CN116576068A

CN116576068A - Wind power generation energy storage device

Info

Publication number: CN116576068A
Application number: CN202310847219.4A
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: 2023-07-12
Filing date: 2023-07-12
Publication date: 2023-08-11
Anticipated expiration: 2043-07-12
Also published as: CN116576068B

Abstract

The invention belongs to the technical field of energy storage devices, in particular to a wind power generation energy storage device which comprises an electric storage device, wherein a support long column is fixedly connected to the bottom of an inner cavity of the electric storage device, a fixing base is fixedly connected to the bottom end of the support long column, two sides of the inner cavity of the fixing base are fixedly connected with the ground through fastening bolts, the wind power generation energy storage device comprises a reinforcing component, the reinforcing component can reinforce the bottom end part of the support long column, and the bottom end of the reinforcing component is fixedly connected with the axis of the inner cavity of the fixing base. The device can alleviate the wind-force effect that the top insulation case received through the protection component of both sides, through the windward side of protection component protection insulation case, alleviates the insulation case and is corroded the problem of sand by the wind in the course of the work, and the buffer baffle of both sides is because wind-force and motion simultaneously, and the insulation case also can cool off the work under the condition of not carrying out with outside air convection to avoid appearing the insulation case because excessively sealed lead to the relatively poor problem of heat dissipation.

Description

Wind power generation energy storage device

Technical Field

The invention belongs to the technical field of energy storage devices, and particularly relates to a wind power generation energy storage device.

Background

Wind power generation refers to converting kinetic energy of wind into electrical energy. Wind energy is clean and pollution-free renewable energy, is mainly pumped and ground through a windmill for a long time, and is interesting how to utilize wind to generate electricity, and after the wind driven generator carries electric energy for production, the electric energy is required to be stored by using an electric energy storage device carrying circuit, and an energy storage component is usually used for converting and storing electric power.

Because wind power generation device is generally arranged at a higher position and a windward position, the device for storing electric energy can bear larger wind force effect, so that the outer part of the device is easily corroded by wind and sand, and under the direct irradiation of external sunlight, the energy storage device absorbs heat very easily, so that the problem of short circuit of the internal battery pack is caused, and the problem of possible burning out is solved when serious.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the wind power generation energy storage device comprises an electric storage device, wherein a support long column is fixedly connected to the bottom of an inner cavity of the electric storage device, a fixing base is fixedly connected to the bottom end of the support long column, two sides of the inner cavity of the fixing base are fixedly connected with the ground through fastening bolts, the wind power generation energy storage device comprises a reinforcing component, the bottom end of the support long column can be reinforced by the reinforcing component, and the bottom end of the reinforcing component is fixedly connected with the axis of the inner cavity of the fixing base; the device comprises an insulation box, wherein the axis of the bottom of the inner cavity of the insulation box is fixedly connected with the top end of a supporting long column, a transmission rotating shaft is rotationally connected to the axis of the inner cavity of the insulation box, a driven fan blade is uniformly arranged on one side of the surface of the transmission rotating shaft through a socket, a limit end is fixedly connected to one end of the transmission rotating shaft, which is close to the driven fan blade, a magnetic induction box is rotationally connected to one side of the surface of the transmission rotating shaft, which is far away from the driven fan blade, and the bottom of the surface of the magnetic induction box is fixedly connected with the bottom of the inner cavity of the insulation box; after the device is arranged at a designated position for wind power generation, wind power can push the driven rotating shaft driven by the fan blade to rotate, at the moment, the part of the driven rotating shaft inserted into the insulation box can rotate in the inner cavity of the magnetic induction box, then the movement of cutting the magnetic induction wire is performed, and then the electric power is transported to the fixed base through the lead wire of the inner cavity of the long column of the bottom support for storage or use.

Preferably, the front end sleeve, this front end sleeve keep away from the inner chamber fixed connection of pressurized push rod through fixed socket and insulation case, one side that front end sleeve inner chamber is close to the pressurized fan blade is through ring grooving fixedly connected with filtration ring shell, the middle part sliding connection of front end sleeve inner chamber has the packing ring board, the packing ring board surface is close to one side fixedly connected with pressurized push rod of pressurized push rod, one side fixedly connected with repacking whistle ring that pressurized push rod was kept away from to front end sleeve inner chamber, the both sides of packing ring board inner chamber are all through turn even board fixedly connected with side slide. When the filling ring plate slides to one side close to the insulation box, the filling ring plate can pressurize one side close to the refitted whistle ring, at the moment, outside air enters the front end sleeve through the holes of the filtering ring shell, then air flows through the whistle opening of the refitted whistle ring, so that the refitted whistle ring gives out whistle sound, and then alarm sound is generated. The device can alleviate the wind-force effect that the top insulation case received through the protection component of both sides, through the windward side of protection component protection insulation case, alleviates the insulation case and is corroded the problem of sand by the wind in the course of the work, and the buffer baffle of both sides is because wind-force and motion simultaneously, and the insulation case also can cool off the work under the condition of not carrying out with outside air convection to avoid appearing the insulation case because excessively sealed lead to the relatively poor problem of heat dissipation.

