CN116682641A

CN116682641A - Heat conversion system of transformer

Info

Publication number: CN116682641A
Application number: CN202310757912.2A
Authority: CN
Inventors: 汤晓峻; 蒋小娟; 赵莉娜
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-06-26
Filing date: 2023-06-26
Publication date: 2023-09-01

Abstract

The invention discloses a heat conversion system of a transformer, which comprises a lower positioning piece, a butt joint connecting piece and an upper positioning piece, wherein the upper end of the lower positioning piece is fixedly connected with the butt joint connecting piece, the lower positioning piece is nested and provided with the upper positioning piece through the butt joint connecting piece, and the lower positioning piece and the upper positioning piece are nested and butted with the outer side of an external transformer. This heat conversion system of transformer, through the butt joint state between the locating part about 2 groups, install fast according to the appearance of transformer that can be stable, the heat that can in time disperse the equipment outside carries out heat conduction work through the "L" laminating butt joint part of its lower extreme and heat conduction connecting piece, store through the heat accumulation cavity, through the difference of atmospheric pressure, let steam conduct to butt joint gasbag through the air supply hose and just carry out the linkage processing, under the circumstances of high pressure work, the heat that its surface was given off in time carries out the conversion processing to it, the life cycle of the inside components and parts of improvement equipment, the heat recycle of giving off simultaneously.

Description

Heat conversion system of transformer

Technical Field

The invention relates to the technical field of transformers, in particular to a heat conversion system of a transformer.

Background

A transformer and transformer assembly as disclosed in publication number CN102044332B, comprising a bobbin on which a coil is wound; a core coupled with the bobbin to provide magnetic flux and penetratively mounted on the PCB; a substrate electrically connected to the coil and having a lead frame connected to the PCB, wherein the lead frame is formed such that the substrate is spaced apart from an upper surface of the PCB;

the transformer framework and the transformer are disclosed as CN209675087U, and the protective cover is uniformly provided with radiating holes; the transformer winding is isolated from the outside through the protective cover, so that the winding is prevented from being impacted and damaged, and the service life of the transformer is ensured; the heat dissipation holes formed in the protective cover can timely exhaust heat generated by the windings, so that the temperature inside the protective cover is prevented from being too high, the ageing of the windings is accelerated, and the safe operation of the transformer is ensured;

the periodicity and intensity of the device are improved by the above-mentioned transformer or the shell structure of the transformer, but the transformer has a big problem in the working process, namely the defect of heat dissipation, under the condition of high-voltage working, the heat emitted from the surface of the transformer can not be converted and processed in time, so that the heat dissipation performance of the device is poor, the service cycle of the internal components can not be ensured, and meanwhile, the emitted heat can not be recycled, so that a certain energy waste state exists.

Disclosure of Invention

The invention aims to provide a heat conversion system of a transformer, which solves the problems that in the background technology, under the condition of high-voltage operation, heat emitted from the surface of the transformer cannot be converted in time, so that the heat dissipation performance of equipment is poor, the service cycle of internal components cannot be ensured, meanwhile, the emitted heat cannot be recycled, and a certain energy waste state exists.

In order to achieve the above purpose, the present invention provides the following technical solutions: the heat conversion system of the transformer comprises a lower positioning piece, a butt joint connecting piece and an upper positioning piece, wherein the upper end of the lower positioning piece is fixedly connected with the butt joint connecting piece, the lower positioning piece is nested and installed with the upper positioning piece through the butt joint connecting piece, and the lower positioning piece and the upper positioning piece are nested and butted with the outer side of the external transformer;

the lower end of the lower positioning piece is fixedly connected with a joint butt piece, the inner side of the joint butt piece is fixedly connected with a heat conduction connecting piece, the heat conduction connecting piece is mutually butted with the inner side of the lower end of the lower positioning piece, a heat storage cavity is formed in the inner side of the lower end of the lower positioning piece, an air supply hose is installed in a penetrating mode, the air supply hose extends along the joint connecting piece and the inner side of the upper positioning piece, the inner side of the upper positioning piece is fixedly connected with a joint air bag, the upper end of the joint air bag is fixedly connected with a movable connecting piece, the upper end of the movable connecting piece is fixedly connected with a fixed tooth block, the inner side of the upper positioning piece is rotatably connected with a reserved sliding groove, the inner side of the reserved sliding groove is rotatably connected with a transmission gear, the transmission gear is mutually contacted with the outer side of the fixed tooth block, the upper end of the upper positioning piece is rotatably connected with a reserved movable piece, the shaft end of the reserved movable piece is wound with a first traction rope component, the tail end of the first traction rope component is mutually butted with the shaft end of the transmission gear, and the inner side of the reserved movable piece is fixedly connected with a first magnet piece;

