CN117013172A

CN117013172A - Protection device for wind driven generator energy storage device

Info

Publication number: CN117013172A
Application number: CN202311252970.6A
Authority: CN
Inventors: 车聪聪; 王立峰; 刘晓亮; 李树素; 李宗立; 王秀强; 侯培彬; 王新明; 刘国瑞; 刘伟
Original assignee: Boding Energy Storage Technology Shandong Co ltd
Current assignee: Boding Energy Storage Technology Shandong Co ltd
Priority date: 2023-09-27
Filing date: 2023-09-27
Publication date: 2023-11-07
Anticipated expiration: 2043-09-27
Also published as: CN117013172B

Abstract

The invention discloses a protection device for an energy storage device of a wind driven generator, which comprises a protection shell, wherein the protection shell is provided with a rectangular structure and a sealing cover arranged at the top of the protection shell, the bottom of the protection shell is fixedly connected with a damp-proof bottom plate, and the outer side of the protection shell is communicated with a heat dissipation frame; the fixing shell is provided with a rectangular structure, and a radiating bellows is arranged outside the fixing shell, and one side, close to the fixing shell, of the radiating bellows is communicated with a radiating pipe; the separation device is used for separating the storage space in the protective shell and comprises a separation plate and a movable plate, and the storage space in the protective shell is separated through the separation plate and the movable plate; the invention relates to the technical field of wind power generation, in particular to a temperature control device which is used for radiating and cooling the inside of a protective shell. The protecting device for the wind driven generator energy storage device can adjust the storage space in the protecting shell according to energy storage batteries with different volumes.

Description

Protection device for wind driven generator energy storage device

Technical Field

The invention relates to the technical field of wind power generation, in particular to a protection device for an energy storage device of a wind power generator.

Background

Wind power generation refers to converting kinetic energy of wind into electrical energy. Wind energy is a clean and pollution-free renewable energy source, is mainly pumped and ground by a windmill for a long time, is interesting to generate electricity by using wind, is very environment-friendly, has huge wind energy accumulation, and is increasingly valued in all countries of the world. Wind is one of the nuisanceless energy sources. And it is inexhaustible. The wind power generation device is very suitable for coastal islands, grassland pasture areas, mountain areas and plateau areas which are lack of water, fuel and inconvenient in transportation, and can be widely used according to local conditions. Offshore wind power is an important field of renewable energy development, is an important force for promoting the progress of wind power technology and the industrial upgrading, and is an important measure for promoting the adjustment of energy structure. The principle of wind power generation is that wind power is utilized to drive windmill blades to rotate, then the rotating speed is increased through a speed increaser, so that a generator is driven to generate electricity, the generated electric energy is stored through a storage battery, and the storage battery is placed in a protective box.

The storage space in the protective shell can not be adjusted according to the energy storage batteries with different volumes, the energy storage batteries are inconvenient to take and put into, and when the energy storage batteries with the same volume and the same specification are put into again, the storage space is required to be adjusted repeatedly, so that the operation is complex.

Disclosure of Invention

In order to solve the technical problems, the invention provides: the protection device for the wind driven generator energy storage device comprises a protection shell, wherein the protection shell is of a rectangular structure, and a sealing cover arranged at the top of the protection shell;

the fixing shell is provided with a rectangular structure, and a radiating bellows is arranged outside the fixing shell, and one side, close to the fixing shell, of the radiating bellows is communicated with a radiating pipe;

the separation device is used for separating the storage space in the protective shell and comprises a separation plate and a movable plate, the storage space in the protective shell is separated through the separation plate and the movable plate, the separation plate slides along the inner wall of the protective shell, the positions of the separation plate and the movable plate can be adjusted according to the volumes of the energy storage batteries, and therefore the storage space in the protective shell can be adjusted according to the energy storage batteries with different volumes, and the adaptability is better;

the temperature control device is used for radiating and cooling the inside of the protective shell, and is arranged in the radiating bellows.

Preferably, the top of protecting crust sets up to the opening form, the top of protecting crust rotates through rotation bolt and sealed lid to be connected, fixed shell cover is established in the outside of protecting crust and through support and protecting crust fixed connection, separator sets up in the inside of protecting crust.

Preferably, one end of the radiating tube, which is far away from the radiating bellows, penetrates through the fixing shell and is communicated with the protecting shell, the radiating tube is provided with two groups, and the outer side of the fixing shell is fixedly connected with the outer side of the radiating bellows.