Preferably, the protection component is fixedly connected with both sides of insulation box surface, run through the grooving has all been seted up to one side that is close to the windward fan leaf in insulation box inner chamber both sides, the surface of side position slide is through running through the inner wall sliding connection of grooving and insulation box, the inner chamber of support long post passes through vertical wire and the bottom fixed connection of magnetic induction box inner chamber, the middle part symmetry on transmission pivot surface is provided with buffer unit. The surface of the pressed push rod is sleeved with a spring sleeve, one end of the pressed push rod, which is far away from the filling annular plate, extends to the outside of the front end sleeve through a through hole, one end of the pressed push rod, which is far away from the filling annular plate, is in sliding connection with one side of the surface of the pressed fan blade, the number of the pressed fan blades is three, and one side of the surface of the limiting end, which is close to the pressed push rod, is in sliding connection with the surface of the pressed fan blade. The protection component comprises a section cylinder shell, wherein one side of the inner wall of the section cylinder shell, which is far away from an insulation box, is slidably connected with an arc-shaped push plate, one side, which is close to the insulation box, of an inner cavity of the arc-shaped push plate is uniformly provided with a built-in magnetic rod, one side, which is far away from the insulation box, of the surface of the arc-shaped push plate is fixedly connected with a buffer baffle through a spring rod, two ends of the section cylinder shell are fixedly connected with spherical end heads, one side, which is close to the section cylinder shell, of the inner cavity of the spherical end head is slidably connected with a concave sliding sleeve through a through sliding opening, and the middle part of the inner cavity of the concave sliding sleeve is fixedly connected with a pressed block. In the process of rotation of the fan blades, the surfaces of the fan blades can periodically extrude the side pressure push rods, so that the pressure push rods push the filling ring plates to slide along the inner wall of the front end sleeve, at the moment, the side slide plates at the two sides slide along the inner cavity of the insulation box under the pushing action of the filling ring plates, the notches at the two sides of the insulation box are opened, and the buffer baffle plates at the two sides push the section cylinder shell to slide towards one side close to the insulation box under the action of external wind force, so that the gas in the insulation box is replaced.

Preferably, one side of the inner cavity of the section cylinder shell far away from the insulation box is in sliding connection with the surface of the spring rod through the through hole, two ends of the arc-shaped push plate are in sliding connection with the surface of the spherical end head, and the surface of the pressed block is fixedly connected with one end of the inner cavity of the spherical end head far away from the concave sliding sleeve. The electric power storage device that erects and finish is located higher point, so under wind-force effect, the bending stress that the root position that supports the long post received can be great, so need set up reinforcement part and protect, and the top receives the fan blade in pivoted in-process, can make the inner chamber of repacking whistle ring pass through gas, makes repacking whistle ring sound production to dispel the living beings that stay near the insulation can through the noise, avoid receiving the fan blade to cause the injury to wild birds. Under field conditions, the wind power received by the buffer baffle is continuously changed, so that the pressure applied to the insulation box through the arc-shaped push plate is also continuously changed, and the pressure received through the concave sliding sleeve can be accurately fed back to the pressure change of the inner cavity of the section cylinder shell, so that the wind power received by the position of the power storage device is judged, and a monitoring person can timely adjust the actual power supply value of the received fan blade according to the wind power.

Preferably, the buffer part comprises a folding connecting rod, an inner cavity of the folding connecting rod is connected with a built-in guide rod in a sliding manner, one end of the folding connecting rod, which is far away from the transmission rotating shaft, is fixedly connected with an inflatable cushion, a metal sliding block is fixedly connected at the axle center of the inner cavity of the inflatable cushion, and two sides of the surface of the metal sliding block are connected with built-in air cylinders in a sliding manner through inner frame plates. In the process of rotating the transmission rotating shaft, the buffer parts positioned on two sides of the transmission rotating shaft are also rotated, at the moment, the folding connecting rods used for supporting the inner cavities of the insulation box are rotated, when the folding connecting rods on two sides are gradually rotated to be in a horizontal state, the metal sliding blocks can be applied with repulsive force by the built-in magnetic rods on two sides through the openings opened on two sides of the inner cavities of the insulation box, so that the folding connecting rods are compressed, the inflatable cushion can smoothly sweep the inner wall of the insulation box, at the moment, the metal sliding blocks slide towards the top end close to the built-in guide rod along the inner cavities of the folding connecting rods, further contact with the top ends of the built-in guide rods, and the built-in air cylinders on two sides are electrified to work so as to supplement air in the inner cavities of the inflatable cushion, and avoid the inflatable cushion from being shrivelled due to air leakage.

