CN115833417B - Motor plastic package stator assembly for embedded installation power construction - Google Patents

Abstract

The invention discloses a motor plastic package stator assembly for embedded installation and belongs to the technical field of plastic package stator assemblies.

Description

Motor plastic package stator assembly for embedded installation power construction

Technical Field

The invention relates to a plastic-sealed stator assembly, in particular to a motor plastic-sealed stator assembly for embedded electric power construction, and belongs to the technical field of plastic-sealed stator assemblies.

Background

In the prior art, a driving motor is often used for power construction, and the driving motor comprises a stator and a rotor;

the fixed part of the motor is called a stator, on which a pair of DC excited stationary main poles are arranged; the rotating part is called an armature core, on which an armature winding is arranged, and after being electrified, the armature winding generates induced electromotive force to serve as a rotating magnetic field, and then electromagnetic torque is generated to perform energy conversion, the energy conversion is distinguished by the shape of a stator winding and the embedding mode, and the stator winding can be divided into two types of centralized type and distributed type according to the different shapes of coil winding and embedding wiring modes.

The stator assembly in the prior art can realize providing a side skeleton structure of copper wire winding, but can not carry out good spacing to the copper wire, the problem that easily appears moving when long-time use is led to, the stator assembly in the prior art still can't realize the function to rotor shaft deflection detection in the use in addition, lead to only appearing serious decentration just can discover after long-time use, so the damage problem of energy has been caused, stator and rotor, secondly still can't realize abundant cooling treatment to the stator when using, design an embedded electric power construction motor plastic envelope stator assembly of installation for this and solve above-mentioned problem.

Disclosure of Invention

The invention mainly aims to provide a motor plastic package stator assembly for embedded installation in electric power construction, wherein a strip-shaped notch structure is arranged at the middle part of a motor outer shell at equal angles and at two ends of the outer side of the motor outer shell, a fixed side plate penetrates through strip-shaped notches in the middle part, an L-shaped connecting plate is attached to the strip-shaped notch parts at two sides of the inner wall of the motor outer shell, a screw penetrates through a first fixing hole and a second fixing hole to fix the fixed side plate and the L-shaped connecting plate on the motor outer shell, a copper wire is wound to a covering notch by taking the notch as a winding notch and is attached to the inner side of a limiting end plate without exceeding the limiting end plate, when the motor plastic package stator assembly is in operation and use, an arc-shaped frame and an adjusting ball are sleeved on the outer side of a rotor, and when the eccentric amplitude of the rotor is larger than a limiting value, the limiting spring is regulated by pushing the arc-shaped frame to press the inner sliding rod through the regulating ball, the data is transmitted to the data acquisition and conversion module through the pressure information generated by detecting the deformation of the limiting spring by the pressure acquisition sensor, the data acquisition and conversion module transmits the information to the central processing unit through the PCI bus interface, the information is transmitted to the linear power amplification module through the central processing unit, the linear power amplification module is transmitted to the miniaturized band-pass filter, the miniaturized band-pass filter is transmitted to the 2.4HZ single-chip wireless transceiver, the 2.4HZ single-chip wireless transceiver transmits the information to the background to acquire rotor movement eccentric data, the maintenance is carried out, the temperature information is acquired by the temperature acquisition sensor and transmitted to the data acquisition and conversion module, the data is transmitted to the PCI bus interface through the PCI bus interface and the central processing unit, the low-voltage control circuit is controlled by the central processing unit, the low-pressure control circuit is used for starting the water pump, cooling cold water is pumped into the water guide pipe through the water pump, the cooling cold water enters the annular hollow pipe, the cooling treatment is carried out in the annular hollow pipe, the limiting end plate and the copper wire winding plate are in an entering mode, the data information is collected through the vibration collecting sensor and sent to the linear power amplifying module, the data information is sent to the miniature band-pass filter through the linear power amplifying module, the data information is sent to the 2.4HZ single-chip wireless transceiver through the miniature band-pass filter, the data information is sent to the background through the 2.4HZ single-chip wireless transceiver, and maintenance is carried out.

