CN118300507B - Solar energy power energy storage device - Google Patents

Abstract

The invention relates to a solar electric power energy storage device, which belongs to the technical field of solar photovoltaic charging and comprises a fixed shed, an electric storage device arranged at the bottom of the fixed shed and a photovoltaic panel electrically connected with the electric storage device, wherein one side of the fixed shed is fixedly connected with the ground, the other side of the fixed shed is provided with a storage mechanism for storing the photovoltaic panel, and the photovoltaic panel is connected with the storage mechanism in a foldable manner through a photovoltaic folding mechanism; the bottom of the fixed shed is provided with a suspension box, the suspension box is connected with the fixed shed through a lifting suspension device, and the electric power storage device is arranged in the suspension box. The invention can adjust and protect the position according to the actual situation, and effectively prolongs the service life of the device.

Description

Solar energy power energy storage device

Technical Field

The invention relates to a solar power energy storage device, and belongs to the technical field of solar photovoltaic charging.

Background

Solar energy is a renewable energy source, and compared with traditional fossil fuels such as coal, oil, gas and the like, the solar energy has the characteristics of environmental protection, cleanness and reproducibility, and the use of the solar energy is beneficial to protecting the earth environment. Solar energy is energy from the sun continuously, and the solar energy can be converted into electric energy through a photovoltaic panel, so that the solar energy can be widely applied to the fields of families, industry, agriculture and the like.

With the advent of low-carbon society, electric vehicles are used in a large number, and a large number of electric vehicles are charged simultaneously, so that great impact is brought to a power grid. At present, a solar energy storage charging shed is built at the positions of a parking lot, a garage and the like to provide charging service for automobiles parked under the shed, so that the load pressure on a traditional power grid can be effectively reduced.

However, the existing solar energy storage device is usually directly installed on the ground, the position cannot be adjusted, and therefore under the condition that the water level on the ground is increased or heavy rain is caused, the performance of rain protection and water prevention is poor, the solar photovoltaic panel is usually fixed, dust is easily accumulated to influence the power generation efficiency, and long-term use of the photovoltaic panel is not facilitated.

The solar car shed disclosed in the Chinese patent of utility model with the bulletin number of CN218324146U comprises a bottom plate, a supporting structure arranged on the upper part of the bottom plate, a ceiling arranged on the upper part of the supporting structure, a solar power generation assembly arranged on the upper part of the ceiling and a power storage cabinet electrically connected with the solar power generation assembly, wherein the power storage cabinet is electrically connected with a power exchange cabinet, and a charging socket assembly is arranged on the supporting structure.

Above-mentioned reference example sets up the electricity storage cabinet on the bottom plate, with the fixed setting of photovoltaic board on the ceiling, it can't handle heavy rain weather well, it can submerge the electricity storage cabinet when heavy rain weather leads to the water level to rise and lead to its short circuit damage, and the unable adjustment in position of photovoltaic board, perhaps can store a large amount of dust on photovoltaic board surface after a long time, and then influence generating efficiency, and photovoltaic board can't pack up when not needing to use, the life of photovoltaic board has been reduced in the face of blowing rain, therefore the urgent need improves.

Disclosure of Invention

In order to overcome the defects that the existing energy storage device and the photovoltaic panel cannot be adjusted in position, rainwater is easy to damage, service life is easy to influence and the like, the invention designs the solar power energy storage device which can be used for adjusting and protecting the position according to actual conditions, and the service life of the device is effectively prolonged.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the solar energy power energy storage device comprises a fixed shed, an electric storage device arranged at the bottom of the fixed shed and a photovoltaic panel electrically connected with the electric storage device, wherein one side of the fixed shed is fixedly connected with the ground, the other side of the fixed shed is provided with a storage mechanism for storing the photovoltaic panel, and the photovoltaic panel is connected with the storage mechanism in a foldable manner through a photovoltaic folding mechanism; the bottom of the fixed shed is provided with a suspension box, the suspension box is connected with the fixed shed through a lifting suspension device, and the electric power storage device is arranged in the suspension box.

Further, the storage mechanism comprises a protection plate and a mounting box, and the photovoltaic plate and the photovoltaic folding mechanism are both arranged in the mounting box; the utility model discloses a fixed canopy, including fixed canopy, guard plate, mounting box, slotted sliding propulsion mechanism, fixed canopy, mounting box, slotted sliding propulsion mechanism is provided with the fluting has been run through in the bottom orientation, and the fixed canopy one side slope is kept away from to the bottom orientation, and the guard plate side lower half has been run through and has been offered the fluting, and the guard plate is close to one side that fixed canopy is fixed with a pair of guide rail that sets up along guard plate length direction, two slidable mounting has between the guide rail and removes the frame, remove the frame through installing the actuating mechanism drive motion on the guard plate, the mounting box is installed and is being close to one side of guard plate at the removal frame, and is provided with between mounting box and the removal frame and is used for ejecting out slotted sliding propulsion mechanism.