Preferably, one side of the surface of the metal sliding block is in sliding connection with one end of the inner cavity of the folding connecting rod, the other side of the surface of the metal sliding block is in sliding connection with one side of the inner cavity of the inflatable cushion, the surface of the inflatable cushion is in sliding connection with the inner wall of the insulation box, and the surface of the built-in inflator is fixedly connected with one end of the inner cavity of the inflatable cushion. When outside wind-force is applied to the side of the driven fan blade to push the driven fan blade to rotate, the buffer baffle plate located at the side is also subjected to the effect of wind force, and then the buffer baffle plate is pushed to slide to one side close to the insulation box through the spring rod, so that the inner cavity of the section box is pressurized, the opening at two sides of the inner cavity of the insulation box can be opened in the sliding process of the side sliding plate, and then the inner cavity of the section box is depressurized, so that the pressure intensity received by the inner cavity of the concave sliding sleeve can change along with the size of the opening of the insulation box, and then feedback is performed on the pressurized block.

Preferably, the reinforcement part comprises a protection bottom cylinder, the top of the inner cavity of the protection bottom cylinder is rotationally connected with an arc-shaped rotating block through an annular cutting groove, one side, away from a supporting long column, of the surface of the arc-shaped rotating block is fixedly connected with a traction rotating plate, the middle part of the inner cavity of the traction rotating plate is fixedly connected with an exhaust part, the bottom end of the arc-shaped rotating block is fixedly connected with a guide sliding rod, the middle part of the surface of the guide sliding rod is slidably connected with a threaded sliding column, and the bottom end of the surface of the guide sliding rod is slidably connected with a sealing cylinder shell. After the insulation box and the support long column are erected, the support bottom barrel is sleeved at the deflection root part of the support long column, bending stress received by the root part of the support long column is reduced, bending deflection angles of the device under the action of long-term wind force are avoided, and because of the action of wind force, traction rotating plates on two sides can rotate along the top of the inner cavity of the protection bottom barrel, and then the traction guiding sliding rod rotates around the inside of the protection bottom barrel through the arc rotating block, at the moment, the threaded sliding column guiding the outer surface of the sliding rod can rotate under the action of the guide threads of the inner cavity of the protection bottom barrel, so that the outer surface of the relative guiding sliding rod slides downwards, and the inner cavity of the sealing cylinder shell is pressurized through the concave surface shell at the bottom.

Preferably, the surface of the thread sliding column is meshed with the inner cavity of the protection bottom cylinder through a thread groove, the bottom end of the sealing cylinder shell is in sliding connection with the bottom of the inner cavity of the protection bottom cylinder, the inner wall of the protection bottom cylinder is fixedly connected with the bottom of the surface of the support long column, and the bottom of the inner cavity of the sealing cylinder shell is fixedly connected with the inner cavity of the fixing base through a connecting wire. The buffer part can cushion the inner chamber of insulation box through the inflatable cushion of inflation to reduce the vibration problem that the transmission pivot produced at the in-process that rotates the cutting magnetic induction line, and the inflatable cushion after the inflation is under natural condition, the gas of its inner chamber can overflow, leads to inflatable cushion to be shriveled gradually, loses the buffer capacity, and the device can be in time to the inflatable cushion through the built-in inflator of both sides, thereby avoids appearing above-mentioned problem.

Preferably, the exhaust component comprises an axle center connecting rod, the two ends of the inner cavity of the axle center connecting rod are fixedly connected with small springs, the two sides of the surface of the axle center connecting rod are respectively connected with a bundling slip ring through the small springs in a sliding manner, the inner cavity of the bundling slip ring is uniformly provided with a switching arm rod, one end of the switching arm rod, which is far away from the bundling slip ring, is fixedly connected with a sliding concave disc, the two ends of the axle center connecting rod are respectively fixedly connected with the middle part of the inner cavity of the traction rotating plate, and the surface of the sliding concave disc is in sliding connection with the inner cavity of the traction rotating plate through a groove. The traction rotating plate is subjected to wind power to rotate, the outer surface of the traction rotating plate can also be acted by wind power, so that the sliding concave disc is pushed to the inner cavity of the traction rotating plate, when the wind power is overlarge, the cluster slip ring can compress the small spring due to the stress, so that the sliding concave disc is separated from the socket of the traction rotating plate, the traction rotating plate at the moment is in a ventilation state and is influenced by wind power, the wind power effect of the traction rotating plate can be reduced, the traction rotating plate is prevented from being broken due to strong wind power, and the influence of the wind power is relieved.

