CN211579813U - Deep-well pump with frequency conversion device - Google Patents

Abstract

The utility model discloses a deep well pump with a frequency conversion device, which comprises a pump assembly, wherein the pump assembly is connected with a variable frequency motor, and the variable frequency motor comprises a motor shell, a variable frequency motor assembly and a frequency conversion device; the motor shell is sealed end to form a motor cavity in the motor shell, and the variable frequency motor assembly is arranged in the motor cavity and used for driving the pump assembly to work; the frequency conversion device is arranged in the motor cavity and connected with the variable frequency motor assembly, the frequency conversion device comprises an installation shell and a variable frequency circuit board, the installation shell is sealed end to form an installation cavity in the installation shell, the variable frequency circuit board is arranged in the installation cavity, and the variable frequency circuit board is provided with a frequency conversion module used for conveying power frequency electric frequency to the variable frequency motor assembly. This application adopts the built-in mode of frequency conversion device, and frequency conversion device is difficult to wet, long service life, and wherein, being connected between inverter motor subassembly and the frequency conversion device all is in the motor cavity, and the power consumption security is high.

Description

Deep-well pump with frequency conversion device

Technical Field

The utility model relates to a water pump technical field, in particular to deep-well pump with frequency conversion equipment.

Background

With the increasing of population year by year, the shortage of domestic water supply is increasingly apparent, the water supply in many areas is unstable in one year, especially in northwest areas, drought is more serious than one year, the use of underground water is more and more extensive, the water supply is often found in deep underground in arid areas, and deep well pumps with strong power are particularly needed for people to use. Therefore, the deep well pump is a pump which is immersed in an underground well to pump and convey water, and is also widely applied to farmland drainage and irrigation, industrial and mining enterprises, urban water supply and drainage, sewage treatment and the like.

The deep well pump consists of a pump body and a motor, an impeller in the pump body is driven to rotate by the motor, and because the motor adopts a common motor and is limited by the rotating speed, the impeller benefit is difficult to improve, and therefore a frequency conversion device is required to be arranged to improve the rotating speed of the motor.

But current deep-well pump adopts external converter to realize the frequency conversion, and installs the converter outside the pump body, and the wire pencil that will lead to connecting is too much, draws water the in-process and natural environment's rain and fog at the deep-well pump makes the converter wet easily, has the potential safety hazard of power consumption.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a deep-well pump with frequency conversion device can embed the deep-well pump with frequency conversion device in.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a deep well pump with a frequency conversion device comprises a pump assembly, wherein a frequency conversion motor is connected to the pump assembly, and the frequency conversion motor comprises a motor shell, a frequency conversion motor assembly and a frequency conversion device;

the motor shell is sealed end to form a motor cavity in the motor shell, and the variable frequency motor assembly is arranged in the motor cavity and used for driving the pump assembly to work;

the frequency conversion device is arranged in the motor cavity and connected with the variable frequency motor assembly, the frequency conversion device comprises an installation shell and a variable frequency circuit board, the installation shell is sealed end to form an installation cavity in the installation shell, the variable frequency circuit board is arranged in the installation cavity, and the variable frequency circuit board is provided with a frequency conversion module used for conveying power frequency electricity after frequency conversion to the variable frequency motor assembly.

Through above-mentioned technical scheme, the frequency conversion device is whole to be built-in to the motor chamber, carries for the inverter motor subassembly through frequency conversion circuit board after with power frequency electricity frequency conversion to make the inverter motor subassembly order about pump assembly work with the rotational speed of adaptation, thereby improve the working efficiency of pump assembly. This application adopts the built-in mode of frequency conversion device, and frequency conversion device is difficult to wet, long service life, and wherein, being connected between inverter motor subassembly and the frequency conversion device all is in the motor intracavity, and the power consumption security is high to encapsulate inverter circuit board through the installation casing, thereby avoid producing electromagnetic interference between inverter motor subassembly and the inverter circuit board.