Preferably, the separation device further comprises a propping device, grooves are formed in two sides of the separation plate, fixing strips are arranged at positions, close to the top, of the inner walls of the grooves, standing grooves are uniformly formed in two ends of the separation plate, an electric push rod is fixedly connected to the inside of each standing groove, an energy storage battery of the wind driven generator is placed in the protection shell, the separation plate is stirred to move the separation plate to one side of the energy storage battery along the inner wall of the protection shell, after the separation plate moves to a designated position, the electric push rod is started to push the moving plate, the moving plates at two ends of the separation plate are pushed to the inner wall of the protection shell until the moving plate is propped against the inner wall of the protection shell, at the moment, the moving plate and the separation plate divide a storage space in the protection shell into two groups, and can store the two groups of energy storage batteries, and meanwhile the two groups of energy storage batteries are separated to prevent shaking during transportation so that the two groups of energy storage batteries are impacted together.

Preferably, the fixed end of the electric push rod is connected with the inner wall of the placing groove, and the movable end of the electric push rod is fixedly connected with one side of the movable plate.

Preferably, the propping device comprises a sliding sleeve, a round hole is formed in one end of the sliding sleeve, a piston head is slidably connected to the position, away from the round hole, of the inner wall of the sliding sleeve, a communication frame is communicated to the bottom of the sliding sleeve, a hydraulic frame is communicated to one end, away from the sliding sleeve, of the communication frame, a rod piston is slidably connected to the inner wall of the hydraulic frame, an electric telescopic rod is fixedly connected to the bottom of the rod piston, a propping ball is slidably connected to one side, located on the piston head, of the inner wall of the sliding sleeve, the electric telescopic rod is started to push the rod piston, the rod piston is extruded along the hydraulic frame, hydraulic oil in the hydraulic frame is extruded into the communication frame and the sliding sleeve, the piston head in the sliding sleeve is hydraulically pushed to extrude the propping ball, one side, extruded out of the propping ball extrudes the round hole, and the outer wall of the energy storage battery is extruded, so that the energy storage battery is fixed in the protective shell, the energy storage battery is clamped and fixed, and the stability of the energy storage battery is improved during transportation.

Preferably, the one end and recess fixed connection of round hole are kept away from to the sliding sleeve, the one end that the pole piston is close to electric telescopic handle runs through the hydraulic frame, hydraulic oil is filled to the inside of hydraulic frame, electric telescopic handle's stiff end and the inner wall fixed connection of recess need be put into the energy storage battery of protecting crust when drawing, open electric telescopic handle shrink, pull out the hydraulic frame gradually with the pole piston, make hydraulic pressure pull back piston head, the piston head no longer extrudees tight ball in the top, when drawing energy storage battery, the outer wall extrusion tight ball of energy storage battery and with the tight ball in pushing into the sliding sleeve in top, the tight ball in top can roll along the outer wall of energy storage battery because frictional force effect, reduce the resistance of drawing energy storage battery, when putting into the energy storage battery of the same size again simultaneously, just need not adjust separator's position again, effectively improve device's practicality.

Preferably, the temperature control device comprises an air inlet pipe, an air inlet hole is formed in one end of the air inlet pipe, a limiting support is arranged at the position, close to the air inlet pipe, of the inner wall of the heat dissipation air box, a driving motor is arranged on one side of the limiting support, a heat dissipation blade is fixedly connected to the output end of the driving motor, and a drying device is arranged in the air inlet pipe.

Preferably, the air inlet pipe penetrates through the heat dissipation air box and is communicated with the heat dissipation air box, a plurality of groups of air inlet holes are formed in the air inlet holes, and the heat dissipation blades are located in the air inlet pipe.

Preferably, the drying device comprises a drying treatment cylinder, the air inlet has been seted up to the one end of drying treatment cylinder, the exhaust vent has been seted up to the one end that the air inlet was kept away from to the drying treatment cylinder, the one end that the drying treatment cylinder is close to the air inlet and the inner wall fixed connection of air-supply line, the one end that the drying treatment cylinder is close to the exhaust vent runs through and rotates and be connected with the rotary rod, stirring vane is evenly installed to the one end of rotary rod, stirring vane's one end and driving motor's output fixed connection are kept away from to the rotary rod, drying treatment cylinder's inside is filled with drier granule, and driving motor drives radiator vane and rotates, and radiator vane is with outside air from the air inlet suction air-supply line in, and the gas that gets into in the air inlet gets into in the drying treatment cylinder from the air inlet, and the drier in the drying treatment cylinder adsorbs the storage environment that can avoid moist air to get into the energy storage battery in the protective housing, and driving motor can drive the rotary rod rotation simultaneously, and stirring vane effectively prevents the drier granule from adsorbing the back caking problem, improves the adsorption effect.