the lower extreme fixedly connected with of going up the setting element holds the liquid box, the outside fixedly connected with second haulage rope subassembly of swing joint spare, and the inboard of second haulage rope subassembly extends along the second haulage rope subassembly, the inner below nest of holding the liquid box is installed sealed butt joint spare, and sealed butt joint spare tip and the terminal mutual butt joint of second haulage rope subassembly, the bottom of holding the liquid box runs through and installs the connecting axle, the inner end top of going up the setting element is provided with liquid collecting siphunculus laminating spare, and the outside fixedly connected with second magnet spare of liquid collecting siphunculus laminating spare.

Further, the laminating interfacing part is sideways looking and is "L" type structure, and laminating interfacing part and heat conduction connecting piece laminating each other to laminating interfacing part and heat conduction connecting piece are copper material, and the heat transfer of heat conduction connecting piece contact is inside to the heat accumulation cavity, through laminating interfacing part and the good heat conductivility of heat conduction connecting piece, can be stable absorb work to the heat in the transformer outside of contact.

Further, the butt joint air bag is contacted with the heat conducted by the air supply hose, and then expands, so that the movable connecting piece contacted with the outer side is pushed to move upwards synchronously, the fixed tooth block in butt joint with the movable connecting piece moves upwards to be meshed with the transmission gear for transmission, and the transmission gear can be stably driven to rotate in the process of moving upwards by the movable connecting piece.

Further, the second traction rope assembly on the outer side is driven to carry out traction work in the process that the movable connecting piece moves upwards, so that the movable connecting piece drives the sealing butt joint piece on the tail end to form a traction structure, and under the condition that the movable connecting piece moves upwards under stress, the second traction rope assembly in butt joint with the movable connecting piece on the outer side synchronously moves along with the second traction rope assembly under stress to drive the sealing butt joint piece on the tail end.

Further, the reserved movable piece is provided with a butt joint transmission shaft and a first torsion spring, the end part of the reserved movable piece is fixedly connected with the butt joint transmission shaft, the butt joint transmission shaft is in butt joint with the tail end of the first traction rope assembly, and the first torsion spring is nested and installed on the outer side of the butt joint transmission shaft.

Further, the reservation moving part forms a transmission structure with the transmission gear through the first traction rope assembly, the reservation moving part forms a reset structure along the upper end of the upper positioning part through the first torsion spring at the shaft end, the reservation moving part rotates along the upper end of the upper positioning part in a laminating way, and a repulsive state is formed when the first magnet part at the inner end of the reservation moving part moves to be in contact with the second magnet part on the surface of the liquid collecting through pipe attaching part so as to avoid blockage.

Further, the connecting shaft is provided with a third traction rope assembly and a second torsion spring, the outer side of the connecting shaft is wound with the third traction rope assembly, the tail end of the third traction rope assembly is mutually butted with the outer side of the sealing butt joint piece, and the second torsion spring is nested and installed on the outer side of the connecting shaft.

Further, the connecting shaft forms a rotating state along the inner end of the liquid storage box body by the reset force of the second torsion spring, and the sealing butt joint part which moves outwards forms a traction state with the connecting shaft by the third traction rope component, so that the sealing butt joint part can stably form a reset state by the relative reset force of the third traction rope component and the second torsion spring in the process of forced outwards movement.

Further, the center equiangular distribution that collects liquid siphunculus laminating piece is about reserving the siphunculus has 3, and collects liquid siphunculus laminating piece each other and laminate each other, and the second magnet piece in the outside of liquid siphunculus laminating piece and the first magnet piece of reserving the movable part lower extreme are the homonymous magnetic pole simultaneously, and the state is repulsed through the different name between the second magnet piece in the outside of liquid siphunculus laminating piece and the first magnet piece of reserving the movable part lower extreme, can carry out self-dredging work to liquid siphunculus laminating piece.