Preferably, the tail end of the installation shell is closed, and the head end of the installation shell is provided with an installation opening which is sealed by an installation end cover.

Through above-mentioned technical scheme, the installation end cover will install the casing and seal to can ensure to be in encapsulated situation in the installation casing, not have air or hydroenergy and can enter, thereby when deep-well pump is put into very dark underground and just is carried the water source, avoid inside and outside atmospheric pressure difference to influence the use of the inside frequency conversion circuit board of installation casing.

Preferably, the mounting end cover comprises a mounting disc body embedded on the mounting port, the mounting disc body and the mounting port are sealed, a connecting socket is fixed in the middle of the mounting disc body, and a power frequency electricity input plugging end and a variable frequency electricity output plugging end are arranged on the connecting socket.

Through the technical scheme, the connecting socket is provided with the power frequency electric input plugging end and the variable frequency electric output plugging end, and the variable frequency circuit board in the mounting shell is connected with the power frequency electric input plugging end and the variable frequency electric output plugging end of the connecting socket through the wires, so that the integral assembly of the variable frequency device in the motor cavity is facilitated.

Preferably, the variable frequency motor assembly is provided with a connecting plug for being involutory with the connecting socket, and the connecting plug is provided with a power frequency electric output interface and a variable frequency electric input interface which respectively correspond to the power frequency electric input plugging end and the variable frequency electric output plugging end.

Through above-mentioned technical scheme, connecting plug on the inverter motor subassembly closes relatively with the last connection socket of frequency conversion device and pegs graft to further made things convenient for frequency conversion device to install and dismantle in the motor chamber.

Preferably, the variable frequency motor assembly comprises an upper mounting seat, a lower mounting seat and a motor shaft, wherein the two ends of the motor shaft are mounted on the upper mounting seat and the lower mounting seat through bearings, a motor rotor is arranged on the motor shaft, the upper mounting seat and the lower mounting seat are attached to the inner wall of the motor shell and limited in the motor shell, a motor stator surrounding the motor rotor is arranged between the upper mounting seat and the lower mounting seat, and a connecting plug is fixed on the lower mounting seat.

Through above-mentioned technical scheme, go up the mount pad and be injectd in the motor casing with lower mount pad, connecting plug is fixed under on the mount pad to the stability of inverter motor subassembly installation in the motor casing has been ensured.

Preferably, the variable frequency circuit board is fixedly arranged in the mounting cavity through a mounting bracket.

Through above-mentioned technical scheme, the installing support is used for fixed frequency conversion circuit board, ensures the installation stability of frequency conversion circuit board in the installation cavity.

Preferably, the installing support is including installation baffle and heat dissipation aluminium frame, heat dissipation aluminium frame is the semi-surrounding form, the laminating of heat dissipation aluminium frame is on the inner wall of installation casing, installation baffle integrated into one piece is in the middle part position of heat dissipation aluminium frame, heat dissipation aluminium frame is separated into installation department and installation department down by the installation baffle, frequency conversion circuit board sets up respectively at last installation department under and in the installation department.

Through above-mentioned technical scheme, variable frequency circuit board installs on the installation baffle, and the heat dissipation aluminium frame is laminated with the inner wall of installation casing to the heat that variable frequency circuit board produced can transmit the heat dissipation aluminium frame through the installation baffle on, and then transmits to the installation casing, conveniently dispels the heat to variable frequency circuit board through above-mentioned installing support.

Preferably, the head end of motor casing is sealed through last end cover, the tail end of motor casing is sealed through end cover down, through last end cover and end cover down with at the inside formation of motor casing the motor chamber, it has the cooling oil to fill in the motor chamber.

Through above-mentioned technical scheme, the coolant oil is locked in the motor chamber to the convenience dispels the heat to installation casing and inverter motor subassembly in the motor chamber.

Preferably, the installation shell is filled with heat-conducting pouring sealant in the installation cavity.

Through above-mentioned technical scheme, heat conduction casting glue further improves the heat-sinking capability performance to the internal variable frequency circuit board of installation casing to improve the leak protection waterproof performance of installation casing.