The beneficial effects of the invention are as follows:

1. the device can alleviate the wind-force effect that the top insulation case received through the protection component of both sides, through the windward side of protection component protection insulation case, alleviates the insulation case and is corroded the problem of sand by the wind in the course of the work, and the buffer baffle of both sides is because wind-force and motion simultaneously, and the insulation case also can cool off the work under the condition of not carrying out with outside air convection to avoid appearing the insulation case because excessively sealed lead to the relatively poor problem of heat dissipation.

2. The electric power storage device that erects and finish is located higher point, so under wind-force effect, the bending stress that the root position that supports the long post received can be great, so need set up reinforcement part and protect, and the top receives the fan blade in pivoted in-process, can make the inner chamber of repacking whistle ring pass through gas, makes repacking whistle ring sound production to dispel the living beings that stay near the insulation can through the noise, avoid receiving the fan blade to cause the injury to wild birds.

3. Under field conditions, the wind power received by the buffer baffle is continuously changed, so that the pressure applied to the insulation box through the arc-shaped push plate is also continuously changed, and the pressure received through the concave sliding sleeve can be accurately fed back to the pressure change of the inner cavity of the section cylinder shell, so that the wind power received by the position of the power storage device is judged, and a monitoring person can timely adjust the actual power supply value of the received fan blade according to the wind power.

4. The buffer part can cushion the inner chamber of insulation box through the inflatable cushion of inflation to reduce the vibration problem that the transmission pivot produced at the in-process that rotates the cutting magnetic induction line, and the inflatable cushion after the inflation is under natural condition, the gas of its inner chamber can overflow, leads to inflatable cushion to be shriveled gradually, loses the buffer capacity, and the device can be in time to the inflatable cushion through the built-in inflator of both sides, thereby avoids appearing above-mentioned problem.

5. The reinforcement part of the device can rotate through wind power control traction rotating plate, thereby utilize the rotation effect of traction rotating plate to screw thread slide column, constantly pressurize the inner chamber of sealed cylinder shell, thereby make the inner chamber of protective bottom section of thick bamboo and the surface of supporting the long post paste tightly each other, in order to consolidate the bottom of supporting the long post, and the traction rotating plate can not rotate this moment, in order to avoid traction rotating plate because stronger wind-force is broken after receiving great wind-force's influence, set up the slip concave dish that can slide in traction rotating plate's inside, thereby reduce the direct effort of wind to traction rotating plate.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of the insulation can of the present invention;

FIG. 4 is a cross-sectional view of the front end sleeve of the present invention;

FIG. 5 is a cross-sectional view of a protective member of the present invention;

FIG. 6 is a cross-sectional view of a cushioning component of the present invention;

FIG. 7 is a cross-sectional view of a reinforcement member of the present invention;

fig. 8 is a schematic structural view of an exhaust member of the present invention.

In the figure: 1. an electric storage device; 11. supporting the long column; 12. a fixed base; 13. fastening a bolt; 14. a receiving fan blade; 2. an insulation box; 21. a limiting end head; 22. a transmission rotating shaft; 23. a magnetic induction box; 3. a front end sleeve; 31. a filter collar; 32. filling a ring plate; 33. a pressurized push rod; 34. a side slide plate; 35. refitting a whistle ring; 4. a protection member; 41. a cross-sectional cartridge housing; 42. an arc push plate; 43. a buffer baffle; 44. a spherical end; 45. a concave sliding sleeve; 46. pressing blocks; 5. a buffer member; 51. folding the connecting rod; 52. a guide rod is arranged in the guide rod; 53. an inflatable cushion; 54. a metal slider; 55. an inflator is arranged in the air cylinder; 56. a magnetic rod is arranged in the magnetic rod; 6. a reinforcing member; 61. a protective bottom cylinder; 62. arc-shaped rotating blocks; 63. traction rotating plate; 64. a threaded spool; 65. a guide slide bar; 66. sealing the cartridge housing; 7. an exhaust member; 71. an axle center connecting rod; 72. a cluster slip ring; 73. a small spring; 74. a switching arm lever; 75. sliding concave plate.

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.