The aim of the invention can be achieved by adopting the following technical scheme:

the utility model provides an embedded electric power construction is with motor plastic envelope stator assembly of installation, includes the inner tube, equidistant T type copper line winding frame subassembly that is fixed with in the outside of inner tube, the outside middle part department of T type copper line winding frame subassembly articulates there is the cardboard subassembly, just the outside department of T type copper line winding frame subassembly is equipped with L type spacing subassembly, T type copper line winding frame subassembly encircles the intercommunication and has the aqueduct subassembly, the inboard one end department of inner tube is equipped with eccentric detection section of thick bamboo subassembly, and arc frame subassembly is installed to the output of this eccentric detection section of thick bamboo subassembly.

Preferably, the T-shaped copper wire winding frame assembly comprises a copper wire winding plate, a limiting end plate and a notch, wherein the copper wire winding plate is installed at equal angles on the outer side of the inner cylinder, a plurality of groups of notches are respectively formed in two sides of the copper wire winding plate, the limiting end plate is communicated with the end part of the copper wire winding plate, and the copper wire winding plate is of a hollow structure.

Preferably, the cardboard subassembly includes the fixed slat of side, fixed curb plate and first fixed orifices, the fixed slat of side is installed to one side both sides middle part department of spacing end plate, the inboard of the fixed slat of side articulates there is fixed curb plate, just first fixed orifices have been seted up to the limit portion department of fixed curb plate.

Preferably, the L-shaped limiting frame assembly comprises an L-shaped connecting plate and second fixing holes, the L-shaped connecting plate is installed at the outer side end part of the limiting end plate, the second fixing holes are formed in two sides of the front face of the L-shaped connecting plate, and the second fixing holes are matched with the first fixing holes.

Preferably, the water guide pipe assembly comprises a ring-shaped hollow pipe and a water guide pipe, wherein the inner side of the copper wire winding plate is penetrated and provided with the ring-shaped hollow pipe, the ring-shaped hollow pipe is communicated with the copper wire winding plate, the outer side of the ring-shaped hollow pipe is communicated with the water guide pipe, and the water guide pipe is externally connected with a water pump.

Preferably, the eccentric detection cylinder assembly comprises an outer sliding cylinder, an inner sliding rod, a limiting spring and a pressure acquisition sensor, wherein the outer sliding cylinder is arranged on the inner wall of the inner cylinder, the pressure acquisition sensor is arranged at the inner side end part of the outer sliding cylinder, the limiting spring is arranged on the outer side of the pressure acquisition sensor, the inner sliding rod is arranged at the other end of the limiting spring, and the other end of the inner sliding rod penetrates through the outer sliding cylinder to be provided with the arc-shaped frame assembly.

Preferably, the arc-shaped frame assembly comprises an arc-shaped frame and adjusting balls, wherein the arc-shaped frame is installed at the end part of the inner sliding rod, and a plurality of groups of adjusting balls are embedded in the inner side of the arc-shaped frame.

Preferably, a central processor is arranged in the adjusting ball, the central processor is electrically connected with a PCI bus interface, the input end of the PCI bus interface is electrically connected with a data acquisition and conversion module, and the data acquisition and conversion module is electrically connected with a pressure acquisition sensor, a temperature acquisition sensor and a vibration acquisition sensor.

Preferably, the central processing unit is further electrically connected with a linear power amplification module, the linear power amplification module is electrically connected with a miniaturized band-pass filter, the miniaturized band-pass filter is electrically connected with a 2.4HZ single-chip wireless transceiver, the central processing unit is further electrically connected with a low-voltage control circuit, the low-voltage control circuit is externally connected with a water pump, and a temperature acquisition sensor and a vibration acquisition sensor are further arranged in the adjusting ball.