Preferably, the motor cavity is fixed with the adjusting bracket in frequency conversion device's below, threaded connection has adjusting bolt on the adjusting bracket, adjusting bolt's tip is contradicted at the tail end of installation casing.

Through above-mentioned technical scheme, adjusting bolt's tip is contradicted at the tail end of installation casing, through rotatory adjusting bolt, reaches the purpose to position control about the installation casing to be connected and the assembly of easy to assemble casing and inverter motor subassembly.

To sum up, the utility model discloses the beneficial effect who contrasts in prior art does:

this application adopts the built-in mode of frequency conversion device, and frequency conversion device is difficult to wet, long service life, and wherein, being connected between inverter motor subassembly and the frequency conversion device all is in the motor intracavity, and the power consumption security is high to encapsulate inverter circuit board through the installation casing, thereby avoid producing electromagnetic interference between inverter motor subassembly and the inverter circuit board.

Drawings

Fig. 1 is a schematic structural diagram of a deep well pump in the technical scheme of the utility model;

fig. 2 is a schematic sectional view of a deep well pump in the technical scheme of the utility model;

fig. 3 is a schematic structural diagram of a pump assembly according to the present invention;

fig. 4 is an installation schematic diagram of a variable frequency motor assembly in the technical scheme of the utility model;

fig. 5 is a schematic structural diagram of a connection plug in the technical solution of the present invention;

fig. 6 is a schematic structural diagram of a connection socket according to the technical solution of the present invention;

fig. 7 is an explosion diagram of the frequency conversion device in the technical solution of the present invention;

fig. 8 is a sectional view of the mounting bracket according to the embodiment of the present invention;

fig. 9 is a schematic circuit diagram of the frequency conversion module according to the technical solution of the present invention.

Reference numerals: 1. a pump assembly; 11. water outlet is saved; 12. a water inlet joint; 13. a filter screen; 14. a drive shaft; 15. an impeller; 2. a variable frequency motor; 21. a motor housing; 22. a variable frequency motor assembly; 221. an upper mounting seat; 222. a lower mounting seat; 223. a motor shaft; 224. a motor rotor; 225. a motor stator; 23. a frequency conversion device; 231. installing a shell; 232. a variable frequency circuit board; 233. a frequency conversion module; 24. an upper sealing end cover; 25. a lower seal end cap; 26. an annular groove; 27. an annular shoulder; 28. a ring chuck; 29. a limit bolt; 30. locking the bolt; 31. installing an end cover; 311. installing a tray body; 312. a connection socket; 32. a connecting plug; 33. mounting a bracket; 331. installing a partition plate; 332. a heat dissipating aluminum frame; 333. an upper mounting portion; 334. a lower mounting portion; 34. adjusting the bracket; 35. and adjusting the bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. It should be noted that: the relative arrangement of parts and steps set forth in these embodiments does not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In the prior art, the deep-well pump adopts an external frequency converter to realize frequency conversion, and the frequency converter is installed outside the deep-well pump, so that the number of connected wire harnesses is excessive, and potential safety hazards of electricity utilization exist. Therefore, this application has provided a deep-well pump with frequency conversion device, through adopting in 23 built-ins deep-well pumps of frequency conversion device, frequency conversion device 23 is difficult to wet, long service life, and the power consumption potential safety hazard is low.

Referring to fig. 1 and 3, the deep well pump includes a pump assembly 1 and a variable frequency motor 2, wherein the variable frequency motor 2 is connected to the pump assembly 1. The vertical reference direction of putting of deep-well pump is explained with the deep-well pump in this embodiment, and pump package spare 1 includes the pump body, and the head end of the pump body is provided with out water festival 11, and the tail end of the pump body is provided with into water festival 12, is provided with filter screen 13 on the festival 12 of intaking. Wherein, a transmission shaft 14 is arranged in the pump body, a plurality of impellers 15 are arranged on the transmission shaft 14, and when the impellers 15 rotate, water can be sucked from the water inlet joint 12, and then conveyed from bottom to top along the pump body and pumped out from the water outlet joint 11 of the pump body.