In embodiment 1, referring to fig. 1 to 5, the present invention provides a technical solution: the wind power generation energy storage device comprises an electric storage device 1, a support long column 11 is fixedly connected at the bottom of an inner cavity of the electric storage device 1, a fixed base 12 is fixedly connected at the bottom end of the support long column 11, two sides of the inner cavity of the fixed base 12 are fixedly connected with the ground through a fastening bolt 13,

the reinforcing component 6 can reinforce the bottom end part of the support long column 11, and the bottom end of the reinforcing component 6 is fixedly connected with the axis of the inner cavity of the fixed base 12;

the insulation box 2, the axle center of the bottom of the inner cavity of the insulation box 2 is fixedly connected with the top end of the supporting long column 11, the axle center of the inner cavity of the insulation box 2 is rotationally connected with a transmission rotating shaft 22, one side of the surface of the transmission rotating shaft 22 is uniformly provided with a driven fan blade 14 through a socket, one end of the transmission rotating shaft 22, which is close to the driven fan blade 14, is fixedly connected with a limiting end head 21, one side of the surface of the transmission rotating shaft 22, which is far away from the driven fan blade 14, is rotationally connected with a magnetic induction box 23, and the bottom of the surface of the magnetic induction box 23 is fixedly connected with the bottom of the inner cavity of the insulation box 2;

the front end sleeve 3, the one end that this front end sleeve 3 kept away from the pressurized fan leaf 14 passes through fixed socket and the inner chamber fixed connection of insulation case 2, one side that front end sleeve 3 inner chamber is close to the pressurized fan leaf 14 is through ring grooving fixedly connected with filtration ring shell 31, the middle part sliding connection of front end sleeve 3 inner chamber has packing ring plate 32, packing ring plate 32 surface is close to one side fixedly connected with pressurized push rod 33 of pressurized fan leaf 14, one side fixedly connected with repacking whistle ring 35 that one side that pressurized push rod 33 was kept away from to front end sleeve 3 inner chamber, the both sides of packing ring plate 32 inner chamber are all through turning even board fixedly connected with side slide 34.

The both sides on insulation case 2 surface all fixedly connected with protection component 4, and the one side that is close to by fan blade 14 of insulation case 2 inner chamber both sides all has seted up and has run through the grooving, and the surface of side slide 34 is through running through the inner wall sliding connection of grooving and insulation case 2, and the bottom fixed connection of support long post 11 inner chamber through vertical wire and magnetic induction case 23 inner chamber, and the middle part symmetry on transmission pivot 22 surface is provided with buffer component 5.

The spring housing is sleeved on the surface of the pressed push rod 33, one end of the pressed push rod 33, which is far away from the filling ring plate 32, extends to the outside of the front end sleeve 3 through the through hole, one end of the pressed push rod 33, which is far away from the filling ring plate 32, is in sliding connection with one side of the surface of the fan blade 14, the number of the fan blades 14 is three, and one side of the surface of the limiting end head 21, which is close to the pressed push rod 33, is in sliding connection with the surface of the fan blade 14.

The protection part 4 comprises a section cylinder shell 41, wherein one side, far away from the insulation box 2, of the inner wall of the section cylinder shell 41 is slidably connected with an arc-shaped push plate 42, one side, close to the insulation box 2, of the inner cavity of the arc-shaped push plate 42 is uniformly provided with a built-in magnetic rod 56, one side, far away from the insulation box 2, of the surface of the arc-shaped push plate 42 is fixedly connected with a buffer baffle 43 through a spring rod, two ends of the section cylinder shell 41 are fixedly connected with spherical end heads 44, one side, close to the section cylinder shell 41, of the inner cavity of the spherical end heads 44 is slidably connected with a concave sliding sleeve 45 through a penetrating sliding opening, and the middle part of the inner cavity of the concave sliding sleeve 45 is fixedly connected with a compression block 46.

One side of the inner cavity of the section cylinder shell 41 far away from the insulation box 2 is in sliding connection with the surface of the spring rod through a through hole, two ends of the arc-shaped push plate 42 are both in sliding connection with the surface of the spherical end 44, and the surface of the compression block 46 is fixedly connected with one end of the inner cavity of the spherical end 44 far away from the concave sliding sleeve 45.

After the device is arranged at a designated position for wind power generation, wind power can push the driven fan blade 14 to pull the transmission rotating shaft 22 to rotate, at the moment, the part of the transmission rotating shaft 22 inserted into the insulation box 2 can rotate in the inner cavity of the magnetic induction box 23, so that the movement of cutting magnetic induction lines is further performed, and then, the electric power is transported into the fixed base 12 through a wire of the inner cavity of the bottom support long column 11 for storage or use.