The invention provides a protection device for an energy storage device of a wind driven generator. The beneficial effects are as follows:

1. this protector for wind-driven generator energy storage device, through separator's installation, put into the protecting crust with wind-driven generator's energy storage battery, stir the division board and remove it to one side of energy storage battery along the protecting crust inner wall, after the division board removes to the assigned position, open electric putter and promote the movable plate, promote the movable plate at division board both ends to the protecting crust inner wall, until the movable plate top is tight on the protecting crust inner wall, the storage space of movable plate and division board in with the protecting crust separates into two sets of, can store two sets of energy storage batteries, separate two sets of energy storage batteries simultaneously can prevent to produce and rock and make two sets of energy storage batteries striking together in the transportation.

2. This protector for wind-driven generator energy storage device opens electric telescopic handle and promotes the area pole piston through the installation of tight device in top, extrudees the area pole piston along the hydraulic frame, and hydraulic oil in the hydraulic frame extrudees in intercommunication frame and the slip sleeve, and the piston head in the hydraulic pressure promotion slip sleeve extrudees tight ball in top, extrudes tight ball in one side of top from the round hole, and tight ball extruded part in top extrudees the outer wall of energy storage battery, can fix the energy storage battery in the protecting crust, and it is fixed to carry out the centre gripping to the energy storage battery, improves the stability of energy storage battery when transporting.

3. This protector for wind-driven generator energy storage device through the installation of tight ball in top, when needing to extract the energy storage battery of putting into the protecting crust, open electric telescopic handle shrink, will take the pole piston to pull out the hydraulic frame gradually, make hydraulic pressure pull back piston head, the tight ball in top no longer extrudees at this moment, when drawing the energy storage battery, the tight ball in top is extruded to the outer wall of energy storage battery and is pushed into sliding sleeve with tight ball in top, the tight ball in top can roll along the outer wall of energy storage battery because the frictional force effect, reduce the resistance of extraction energy storage battery, when putting into the energy storage battery of the same specification of equal volume again simultaneously, just need not to adjust separator's position again, effectively improve the practicality of device.

4. This protector for aerogenerator energy memory through the installation of temperature regulating device and drying device, opens driving motor and drives radiating vane rotation, radiating vane draws in the air-supply line with outside air from the fresh air inlet, the gas that gets into in the air-supply line gets into in the drying process section of thick bamboo from the wind inlet, the drier in the drying process section of thick bamboo adsorbs the steam in the air, can avoid moist air to get into influence the storage environment of energy storage battery in the protecting crust, driving motor can drive the rotary rod simultaneously and rotate, the rotary rod drives stirring vane and rotates in the drying process section of thick bamboo, the problem of caking after effectively preventing drier granule absorption steam improves the adsorption efficiency.

5. This protector for wind-driven generator energy memory through the installation of division board and movable plate, and the division board slides along the protecting crust inner wall, can adjust the position of division board and movable plate according to the volume of energy storage battery, can adjust the storage space in the protecting crust according to the energy storage battery of different volumes, and adaptability is better.

Drawings

FIG. 1 is a schematic view of a protecting device for an energy storage device of a wind driven generator according to the present invention;

FIG. 2 is a schematic view of the internal structure of the protective shell according to the present invention;

FIG. 3 is a schematic view showing the internal structure of the fixing case of the present invention;

FIG. 4 is a schematic view of the structure of the separator of the present invention;

FIG. 5 is a schematic view of the structure of the partition plate of the present invention;

FIG. 6 is a schematic view of the internal structure of the tightening device of the present invention;

FIG. 7 is a schematic view of the internal structure of the temperature control device of the present invention;

fig. 8 is a schematic view showing the internal structure of the drying apparatus of the present invention.