Further, the sliding propulsion mechanism comprises a guide plate and a plurality of lifting rods, the guide plate is fixed at the bottom end of the protection plate and is positioned at one side of the installation box, a bending groove is formed in the guide plate, the bending groove comprises a long groove and a short groove, the long groove is in the same direction as the sliding direction of the installation box, the short groove is communicated with the long groove and is perpendicular to the sliding direction of the installation box, and the free end of the short groove is close to the protection plate; the bottom ends of the lifting rods are hinged with the movable frame, the top ends of the lifting rods are hinged with the mounting box, and the hinging rod at the top end of one lifting rod closest to the free end of the long groove is hinged with a clamping wheel which is clamped in the bending groove in a rolling mode.

Further, actuating mechanism includes pivot, gear, rack and driving motor, the guard plate is close to one side of fixed canopy and is fixed with a pair of mounting panel, and two mounting panels set up the outside at two guide rails respectively, the pivot rotates and installs between two mounting panels, the fixed cover of gear is established in the pivot, the rack is fixed and is meshed in the removal frame bottom and with the gear, and rack and guide rail mutual parallel arrangement.

Further, the photovoltaic folding mechanism comprises a strip sliding rod, a shear knife rest, a sliding block and a shifting mechanism, wherein an upper step groove and a lower step groove are sequentially formed in the top end of the strip sliding rod from top to bottom, and the bottom end of the lower step groove penetrates through the strip sliding rod; one end of the scissor frame is hinged with the top end of the strip sliding rod, the other end of the scissor frame is hinged with the sliding block, the sliding block is slidably clamped in the upper step groove, a plurality of cross hinge points between two ends of the scissor frame are all arranged right above the upper step groove and are fixedly connected with the photovoltaic panel through swinging shafts on the cross hinge points right above the upper step groove, each swinging shaft downwards and movably penetrates through the cross hinge point and is fixedly connected with a Z-shaped rod, and the Z-shaped rod stretches out of the lower step groove and then is shifted to rotate through a shifting mechanism; the scissors frame and the shifting mechanism are driven to move through the driving assembly.

Further, the shifting mechanism comprises a first bending rod, a second bending rod, a steering rod and a push-pull rod, the first bending rod and the second bending rod are rotatably arranged on two sides of the bottom end of the long-strip sliding rod, the steering rod and the push-pull rod are arranged in parallel and are hinged with the first bending rod and the second bending rod respectively, the steering rod is arranged on one side, close to the long-strip sliding rod, of the push-pull rod, a steering groove is formed in the top end of the steering rod along the length direction, and the free end of the Z-shaped rod is movably clamped in the steering groove.

Further, the opening at one side of the suspension box is arranged, a protective door component for closing the opening is arranged in the suspension box, the protective door component comprises a movable plate, a track plate and a swinging mechanism, the track plate is fixed on the inner side wall of the suspension box, the track plate comprises a transverse plate, an inclined plate and a vertical plate which are sequentially connected from top to bottom, the vertical plate is arranged close to one side of the opening, and a supporting wheel which is attached to the track plate is rotatably arranged at the bottom end of the movable plate; the swing mechanism comprises a hinged connecting rod and a deflector rod, one end of the hinged connecting rod is hinged with one side, close to the opening, of the bottom end of the movable plate, the middle part of the hinged connecting rod is rotationally connected with the vertical plate, the other end of the hinged connecting rod is fixedly connected with the deflector rod, and the free end of the deflector rod vertically penetrates through an arc-shaped guide groove formed in the side wall of the suspension box.

Further, the hinged connecting rod comprises a first swinging rod and a second swinging rod, a rotating sleeve is integrally connected between the first swinging rod and the second swinging rod, a fixed column is rotatably sleeved in the rotating sleeve, and the free end of the fixed column is fixedly connected with the vertical plate; the first hook column is sleeved at the free end of the second swinging rod, a second hook column is fixed on the inner side wall of the suspension box, the second hook column is arranged below the first hook column and close to the opening side, and a spring is connected between the first hook column and the second hook column.

Further, the suspension device comprises a winding machine arranged at the top end of the fixed shed, a lifting rope is wound at the output end of the winding machine, and the free end of the lifting rope movably penetrates through the top of the fixed shed and is fixedly connected with the suspension box; the two sides of the suspension box are respectively connected with rolling wheels through rolling grooves in a clamping mode, the rolling wheels on one side are connected with the storage mechanism through the supporting plates, and the rolling wheels on the other side are connected with the inner side walls of the fixed shed through the supporting plates.

Further, a wind direction sensor, a wind speed sensor and a rainwater sensor are arranged on the protection plate, and the wind direction sensor, the wind speed sensor and the rainwater sensor are all externally connected with an upper computer.

