CN113489023B

CN113489023B - Circulating temperature control reactive compensator

Info

Publication number: CN113489023B
Application number: CN202111036679.6A
Authority: CN
Inventors: 陈方园
Original assignee: Jiangsu Jinji Intelligent Electric Technology Co ltd
Current assignee: Jiangsu Jinji Intelligent Electric Technology Co ltd
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2021-12-03
Anticipated expiration: 2041-09-06
Also published as: CN113489023A

Abstract

The invention discloses a circulating temperature control reactive compensator, which comprises a main box body, wherein a working cavity is arranged in the main box body, a heat dissipation shell is fixedly arranged in the working cavity, a compensator for performing the work of a power supply system is arranged in the heat dissipation shell, the front wall of the working cavity is communicated with a turnover cavity with an outward opening, the heat exchange plate is used for performing heat exchange to exchange heat energy generated when the compensator works into a heat dissipation plate, a water pump is started at the moment and drives cooling water for cooling in a communication water pipe to flow, at the moment, the cooling water in the communication water pipe flows through the communicated heat dissipation water pipe and cools the interior of the heat dissipation plate, then, a lifting plate communicated between the heat dissipation water pipes at two sides is used for realizing the effect of circulating cooling, meanwhile, the heat dissipation cavity is communicated with the outside, the cooling water flowing through the lifting plate is cooled to a certain degree, and the temperature control is performed through the temperature control plates at two sides, thereby realizing the effect of stable cooling water circulation cooling.

Description

Circulating temperature control reactive compensator

Technical Field

The invention relates to the technical field of compensators, in particular to a circulating temperature control reactive compensator.

Background

As one kind of compensation device, reactive compensator plays the effect that improves the electric wire netting power factor in the electron power supply system, and be used for improving the power supply environment, and current high-end reactive compensator is in the use, because self power is great, if can not effectually carry out appropriate heat dissipation, just can not avoid reactive compensator's damage, and if not good to reactive compensator's temperature control effect, then can cause reactive compensator's life's reduction, and current reactive compensator's temperature control module effect is relatively poor, it is lower to the work efficiency of heat dissipation.

Disclosure of Invention

The invention aims to provide a circulating temperature control reactive compensator which is used for overcoming the defects in the prior art.

The invention discloses a circulating temperature control reactive compensator, which comprises a main box body, wherein a working cavity is arranged in the main box body, a heat dissipation shell is fixedly arranged in the working cavity, a compensator for carrying out the work of a power supply system is arranged in the heat dissipation shell, the front wall of the working cavity is communicated with a turnover cavity with an outward opening, a turnover shaft with a vertical symmetry is rotatably arranged between the left wall and the right wall in the turnover cavity, the outer circular surface of the turnover shaft is fixedly connected with a turnover plate, a protection cavity with an inward opening is arranged in the turnover plate, a protection filter screen is fixedly arranged at the right side between the protection cavities at the upper side and the lower side, the end surfaces at the upper side and the lower side of the protection filter screen are rotatably connected with the front wall and the rear wall of the protection cavity, a guide cavity is communicated with one side wall of the protection cavities at the upper side and the lower side, which is far away from the working cavity, a guide assembly is arranged in the guide cavity, and can guide the input direction of the flow of outside air when the guide assembly is unfolded, the working cavity lower wall is communicated with a moving cavity, the moving cavity is internally provided with a moving plate which is bilaterally symmetrical and can move left and right, the upper wall of the moving cavity is fixedly provided with a fixed plate, the lower end surface of the fixed plate is fixedly connected with a protective filter screen, the protective filter screen is connected with the left side and the right side of the moving plate in a sliding way, the moving cavity lower wall is communicated with a heat dissipation cavity with a downward opening, the left side wall and the right side wall of the working cavity are internally and fixedly provided with heat dissipation plates, a heat exchange plate for heat exchange is fixedly arranged between the heat dissipation plates and the heat dissipation shell, the rear wall of the working cavity is internally provided with a fan cavity with a backward opening, the fan cavity is rotatably provided with a rotating fan, the heat dissipation cavity for heat dissipation is arranged in the heat dissipation shell, the front wall of the fan cavity is communicated with a ventilation pipeline, the front wall of the fan cavity is internally provided with a speed regulation cavity, and the speed regulation assembly is arranged in the speed regulation cavity, the speed regulation assembly can control the rotating speed of the rotating fan, and the lower side of the heat dissipation cavity is communicated with the moving cavity.