In the figure: 1. a protective shell; 2. sealing cover; 3. a moisture-proof bottom plate; 4. a heat dissipation frame; 5. a fixed case; 6. a heat dissipation bellows; 7. a heat radiating pipe; 8. a partition device; 81. a partition plate; 82. a moving plate; 83. a jacking device; 831. a sliding sleeve; 832. a round hole; 833. a piston head; 834. a communication frame; 835. a hydraulic frame; 836. a piston with a rod; 837. an electric telescopic rod; 838. tightly pushing the ball; 84. a groove; 85. a fixing strip; 86. a placement groove; 87. an electric push rod; 9. a temperature control device; 91. an air inlet pipe; 92. an air inlet hole; 93. a limit bracket; 94. a driving motor; 95. a heat radiation blade; 96. a drying device; 961. a drying treatment cylinder; 962. an air inlet; 963. an exhaust hole; 964. a rotating rod; 965. stirring vane.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Referring to fig. 1-6, the present invention provides a technical solution: the protection device for the wind driven generator energy storage device comprises a protection shell 1, wherein the protection shell 1 is of a rectangular structure, a sealing cover 2 is arranged at the top of the protection shell 1, a dampproof bottom plate 3 is fixedly connected to the bottom of the protection shell 1, and a heat dissipation frame 4 is communicated with the outer side of the protection shell 1;

the fixing shell 5 is provided with a rectangular structure, and a radiating bellows 6 arranged outside the fixing shell 5, wherein one side of the radiating bellows 6 close to the fixing shell 5 is communicated with a radiating pipe 7;

a partition device 8, wherein the partition device 8 is used for partitioning the storage space in the protective shell 1, the partition device 8 comprises a partition plate 81 and a moving plate 82, and the storage space in the protective shell 1 is partitioned by the partition plate 81 and the moving plate 82;

the temperature control device 9 is used for radiating and cooling the inside of the protective shell 1 through the temperature control device 9, and the temperature control device 9 is arranged in the heat radiating bellows 6.

The top of protecting crust 1 sets up to the opening form, and the top of protecting crust 1 rotates through rotation bolt and sealed lid 2 to be connected, and fixed shell 5 cover is established in the outside of protecting crust 1 and through support and protecting crust 1 fixed connection, and separator 8 sets up the inside at protecting crust 1.

One end of the radiating tube 7, which is far away from the radiating bellows 6, penetrates through the fixed shell 5 and is communicated with the protecting shell 1, the radiating tube 7 is provided with two groups, and the outer side of the fixed shell 5 is fixedly connected with the outer side of the radiating bellows 6.

The separation device 8 further comprises a jacking device 83, grooves 84 are formed in two sides of the separation plate 81, fixing strips 85 are mounted at positions, close to the top, of the inner walls of the grooves 84, placing grooves 86 are uniformly formed in two ends of the separation plate 81, and electric push rods 87 are fixedly connected to the inner portions of the placing grooves 86.

The fixed end of the electric push rod 87 is connected with the inner wall of the placing groove 86, and the movable end of the electric push rod 87 is fixedly connected with one side of the movable plate 82.

The propping device 83 comprises a sliding sleeve 831, a round hole 832 is formed in one end of the sliding sleeve 831, a piston head 833 is slidingly connected to the inner wall of the sliding sleeve 831 at a position far away from the round hole 832, a communication frame 834 is communicated with the bottom of the sliding sleeve 831, a hydraulic frame 835 is communicated with one end of the communication frame 834 far away from the sliding sleeve 831, a rod piston 836 is slidingly connected to the inner wall of the hydraulic frame 835, an electric telescopic rod 837 is fixedly connected to the bottom of the rod piston 836, and a propping ball 838 is slidingly connected to one side of the piston head 833 on the inner wall of the sliding sleeve 831.

One end of the sliding sleeve 831, which is far away from the round hole 832, is fixedly connected with the groove 84, one end of the rod piston 836, which is close to the electric telescopic rod 837, penetrates through the hydraulic frame 835, hydraulic oil is filled in the hydraulic frame 835, and the fixed end of the electric telescopic rod 837 is fixedly connected with the inner wall of the groove 84.

When the energy storage battery of the wind driven generator is placed in the protective shell 1, the partition plate 81 is shifted to move to one side of the energy storage battery along the inner wall of the protective shell 1, after the partition plate 81 moves to a designated position, the electric push rod 87 is started to push the movable plate 82, the movable plates 82 at two ends of the partition plate 81 are pushed to the inner wall of the protective shell 1 until the movable plates 82 are tightly propped against the inner wall of the protective shell 1, at the moment, the movable plate 82 and the partition plate 81 divide the storage space in the protective shell 1 into two groups, so that the two groups of energy storage batteries can be stored, and meanwhile, the two groups of energy storage batteries are separated to prevent shaking during transportation so that the two groups of energy storage batteries are impacted together.