In the process of rotating the fan receiving blades 14, the surfaces of the fan receiving blades 14 periodically squeeze the side pressure pushing rods 33, so that the pressure pushing rods 33 push the filling ring plates 32 to slide along the inner wall of the front end sleeve 3, at the moment, the side sliding plates 34 on two sides slide along the inner cavity of the insulation box 2 under the pushing action of the filling ring plates 32, the notches on two sides of the insulation box 2 are opened, at the moment, the buffer baffle plates 43 on two sides push the section cylinder shell 41 to slide towards one side close to the insulation box 2 under the action of external wind force, the gas in the insulation box 2 is replaced, and then the insulation box 2 is cooled under the action of the external wind force, so that the insulation box 2 can be cooled under the condition of not carrying out convection with the external air, and dust impurities generated by wind force are prevented from corroding the shell.

When the filling ring plate 32 slides to the side close to the insulation box 2, the filling ring plate 32 pressurizes the side close to the modified whistle ring 35, at this time, outside air enters the front end sleeve 3 through the holes of the filtering ring shell 31, and then air flows through the whistle mouth of the modified whistle ring 35, so that the modified whistle ring 35 emits whistle sound, and an alarm sound is generated.

When external wind force acts on the side surface of the air receiving fan blade 14 to push the air receiving fan blade 14 to rotate, the buffer baffle 43 positioned at the side is also acted by the wind force, so that the buffer baffle 43 is pushed to slide to one side close to the insulation box 2 by pushing the section cylinder shell 41 through the spring rod, the inner cavity of the section cylinder shell 41 is further pressurized, the side sliding plate 34 can open openings at two sides of the inner cavity of the insulation box 2 in the sliding process, and then the inner cavity of the section cylinder shell 41 is depressurized, so that the pressure received by the inner cavity of the concave sliding sleeve 45 can change along with the opening size of the insulation box 2 to be opened, and then the pressure is fed back to the pressure receiving block 46.

In embodiment 2, referring to fig. 1 to 8, the present invention provides a technical solution: on the basis of the first embodiment, the buffer component 5 comprises a folding connecting rod 51, an inner cavity of the folding connecting rod 51 is slidably connected with a built-in guide rod 52, one end of the folding connecting rod 51 far away from the transmission rotating shaft 22 is fixedly connected with an inflatable cushion 53, an axle center of the inner cavity of the inflatable cushion 53 is fixedly connected with a metal sliding block 54, and two sides of the surface of the metal sliding block 54 are slidably connected with built-in air cylinders 55 through inner frame plates.

One side of the surface of the metal sliding block 54 is in sliding connection with one end of the inner cavity of the folding connecting rod 51, the other side of the surface of the metal sliding block 54 is in sliding connection with one side of the inner cavity of the inflatable cushion 53, the surface of the inflatable cushion 53 is in sliding connection with the inner wall of the insulation box 2, and the surface of the built-in inflator 55 is fixedly connected with one end of the inner cavity of the inflatable cushion 53.

The reinforcement part 6 comprises a protection bottom cylinder 61, an arc-shaped rotating block 62 is rotatably connected to the top of the inner cavity of the protection bottom cylinder 61 through annular grooves, a traction rotating plate 63 is fixedly connected to one side, far away from the support long column 11, of the surface of the arc-shaped rotating block 62, an exhaust part 7 is fixedly connected to the middle part of the inner cavity of the traction rotating plate 63, a guide sliding rod 65 is fixedly connected to the bottom end of the arc-shaped rotating block 62, a threaded sliding column 64 is slidingly connected to the middle part of the surface of the guide sliding rod 65, and a sealing cylinder shell 66 is slidingly connected to the bottom end of the surface of the guide sliding rod 65.

The surface of the thread sliding column 64 is meshed with the inner cavity of the protective bottom cylinder 61 through a thread groove, the bottom end of the sealing cylinder shell 66 is in sliding connection with the bottom of the inner cavity of the protective bottom cylinder 61, the inner wall of the protective bottom cylinder 61 is fixedly connected with the bottom of the surface of the support long column 11, and the bottom of the inner cavity of the sealing cylinder shell 66 is fixedly connected with the inner cavity of the fixed base 12 through a connecting wire.

In the process of rotating the transmission rotating shaft 22, the buffer parts 5 positioned at the two sides of the transmission rotating shaft 22 are also rotated, at this time, the folding connecting rods 51 used for supporting the inner cavity of the insulation box 2 are rotated, when the folding connecting rods 51 at the two sides are gradually rotated to be in a horizontal state, through the openings opened at the two sides of the inner cavity of the insulation box 2, the metal sliding blocks 54 can be applied with repulsive force by the built-in magnetic rods 56 at the two sides, so that the folding connecting rods 51 are compressed, the inflatable cushion 53 can smoothly sweep the inner wall of the insulation box 2, at this time, the metal sliding blocks 54 slide along the inner cavity of the folding connecting rods 51 towards the top end close to the built-in guide rods 52, then contact with the top ends of the built-in guide rods 52, the built-in air cylinders 55 at the two sides are electrified to work, and air supplement is carried out on the inner cavity of the inflatable cushion 53, so that the inflatable cushion 53 is prevented from being shrivelled due to air leakage.