Referring to fig. 2 and 4, the inverter motor 2 includes a motor housing 21, an inverter motor assembly 22, and an inverter device 23.

The pump body and motor casing 21 all are long tube-shape, and coaxial axle center setting between the pump body and the motor casing 21, the pump body and motor casing 21 all adopt stainless steel for the pump body and motor casing 21 have sufficient support strength.

Motor casing 21 end to end seals in order to form the motor chamber in its inside, and is concrete, and the head end of motor casing 21 is sealed through upper seal end cover 24, and the tail end of motor casing 21 is sealed through lower seal end cover 25, and the sealed mode between upper seal end cover 24 and lower seal end cover 25 and motor casing 21 adopts the sealing washer to seal, through upper seal end cover 24 and lower seal end cover 25 with at the inside formation of motor casing 21 the motor chamber, inverter motor subassembly 22 sets up and is used for ordering about pump subassembly 1 work in the motor chamber, and it has coolant oil to fill in the motor chamber, and the coolant oil is used for dispelling the heat at inverter motor subassembly 22 during operation, and the coolant oil is ordinary coolant oil, can purchase from the market and obtain, like the coolant oil in the transformer.

The motor cavity serves as an installation station of the variable frequency motor assembly 22 at a specific position, the variable frequency motor assembly 22 is located in the installation station and is fixed, and the fixing mode and the working mode of the variable frequency motor assembly 22 at the installation station are explained below.

The variable frequency motor assembly 22 comprises an upper mounting seat 221, a lower mounting seat 222 and a motor shaft 223, wherein two ends of the motor shaft 223 are mounted on the upper mounting seat 221 and the lower mounting seat 222 through bearings, a motor rotor 224 is arranged on the motor shaft 223, the upper mounting seat 221 and the lower mounting seat 222 are attached to the inner wall of the motor casing 21 and are limited on a mounting station of the motor casing 21, and a motor stator 225 surrounding the motor rotor 224 is arranged between the upper mounting seat 221 and the lower mounting seat 222. The end of the motor shaft 223 penetrates through the upper sealing end cover 24 and is connected to the transmission shaft 14 of the pump assembly 1 through a coupler, and dynamic sealing is adopted between the motor shaft 223 and the upper sealing end cover 24.

The motor shell 21 is provided with a convex annular groove 26 and a concave annular shoulder 27 at the mounting station, the annular groove 26 is located above the annular shoulder 27, when the variable frequency motor assembly 22 is integrally assembled in the motor cavity, the variable frequency motor assembly 22 is located between the annular groove 26 and the annular shoulder 27, and the lower mounting seat 222 abuts against the annular shoulder 27 to limit the downward movement of the lower mounting seat 222.

The motor casing 21 is further provided with an annular chuck 28 in the motor cavity, the annular chuck 28 is located above the upper mounting seat 221, the annular chuck 28 is circumferentially and threadedly connected with a plurality of limiting bolts 29, and the end portions of the limiting bolts 29 abut against the upper mounting seat 221. Wherein, install the jump ring in the ring channel 26, the jump ring is used for chucking ring chuck 28, from this, reaches the fixed purpose in the motor chamber of inverter motor subassembly 22.

Wherein, motor casing 21 is fixed mutually with the water inlet joint 12 of pump package spare 1 through upper seal end cover 24, the lower terminal surface of water inlet joint 12 is contradicted on upper seal end cover 24, circumference is provided with a plurality of locking bolt 30 on the water inlet joint 12, locking bolt 30 passes water inlet joint 12 lower terminal surface and upper seal end cover 24 respectively and threaded connection in annular chuck 28, through locking bolt 30's effect, can fix water inlet joint 12 and upper seal end cover 24, in order to realize being connected of pump package spare 1 and inverter motor 2. It should be noted that the bolt holes of the upper end cap 24 for installing the locking bolts 30 are provided with sealing rubber pads to prevent the cooling oil in the motor cavity from leaking out.