Preferably, the plastic package stator assembly further comprises the following using method:

step one: the middle part of the motor outer shell is provided with a bar-shaped notch structure at equal angles and at two ends of the outer side of the motor outer shell;

step two: penetrating the fixed side plate through the strip-shaped notch in the middle, and then attaching the L-shaped connecting plate to the strip-shaped notch parts on two sides of the inner wall of the motor shell;

step three: the fixed side plate and the L-shaped connecting plate are fixed on the motor shell body through the first fixing hole and the second fixing hole;

step four: winding the copper wire by taking the notch as a winding notch until the copper wire covers the notch and is abutted against the inner side of the limiting end plate and does not exceed the limiting end plate;

step five: when the rotor is in operation and use, the arc-shaped frame and the adjusting ball are sleeved on the outer side of the rotor, and when the eccentric amplitude of the rotor is larger than a limit value, the adjusting ball is beaten on;

step six: the limiting spring is regulated by pushing the arc-shaped frame to press the inner sliding rod through the regulating ball, and the pressure information generated by the deformation of the limiting spring is detected through the pressure acquisition sensor to transmit data to the data acquisition and conversion module;

step seven: the data acquisition conversion module sends information to the central processing unit through the PCI bus interface, the central processing unit sends the information to the linear power amplification module, the linear power amplification module sends the information to the miniature band-pass filter, the miniature band-pass filter sends the information to the 2.4HZ single-chip wireless transceiver, and the 2.4HZ single-chip wireless transceiver sends the information to the background to acquire rotor movement eccentric data, so that maintenance is performed;

step eight: the temperature information is acquired by a temperature acquisition sensor and is sent to a data acquisition conversion module, the data acquisition conversion module is sent to a PCI bus interface, the data acquisition conversion module is sent to a central processing unit, a low-pressure control circuit is controlled by the central processing unit, a water pump is started by the low-pressure control circuit, cooling cold water is pumped into a water guide pipe by the water pump, enters into a ring-shaped hollow pipe, and enters into a limiting end plate and a copper wire winding plate through the ring-shaped hollow pipe for cooling treatment;

step nine: data information acquired by the vibration acquisition sensor is sent to the linear power amplification module, the data information is sent to the miniature band-pass filter by the linear power amplification module, the data information is sent to the 2.4HZ single-chip wireless transceiver by the miniature band-pass filter, and the data information is sent to the background by the 2.4HZ single-chip wireless transceiver to acquire vibration information data, so that maintenance is performed.

The beneficial technical effects of the invention are as follows:

the invention provides a motor plastic package stator assembly for embedded installation in power construction

1. The middle part equiangle at the motor shell body and the outside both ends position department at the motor shell body all have offered bar notch structure, the bar notch that runs through the middle part with fixed curb plate, then the laminating of L type connecting plate is at the bar notch oral area of motor shell body inner wall both sides, it fixes fixed curb plate and L type connecting plate on the motor shell body to run through first fixed orifices and second fixed orifices through the screw rod, twine the copper line with the notch as winding notch to cover the notch and paste and lean on the spacing end plate inboard and do not surpass spacing end plate, more convenient when actually twining the copper line has been realized, be difficult to error moreover, production efficiency and precision have been wholly improved.

2. When the device is used in operation, the device is sleeved on the outer side of the rotor through the arc-shaped frame and the adjusting ball, when the eccentric amplitude of the rotor is larger than a limiting value, the device can be beaten on the adjusting ball, the arc-shaped frame is pushed by the adjusting ball to press the inner sliding rod to adjust the limiting spring, pressure information generated by deformation of the limiting spring is detected through the pressure acquisition sensor to transmit data to the data acquisition conversion module, the data acquisition conversion module transmits the information to the central processing unit through the PCI bus interface, the information is transmitted to the linear power amplification module through the central processing unit, the information is transmitted to the miniature band-pass filter through the linear power amplification module, the information is transmitted to the 2.4HZ single-chip wireless transceiver, the 2.4HZ single-chip wireless transceiver transmits the information to the background to acquire eccentric data of the rotor, and maintenance is carried out, the eccentric condition of automatic detection is realized, manual discovery is not needed, and the quality and precision of use are further improved.