According to the further technical scheme, a fan protection cover is fixedly arranged at a communication position of the fan cavity and the outside, and a power shaft is in power connection with a rotation center of the front end face of the rotating fan.

A further technical scheme, the speed governing subassembly is located including rotating the friction pulley of speed governing chamber back wall, the power shaft front end face extends to forward the speed governing intracavity and with friction pulley rear end face center of rotation fixed connection, the speed governing intracavity antetheca is equipped with the lifter plate that can reciprocate, the lifter plate internal fixation is equipped with energy supply motor, rear end power connection has the spline sleeve in the energy supply motor, be equipped with the spline chamber that the opening is backward in the spline sleeve, the spline intracavity is equipped with the power pivot that can the back-and-forth movement, power pivot front end face with fixedly connected with removal spring between the spline chamber antetheca, the power pivot with spline intracavity wall splined connection, power pivot rear end face extends backward and fixedly connected has the power runner, the power runner with the outer terminal surface frictional connection of friction pulley.

According to the further technical scheme, a lifting spring is fixedly connected between the lower end face of the lifting plate and the lower wall of the speed regulation cavity, and a lifting pull rope is fixedly connected to the lower end face of the lifting plate.

Further technical scheme, the left and right sides the movable plate is kept away from a symmetrical center side end face fixedly connected with and is removed the connecting rod, it is equipped with the removal connection chamber to remove chamber left and right sides wall intercommunication, it keeps away from to remove the connection intracavity remove chamber a lateral wall and rotate and be equipped with the removal screw thread axle, it keeps away from a symmetrical center side end face to extend to remove the connection intracavity and with remove screw thread axle threaded connection, it keeps away from to remove the connection chamber remove a chamber lateral wall internal fixation and is equipped with the moving motor, removal screw thread axle one end power connect in the moving motor.

A further technical scheme, the left and right sides be equipped with the heat dissipation water pipe that the bending set up in the heating panel, the left and right sides heat dissipation water pipe upper end intercommunication is equipped with the intercommunication water pipe, the working chamber upper wall internal fixation is equipped with the water pump, the left and right sides the intercommunication water pipe with both ends intercommunication about the water pump, the left and right sides heating panel lower wall internal fixation is equipped with the temperature control plate, heat dissipation water pipe lower extreme runs through the temperature control plate, fixed being equipped with between the two walls can the flexible water pipe of ability about the heat dissipation chamber, flexible water pipe respectively with the temperature control plate intercommunication.

Further technical scheme, a upset chamber lateral wall internal fixation is equipped with the upset motor, trip shaft one end power connect in the upset motor, one side the upset motor is kept away from establish the wire wheel chamber in an upset chamber lateral wall, the rotation is equipped with the rotation line wheel in the line wheel chamber, the outer disc fixed connection of rotation line wheel just connects the stay cord around being equipped with, connect the stay cord with the lift stay cord is connected.

According to a further technical scheme, the guide assembly comprises a support shaft which is located on the lower side between the left wall and the right wall of the guide cavity in a rotating mode, a guide plate capable of being turned over is fixedly connected to the outer circular surface of the support shaft, and a telescopic spring is fixedly connected between the upper side of the left end face of the guide plate and the upper side of the left wall of the guide cavity.

The invention has the beneficial effects that:

1. according to the invention, heat exchange is carried out through the heat exchange plate to exchange heat energy generated when the compensator works into the heat dissipation plate, at the moment, the water pump is started and drives cooling water for cooling in the water communication pipe to flow, at the moment, the cooling water in the water communication pipe flows through the heat dissipation pipe and cools the interior of the heat dissipation plate, and then the effect of circular cooling is realized through the lifting plate communicated between the heat dissipation pipes at two sides;

2. meanwhile, the cooling water circulating cooling device is communicated with the outside through the heat dissipation cavity, the cooling water flowing through the lifting plate is cooled to a certain degree, and the temperature is controlled through the temperature control plates on the two sides, so that the stable cooling water circulating cooling effect is realized;

3. when the working temperature of the compensator still rises, the turnover plates on the two sides are turned on, the connecting position of the power rotating wheel and the friction wheel is changed, the rotating speed of the power rotating wheel is unchanged, the rotating speed of the friction wheel is increased due to the change of the connecting position, the rotating speed of the friction wheel is increased, the rotating speed of the rotating fan is increased, the air flow in the heat dissipation cavity is further improved, the heat dissipation of cooling water flowing in the telescopic water pipe is further improved, and the working heat dissipation of the compensator is further improved by improving the efficiency of circulating temperature control.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic diagram of the overall structure of a circulating temperature-controlled reactive power compensator according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of B-B of FIG. 3 according to the present invention;