Compared with the prior art, the invention has the beneficial effects that:

1. the heat conversion system of the transformer is provided with a heat conduction structure, can be stably and rapidly installed according to the appearance of the transformer through the butt joint state between the 2 groups of upper and lower positioning pieces, can conduct heat emitted outside equipment in time through the L-shaped joint butt joint piece and the heat conduction connecting piece at the lower end of the heat conversion structure, can store heat through the heat storage cavity, enables hot air to be conducted to the butt joint air bag through the air supply hose for linkage treatment through the difference of air pressure, and timely converts the heat emitted from the surface of the heat conversion structure under the condition of high-pressure operation, so that the service cycle of components in the equipment is prolonged, meanwhile, the emitted heat is recycled, and the practicability of the device is improved;

2. the heat conversion system of the transformer is provided with a heat recovery structure, when the outside rains, liquid storage and accumulation treatment are carried out on the inside of the liquid storage box body through the liquid collecting through pipe fitting piece, meanwhile, as hot air is conducted to the butt joint air bag through the air supply hose to expand the butt joint air bag, the pressed movable connecting piece moves upwards along with the hot air, and the second traction rope assembly drives the sealing butt joint piece to move outwards along the lower end of the liquid storage box body, so that rainwater stored in the inside of the sealing butt joint piece can be automatically discharged according to temperature change, and therefore self-heat dissipation treatment is carried out on the outer side of the contacted transformer, and the working state of heat conversion is realized;

3. this heat conversion system of transformer is provided with from dredging structure, at butt joint gasbag thermal expansion's in-process, the fixed tooth piece that dock with swing joint spare will move thereupon, and then the meshing state between cooperation and the drive gear is stable drives first haulage rope subassembly rolling, thereby along with its heat conduction's in-process, drive and reserve the moving part and laminate along the upper end of last setting element and rotate, form the repulsion state when waiting that the first magnet spare of its inner moves to the second magnet spare contact with the liquid collecting siphunculus laminating spare surface, avoid the liquid collecting siphunculus to appear the state of blocking, the life cycle of device has been improved.

Drawings

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

FIG. 2 is a schematic view showing a bottom perspective structure of the present invention;

FIG. 3 is a schematic side cross-sectional view of the present invention;

FIG. 4 is a schematic diagram of a side cross-sectional structure of a fluid reservoir tank of the present invention;

FIG. 5 is a schematic side cross-sectional view of a gas supply hose of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 7 is a schematic view of a schematic cross-sectional view of a fitting for a liquid collecting through pipe according to the present invention.

In the figure: 1. a lower positioning member; 2. a butt joint connector; 3. an upper positioning piece; 4. attaching a butt joint piece; 5. a thermally conductive connection; 6. a heat storage cavity; 7. a gas supply hose; 8. docking the air bags; 9. reserving a chute; 10. a movable connecting piece; 11. fixing the tooth block; 12. a transmission gear; 13. a first traction rope assembly; 14. reserving a movable piece; 1401. butting a transmission shaft; 1402. a first torsion spring; 15. a first magnet member; 16. a liquid storage tank body; 17. a second traction rope assembly; 18. sealing the butt joint piece; 19. a connecting shaft; 1901. a third traction rope assembly; 1902. a second torsion spring; 20. a liquid collecting through pipe fitting piece; 21. and a second magnet member.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a heat conversion system of transformer, including lower setting element 1, butt joint connecting piece 2, go up setting element 3, laminating butt joint piece 4, heat conduction connecting piece 5, heat accumulation cavity 6, air feed hose 7, butt joint gasbag 8, reserve spout 9, swing joint piece 10, fixed tooth piece 11, drive gear 12, first haulage rope subassembly 13, reserve movable part 14, butt joint transmission shaft 1401, first torsion spring 1402, first magnet piece 15, hold liquid box 16, second haulage rope subassembly 17, sealed butt joint piece 18, connecting axle 19, third haulage rope subassembly 1901, second torsion spring 1902, liquid collecting through pipe laminating piece 20, second magnet piece 21.

