RU213166U1 - CENTRIFUGAL MULTI-STAGE ELECTRIC PUMP - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering, namely to centrifugal multistage electric pumps that can be used as mainline pumps or as submersible pumps. The centrifugal multistage electric pump contains an electric motor 1 installed in the housings, a built-in capacitor box 2 and pump stages 3, placed in a single casing 4 and centered by the front and rear end covers 5, 6 and an intermediate support 7. The electric motor 1 is an oil-filled asynchronous motor with a squirrel-cage rotor 8 installed on rolling bearings 9. The front bearing shield 10 of the electric motor 1 is sealed with an elastic membrane 11. The submersible electric pump is equipped with a streamlined guide nozzle installed on the suction side in the form of a lattice domed bandage 45 of smoothly curved ribs 47 converging to the top of the bandage on one side and connected to the annular rim 48 of the bandage on the other side, as well as a streamlined dome-shaped mesh filter element 44 placed inside the bandage, fixed with its annular base along the perimeter of the end face of the front end cover 5 and tapering towards its opposite free end. The dome-shaped form means execution with external streamlined outlines that provide the least mechanical interaction with the walls of the casing and other resistance to movement by surrounding objects and the environment during movement. Bandage 45 completed from smoothly curved ribs 47 converging to its top and connected by an annular rim with the formation of a domed (cone-shaped) openwork permeable frame. The bandage 45 is installed on the cover 5 with the help of an intermediate adapter 43 of the bandage, fixed to the cover 5 with screws 42 along the perimeter of the rim 48, and the mesh filter element 44 is mounted on the adapter 43 on the threaded belt 49 and fixed to the top of the bandage with the screw 46. The adapter 43 of the bandage is made with an installation a ring 50 provided with an internal thread section for a belt 49, and with a hollow cone 51 protruding from the ring 47 for the maximum possible distribution of suction over the entire area of the filter element 44. The cover 5 has channels 41 for communicating the cavity 33 of the membrane 11 with the environment surrounding the electric pump. As a result of the implementation of the claimed utility model, the arsenal of equipment is expanded due to the creation of an alternative original submersible electric pump, which has high reliability and durability, since it does not allow disruption of water supply, unauthorized discharge.

Description

The utility model relates to the field of hydraulic engineering, namely to centrifugal multistage electric pumps that can be used as mainline pumps or as submersible pumps. The main version of the electric pump is designed to increase the pressure in the water supply line, and the submersible version of the electric pump is designed to supply water from wells, wells, reservoirs and open reservoirs in the water supply systems of the house, irrigation of the garden and vegetable garden. The growing demand for domestic water supply systems, in particular, from wells and wells, and the volume of production of the corresponding equipment require the expansion of the arsenal and the improvement of technical means, especially submersible centrifugal electric pumps designed for this purpose.

Known submersible centrifugal pump, which contains made in the form of a sleeve housing with a lid and axial inlet and outlet pipes, a pump that includes working stages and a shaft, and an electric motor that includes a rotor mounted on a hollow shaft, a stator mounted on the inner surface of the sleeve, bearing shields, in the bores of which a hollow shaft is installed on the bearings, which serves for the passage of the pumped medium and has an open end on one side, and radial holes on the other, while the bearing shields are equipped with seals, and an electric cable, the seal of the input of which includes a crimp sleeve. At the same time, the electric pump is equipped with a distance sleeve installed between the stator and the bearing shield located on the side of the pump operating stages, and with elastic O-rings. The bearing shields are pressed against the spacer sleeve and the sleeve by a screw-nut pair, while the screw is made on a hollow shaft, and the nut is capable of acting on the end face of one of the bearings. Bearings on the hollow shaft and in the bores of the shields are mounted with the possibility of axial movement until they stop against the restrictive element. In the bores of the bearing shields on the sides facing the stator, ledges are made to limit the movement of the bearings, and an elastic ring is installed between the bearing and the ledge of the bore of one of the bearing shields. The cover is made with a threaded hole and an outer conical surface and is fixed on the sleeve with an elastic O-ring (RU 2198321).