FIG. 5 is an enlarged partial view of a portion of the present invention at the location of the protective screen 30;

FIG. 6 is an enlarged partial schematic view of a friction wheel 40 of the present invention at a location;

fig. 7 is a partially enlarged view of a portion of the moving link 20 according to the present invention.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention is given in conjunction with the examples, it being understood that the following text is only intended to describe a cyclic temperature controlled reactive compensator or several specific embodiments of the invention, and does not strictly limit the scope of protection specifically claimed by the invention, as used herein, the terms upper, lower, left and right are not limited to their strict geometric definitions, but include tolerances for machining or human error rationality and inconsistency, the specific features of which are detailed below:

referring to the attached drawings, the circulating temperature control reactive compensator according to the embodiment of the invention comprises a main box body 11, a working chamber 12 is arranged in the main box body 11, a heat dissipation shell 26 is fixedly arranged in the working chamber 12, a compensator 25 for performing power supply system work is arranged in the heat dissipation shell 26, a turnover chamber 27 with an outward opening is communicated with the front wall of the working chamber 12, a turnover shaft 28 which is symmetrical up and down is rotatably arranged between the left wall and the right wall in the turnover chamber 27, a turnover plate 29 is fixedly connected to the outer circular surface of the turnover shaft 28, a protection chamber 31 with an inward opening is arranged in the turnover plate 29, a protection filter screen 30 is fixedly arranged on the right side between the protection chambers 31 on the upper side and the lower side, the end surfaces on the upper side and the lower side of the protection filter screen 30 are rotatably connected with the front wall and the rear wall of the protection chamber 31, a guide chamber 49 is communicated with the side wall of the protection chamber 31 on the upper side and the lower side, which is far away from the working chamber 12, the guide cavity 49 is internally provided with a guide assembly, the guide assembly can guide the input direction of the flowing external air when being unfolded, the lower wall of the working cavity 12 is communicated with a movable cavity 21, the movable cavity 21 is internally provided with a movable plate 24 which is bilaterally symmetrical and can move left and right, the upper wall of the movable cavity 21 is fixedly provided with a fixed plate 22, the lower end surface of the fixed plate 22 is fixedly connected with a protective filter screen 23, the protective filter screen 23 is slidably connected with the movable plate 24 on the left and right sides, the lower wall of the movable cavity 21 is communicated with a heat dissipation cavity 62 with a downward opening, the left and right side walls of the working cavity 12 are internally and fixedly provided with heat dissipation plates 16, a heat dissipation plate 17 for heat exchange is fixedly arranged between the heat dissipation plates 16 and the heat dissipation shell 26, the rear wall of the working cavity 12 is internally provided with a fan cavity 38 with a backward opening, the fan 37 is rotatably arranged in the fan cavity 38, and the heat dissipation cavity 18 for heat dissipation is arranged in the heat dissipation shell 26, the utility model discloses a fan, including fan chamber 38 antetheca with it is equipped with air pipe 35 to communicate between the heat dissipation chamber 18, be equipped with speed governing chamber 41 in the fan chamber 38 antetheca, be equipped with the speed governing subassembly in the speed governing chamber 41, the speed governing subassembly can control the slew velocity of rotating fan 37, heat dissipation chamber 18 downside with remove the chamber 21 intercommunication.

Advantageously or exemplarily, a fan protection cover 36 is fixedly arranged at the position where the fan cavity 38 is communicated with the outside, and a power shaft 39 is dynamically connected to the rotation center of the front end surface of the rotating fan 37.

Advantageously or exemplarily, the governor assembly comprises a friction wheel 40 rotatably arranged on the rear wall of the governor cavity 41, the front end surface of the power shaft 39 extends forwards into the speed regulation cavity 41 and is fixedly connected with the rotation center of the rear end surface of the friction wheel 40, the inner front wall of the speed regulating cavity 41 is provided with a lifting plate 58 which can move up and down, an energy supply motor 57 is fixedly arranged in the lifting plate 58, the rear end of the energy supply motor 57 is connected with a spline sleeve 54 in a power mode, a spline cavity 52 with a backward opening is arranged in the spline sleeve 54, a power rotating shaft 51 capable of moving back and forth is arranged in the spline cavity 52, a movable spring 53 is fixedly connected between the front end surface of the power rotating shaft 51 and the front wall of the spline cavity 52, the power rotating shaft 51 is connected with the spline on the inner wall of the spline cavity 52, the rear end face of the power rotating shaft 51 extends backwards and is fixedly connected with the power rotating wheel 50, and the power rotating wheel 50 is in friction connection with the outer end face of the friction wheel 40.