After the insulation box 2 and the support long column 11 are erected, the support long column 11 is sleeved with the protection bottom cylinder 61 at the root part, bending stress on the root part of the support long column 11 is reduced, bending deflection angles of the device under the action of long-term wind force are avoided, and because of the wind force, the traction rotating plates 63 on two sides also rotate along the top of the inner cavity of the protection bottom cylinder 61, and then the guide sliding rod 65 is pulled to rotate around the inside of the protection bottom cylinder 61 through the arc rotating block 62, at the moment, the threaded sliding column 64 on the outer surface of the guide sliding rod 65 rotates under the action of guide threads of the inner cavity of the protection bottom cylinder 61, so that the outer surface of the guide sliding rod 65 slides downwards relatively, and the inner cavity of the sealing cylinder shell 66 is pressurized through the concave shell at the bottom.

The exhaust part 7 comprises an axle center connecting rod 71, both ends of the inner cavity of the axle center connecting rod 71 are fixedly connected with small springs 73, both sides of the surface of the axle center connecting rod 71 are slidably connected with a bundling slip ring 72 through the small springs 73, the inner cavity of the bundling slip ring 72 is uniformly provided with a switching arm rod 74, one end of the switching arm rod 74, which is far away from the bundling slip ring 72, is fixedly connected with a sliding concave disc 75, both ends of the axle center connecting rod 71 are fixedly connected with the middle part of the inner cavity of the traction rotating plate 63, and the surface of the sliding concave disc 75 is slidably connected with the inner cavity of the traction rotating plate 63 through a groove.

In the process that the traction rotating plate 63 rotates by wind force, the outer surface of the traction rotating plate 63 also acts by wind force, so that the sliding concave disc 75 is pushed to the inner cavity of the traction rotating plate 63, when the wind force is overlarge, the cluster slip ring 72 compresses the small spring 73 by the stress, so that the sliding concave disc 75 is separated from the socket of the traction rotating plate 63, the traction rotating plate 63 at the moment is in a ventilation state and is influenced by wind force, the wind force acting on the traction rotating plate 63 can be reduced, the traction rotating plate 63 is prevented from being broken by strong wind force, and the influence of the wind force is relieved.

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 wind power generation energy memory, includes power storage device (1), the bottom fixedly connected with of power storage device (1) inner chamber supports long post (11), the bottom fixedly connected with unable adjustment base (12) of supporting long post (11), the both sides of unable adjustment base (12) inner chamber are all through fastening bolt (13) and ground fixed connection, its characterized in that: comprising the steps of (a) a step of,

the reinforcing component (6) can reinforce the bottom end part of the supporting long column (11), and the bottom end of the reinforcing component (6) is fixedly connected with the axle center of the inner cavity of the fixed base (12);

the insulation box (2), the axle center department of this insulation box (2) inner chamber bottom is connected with the top of supporting the long post (11) fixedly, the axle center department of insulation box (2) inner chamber rotates and is connected with transmission pivot (22), one side on transmission pivot (22) surface evenly is provided with through the socket and receives fan blade (14), the one end fixedly connected with spacing end (21) that transmission pivot (22) is close to receiving fan blade (14), one side that transmission pivot (22) surface kept away from receiving fan blade (14) rotates and is connected with magnetic induction case (23), the bottom on magnetic induction case (23) surface and the bottom fixed connection of insulation box (2) inner chamber;

front end sleeve (3), the one end that receives fan blade (14) is kept away from to this front end sleeve (3) is through fixed socket and the inner chamber fixed connection of insulation case (2), one side that receives fan blade (14) is close to in front end sleeve (3) inner chamber is through ring grooving fixedly connected with filtration ring shell (31), the middle part sliding connection of front end sleeve (3) inner chamber has packing ring plate (32), packing ring plate (32) surface is close to one side fixedly connected with pressurized push rod (33) that receives fan blade (14), one side fixedly connected with repacking whistle ring (35) that pressurized push rod (33) was kept away from to front end sleeve (3) inner chamber, the both sides that fill ring plate (32) inner chamber are all through turning even board fixedly connected with side slide (34).