A submersible multistage pump is known, containing stages with guide vanes, in which the main axial bearings are made of wear-resistant material, covers and impellers, each of which has its own additional axial bearing, which is also a seal separating the suction and discharge cavities, and made in the form of a protruding at the end of the impeller, a shoulder resting on the surface of the cover; a shaft of non-circular cross section, on which a hub of the impeller is installed with a gap, the mounting hole of which corresponds to the non-circular section of the shaft, and separating washers made of antifriction material, and the hub of the impeller is made protruding above the end of the latter from the inlet side, the separating washers are mounted on the shaft with the possibility axial movement on both sides of the impeller hub, each of the washers has a hole corresponding to a non-circular shaft section, and a thickness less than the axial clearance formed by the end of the hub and the end of the main support, in front of the first impeller there is a guide vane with a main axial support, the end of which, facing the impeller, forms an axial gap with the separating washer, the size of which is less than the height of the collar of the additional support of the impeller (RU 2234620).

The disadvantages of the mentioned known electric pumps are the complexity of the design, insufficient durability and reliability of the pump due to increased internal leakage, the presence of a load on the motor housing and a separating membrane from the pressure developed by the pump stages and supplied by the pump.

A centrifugal multistage electric pump is known, containing an electric motor and pump stages installed in housings, including guide vanes, in which axial bearings made of wear-resistant material are mounted, stage covers and impellers, each of which has a seal that separates the suction and discharge cavities and is made in the form of a protruding impeller end face resting on a sealing element fixed on the stage cover, a non-circular shaft, on which impeller hubs, anti-friction washers interacting with axial supports, and a cable are installed in a fit that allows axial movement, and the electric pump is equipped with a common casing from the front and back covers, a built-in capacitor box, in which a capacitor and connectors for connecting the cable to the motor windings are located, and a shaft support for the pump part, made in the form of an anti-friction bushing, fixed in the front cover, while the electric motor is located n from the exit side of the pumping stages, its body is installed in the casing with the formation of an annular channel and an intermediate support, the front bearing shield of the electric motor is sealed with an elastic membrane, and the sealing element fixed on the stage cover is made in the form of a thin-walled annular insert. When the electric pump is made as a submersible, the inlet to the pump (from the suction side) is made in the form of mesh suction windows in the front cover, and when the electric pump is made as a main one, the entrance to the pump is made in the form of a fitting in the front cover (RU 77652).

A centrifugal multistage electric pump is known, containing a casing in which an electric motor and pump stages with impellers are installed in series in housings and connected by shafts, and the electric motor is located on the discharge side of the pumping stages and is installed in the casing to form an annular channel for the pumped medium, while the electric motor is equipped with an intermediate support and a front bearing shield sealed with an elastic membrane, and on the motor shaft there are sequentially installed on two seals a stepped front cover of the electric motor and a stepped intermediate housing, made with channels for connecting the outer surface of the membrane with the suction side of the pumping stages and with channels for connecting the annular channel of the casing with the pressure side of the pumping stages. The front cover of the electric motor and the intermediate housing are sequentially placed between the end shield of the electric motor and the coupling, and the front cover of the electric motor is made with through holes, supported on one side by the membrane with the formation of an annular cavity and made sealed relative to the motor shaft, the inner wall of the casing and the intermediate housing, which is made in the form of a sleeve with a conical central protrusion resting on the front cover of the electric motor, and sealed relative to the shaft of the latter and connected by a jumper to the conical central protrusion of the peripheral annular sleeve, sealed relative to the intermediate support and support of the package of pumping stages, and made with axial and radial non-intersecting holes, moreover axial holes are connected to the annular channel of the casing and to the discharge side of the stage package, and the radial holes are connected to the suction side of the latter and to the annular cavity formed between the membranes end shield and front motor cover. The pump stages are equipped with guide vanes and axial bearings, the impellers have seals that separate the suction and discharge cavities, and anti-friction washers interacting with the axial bearings, while the shaft of the pump stages is made of a non-circular cross section with the possibility of axial movement of the impellers mounted on it and is provided from the side , opposite to the electric motor, with a support in the form of an anti-friction bushing. The motor shaft bearing is cast into the bearing shield when the latter is cast. The electric pump is equipped with a built-in capacitor box, which contains a thermal switch, a capacitor and connectors for connecting the cable to the motor windings. The axial bearings of the pump stages are made of wear-resistant material. The casing is made with front and rear covers, and the anti-friction sleeve is fixed in the front cover. The electric pump is equipped with a fitting in the rear cover. The electric motor is made with a squirrel-cage rotor and an oil-filled housing. Pump stage seals are made in the form of thin-walled annular inserts. In the windows of the front cover 5 from the lower flat end of the electric pump can be installed, acting as a filter element and preventing the penetration of large particles into the electric pump, as well as channels for communicating the cavity 33 of the membrane 11 with the environment surrounding the electric pump. The pumped medium enters the mesh openings of the cover 5 (EN 123076, prototype).

