure through the open valve 20 into the discharge pipe 24 and through the hole 28 of the upper guide 27 and the hole 30 of the sub 29 is fed into the tubing.

When the plunger 4 moves to the upper operating point, the plunger 4 moves downward under the action of the return spring 6, the volume of the piston cavity increases, the oil pressure in the piston cavity drops, while the piston 7 with the rod 8 moves downward, unclenching the bellows 11, the volume of the cavity of the bellows 11 increases, the pressure of the formation fluid inside the bellows 11 drops, as a result of the discharge valve 20 closes and the suction valve 19 is opened. The formation fluid is sucked up until the plunger 4 reaches the bottom eyes point. The process is then repeated.

The proposed design of the bellows-type deep pump allows to ensure high reliability of the device, to increase the life of the pump.

Claims (8)

1. A downhole bellows pump containing a cylindrical housing in which a piston actuator with a closed oil circulation circuit and a valve block is installed, which includes a suction and discharge valves, a medium separator made in the form of a bellows is placed between the piston cavity and the pump suction cavity the end face of which is fixed to the pump housing and the other is hermetically closed by a round plate, characterized in that the round plate is rigidly connected to the piston rod driven by the suction plunger the suction and discharge valves are located in parallel channels made in the valve block, the channels on the one hand connected to the cavity formed by the bellows and the round plate, and on the other hand the suction and discharge channels are connected to the suction and discharge pipes, respectively, while the suction pipe and the pump housing is provided with openings for fluid inlet, the outlet of the discharge pipe is connected to the outlet of the pump. 2. The bellows-type deep well pump according to claim 1, characterized in that the pump casing is prefabricated, consisting of at least two parts interconnected by a detachable connection, for example, using a threaded part (nipple). 3. The bellows-type deep pump according to claim 2, characterized in that the open end of the bellows is fixed in the stepped opening of the pump housing by means of a cup pressed by the end surface of the nipple. 4. The bellows depth pump according to claim 3, characterized in that in the bottom of the glass there is a central hole for moving the rod and radial holes for the passage of liquid (oil). 5. The bellows-type deep pump according to claim 2, characterized in that the valve block is located in the stepped opening of the pump housing and is fixed by pressing the end face of the nipple. 6. The bellows depth pump according to claim 1, characterized in that it is equipped with a filter element made in the form of a spring installed in the upper part of the pump housing in the support elements. 7. The bellows depth pump according to claim 1, characterized in that the shut-off elements of the suction and discharge valves are made in the form of balls. 8. The bellows-type deep well pump according to claim 1, characterized in that the shut-off elements and seat seats of the suction and discharge valves are made of a hard, wear-resistant and acid-resistant material, for example tungsten carbide.