Referring to fig. 5 and 7, the frequency conversion device 23 is disposed in the motor cavity, and the frequency conversion device 23 is located below the frequency conversion motor assembly 22 and connected to the frequency conversion motor assembly 22.

In this application, frequency conversion device 23 is the same with motor casing 21's shape including installation casing 231 and frequency conversion circuit board 232, installation casing 231, and installation casing 231 is long tube-shape, and installation casing 231 seals end to end in order to form the installation cavity in its inside, and frequency conversion circuit board 232 sets up in the installation cavity, is provided with on the frequency conversion circuit board 232 to be used for carrying after the power frequency electric frequency conversion give frequency conversion motor assembly 22's frequency conversion module 233.

The tail end of the installation shell 231 is closed, the head end of the installation shell 231 is provided with an installation opening, the installation opening is sealed through the installation end cover 31, and the power frequency electricity required by the variable frequency circuit board 232 and the power frequency electricity transmitted to the variable frequency motor assembly 22 are communicated through the installation end cover 31.

Specifically, the mounting end cap 31 includes a mounting disk 311 embedded in the mounting opening, the mounting disk 311 and the mounting opening are sealed with each other, and the sealing manner between the mounting disk 311 and the mounting opening is sealing by a sealing ring. A connecting socket 312 is fixed in the middle of the mounting tray 311, and the connecting socket 312 is provided with a power frequency electric input plugging terminal and a variable frequency electric output plugging terminal. In the installation cavity on the frequency conversion circuit board 232, the frequency conversion module 233 is connected to the power frequency electric input plug terminal and the frequency conversion electric output plug terminal through wires.

As shown in fig. 5 and fig. 6, a connection plug 32 for mating with the connection socket 312 is disposed on the variable frequency motor assembly 22, the connection plug 32 is fixed on the lower mounting seat 222 of the variable frequency motor assembly 22, a power frequency electrical output interface and a variable frequency electrical input interface are disposed on the connection plug 32, when the connection plug 32 is mated with the connection socket 312 for plugging, the power frequency electrical output interface of the connection plug 32 contacts with the power frequency electrical input plugging end of the connection socket 312, and the variable frequency electrical input interface of the connection plug 32 contacts with the variable frequency electrical output plugging end of the connection socket 312.

The variable frequency electric input interface of the connecting plug 32 is connected to the motor stator 225 through a wire, the power frequency electric output interface of the connecting plug 32 is connected with a wire, the wire connected with the power frequency electric output interface is led out of the deep-well pump after penetrating through the motor stator 225, the upper mounting seat 221, the annular chuck 28 and the upper sealing end cover 24 respectively, and power frequency electricity is led in from the outside. It is worth mentioning that the upper sealing end cap 24 seals with the lead wire, and the sealing performance of the upper sealing end cap 24 is ensured.

Although the above-mentioned technical feature of "frequency conversion electricity" is introduced, it should be known to those skilled in the art that the frequency conversion electricity is defined by the current outputted after the frequency conversion module 233 converts the frequency of the power frequency electricity.

As shown in fig. 7 and 8, the frequency conversion circuit board 232 is fixedly disposed in the mounting cavity by the mounting bracket 33. The mounting bracket 33 comprises a mounting partition plate 331 and a heat dissipation aluminum frame 332, the heat dissipation aluminum frame 332 is in a semi-enclosed shape, the heat dissipation aluminum frame 332 is attached to the inner wall of the mounting shell 231, the mounting partition plate 331 is made of the same material as the heat dissipation aluminum frame 332, the mounting partition plate 331 is integrally formed in the middle of the heat dissipation aluminum frame 332, the heat dissipation aluminum frame 332 is divided into an upper mounting portion 333 and a lower mounting portion 334 by the mounting partition plate 331, the variable frequency circuit board 232 is arranged into two parts according to the variable frequency module 233, and the variable frequency circuit board 232 is respectively arranged in the upper mounting portion 333 and the lower mounting.