The disadvantages of the known submersible electric pump are insufficient durability and reliability due to the small size of the filtering area, which can be implemented in the windows of the front end cover, i.e. at the suction inlet to the pump, the lack of the possibility of prompt multiple flushing from accumulated blockages without disassembling the electric pump, and the flat shape of the lower end of the electric pump makes it difficult to pass the joints of the well casing pipes or other obstructing parts when the electric pump is installed in the working position due to possible rubbing against the joints, which prevents expanding the scope of the product.

The technical problem to be solved by the present technical solution is to expand the arsenal and improve the efficiency of such technical means that provide water supply from wells, namely, submersible electric pumps.

The technical result achieved through the use of the claimed technical solution is to create an alternative design of a submersible electric pump that implements water supply from a well, and also has high reliability and durability due to a large filtration area at the pump inlet, over the entire conical surface of the bandage, carrying an additionally installed cone-shaped mesh of the filter element, providing the possibility of removing and self-washing the bandage with the filter element, and the dome-shaped (in some cases conical) guide shape of the guide band with the filter element from the lower end of the electric pump facilitates the passage of well casing joints when the electric pump is submerged without distortions and deformations from touching the joints these pipes.

The essence of the utility model is that the centrifugal multistage electric pump contains an outer casing, in which an electric motor and pump stages with impellers are installed in series in the housings and connected by shafts, the front and rear end covers of the casing on the suction and discharge sides of the electric pump, respectively, of which the front end cover is made with suction windows of the pumping stages, and the electric motor is located on the discharge side of the pumping stages and installed in the casing to form an annular channel for the pumped medium, while the electric motor has an intermediate support and a front bearing shield sealed with an elastic membrane, and at the ends of the motor shaft a stepped front cover of the electric motor and a stepped intermediate housing are installed in series, made with channels for connecting the outer surface of the specified membrane with the suction side of the pumping stages and with channels for connecting to the annular channel of the casing with the discharge side of the pumping stages, while the electric pump is equipped with a guide nozzle installed on the suction side in the form of a lattice bandage of smoothly curved ribs converging to the top of the bandage on one side and connected to the annular rim of the bandage on the other side, as well as placed inside bandage with a mesh filter element of a streamlined domed shape, fixed by its annular base along the perimeter of the end of the front end cover and tapering towards its opposite free end.

Preferably, the bandage is made from smoothly curved ribs converging to its top and connected by an annular rim, with the formation of a domed frame.

Preferably, the bandage is installed on the front end cover with the help of an intermediate adapter fixed to this cover with screws along the perimeter of the bandage rim, and the mesh filter element is mounted on the adapter on a threaded belt and fixed to the top of the bandage with a central screw.

Preferably, the intermediate adapter is made with a mounting ring provided with an internal thread section and with a hollow cone protruding from the ring.