3. The temperature information is acquired by the temperature acquisition sensor and is sent to the data acquisition conversion module, the data acquisition conversion module is sent to the PCI bus interface, the data acquisition conversion module is sent to the central processing unit, the central processing unit controls the low-pressure control circuit, the water pump is started by the low-pressure control circuit, cooling cold water is pumped into the water guide pipe by the water pump and enters the annular hollow pipe, and then enters the limiting end plate and the copper wire winding plate to be cooled by the annular hollow pipe, so that deeper and more comprehensive cooling treatment is realized, the cooling efficiency is improved, and the stator assembly has better use effect;

4. data information is collected through the vibration collection sensor and sent to the linear power amplification module, the data information is sent to the miniature band-pass filter through the linear power amplification module, the data information is sent to the 2.4HZ single-chip wireless transceiver through the miniature band-pass filter, the 2.4HZ single-chip wireless transceiver sends the information to the background to obtain vibration information data, maintenance is carried out, vibration conditions caused by automatic detection eccentricity are achieved, manual discovery is not needed, and the quality and the precision of use are further improved.

Drawings

FIG. 1 is a perspective view of a preferred embodiment of the apparatus in a first perspective view;

FIG. 2 is a schematic view of the overall second perspective of the device according to a preferred embodiment of the present invention;

FIG. 3 is a perspective view of a third perspective view of the device according to a preferred embodiment of the present invention;

FIG. 4 is a perspective view of a fourth perspective view of the device according to a preferred embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at a in accordance with a preferred embodiment of the present invention;

FIG. 6 is a schematic view of a spacing detection cartridge assembly according to a preferred embodiment of the present invention;

fig. 7 is a system diagram of a preferred embodiment of the present invention.

In the figure: 1. an inner cylinder; 2. fixing the side plates; 3. a limiting end plate; 4. a ring-shaped hollow tube; 5. copper wire winding plates; 6. a notch; 7. adjusting the ball; 8. a first fixing hole; 9. an L-shaped connecting plate; 10. a side fixing slat; 11. an arc-shaped frame; 12. an inner slide bar; 13. an outer slide cylinder; 14. a second fixing hole; 15. a water conduit; 16. a limit spring; 17. and a pressure acquisition sensor.

Detailed Description

In order to make the technical solution of the present invention more clear and obvious to those skilled in the art, the present invention will be described in further detail with reference to examples and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 and 7, the motor plastic package stator assembly for electric power construction of embedded installation that this embodiment provided, including inner tube 1, the outside equidistant T type copper line winding frame subassembly that is fixed with of inner tube 1, the outside middle part department of T type copper line winding frame subassembly articulates there is the cardboard subassembly, and the outside department of T type copper line winding frame subassembly is equipped with L type spacing subassembly, T type copper line winding frame subassembly encircles the intercommunication and has the water pipe subassembly, the inboard one end department of inner tube 1 is equipped with eccentric detection section of thick bamboo subassembly, the arc frame subassembly is installed to the output of this eccentric detection section of thick bamboo subassembly.