Referring to fig. 9, the frequency conversion module 233 includes a rectification inverter circuit for converting the power frequency power, a driving module, and a control module, where the control module is connected to the driving module, and the driving module is connected to the rectification inverter circuit. The rectification inverter circuit comprises a rectification circuit, a capacitance filter circuit and an inverter circuit which are connected in sequence, and the inverter circuit is connected with the corresponding output end in the driving module. The rectifier circuit adopts a bridge rectifier circuit, the frequency conversion module 233 further comprises a relay and an auxiliary power supply for supplying power to the drive module and the control module, a relay coil is connected in series between the rectifier circuit and the capacitor filter circuit, and a relay switch is connected in series between the rectifier circuit and the auxiliary power supply. The control module is used for outputting a specific PWM pulse signal to the driving module, the driving module converts the PWM pulse signal into a level signal which can be received by the inverter circuit, and the level signal controls the on and off of the inverter circuit, so that direct current is inverted into current with required frequency and phase and is output.

In this embodiment, the bridge rectifier circuit of the frequency conversion module 233 is connected to the power frequency power input plug end of the connection socket 312 via a wire, and the inverter circuit of the frequency conversion module 233 is connected to the frequency conversion power output plug end of the connection socket 312 via a wire. The rectifying circuit and the capacitor filter circuit in the frequency conversion module 233 are integrated on one frequency conversion circuit board 232, and the inverter circuit, the driving module and the control module are integrated on the other frequency conversion circuit board 232, so that the two frequency conversion circuit boards 232 are respectively arranged in the upper mounting part 333 and the lower mounting part 334 of the mounting bracket 33. It should be noted that the ground terminal of the frequency conversion module 233 is connected to the mounting bracket 33 through a wire.

Therefore, the heat generated by the inverter circuit board 232 can be transmitted to the heat dissipation aluminum frame 332 through the mounting partition 331, and then transmitted to the mounting case 231, and the inverter circuit board 232 can be conveniently dissipated through the mounting bracket 33. In order to further improve the heat dissipation effect on the mounting housing 231, a movable gap is formed between the mounting housing 231 and the inner wall of the motor cavity, the movable gap is used for cooling oil to enter, and the mounting housing 231 is further dissipated heat through the cooling oil.

It is worth to be noted that a filling hole is formed at the bottom of the installation housing 231, the installation housing 231 is filled with the heat conduction pouring sealant through the filling hole, the whole installation cavity in the installation housing 231 is filled with the heat conduction pouring sealant, and after the heat conduction pouring sealant is filled, the filling hole is sealed through a plug screw.

As shown in fig. 2, an adjusting bracket 34 is fixed in the motor cavity below the frequency conversion device 23, the adjusting bracket 34 is fixed by a snap spring, an adjusting bolt 35 is connected to the adjusting bracket 34 by a thread, and the end of the adjusting bolt 35 abuts against the tail end of the mounting housing 231. The end of the adjusting bolt 35 abuts against the tail end of the mounting shell 231, and the purpose of adjusting the vertical position of the mounting shell 231 is achieved by rotating the adjusting bolt 35, so that the mounting shell 231 is conveniently connected with and assembled with the variable frequency motor assembly 22.

This application adopts the built-in mode of frequency conversion device 23, and frequency conversion device 23 is difficult to wet, and long service life, wherein, being connected between inverter motor subassembly 22 and the frequency conversion device 23 all in the motor cavity, the power consumption security is high to encapsulate inverter circuit board 232 through installation casing 231, thereby avoid producing electromagnetic interference between inverter motor subassembly 22 and the inverter circuit board 232.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (10)