Preferably, the front cover of the electric motor and the intermediate housing are sequentially placed between the end shield of the electric motor and the coupling, and the front cover of the electric motor is made with through holes, is supported on the membrane on one side to form an annular cavity and is made sealed against the motor shaft, the inner wall of the casing and the intermediate casing, which is made in the form of a sleeve with a conical central protrusion resting on the front cover of the electric motor, and sealed relative to the shaft of the latter and connected by a jumper to the conical central protrusion of the peripheral annular sleeve, sealed relative to the intermediate support and support of the package of pumping stages, and made with axial and radial non-intersecting holes , moreover, the axial holes are connected with the annular channel of the casing and with the discharge side of the stage package, and the radial holes are connected with the suction side of the latter and with the annular cavity, formed between the endshield diaphragm and the motor front cover.

Preferably, the pump stages are equipped with guide vanes and axial bearings, the impellers have seals that separate the suction and discharge cavities, and anti-friction washers interacting with the axial bearings, while the shaft of the pump stages is made of a non-circular cross section with the possibility of axial movement of the impellers mounted on it.

In FIG. 1 shows a submersible centrifugal multistage electric pump with a float m, a longitudinal section,

in fig. 2 - node A according to Fig. one,

in fig. 3 - an enlarged fragment in the area of the seals of the motor shaft,

in fig. 4 - stepped intermediate body in three-dimensional projection,

in fig. 5 - stepped intermediate housing front view,

in fig. 6 is a section A-A according to FIG. 5,

in fig. 7 is a section B-B of FIG. 5,

in fig. 8 - front end cover in three-dimensional projection,

in fig. 9 - bandage adapter in three-dimensional projection,

in fig. 10 - mesh filter element in three-dimensional projection,

in fig. 11 - bandage in three-dimensional projection,

in fig. 12 is a diagram of the flow of liquid through the filter element.

The centrifugal multistage electric pump "Vodomet" contains an electric motor 1 installed in the housings, a built-in condenser box 2 and pump stages 3 (package of pump stages) placed in a single casing 4 and centered by the front and rear end covers 5, 6 and an intermediate support 7. The electric motor 1 - oil-filled asynchronous with a squirrel-cage rotor 8 mounted on rolling bearings 9. The front bearing shield 10 of the electric motor 1 is sealed with an elastic membrane 11. The bearing 9 is poured into the shield 10 at the time of its casting on an injection molding machine. Thus, the outer ring of the bearing 9 is covered with plastic, which ensures its reliable fixation in the bearing shield 10.

The built-in capacitor box 2 is a sealed cavity that serves to accommodate the capacitor 13 and connectors 14 for connecting cables 15 with the windings of the electric motor 1 and the thermal contactor 29. Also in the capacitor box is a thermal switch 30 mounted on the thermal contactor 29. The shaft 16 of the pumping stages 3 is made , preferably of non-circular cross-section, for example, hexagonal, is connected to the shaft 17 of the electric motor 1 by means of a coupling 18. The pump stages 3 include impellers 19 and anti-friction washers 20. The impellers 19 of the pump stages are mounted on a hexagonal shaft 16 in a fit that allows axial movement of the impellers 19 during installation, for which the hubs of the impellers 19 have mounting holes corresponding to the non-circular section of the shaft 16.