Advantageously or exemplarily, a lifting spring 56 is fixedly connected between the lower end surface of the lifting plate 58 and the lower wall of the speed regulation cavity 41, and a lifting rope 55 is fixedly connected to the lower end surface of the lifting plate 58.

Beneficially or exemplarily, a moving connecting rod 20 is fixedly connected to end surfaces of left and right sides of the moving plate 24 away from the symmetry center, a moving connecting cavity 60 is communicated with left and right side walls of the moving cavity 21, a moving threaded shaft 61 is rotatably arranged in the moving connecting cavity 60 at a side wall away from the moving cavity 21, an end surface of the moving connecting rod 20 away from the symmetry center extends into the moving connecting cavity 60 and is in threaded connection with the moving threaded shaft 61, a moving motor 59 is fixedly arranged in a side wall of the moving connecting cavity 60 away from the moving cavity 21, and one end of the moving threaded shaft 61 is dynamically connected to the moving motor 59.

Beneficially or exemplarily, the left side and the right side are provided with heat dissipation water pipes 15 which are arranged in a bending manner in the heat dissipation plate 16, the upper ends of the heat dissipation water pipes 15 on the left side and the right side are communicated with communicating water pipes 14, a water pump 13 is fixedly arranged in the upper wall of the working chamber 12, the communicating water pipes 14 on the left side and the right side are communicated with the left end and the right end of the water pump 13, temperature control plates 19 are fixedly arranged in the lower walls of the heat dissipation plate 16 on the left side and the right side, the lower ends of the heat dissipation water pipes 15 penetrate through the temperature control plates 19, telescopic water pipes 63 capable of being telescopic are fixedly arranged between the left wall and the right wall of the heat dissipation chamber 62, and the telescopic water pipes 63 are respectively communicated with the temperature control plates 19.

Beneficially or exemplarily, a turning motor 42 is fixedly arranged in one side wall of the turning cavity 27, one end of the turning shaft 28 is connected to the turning motor 42 by power, a wire wheel cavity 44 is arranged in one side wall of the turning motor 42 far away from the turning cavity 27, a rotating wire wheel 45 is rotatably arranged in the wire wheel cavity 44, an outer circumferential surface of the rotating wire wheel 45 is fixedly connected and wound with a connecting pull rope 43, and the connecting pull rope 43 is connected with the lifting pull rope 55.

Advantageously or exemplarily, the guide assembly comprises a support shaft 34 rotatably disposed at a lower side between the left and right walls of the guide cavity 49, a reversible guide plate 33 is fixedly connected to an outer circumferential surface of the support shaft 34, and a telescopic spring 48 is fixedly connected between an upper side of a left end surface of the guide plate 33 and an upper side of a left wall of the guide cavity 49.

The invention relates to a circulating temperature control reactive compensator, which comprises the following working procedures:

when the cooling water circulation cooling device works, the compensator 25 for power supply work is arranged inside the heat dissipation shell 26 in the working cavity 12, the main box body 11 is integrally and stably arranged and placed, and after electric power is connected, the compensator 25 starts to work in an electric power system, heat energy generated when the compensator 25 works is exchanged into the heat dissipation plate 16 through heat exchange of the heat exchange plate 17, the water pump 13 is started and drives cooling water for cooling in the communication water pipe 14 to flow at the moment, cooling water in the communication water pipe 14 flows through the communicated heat dissipation water pipe 15 and cools the inside of the heat dissipation plate 16, and then the cooling water flows through the telescopic water pipes 63 communicated between the heat dissipation water pipes 15 at two sides, so that the circulation cooling effect is realized, meanwhile, the cooling water flowing through the telescopic water pipe 63 is cooled to a certain degree through the heat dissipation cavity 62 and is controlled by the temperature control plates 19 at two sides, so that the stable cooling water circulation cooling effect is realized, when the temperature is gradually increased due to the long-term operation of the compensator 25, the two-side moving motor 59 is started and drives the moving threaded shaft 61 to rotate, the moving threaded shaft 61 rotates and drives the two-side moving connecting rod 20 to move to the side close to the moving connecting cavity 60 through threaded connection, the two-side moving connecting rod 20 drives the moving plate 24 to move through fixed connection and increases the communication area between the moving cavity 21 and the heat dissipation cavity 62, the protecting filter screen 23 protects the working cavity 12 from foreign matters entering the working cavity 12 to affect the operation of the compensator 25, the energy supply motor 57 is started and drives the spline sleeve 54 to rotate, the spline sleeve 54 drives the moving power rotating shaft 51 to rotate through spline connection, the power rotating shaft 51 drives the power rotating wheel 50 to rotate through fixed connection, and the power rotating wheel 50 drives the friction wheel 40 to rotate at a low speed through friction connection with the outer circular surface of the friction wheel 40, at the moment, the friction wheel 40 rotates at a low speed and drives the power shaft 39 to rotate through fixed connection, the power shaft 39 drives the rotating fan 37 to rotate through fixed connection, at the moment, the rotating fan 37 rotates and sucks in outside air and then outputs the air into the heat dissipation cavity 18 through the ventilation pipeline 35, the air is finally discharged outwards through the communicated moving cavity 21, the air flow in the heat dissipation cavity 18 is promoted to promote the cooling of the heat dissipation shell 26, meanwhile, the air flow in the heat dissipation cavity 62 is promoted, further, the cooling water flowing through the telescopic water pipe 63 is cooled more closely, then, when the working temperature of the compensator 25 still rises, at the moment, the two-side overturning motor 42 is started and drives the overturning shaft 28 to rotate ninety degrees, at the moment, the two-side overturning shafts 28 rotate and drive the overturning plate 29 to overturn ninety degrees through fixed connection, at the moment, because the protective filter screen 30 is rotatably connected with the inner wall of the protective cavity 31, the overturning plate 29 rotates, the protection filter screen 30 is in a vertical state without position change to protect the connection between the working chamber 12 and the outside from entering foreign matters, at this time, the two side guide plates 33 move and turn outwards under the elastic force of the expansion spring 48, and an inclined downward guide opening is formed by the upper and lower side guide plates 33, so that the outside air flows through the two side guide plates 33 and is more directly discharged outwards through the moving chamber 21, meanwhile, the turning motor 42 drives the rotating wire wheel 45 to rotate, at this time, the rotating wire wheel 45 rotates and loosens the connection pull rope 43 through fixed connection, at this time, the connection of the connection pull rope 43 and the lifting pull rope 55 is loosened, the lifting plate 58 moves upwards under the elastic force of the lifting spring 56, at this time, the lifting plate 58 moves upwards and drives the connection position of the power rotating wheel 50 and the friction wheel 40 to change, at this time, the rotating speed of the power rotating wheel 50 does not change, the rotating speed of the friction wheel 40 is accelerated due to the change of the connection position, at this time, the rotation speed of the friction wheel 40 is increased to further increase the rotation speed of the rotating fan 37, so as to further improve the air flow inside the heat dissipation chamber 18, and further improve the heat dissipation of the cooling water flowing in the telescopic water pipe 63, thereby improving the work heat dissipation of the compensator 25 by improving the efficiency of the circulating temperature control.

The invention has the beneficial effects that:

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a circulating control by temperature change reactive compensator, includes the main tank body, its characterized in that: a working cavity is arranged in the main box body, a heat dissipation shell is fixedly arranged in the working cavity, a compensator for performing the work of a power supply system is arranged in the heat dissipation shell, the front wall of the working cavity is communicated with a turnover cavity with an outward opening, turnover shafts which are symmetrical up and down are rotatably arranged between the left wall and the right wall in the turnover cavity, the outer circular surface of each turnover shaft is fixedly connected with a turnover plate, a protection cavity with an inward opening is arranged in each turnover plate, a protection filter screen is fixedly arranged on the right side between the protection cavities on the upper side and the lower side, the end surfaces on the upper side and the lower side of each protection filter screen are rotatably connected with the front wall and the rear wall of each protection cavity, a guide cavity is communicated with one side wall of the protection cavity on the upper side and the lower side of the protection cavity, a guide assembly is arranged in the guide cavity and can guide the input direction of the flow of the external air when the protection filter screen is unfolded, and a moving cavity is communicated with the lower wall of the working cavity, the movable plate is arranged in the movable cavity, the movable plate is bilaterally symmetrical and can move left and right, the upper wall of the movable cavity is fixedly provided with a fixed plate, the lower end face of the fixed plate is fixedly connected with a protective filter screen, the protective filter screen is connected with the left side and the right side of the movable plate in a sliding way, the lower wall of the movable cavity is communicated with a heat dissipation cavity with a downward opening, the inner parts of the left side and the right side of the working cavity are fixedly provided with heat dissipation plates, a heat exchange plate for heat exchange is fixedly arranged between the heat dissipation plates and the heat dissipation shell, the rear wall of the working cavity is internally provided with a fan cavity with a backward opening, a rotating fan is rotatably arranged in the fan cavity, the heat dissipation cavity for heat dissipation is arranged in the heat dissipation shell, a ventilation pipeline is communicated between the front wall of the fan cavity and the heat dissipation cavity, the front wall of the fan cavity is internally provided with a speed regulation cavity, and the speed regulation component can control the rotating speed of the rotating fan, the lower side of the heat dissipation cavity is communicated with the moving cavity; the rotating center of the front end surface of the rotating fan is in power connection with a power shaft; the speed governing subassembly is located including rotating the friction pulley of speed governing chamber back wall, the terminal surface extends to forward before the power shaft in the speed governing intracavity and with friction pulley rear end face center of rotation fixed connection, the speed governing intracavity antetheca is equipped with the lifter plate that can reciprocate, the lifter plate internal fixation is equipped with energy supply motor, rear end power is connected with the spline sleeve in the energy supply motor, be equipped with the backward spline chamber of opening in the spline sleeve, the spline intracavity is equipped with the power pivot that can the back-and-forth movement, terminal surface before the power pivot with fixedly connected with removal spring between the spline chamber antetheca, the power pivot with spline connection in the spline chamber inner wall, power pivot rear end face extends backward and fixed connection has the power runner, the power runner with outer terminal surface friction joint of friction pulley.

2. The circulating temperature-controlled reactive power compensator of claim 1, wherein: and a fan protection cover is fixedly arranged at the communication position of the fan cavity and the outside.

3. The circulating temperature-controlled reactive power compensator of claim 1, wherein: and a lifting spring is fixedly connected between the lower end surface of the lifting plate and the lower wall of the speed regulation cavity, and a lifting stay rope is fixedly connected with the lower end surface of the lifting plate.

4. A circulating temperature controlled reactive power compensator according to claim 3, characterized by: the left and right sides the movable plate is kept away from a symmetrical center side end face fixedly connected with and is removed the connecting rod, it is equipped with the removal connection chamber to remove chamber left and right sides wall intercommunication, keep away from in the removal connection chamber remove chamber a lateral wall and rotate and be equipped with and remove the screw thread axle, it extends to remove connecting rod keeps away from a symmetrical center side end face remove in the connection chamber and with remove screw thread axle threaded connection, remove the connection chamber and keep away from remove chamber a lateral wall internal fixation and be equipped with the moving motor, remove screw thread axle one end power connect in the moving motor.

5. The circulating temperature-controlled reactive power compensator according to claim 4, wherein: the left and right sides be equipped with the heat dissipation water pipe that the bending set up in the heating panel, the left and right sides heat dissipation water pipe upper end intercommunication is equipped with the intercommunication water pipe, the working chamber upper wall internal fixation is equipped with the water pump, the left and right sides the intercommunication water pipe with both ends intercommunication about the water pump, the left and right sides heating panel lower wall internal fixation is equipped with the temperature control plate, heat dissipation water pipe lower extreme runs through the temperature control plate, fixed flexible water pipe that can stretch out and draw back that is equipped with between the two walls about the heat dissipation chamber, flexible water pipe respectively with the temperature control plate intercommunication.

6. The circulating temperature-controlled reactive power compensator of claim 5, wherein: the utility model discloses a wire wheel turning device, including upset chamber, upset motor, line wheel intracavity, line wheel, line, the upset motor is equipped with the upset motor to upset chamber a lateral wall internal fixation, trip shaft one end power connect in the upset motor, one side the upset motor is kept away from establish the line wheel chamber in upset chamber a lateral wall, the rotation is taken turns the intracavity to and is equipped with the rotation line wheel, the outer disc fixed connection of rotation line wheel just connects the stay cord around being equipped with, connect the stay cord with the lift stay cord is connected.

7. The circulating temperature-controlled reactive power compensator of claim 6, wherein: the direction subassembly is located including being located the rotation the back shaft of downside between the two walls about the direction chamber, the excircle fixedly connected with of back shaft can the deflector that overturns, deflector left end face upside with fixedly connected with expanding spring between the direction chamber left side wall upside.