The middle part of the motor outer shell is provided with a bar-shaped notch structure at the equal angle and the positions at the two ends of the outer side of the motor outer shell, a fixed side plate 2 penetrates through the bar-shaped notch at the middle part, then an L-shaped connecting plate 9 is attached to the bar-shaped notch parts at the two sides of the inner wall of the motor outer shell, a screw rod penetrates through a first fixing hole 8 and a second fixing hole 14 to fix the fixed side plate 2 and the L-shaped connecting plate 9 on the motor outer shell, a copper wire is wound to cover the notch 6 by taking the notch 6 as a winding notch and is attached to the inner side of a limiting end plate 3 without exceeding the limiting end plate 3, when the motor outer shell is in operation and use, the motor outer shell is sleeved on the outer side of a rotor through an arc-shaped frame 11 and an adjusting ball 7, when the eccentric amplitude of the rotor is larger than a limiting value, the adjusting ball 7 pushes the arc-shaped frame 11 to press an inner sliding rod 12 to adjust a limiting spring 16, the pressure information generated by the deformation of the limit spring 16 is detected by the pressure acquisition sensor 17 to transmit the data to the data acquisition and conversion module, the data acquisition and conversion module transmits the information to the central processor through the PCI bus interface, the central processor transmits the information to the linear power amplification module, the linear power amplification module transmits the information to the miniature band-pass filter, the miniature band-pass filter transmits the information to the 2.4HZ single chip wireless transceiver, the 2.4HZ single chip wireless transceiver transmits the information to the background to acquire rotor movement eccentric data, then maintenance is performed, the temperature information is acquired by the temperature acquisition sensor and transmitted to the data acquisition and conversion module, the data acquisition and conversion module transmits the information to the PCI bus interface, the PCI bus interface transmits the information to the central processor, the central processor controls the low-voltage control circuit, the water pump is started by the low-voltage control circuit, cool water is pumped into the water guide pipe 15 through the water pump, enter into the annular hollow pipe 4, the annular hollow pipe 4 enters into the limiting end plate 3 and the copper wire winding plate 5 for cooling treatment, data information is collected through the vibration collecting sensor and sent to the linear power amplifying module, the data information is sent to the miniature band-pass filter through the linear power amplifying module, the data information is sent to the 2.4HZ single-chip wireless transceiver through the miniature band-pass filter, the 2.4HZ single-chip wireless transceiver sends the data information to the background to obtain vibration information data, and maintenance is carried out.

In this embodiment, T type copper line winding frame subassembly includes copper line winding board 5, spacing end plate 3 and notch 6, and copper line winding board 5 is installed to the outside equiangle of inner tube 1, and multiunit notch 6 has been seted up respectively to copper line winding board 5's both sides, and the tip department intercommunication of copper line winding board 5 has spacing end plate 3, and copper line winding board 5 is hollow structure.

The copper wire is wound to cover the notch 6 by taking the notch 6 as a winding notch and is abutted against the inner side of the limiting end plate 3 without exceeding the limiting end plate 3.

In this embodiment, the cardboard subassembly includes that the fixed slat 10 of side, fixed curb plate 2 and first fixed orifices 8, the fixed slat 10 of side is installed to one side both sides middle part department of spacing end plate 3, the inboard of fixed slat 10 articulates there is fixed curb plate 2, and the limit of fixed curb plate 2 department has seted up first fixed orifices 8, L type spacing subassembly includes L type connecting plate 9 and second fixed orifices 14, L type connecting plate 9 is installed to the outside tip department of spacing end plate 3, the second fixed orifices 14 have been seted up to the positive both sides of L type connecting plate 9, and second fixed orifices 14 and first fixed orifices 8 mutually support.

The middle part of the motor outer shell body is provided with a bar-shaped notch structure at the equal angle and the positions of the two ends of the outer side of the motor outer shell body, the fixed side plate 2 penetrates through the bar-shaped notch in the middle part, then the L-shaped connecting plate 9 is attached to the bar-shaped notch parts on the two sides of the inner wall of the motor outer shell body, and the fixed side plate 2 and the L-shaped connecting plate 9 are fixed on the motor outer shell body by penetrating through the first fixing hole 8 and the second fixing hole 14 through the screw rod.

In this embodiment, the water guide pipe assembly includes annular hollow pipe 4 and water guide pipe 15, and the inboard of copper wire winding board 5 runs through and is equipped with annular hollow pipe 4, and annular hollow pipe 4 and copper wire winding board 5 intercommunication, and the outside intercommunication of annular hollow pipe 4 has water guide pipe 15, and the water guide pipe 15 external has the water pump.

The water pump is started through the low-pressure control circuit, cooling cold water is pumped into the water guide pipe 15 through the water pump, enters the annular hollow pipe 4, and enters the limiting end plate 3 and the copper wire winding plate 5 through the annular hollow pipe 4 for cooling treatment.