Anti-friction washers 20 interact with axial bearings made of wear-resistant material, made in the form of ceramic inserts 21, which are mounted in guide vanes 22. Pump stages 3 also include guide vanes 22, between which covers 23 are installed with sealing annular elements on them that are in contact with workers. wheels 19. Inserts 21 rest on collars protruding at the ends of the impellers 19 and form seals that separate the cavities (not indicated) of suction and discharge. Guide vanes 22 are sealed with radial seals and form a sealed package with pump stages 3. The package of pump stages 3, in turn, rests on a support 28 coupled with an intermediate stepped housing 26 in which the seal 27 of the pump part is installed. The housing 26 and the front cover 25 of the electric motor 1 together form a system of channels 32, 37, 38. The channels 32 are made to the front cover 25 along its axis. The channels 37, 38 do not intersect with each other and are made in the body 26, with the longitudinal channels 37 along its axis, and the channels 38 - radially. In the back cover 6 of the pump there are lugs (not shown) for fixing the cable, as well as sealed inputs (pressure leads) of the cable 15 of the float switch 31 and the mains cable 15. When the pump is designed without a float switch 31, the back cover 6 is sealed only for the mains cable 15 In the front cover 5 of the electric pump, an anti-friction sleeve 24 is installed, which serves as a support for the shaft 16 of the package of pumping stages 3. In the front cover 5, mesh suction windows (not shown) are made that prevent the penetration of large particles into the electric pump, as well as channels (not shown) for communicating the cavity 33 membranes 11 with the medium surrounding the electric pump.

The front cover 25 of the electric motor 1 and the intermediate housing 26 are sequentially placed between the bearing shield 10 of the electric motor 1 and the clutch 18, and the front cover 25 of the electric motor 1 is made with through holes 32, supported on one side by the membrane 11 with the formation of an annular cavity 33, and is made sealed with respect to shaft 17 of the electric motor 1, as well as the inner wall of the casing 4 and the intermediate housing 26. The housing 26 is made in the form of a sleeve with a conical central protrusion 34 supported on the front cover 25 and sealed relative to the shaft 17. The protrusion 34 is connected by a jumper 35 to the peripheral annular sleeve 36 of the housing 26 sealed with respect to the intermediate support 7 and the support 28 of the package of pump stages 3. The housing 26 is made with non-intersecting holes 37,38. The holes 37 are made longitudinal (directed parallel to the axis of the housing 26), and the holes 38 (shown in dotted lines in Fig. 3) are made radial relative to the axis of the housing 26. The holes 37 are connected with the annular channel of the casing 4 and with the discharge side of the package of stages 3, and the radial holes 38 are connected with the suction side of the latter and with an annular cavity 33 formed between the membrane 11 of the bearing shield 10 and the front cover 25 of the electric motor 1. An essential feature of the Vodomet-Pro pump is the presence of a front cover 25 and an intermediate housing 26 with seals 12, 27 conical protrusion 34, and having different purposes. The seal 27 of the pump part isolates the electric motor 1 from the effects of excess pressure created by the pump stages 3, while the seal 12 of the electric motor 1 seals the electric motor 1 directly and separates, on the one hand, its internal volume filled with oil, and on the other, only the medium into which submerged electric pump.

The submersible electric pump is equipped with a streamlined guide nozzle installed on the suction side in the form of a lattice dome-shaped bandage 45 of smoothly curved ribs 47 converging to the top of the bandage on one side and connected to the annular rim 48 of the bandage on the other side, as well as a mesh filter element 44 placed inside the bandage dome-shaped (equidistant to the ribs 47 of the bandage 45), fixed by its annular base along the perimeter of the end face of the front end cover 5 and tapering towards its opposite free end.

The dome-shaped form means execution with external streamlined outlines that provide the least mechanical interaction with the walls of the casing and other resistance to movement by surrounding objects and the environment during movement.

Bandage 45 completed from smoothly curved ribs 47 converging to its top and connected by an annular rim, with the formation of a domed (in particular cases, cone-shaped) openwork permeable frame.

The bandage 45 is installed on the front extreme cover 5 with the help of an additionally installed intermediate adapter 43 of the bandage, fixed to this cover by 5 screws 42 along the perimeter of the rim 48 of the bandage, and the mesh filter element 44 is mounted on the adapter 43 on the threaded belt 49 and fixed to the top of the bandage with the central screw 46 In this case, the parts 43, 44 are based coaxially when installed along the thread.

The intermediate adapter 43 of the shroud is made with an adjusting ring 50 provided with an internal thread section for the belt 49, and with a hollow cone 51 protruding from the ring 47 (i.e. with a through channel) for coaxial fixation of the filter element 44 inside the shroud 45 in order to maximize the possible distribution of suction over the entire area of the filter element 44.