2. A wind power energy storage device according to claim 1, wherein: the two sides of the surface of the insulation box (2) are fixedly connected with the protection parts (4), one side of the two sides of the inner cavity of the insulation box (2) close to the fan blade (14) is provided with a through cutting groove, the surface of the side sliding plate (34) is in sliding connection with the inner wall of the insulation box (2) through the through cutting groove, the inner cavity of the support long column (11) is fixedly connected with the bottom of the inner cavity of the magnetic induction box (23) through a vertical wire, and buffer parts (5) are symmetrically arranged in the middle of the surface of the transmission rotating shaft (22).

3. A wind power energy storage device according to claim 2, wherein: the spring housing has been cup jointed on the surface of pressurized push rod (33), the one end that pressurized push rod (33) kept away from packing annular plate (32) extends to the outside of front end sleeve (3) through the through-hole, the one end that pressurized push rod (33) kept away from packing annular plate (32) is with the one side sliding connection on the surface of receiving fan leaf (14), the quantity of receiving fan leaf (14) is three, the one side that spacing end (21) surface is close to pressurized push rod (33) is with the surface sliding connection of receiving fan leaf (14).

4. A wind power energy storage device according to claim 2, wherein: the protection component (4) comprises a section cylinder shell (41), one side of insulating box (2) is kept away from to section cylinder shell (41) inner wall sliding connection has arc push pedal (42), one side that arc push pedal (42) inner chamber is close to insulating box (2) evenly is provided with built-in magnetic pole (56), one side that insulating box (2) is kept away from on arc push pedal (42) surface is passed through spring rod fixedly connected with buffer baffle (43), the equal fixedly connected with sphere end (44) in both ends of section cylinder shell (41), one side that sphere end (44) inner chamber is close to section cylinder shell (41) is through running through sliding connection has concave sliding sleeve (45), the middle part fixedly connected with pressurized piece (46) of concave sliding sleeve (45) inner chamber.

5. A wind power generation and energy storage device according to claim 4, wherein: one side of the inner cavity of the section cylinder shell (41) far away from the insulation box (2) is in sliding connection with the surface of the spring rod through a through hole, two ends of the arc-shaped push plate (42) are both in sliding connection with the surface of the spherical end head (44), and the surface of the compression block (46) is fixedly connected with one end of the inner cavity of the spherical end head (44) far away from the concave sliding sleeve (45).

6. A wind power generation and energy storage device according to claim 5, wherein: the buffer component (5) comprises a folding connecting rod (51), an inner cavity of the folding connecting rod (51) is slidably connected with a built-in guide rod (52), one end, far away from the transmission rotating shaft (22), of the folding connecting rod (51) is fixedly connected with an inflatable cushion (53), a metal sliding block (54) is fixedly connected with the axle center of the inner cavity of the inflatable cushion (53), and two sides of the surface of the metal sliding block (54) are slidably connected with built-in air cylinders (55) through inner frame plates.

7. A wind power generation and energy storage device according to claim 6, wherein: one side of the surface of the metal sliding block (54) is in sliding connection with one end of the inner cavity of the folding connecting rod (51), the other side of the surface of the metal sliding block (54) is in sliding connection with one side of the inner cavity of the inflatable cushion (53), the surface of the inflatable cushion (53) is in sliding connection with the inner wall of the insulation box (2), and the surface of the built-in air cylinder (55) is fixedly connected with one end of the inner cavity of the inflatable cushion (53).

8. A wind power energy storage device according to claim 1, wherein: the reinforcing component (6) comprises a protection bottom cylinder (61), an arc-shaped rotating block (62) is rotationally connected to the top of an inner cavity of the protection bottom cylinder (61) through annular grooves, a traction rotating plate (63) is fixedly connected to one side, away from a support long column (11), of the surface of the arc-shaped rotating block (62), an exhaust component (7) is fixedly connected to the middle part of the inner cavity of the traction rotating plate (63), a guide sliding rod (65) is fixedly connected to the bottom end of the arc-shaped rotating block (62), a threaded sliding column (64) is slidingly connected to the middle part of the surface of the guide sliding rod (65), and a sealing cylinder shell (66) is slidingly connected to the bottom end of the surface of the guide sliding rod (65).

9. A wind power energy storage device according to claim 8, wherein: the surface of screw thread traveller (64) is connected with the inner chamber meshing of protection end section of thick bamboo (61) through the screw thread groove, the bottom of sealed shell (66) is connected with the bottom sliding of protection end section of thick bamboo (61) inner chamber, the inner wall of protection end section of thick bamboo (61) is connected with the bottom fixed connection on support long column (11) surface, the bottom of sealed shell (66) inner chamber is connected with the inner chamber fixed connection of unable adjustment base (12) through connecting wire.