In this embodiment, the eccentric detection section of thick bamboo subassembly includes outer slide section of thick bamboo 13, interior slide bar 12, spacing spring 16 and pressure acquisition sensor 17, outer slide section of thick bamboo is installed to the inner wall of inner tube 1, pressure acquisition sensor 17 is installed to the inboard tip department of outer slide section of thick bamboo 13, and spacing spring 16 is installed in the outside of pressure acquisition sensor 17, interior slide bar 12 is installed to the other end of spacing spring 16, the other end of interior slide bar 12 runs through outer slide section of thick bamboo 13 and installs the arc frame subassembly, the arc frame subassembly includes arc frame 11 and regulation ball 7, arc frame 11 is installed to the tip department of interior slide bar 12, and the inboard of arc frame 11 is embedded to have multiunit regulation ball 7.

When the eccentric amplitude of the rotor is larger than a limiting value, the rotor is beaten on the adjusting ball 7, the arc-shaped frame 11 is pushed by the adjusting ball 7 to press the inner sliding rod 12 to adjust the limiting spring 16, the pressure information generated by deformation of the limiting spring 16 is detected by the pressure acquisition sensor 17 to transmit data to the data acquisition conversion module, the data acquisition conversion module transmits the information to the central processing unit through the PCI bus interface, the information is transmitted to the linear power amplification module through the central processing unit, the linear power amplification module is transmitted to the miniature band-pass filter, the information is transmitted to the 2.4HZ single-chip wireless transceiver through the miniature band-pass filter, the information is transmitted to the background to obtain rotor movement eccentric data through the 2.4HZ single-chip wireless transceiver, and maintenance is performed.

In this embodiment, a central processor is built in the adjusting ball 7, and the central processor is electrically connected with a PCI bus interface, an input end of the PCI bus interface is electrically connected with a data acquisition and conversion module, and the data acquisition and conversion module is electrically connected with a pressure acquisition sensor 17, a temperature acquisition sensor and a vibration acquisition sensor.

In this embodiment, the central processing unit is further electrically connected with a linear power amplification module, the linear power amplification module is electrically connected with a miniaturized band-pass filter, the miniaturized band-pass filter is electrically connected with a 2.4HZ single-chip wireless transceiver, the central processing unit is further electrically connected with a low-voltage control circuit, the low-voltage control circuit is externally connected with a water pump, and a temperature acquisition sensor and a vibration acquisition sensor are further arranged in the ball adjusting ball 7.

In this embodiment, the plastic package stator assembly further includes the following usage method:

step one: the middle part of the motor outer shell is provided with a bar-shaped notch structure at equal angles and at two ends of the outer side of the motor outer shell;

step two: penetrating the fixed side plate 2 through the strip-shaped notch in the middle, and attaching the L-shaped connecting plates 9 to the strip-shaped notch parts on two sides of the inner wall of the motor shell;

step three: the fixed side plate 2 and the L-shaped connecting plate 9 are fixed on the motor shell body through the first fixing hole 8 and the second fixing hole 14 by a screw rod;

step four: winding the copper wire by taking the notch 6 as a winding notch until the copper wire covers the notch 6 and is abutted against the inner side of the limiting end plate 3 and does not exceed the limiting end plate 3;

step five: when in operation and use, the arc-shaped frame 11 and the adjusting ball 7 are sleeved on the outer side of the rotor, and when the eccentric amplitude of the rotor is larger than a limit value, the rotor is beaten on the adjusting ball 7;

step six: the arc-shaped frame 11 is pushed by the adjusting ball 7 to press the inner sliding rod 12 to adjust the limit spring 16, and the pressure information generated by deformation of the limit spring 16 is detected by the pressure acquisition sensor 17 to transmit data to the data acquisition and conversion module;

step seven: the data acquisition conversion module sends information to the central processing unit through the PCI bus interface, the central processing unit sends the information to the linear power amplification module, the linear power amplification module sends the information to the miniature band-pass filter, the miniature band-pass filter sends the information to the 2.4HZ single-chip wireless transceiver, and the 2.4HZ single-chip wireless transceiver sends the information to the background to acquire rotor movement eccentric data, so that maintenance is performed;