In this embodiment:

the upper end of the lower positioning piece 1 is fixedly connected with a butt joint connecting piece 2, the lower positioning piece 1 is nested and provided with an upper positioning piece 3 through the butt joint connecting piece 2, and the lower positioning piece 1 and the upper positioning piece 3 are nested and butted with the outer side of the external transformer;

the lower end of the lower positioning piece 1 is fixedly connected with a joint butt piece 4, the inner side of the joint butt piece 4 is fixedly connected with a heat conduction connecting piece 5 in an adhering manner, the heat conduction connecting piece 5 is in butt joint with the inner side of the lower end of the lower positioning piece 1, a heat storage cavity 6 is formed in the inner side of the lower end of the lower positioning piece 1, an air supply hose 7 is installed in a penetrating manner, the air supply hose 7 extends along the inner sides of the joint connecting piece 2 and the upper positioning piece 3, the inner side of the upper positioning piece 3 is fixedly connected with a joint air bag 8, the upper end of the joint air bag 8 is fixedly connected with a movable connecting piece 10, the upper end of the movable connecting piece 10 is fixedly connected with a fixed tooth block 11, a reserved sliding groove 9 is rotatably connected with the inner side of the reserved sliding groove 9, a transmission gear 12 is in contact with the outer side of the fixed tooth block 11, a reserved movable piece 14 is rotatably connected with the upper end of the upper positioning piece 3, a first traction rope assembly 13 is arranged at the shaft end of the reserved movable piece 14 in a winding manner, the end of the first traction rope assembly 13 is in butt joint with the shaft end of the transmission gear 12, and a reserved magnetic piece 15 is fixedly connected with the inner side of the reserved magnetic piece 14;

the lower extreme fixedly connected with of going up setting element 3 holds liquid box 16, the outside fixedly connected with second haulage rope subassembly 17 of swing joint spare 10, and the inboard of second haulage rope subassembly 17 extends along second haulage rope subassembly 17, the inner below nest of holding liquid box 16 is installed sealed interfacing part 18, and sealed interfacing part 18 tip and the terminal mutual interfacing of second haulage rope subassembly 17, the bottom of holding liquid box 16 runs through and installs connecting axle 19, the inner end top of going up setting element 3 is provided with liquid collecting through pipe laminating piece 20, and the outside fixedly connected with second magnet piece 21 of liquid collecting through pipe laminating piece 20.

The laminating interfacing part 4 is the structure of "L" side view, and laminating interfacing part 4 mutually laminates with heat conduction connecting piece 5 to laminating interfacing part 4 is copper material with heat conduction connecting piece 5, and the heat transfer of heat conduction connecting piece 5 contact is inside to heat accumulation cavity 6. The butt joint air bag 8 is contacted with the heat conducted by the air supply hose 7, and then expands, so that the movable connecting piece 10 contacted with the outer side is pushed to move upwards synchronously, and the fixed tooth block 11 butted with the movable connecting piece 10 moves upwards to be meshed with the transmission gear 12 for transmission. During the upward movement of the movable connecting piece 10, the second traction rope assembly 17 on the outer side is driven to carry out traction work, so that the movable connecting piece drives the sealing butt-joint piece 18 at the tail end to form a traction structure.

The device has the advantages that through the butt joint state among the lower locating pieces 1, the butt joint connecting pieces 2 and the upper locating pieces 3 of the 2 groups, the device can be stably and rapidly installed according to the appearance of a transformer, heat emitted outside the device can be conducted timely through the L-shaped joint butt joint pieces 4 and the heat conduction connecting pieces 5 at the lower ends of the device, heat is stored through the heat storage cavities 6, hot air is conducted to the butt joint air bags 8 through the air supply hoses 7 to be subjected to linkage treatment through the difference of air pressure, under the condition of high-pressure work, the heat emitted on the surfaces of the device is timely converted, the service cycle of the components in the device is prolonged, meanwhile, the emitted heat is recycled, and the practicability of the device is improved;

when the outside rains, the liquid storage and accumulation treatment is carried out to the inside of the liquid storage box 16 through the gap at the middle end of the liquid collecting through pipe attaching piece 20;

simultaneously, as the hot air in the heat storage cavity 6 is conducted to the butt joint air bag 8 through the air supply hose 7 to expand the butt joint air bag, the pressed movable connecting piece 10 moves upwards along with the hot air, and the second traction rope assembly 17 drives the sealing butt joint piece 18 to move outwards along the lower end of the liquid storage box 16, so that the rainwater stored in the heat storage cavity can be automatically discharged according to temperature change, and the self-heat-dissipation treatment is carried out on the outer side of the contacted transformer, so that the working state of heat conversion is realized;