The division plate 81 slides along the inner wall of the protective shell 1, the positions of the division plate 81 and the movable plate 82 can be adjusted according to the volumes of the energy storage batteries, and the storage space in the protective shell 1 can be adjusted according to the energy storage batteries with different volumes, so that the adaptability is better.

Opening the electric telescopic rod 837 to push the rod piston 836, extruding the rod piston 836 along the hydraulic frame 835, extruding hydraulic oil in the hydraulic frame 835 into the communication frame 834 and the sliding sleeve 831, hydraulically pushing the piston head 833 in the sliding sleeve 831 to extrude the tightening ball 838, extruding one side of the tightening ball 838 from the round hole 832, extruding the outer wall of the energy storage battery by the extruded part of the tightening ball 838, fixing the energy storage battery in the protective shell 1, clamping and fixing the energy storage battery, and improving the stability of the energy storage battery during transportation.

When the energy storage battery placed in the protective shell 1 needs to be extracted, the electric telescopic rod 837 is started to shrink, the piston 836 with the rod is gradually pulled out of the hydraulic frame 835, so that the piston head 833 is pulled back by hydraulic pressure, at the moment, the piston head 833 does not squeeze the tightening ball 838 any more, when the energy storage battery is pumped, the outer wall of the energy storage battery squeezes the tightening ball 838 and squeezes the tightening ball 838 into the sliding sleeve 831, the tightening ball 838 can roll along the outer wall of the energy storage battery due to friction force, the resistance for extracting the energy storage battery is reduced, and when the energy storage battery with the same size and the same size is placed again, the position of the separation device 8 does not need to be adjusted again, so that the practicability of the device is effectively improved.

Referring to fig. 1-8, the present invention provides a technical solution: on the basis of the first embodiment, the temperature control device 9 comprises an air inlet pipe 91, an air inlet hole 92 is formed in one end of the air inlet pipe 91, a limiting support 93 is installed at a position, close to the air inlet pipe 91, of the inner wall of the heat dissipation air box 6, a driving motor 94 is installed on one side of the limiting support 93, the output end of the driving motor 94 is fixedly connected with a heat dissipation blade 95, and a drying device 96 is arranged in the air inlet pipe 91.

The air inlet pipe 91 penetrates through the heat dissipation air box 6 and is communicated with the heat dissipation air box 6, a plurality of groups of air inlet holes 92 are formed, and the heat dissipation blades 95 are located in the air inlet pipe 91.

Drying device 96 includes drying treatment section of thick bamboo 961, and air inlet 962 has been seted up to drying treatment section of thick bamboo 961's one end, and drying treatment section of thick bamboo 961 has been kept away from the one end of air inlet 962 and has been seted up exhaust hole 963, and drying treatment section of thick bamboo 961 is close to the one end of air inlet 962 and the inner wall fixed connection of air-supply line 91, and drying treatment section of thick bamboo 961 is close to the one end of exhaust hole 963 and runs through and rotate and be connected with rotary rod 964, and stirring vane 965 is evenly installed to rotary rod 964's one end, and stirring vane 965's one end and driving motor 94's output fixed connection are kept away from to rotary rod 964, and drying treatment section of thick bamboo 961's inside is filled with drier granule.

When the drying device is used, the driving motor 94 is started to drive the radiating blades 95 to rotate, the radiating blades 95 draw external air into the air inlet pipe 91 from the air inlet 92, the air entering the air inlet pipe 91 enters the drying treatment cylinder 961 from the air inlet 962, the drying agent in the drying treatment cylinder 961 adsorbs water vapor in the air, so that the moist air can be prevented from entering the protective shell 1 to influence the storage environment of the energy storage battery, meanwhile, the driving motor 94 can drive the rotating rod 964 to rotate, and the rotating rod 964 drives the stirring blades 965 to rotate in the drying treatment cylinder 961, so that the problem of agglomeration of the drying agent particles after the water vapor is adsorbed is effectively prevented, and the adsorption effect is improved.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. The utility model provides a protector for wind-driven generator energy memory, includes protecting crust (1), its characterized in that:

the protection shell (1) is of a rectangular structure, and a sealing cover (2) is arranged at the top of the protection shell (1), the bottom of the protection shell (1) is fixedly connected with a dampproof bottom plate (3), and the outer side of the protection shell (1) is communicated with a heat dissipation frame (4);

the fixing device comprises a fixing shell (5), wherein the fixing shell (5) is of a rectangular structure, and a radiating bellows (6) arranged on the outer side of the fixing shell (5), and a radiating pipe (7) is communicated with one side, close to the fixing shell (5), of the radiating bellows (6);

a partition device (8), wherein the partition device (8) is used for partitioning the storage space in the protective shell (1), the partition device (8) comprises a partition plate (81) and a moving plate (82), and the storage space in the protective shell (1) is partitioned through the partition plate (81) and the moving plate (82);

the temperature control device (9) is used for radiating and cooling the inside of the protective shell (1) through the temperature control device (9), and the temperature control device (9) is arranged in the radiating bellows (6).

2. The protective device for an energy storage device of a wind turbine according to claim 1, wherein: the top of protecting crust (1) sets up to the opening form, the top of protecting crust (1) is rotated through rotation bolt and sealed lid (2) and is connected, fixed shell (5) cover is established in the outside of protecting crust (1) and is passed through support and protecting crust (1) fixed connection, separator (8) set up the inside at protecting crust (1).

3. The protective device for an energy storage device of a wind turbine according to claim 1, wherein: one end of the radiating pipe (7) far away from the radiating bellows (6) penetrates through the fixing shell (5) and is communicated with the protecting shell (1), two groups of radiating pipes (7) are arranged, and the outer side of the fixing shell (5) is fixedly connected with the outer side of the radiating bellows (6).

4. The protective device for an energy storage device of a wind turbine according to claim 1, wherein: the separation device (8) further comprises a jacking device (83), grooves (84) are formed in two sides of the separation plate (81), fixing strips (85) are arranged at positions, close to the top, of the inner walls of the grooves (84), placing grooves (86) are uniformly formed in two ends of the separation plate (81), and electric push rods (87) are fixedly connected to the inside of the placing grooves (86).

5. The protective device for a wind turbine energy storage device according to claim 4, wherein: the fixed end of the electric push rod (87) is connected with the inner wall of the placing groove (86), and the movable end of the electric push rod (87) is fixedly connected with one side of the movable plate (82).

6. The protective device for a wind turbine energy storage device according to claim 4, wherein: the jacking device (83) comprises a sliding sleeve (831), a round hole (832) is formed in one end of the sliding sleeve (831), a piston head (833) is slidingly connected to the inner wall of the sliding sleeve (831) away from the position of the round hole (832), a communication frame (834) is communicated with the bottom of the sliding sleeve (831), a hydraulic frame (835) is communicated with one end of the communication frame (834) away from the sliding sleeve (831), a rod piston (836) is slidingly connected to the inner wall of the hydraulic frame (835), an electric telescopic rod (837) is fixedly connected to the bottom of the rod piston (836), and a jacking ball (838) is slidingly connected to one side of the inner wall of the sliding sleeve (831) located on the piston head (833).

7. The protective device for a wind turbine energy storage device according to claim 6, wherein: one end that round hole (832) was kept away from to slip sleeve (831) is connected with recess (84) fixed, the one end that the rod piston (836) is close to electric telescopic handle (837) runs through hydraulic frame (835), the inside of hydraulic frame (835) is filled with hydraulic oil, the stiff end of electric telescopic handle (837) is connected with the inner wall fixed of recess (84).

8. The protective device for an energy storage device of a wind turbine according to claim 1, wherein: the temperature control device (9) comprises an air inlet pipe (91), an air inlet hole (92) is formed in one end of the air inlet pipe (91), a limiting support (93) is arranged at the position, close to the air inlet pipe (91), of the inner wall of the radiating air box (6), a driving motor (94) is arranged on one side of the limiting support (93), a radiating fin (95) is fixedly connected to the output end of the driving motor (94), and a drying device (96) is arranged inside the air inlet pipe (91).

9. The protective device for a wind turbine energy storage device according to claim 8, wherein: the air inlet pipe (91) penetrates through the heat dissipation air box (6) and is communicated with the heat dissipation air box (6), a plurality of groups of air inlet holes (92) are formed, and the heat dissipation blades (95) are located in the air inlet pipe (91).