step eight: the temperature information is acquired by a temperature acquisition sensor and is sent to a data acquisition conversion module, the data acquisition conversion module is sent to a PCI bus interface, the data acquisition conversion module is sent to a central processing unit, a low-pressure control circuit is controlled by the central processing unit, a water pump is started by the low-pressure control circuit, cooling cold water is pumped into a water guide pipe 15 by the water pump, enters into a ring-shaped hollow pipe 4, and enters into a limiting end plate 3 and a copper wire winding plate 5 through the ring-shaped hollow pipe 4 for cooling treatment;

step nine: data information acquired by the vibration acquisition sensor is sent to the linear power amplification module, the data information is sent to the miniature band-pass filter by the linear power amplification module, the data information is sent to the 2.4HZ single-chip wireless transceiver by the miniature band-pass filter, and the data information is sent to the background by the 2.4HZ single-chip wireless transceiver to acquire vibration information data, so that maintenance is performed.

The above is merely a further embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present invention within the scope of the present invention disclosed in the present invention.

Claims (8)

1. The utility model provides a motor plastic envelope stator assembly for electric power construction of embedded installation which characterized in that: the novel copper wire winding device comprises an inner cylinder (1), wherein T-shaped copper wire winding frame assemblies are fixed on the outer side of the inner cylinder (1) at equal intervals, clamping plate assemblies are hinged to the middle of the outer side of the T-shaped copper wire winding frame assemblies, L-shaped limiting frame assemblies are arranged on the outer side of the T-shaped copper wire winding frame assemblies, water guide pipe assemblies are communicated with the T-shaped copper wire winding frame assemblies in a surrounding mode, eccentric detection cylinder assemblies are arranged at one end of the inner side of the inner cylinder (1), and arc-shaped frame assemblies are installed at the output ends of the eccentric detection cylinder assemblies;

the T-shaped copper wire winding frame assembly comprises a copper wire winding plate (5), a limiting end plate (3) and a notch (6), wherein the copper wire winding plate (5) is installed on the outer side of the inner cylinder (1) at equal angles, a plurality of groups of notches (6) are respectively formed in two sides of the copper wire winding plate (5), the limiting end plate (3) is communicated with the end part of the copper wire winding plate (5), and the copper wire winding plate (5) is of a hollow structure;

the clamping plate assembly comprises side fixing strips (10), fixing side plates (2) and first fixing holes (8), wherein the side fixing strips (10) are arranged in the middle of two sides of one side of the limiting end plate (3), the fixing side plates (2) are hinged to the inner sides of the side fixing strips (10), and the first fixing holes (8) are formed in the side portions of the fixing side plates (2).

2. The embedded motor plastic package stator assembly for electric power construction according to claim 1, wherein: the L-shaped limiting frame assembly comprises an L-shaped connecting plate (9) and second fixing holes (14), the L-shaped connecting plate (9) is installed at the outer side end part of the limiting end plate (3), the second fixing holes (14) are formed in the two sides of the front face of the L-shaped connecting plate (9), and the second fixing holes (14) are matched with the first fixing holes (8).

3. The embedded motor plastic package stator assembly for electric power construction according to claim 2, wherein: the water guide pipe assembly comprises a ring-shaped hollow pipe (4) and a water guide pipe (15), wherein the inner side of the copper wire winding plate (5) is penetrated and provided with the ring-shaped hollow pipe (4), the ring-shaped hollow pipe (4) is communicated with the copper wire winding plate (5), the outer side of the ring-shaped hollow pipe (4) is communicated with the water guide pipe (15), and the water guide pipe (15) is externally connected with a water pump.

4. The embedded motor plastic package stator assembly for electric power construction according to claim 3, wherein: the eccentric detection cylinder assembly comprises an outer sliding cylinder (13), an inner sliding rod (12), a limiting spring (16) and a pressure acquisition sensor (17), wherein the outer sliding cylinder is installed on the inner wall of the inner cylinder (1), the pressure acquisition sensor (17) is installed at the inner side end part of the outer sliding cylinder (13), the limiting spring (16) is installed on the outer side of the pressure acquisition sensor (17), the inner sliding rod (12) is installed at the other end of the limiting spring (16), and the other end of the inner sliding rod (12) penetrates through the outer sliding cylinder (13) to be provided with an arc-shaped frame assembly.