the reserved movable piece 14 is provided with a butt joint transmission shaft 1401 and a first torsion spring 1402, the end part of the reserved movable piece 14 is fixedly connected with the butt joint transmission shaft 1401, the butt joint transmission shaft 1401 is mutually in butt joint with the tail end of the first traction rope assembly 13, and the first torsion spring 1402 is nested and installed on the outer side of the butt joint transmission shaft 1401. The reserving movable piece 14 forms a transmission structure with the transmission gear 12 through the first traction rope component 13, the reserving movable piece 14 forms a reset structure along the upper end of the upper positioning piece 3 through a first torsion spring 1402 at the shaft end, the reserving movable piece 14 rotates in a fitting way along the upper end of the upper positioning piece 3, and when the first magnet piece 15 at the inner end of the reserving movable piece moves to be in contact with the second magnet piece 21 on the surface of the liquid collecting through pipe fitting piece 20, a repulsive state is formed to avoid blockage. The connecting shaft 19 is provided with a third traction rope assembly 1901 and a second torsion spring 1902, the outer side of the connecting shaft 19 is wound with the third traction rope assembly 1901, the tail end of the third traction rope assembly 1901 is mutually butted with the outer side of the sealing butting piece 18, and the second torsion spring 1902 is nested and installed on the outer side of the connecting shaft 19. The connecting shaft 19 is rotated along the inner end of the reservoir tank 16 by the restoring force of the second torsion spring 1902, and the outwardly moving sealing abutment 18 will be pulled against the connecting shaft 19 by the third traction cable assembly 1901. The liquid collecting through pipe attaching pieces 20 are distributed at equal angles about the center of the reserved through pipe, the liquid collecting through pipe attaching pieces 20 are attached to each other, and meanwhile, the second magnet piece 21 at the outer side of the liquid collecting through pipe attaching piece 20 and the first magnet piece 15 at the lower end of the reserved movable piece 14 are the same-name magnetic poles;

in the process of heating and expanding the butt joint air bag 8, the fixed tooth block 11 which is in butt joint with the movable connecting piece 10 moves upwards along with the butt joint air bag, and then the first traction rope component 13 is driven to be rolled by being matched with the meshing state between the movable connecting piece 10 and the transmission gear 12, so that the reserved movable piece 14 is driven to rotate along the upper end of the upper positioning piece 3 in a lamination manner along with the heat conduction process of the reserved movable piece, and a repulsive state is formed when the first magnet piece 15 at the inner end of the reserved movable piece moves to be in contact with the second magnet piece 21 on the surface of the liquid collecting through pipe lamination piece 20, so that the liquid collecting through pipe is prevented from being blocked.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The heat conversion system of the transformer comprises a lower positioning piece (1), a butt joint connecting piece (2) and an upper positioning piece (3), wherein the upper end of the lower positioning piece (1) is fixedly connected with the butt joint connecting piece (2), the lower positioning piece (1) is nested and provided with the upper positioning piece (3) through the butt joint connecting piece (2), and the lower positioning piece (1) and the upper positioning piece (3) are nested and butted with the outer side of the external transformer;

the method is characterized in that: the lower end of the lower locating piece (1) is fixedly connected with a jointing butt joint piece (4), the inner side of the jointing butt joint piece (4) is connected with a heat conduction connecting piece (5) in a bonding mode, the heat conduction connecting piece (5) is mutually butted with the inner side of the lower end of the lower locating piece (1), a heat storage cavity (6) is formed in the inner side of the lower end of the lower locating piece (1), an air supply hose (7) is installed in a penetrating mode in the inner side of the heat storage cavity (6), the air supply hose (7) extends along the inner sides of the jointing connecting piece (2) and the upper locating piece (3), a jointing air bag (8) is connected with the inner side of the upper locating piece (3) in a bonding mode, a movable connecting piece (10) is fixedly connected with the upper end of the jointing air bag (8), the upper end of the movable connecting piece (10) is fixedly connected with a fixed tooth block (11), the inside of the upper positioning piece (3) is rotationally connected with a reserved chute (9), the inner side of the reserved chute (9) is rotationally connected with a transmission gear (12), the transmission gear (12) is in contact with the outer side of the fixed tooth block (11), the upper end of the upper positioning piece (3) is rotationally connected with a reserved movable piece (14), the shaft end of the reserved movable piece (14) is wound with a first traction rope component (13), the tail end of the first traction rope component (13) is mutually butted with the shaft end of the transmission gear (12), the inner side of the reserved movable piece (14) is fixedly connected with a first magnet piece (15);