The cover 5 has channels 41 for communicating the cavity 33 of the membrane 11 with the medium surrounding the electric pump. The mesh filter 44 is threaded into the adapter 43, which in turn is attached to the front cover 5 by screws 42. Before installation, a guide band 45 is attached to the mesh filter 44 by means of a screw 46. In FIG. 12, the dotted lines show the streamlines that could be in the absence of the adapter 43 cone 51, the solid lines entering the filter element from the outside, the streamlines formed in the presence of the cone 51.

The electric pump works as follows.

The submersible electric pump is lowered into the well casing with a guide nozzle (bandage 45) down until it is completely immersed. The streamlined shape of the bandage 45 eliminates the emergency situations associated with touching the joints of the segments of the composite casing by the electric pump.

When power is supplied through the cable 15 and the electric motor 1 is turned on, the pumped medium enters through the mesh filter element 44 and the internal cavity (through channel) of the cone 51 into the windows 40 of the cover 5 for suction of the pump stages 3. Further, due to the rotation of the impellers 19 of the pump stages 3, the pumped medium receives the increment of kinetic energy, which in the guide vanes 22 is converted into pressure energy. Under pressure through the internal cavity of the support 28, the system of channels 37 of the intermediate housing 26 and its gap with the front cover 25 of the electric motor 1, the pumped medium enters the annular channel between the casing 4 and the housings of the electric motor 1 and further - the body of the capacitor box 2, cooling the electric motor 1, and through a hose attached from the outside, it is directed to the consumer. The radial and axial forces arising during the operation of the pump, in addition to the bearings 9 of the electric motor 1, are perceived by the anti-friction sleeve 24. The formation of contact seals between the shoulders of the impellers 19 of the pump stages 3 and the sealing annular elements of the covers 23 prevents leakage of the pumped medium. The elastic membrane 11 makes it possible to balance the pressure inside and outside the electric motor 1 and unload the seal 12 of the electric motor 1 from the discharge pressure. The system of channels 32, 37, 38 allows isolating the end shield 10 with the bearing 9, the seal 12 of the electric motor 1 and the membrane 11 from the pressure developed by the pump, communicating their cavity 33 with the medium in which the electric pump is immersed.

In this case, the movement of the pumped medium from the injection of the pump stages 3 into the annular channel of the casing 4 occurs through the holes 37, and the cavity 33 of the membrane 11 communicates with the environment (suction stages 3) through the holes 38, 32. The thermal contactor 29 prevents the operation of the electric motor 1 in excess the oil temperature in it is more than 75°C. This makes it possible to exclude the effect of high pressure on the elements of the electric motor 1, located in the same casing 4 with the pump part (stages 3), in particular on the seal 12 and the membrane 11, which improves the reliability and durability of the electric pump. In addition, since the guide vane 22 has its own radial seal, this eliminates leakage of the pumped medium and makes it possible to ensure the absolute tightness of the package of pump stages 3. The location of the thermal switch 29, taken out of the oil-filled volume of the electric motor 1 into the capacitor box 2, increases the reliability of its operation, facilitates diagnostics and repair electric pump during operation.

The pumped medium enters the openings of the mesh filter element 44, then through the windows 40 of the front cover 5 to the input of the impellers 19 of the pumping stages. The presence of the cone 51 provides a more uniform distribution of suction over the entire area of the mesh filter element 44 so that only the mesh filter area not adjacent to the cover 5 works for suction, and suction occurs in the middle - along the lines of fluid flow shown graphically in Fig. 12 solid thin lines from the surrounding space. Thus, the distribution of liquid over the entire surface of the mesh filter element 44 and the most uniform involvement of the filtering area of the filter element 44 is ensured. The cover 5 contains channels 41 for communicating the cavity 33 of the membrane 11 with the environment surrounding the electric pump. The mesh filter 44 is threaded into the adapter 43, which in turn is attached to the front cover with 5 screws 42. Before installation, a guide band 45 is attached to the mesh filter 44 using a screw 46.