5. The embedded motor plastic package stator assembly for electric power construction according to claim 4, wherein: the arc frame assembly comprises an arc frame (11) and adjusting balls (7), the arc frame (11) is installed at the end part of the inner sliding rod (12), and a plurality of groups of adjusting balls (7) are embedded in the inner side of the arc frame (11).

6. The embedded motor plastic package stator assembly for electric power construction of claim 5, wherein: the ball (7) is internally provided with a central processing unit, the central processing unit is electrically connected with a PCI bus interface, the input end of the PCI bus interface is electrically connected with a data acquisition and conversion module, and the data acquisition and conversion module is electrically connected with a pressure acquisition sensor (17), a temperature acquisition sensor and a vibration acquisition sensor.

7. The embedded motor plastic package stator assembly for power construction of claim 6, wherein: the central processing unit is further electrically connected with a linear power amplification module, the linear power amplification module is electrically connected with a miniature band-pass filter, the miniature band-pass filter is electrically connected with a 2.4HZ single-chip wireless transceiver, the central processing unit is further electrically connected with a low-voltage control circuit, the low-voltage control circuit is externally connected with a water pump, and a temperature acquisition sensor and a vibration acquisition sensor are further arranged inside the adjusting ball (7).

8. The embedded motor plastic package stator assembly for power construction of claim 7, wherein: the plastic package stator assembly further comprises the following using method:

step one: the middle part of the motor outer shell is provided with a bar-shaped notch structure at equal angles and at two ends of the outer side of the motor outer shell;

step two: penetrating the fixed side plate (2) through the strip-shaped notch in the middle, and then attaching the L-shaped connecting plates (9) to the strip-shaped notch parts at two sides of the inner wall of the motor shell;

step three: the fixed side plate (2) and the L-shaped connecting plate (9) are fixed on the motor shell body through the first fixing hole (8) and the second fixing hole (14) by a screw rod;

step four: winding the copper wire by taking the notch (6) as a winding notch until the copper wire covers the notch (6) and is attached to the inner side of the limiting end plate (3) without exceeding the limiting end plate (3);

step five: when in use, the arc-shaped frame (11) and the adjusting ball (7) are sleeved on the outer side of the rotor, and when the eccentric amplitude of the rotor is larger than a limit value, the adjusting ball (7) is hit;

step six: the arc-shaped frame (11) is pushed by the adjusting ball (7) to press the inner sliding rod (12) to adjust the limit spring (16), and the pressure information generated by deformation of the limit spring (16) is detected by the pressure acquisition sensor (17) to transmit data to the data acquisition conversion module;

step seven: the data acquisition conversion module sends information to the central processing unit through the PCI bus interface, the central processing unit sends the information to the linear power amplification module, the linear power amplification module sends the information to the miniature band-pass filter, the miniature band-pass filter sends the information to the 2.4HZ single-chip wireless transceiver, and the 2.4HZ single-chip wireless transceiver sends the information to the background to acquire rotor movement eccentric data, so that maintenance is performed;

step eight: the temperature information is acquired through the temperature acquisition sensor and is sent to the data acquisition conversion module, the data acquisition conversion module is sent to the PCI bus interface, the data acquisition conversion module is sent to the central processing unit, the central processing unit controls the low-pressure control circuit, the water pump is started through the low-pressure control circuit, cooling cold water is pumped into the water guide pipe (15) through the water pump, enters the annular hollow pipe (4), and enters the limiting end plate (3) and the copper wire winding plate (5) through the annular hollow pipe (4) to be cooled;

step nine: data information acquired by the vibration acquisition sensor is sent to the linear power amplification module, the data information is sent to the miniature band-pass filter by the linear power amplification module, the data information is sent to the 2.4HZ single-chip wireless transceiver by the miniature band-pass filter, and the data information is sent to the background by the 2.4HZ single-chip wireless transceiver to acquire vibration information data, so that maintenance is performed.