1. A deep well pump with a frequency conversion device comprises a pump assembly (1), and is characterized in that the pump assembly (1) is connected with a frequency conversion motor (2), and the frequency conversion motor (2) comprises a motor shell (21), a frequency conversion motor assembly (22) and a frequency conversion device (23);

the motor shell (21) is sealed end to form a motor cavity inside, and the variable frequency motor assembly (22) is arranged in the motor cavity and used for driving the pump assembly (1) to work;

frequency conversion device (23) set up in the motor cavity and link to each other with inverter motor subassembly (22), frequency conversion device (23) are including installation casing (231) and frequency conversion circuit board (232), installation casing (231) end to end is sealed in order to form the installation cavity in its inside, frequency conversion circuit board (232) set up in the installation cavity, be provided with on frequency conversion circuit board (232) and be used for carrying behind the power frequency electric frequency conversion give inverter motor subassembly (22) frequency conversion module (233).

2. Deep well pump with frequency conversion device according to claim 1, characterized in that the tail end of the installation housing (231) is closed, the head end of the installation housing (231) being provided with an installation opening, which is sealed by an installation end cover (31).

3. The deep well pump with the frequency conversion device as claimed in claim 2, characterized in that the mounting end cover (31) comprises a mounting disc body (311) embedded on the mounting opening, a seal is maintained between the mounting disc body (311) and the mounting opening, a connecting socket (312) is fixed at the middle position of the mounting disc body (311), and a power frequency electric input plug-in end and a frequency conversion electric output plug-in end are arranged on the connecting socket (312).

4. The deep-well pump with the frequency conversion device as claimed in claim 3, characterized in that the frequency conversion motor assembly (22) is provided with a connecting plug (32) for involution with the connecting socket (312), and the connecting plug (32) is provided with a power frequency electrical output socket and a frequency conversion electrical input socket corresponding to the power frequency electrical input socket and the frequency conversion electrical output socket respectively.

5. The deep well pump with the frequency conversion device as claimed in claim 4, wherein the frequency conversion motor assembly (22) comprises an upper mounting seat (221), a lower mounting seat (222) and a motor shaft (223) with two ends mounted on the upper mounting seat (221) and the lower mounting seat (222) through bearings, a motor rotor (224) is arranged on the motor shaft (223), the upper mounting seat (221) and the lower mounting seat (222) are attached to the inner wall of the motor casing (21) and are limited in the motor casing (21), a motor stator (225) surrounding the motor rotor (224) is arranged between the upper mounting seat (221) and the lower mounting seat (222), and the connecting plug (32) is fixed on the lower mounting seat (222).

6. Deep-well pump with frequency conversion device according to claim 1, characterized in that the frequency conversion circuit board (232) is fixedly arranged in the mounting cavity by means of a mounting bracket (33).

7. The deep-well pump with the frequency conversion device as claimed in claim 6, wherein the mounting bracket (33) comprises a mounting partition plate (331) and a heat-dissipating aluminum frame (332), the heat-dissipating aluminum frame (332) is in a semi-surrounding shape, the heat-dissipating aluminum frame (332) is attached to the inner wall of the mounting housing (231), the mounting partition plate (331) is integrally formed at the middle position of the heat-dissipating aluminum frame (332), the heat-dissipating aluminum frame (332) is separated into an upper mounting part (333) and a lower mounting part (334) by the mounting partition plate (331), and the frequency conversion circuit board (232) is respectively arranged in the upper mounting part (333) and the lower mounting part (334).

8. The deep-well pump with frequency conversion device of claim 1, characterized in that the head end of the motor casing (21) is sealed by an upper end cap (24), the tail end of the motor casing (21) is sealed by a lower end cap (25), the motor cavity is formed inside the motor casing (21) by the upper end cap (24) and the lower end cap (25), and the motor cavity is filled with cooling oil.

9. Deep-well pump with frequency conversion device according to claim 1, characterized in that the installation housing (231) is filled with a heat-conducting potting compound in the installation cavity.

10. The deep-well pump with the frequency conversion device is characterized in that an adjusting bracket (34) is fixed in the motor cavity below the frequency conversion device (23), an adjusting bolt (35) is connected to the adjusting bracket (34) in a threaded mode, and the end of the adjusting bolt (35) abuts against the tail end of the mounting shell (231).

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