All this is aimed at improving the reliability and durability of the device as a whole due to an increase in the filtration area at the inlet to the electric pump over the entire dome-shaped conical area of an additionally installed bandage carrying a conical mesh of the filter element, providing the possibility of removing and self-washing the bandage with the filter element, moreover, the dome-shaped conical shape of the guide a bandage with a filter element from the lower end of the electric pump facilitates the passage of protruding parts and / or joints of the casing pipes of the well during installation and submersion of the electric pump without touching the joints.

Thus, as a result of the implementation of the claimed utility model, the arsenal of equipment is expanded due to the creation of an alternative original submersible electric pump with high reliability and durability, since it does not allow water supply disruption, unauthorized draining, the possibility of implementing its function and inexpensive medium and small-scale production https://www1 .fips.ru/registers-doc-view/DeEndhttps://www1.fips.ru/registers-doc-view/ClStart.

Claims (6)

1. A centrifugal multistage electric pump containing an outer casing, in which an electric motor and pump stages with impellers are installed in series in housings and connected by shafts, the front and rear end covers of the casing on the suction and discharge sides of the electric pump, respectively, of which the front end cover is made with suction windows of the pumping stages, and the electric motor is located on the discharge side of the pumping stages and installed in the casing to form an annular channel for the pumped medium, while the electric motor has an intermediate support and a front bearing shield sealed with an elastic membrane, and a stepped front cover is installed in series at the ends of the electric motor shaft of the electric motor and a stepped intermediate housing, made with channels for connecting the outer surface of the specified membrane with the suction side of the pumping stages and with channels for connecting the annular channel of the casing with the side on pumping stages, characterized in that it is equipped with a guide nozzle installed on the suction side in the form of a lattice bandage of smoothly curved ribs converging to the top of the bandage on one side and connected to the annular rim of the bandage on the other side, as well as a streamlined mesh filter element located inside the bandage dome-shaped, fixed by its annular base along the perimeter of the end of the front end cover and tapering towards its opposite free end. 2. The electric pump according to claim 1, characterized in that the bandage is made from smoothly curved ribs converging to its top and connected by an annular rim with the formation of a domed frame. 3. The electric pump according to claim 2, characterized in that the bandage is installed on the front end cover using an intermediate adapter fixed to this cover with screws around the perimeter of the bandage rim, and the mesh filter element is installed on the adapter on a threaded belt and fixed to the top of the bandage with a central screw. 4. The electric pump according to claim 3, characterized in that the intermediate adapter is made with an adjusting ring provided with an internal thread section and with a hollow cone protruding from the ring. 5. The electric pump according to any one of paragraphs. 2-4, characterized in that the front cover of the electric motor and the intermediate housing are sequentially placed between the end shield of the electric motor and the coupling, and the front cover of the electric motor is made with through holes, supported on one side by the membrane with the formation of an annular cavity and is made sealed relative to the motor shaft, internal the walls of the casing and the intermediate housing, which is made in the form of a sleeve with a conical central protrusion supported on the front cover of the electric motor, and sealed relative to the shaft of the latter and connected by a jumper to the conical central protrusion of the peripheral annular sleeve, sealed relative to the intermediate support and the support of the package of pumping stages, and made with axial and radial non-intersecting holes, wherein the axial holes are connected to the annular channel of the casing and to the discharge side of the stage package, and the radial holes are connected to the suction side of the latter and to the annular cavity, formed between the end shield membrane and the motor front cover. 6. The electric pump according to claim 5, characterized in that the pump stages are equipped with guide vanes and axial bearings, the impellers have seals separating the suction and discharge cavities, and anti-friction washers interacting with the axial bearings, while the shaft of the pump stages is made of a non-circular cross section with the possibility of axial movement of the impellers installed on it.

Images