the lower extreme fixedly connected with of last setting element (3) holds liquid box (16), the outside fixedly connected with second haulage rope subassembly (17) of swing joint spare (10), and the inboard of second haulage rope subassembly (17) extends along second haulage rope subassembly (17), seal butt joint spare (18) are installed to Fang Qiantao under the inner of holding liquid box (16), and seal butt joint spare (18) tip and the terminal butt joint each other of second haulage rope subassembly (17), the bottom of holding liquid box (16) runs through and installs connecting axle (19), the inner end top of going up setting element (3) is provided with liquid collecting through pipe laminating piece (20), and the outside fixedly connected with second magnet piece (21) of liquid collecting through pipe laminating piece (20).

2. A transformer thermal conversion system according to claim 1, wherein: the laminating interfacing part (4) is the structure of "L" in side view, and laminating interfacing part (4) and heat conduction connecting piece (5) laminating each other to laminating interfacing part (4) and heat conduction connecting piece (5) are copper material, and the heat transfer of heat conduction connecting piece (5) contact is inside to heat accumulation cavity (6).

3. A transformer thermal conversion system according to claim 1, wherein: the butt joint air bag (8) is contacted with heat conducted by the air supply hose (7), and then expands, so that the movable connecting piece (10) contacted with the outer side is pushed to move upwards synchronously, and the fixed tooth block (11) in butt joint with the movable connecting piece (10) moves upwards to be meshed with the transmission gear (12) for transmission.

4. A transformer thermal conversion system according to claim 1, wherein: in the process of upward movement of the movable connecting piece (10), the second traction rope assembly (17) on the outer side is driven to carry out traction work, so that the movable connecting piece drives the sealing butt joint piece (18) at the tail end to form a traction structure.

5. A transformer thermal conversion system according to claim 1, wherein: the movable part (14) is provided with a butt joint transmission shaft (1401) and a first torsion spring (1402), the end part of the movable part (14) is fixedly connected with the butt joint transmission shaft (1401), the butt joint transmission shaft (1401) is mutually in butt joint with the tail end of the first traction rope assembly (13), and the first torsion spring (1402) is nested and installed on the outer side of the butt joint transmission shaft (1401).

6. A transformer thermal conversion system according to claim 5, wherein: the reservation moving part (14) forms a transmission structure with the transmission gear (12) through the first traction rope component (13), the reservation moving part (14) forms a reset structure along the upper end of the upper positioning part (3) through a first torsion spring (1402) at the shaft end, the reservation moving part (14) rotates along the upper end of the upper positioning part (3) in a laminating way, and a repulsive state is formed when a first magnet part (15) at the inner end of the reservation moving part moves to be in contact with a second magnet part (21) on the surface of the liquid collecting through pipe laminating part (20) so as to avoid blockage.

7. A transformer thermal conversion system according to claim 6, wherein: the connecting shaft (19) is provided with a third traction rope assembly (1901) and a second torsion spring (1902), the outer side of the connecting shaft (19) is wound with the third traction rope assembly (1901), the tail end of the third traction rope assembly (1901) is mutually butted with the outer side of the sealing butt joint piece (18), and the second torsion spring (1902) is nested and installed on the outer side of the connecting shaft (19).

8. A transformer thermal conversion system according to claim 7, wherein: the connecting shaft (19) forms a rotating state along the inner end of the liquid storage box body (16) by the restoring force of the second torsion spring (1902), and the sealing butt joint piece (18) which moves outwards forms a traction state with the connecting shaft (19) by the third traction rope assembly (1901).

9. A transformer thermal conversion system according to claim 8, wherein: the liquid collecting through pipe attaching pieces (20) are distributed in equal angles about the center of the reserved through pipe, the liquid collecting through pipe attaching pieces (20) are attached to each other, and meanwhile, the second magnet pieces (21) on the outer side of the liquid collecting through pipe attaching pieces (20) and the first magnet pieces (15) on the lower end of the reserved movable piece (14) are identical-name magnetic poles.