Compared with the prior art, the invention has the following characteristics and beneficial effects:

1. According to the solar photovoltaic panel folding device, the storage mechanism is arranged, the photovoltaic panel can be folded when the solar photovoltaic panel is not used or rained, a better protection effect can be achieved, the photovoltaic panel is prevented from being exposed to wind and rain, the service life is shortened, meanwhile, the photovoltaic panel can be well prevented from being exposed to dust accumulated outside when the photovoltaic panel is not used, the cleaning frequency of the photovoltaic panel is reduced, the photovoltaic panel can be folded in the windy weather through the arrangement of the photovoltaic folding mechanism, wind resistance can be effectively reduced, the photovoltaic panel is prevented from being blown away, and the use stability of the photovoltaic panel is further improved.

2. According to the invention, the fixed shed can shield rainwater and sun, so that the electric storage device in the suspension box is protected, and through the design of the suspension box capable of lifting, rainwater can be prevented from entering the suspension box by adjusting the height of the suspension box, and the suspension of a certain height is beneficial to ensuring the cleanliness of the bottom of the suspension box and preventing dirt such as soil from being stuck.

3. According to the invention, the rolling grooves are arranged on two sides of the suspension box and are clamped with the rolling wheels, one rolling wheel is connected with the storage mechanism through the supporting plate, the other rolling wheel is connected with the inner side wall of the fixed shed through the supporting plate, the movement track of the suspension box can be relatively fixed through the arrangement of the rolling wheels, the lifting stability is higher, a certain wind deflection resistance capability can be provided, and the stability is better.

4. According to the invention, the opening and the protective door assembly are arranged at the front end of the suspension box, and the protective door assembly is closed when the electric storage device is required to be protected, the safety of the electric storage device can be effectively improved by arranging the protective door assembly, the convenience in maintenance can be further improved by arranging the opening, meanwhile, when the movable plate can be opened and closed again by arranging the springs, the movable plate can be automatically closed or closed by overcoming the elasticity of a certain spring, the opening and closing of the movable plate can be more conveniently controlled, the convenience in operation is improved, and the opening and closing of the movable plate are more stable and controllable by arranging the springs, the state of the movable plate can be more accurately controlled, and the convenience and the protection stability of the whole suspension box in use are improved.

5. According to the invention, through the arrangement of the driving mechanism, the efficient driving of the movable frame is realized by utilizing the cooperation of the rotating shaft, the gear, the rack and the driving motor, the operation efficiency and the speed of the whole storage system are improved, and the stability and the continuous operation reliability of the driving mechanism are ensured by matching with the design of the guide rail; when the photovoltaic panel needs to be stored, the driving mechanism is started, the movable frame starts to slide and push towards the slot, and the mounting box is pushed out of the slot under the action of the sliding pushing mechanism; after the installation box is completely pushed out, the photovoltaic panel can be unfolded through the photovoltaic folding mechanism, so that the irradiation area of the photovoltaic panel is increased; the setting of guide rail is convenient for remove the frame motion to the fluting sets up in the guard plate lower half, can accomodate the upper half of guard plate with the photovoltaic board when not using the photovoltaic board, and then improves the placing height of photovoltaic board, can prevent rainwater and high water level's influence effectively, improves the security.

6. According to the invention, through the arrangement of the sliding propulsion mechanism, the photovoltaic panel can be stably and efficiently stored, the position of the photovoltaic panel can be raised while the photovoltaic panel is stored, so that the risk of soaking caused by rainwater and high water level can be effectively avoided, the wind and sun exposure can be effectively avoided, the service life of the photovoltaic panel is effectively prolonged, and the lifting process of the mounting box is more stable and accurate due to the arrangement of the lifting rod, the clamping wheel and the bending groove.

7. According to the photovoltaic panel protection device, the unfolding or the folding of the scissor rest is controlled, so that the photovoltaic panel is protected conveniently; simultaneously, through the setting of Z shape pole and thumb turn mechanism, can rotate the oscillating axle, and then adjust the angle of photovoltaic board, can be the cockscomb structure through the angle of adjusting each photovoltaic board and reduce the windward area in strong wind weather, guarantee structural stability to can also make the dust on photovoltaic board surface clear up automatically through the angle of adjusting the photovoltaic board, labour saving and time saving.

8. The photovoltaic panel can furthest reduce the influence of wind force on the photovoltaic panel through adjusting the angle under the strong wind environment, ensures the safe and stable operation of the system, simultaneously, along with the change of the sun position, the photovoltaic panel can adjust the angle of sunward, fully utilizes solar energy resources, improves the power generation efficiency and the energy collection efficiency of the photovoltaic system, and furthest improves the power output capability of the system.

Drawings

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

FIG. 2 is a schematic view of a front view of a housing mechanism according to the present invention;

FIG. 3 is a schematic perspective view of a first view of the receiving mechanism according to the present invention;

FIG. 4 is a schematic perspective view of a second view of the receiving mechanism of the present invention;

FIG. 5 is a schematic perspective view of a third view of the receiving mechanism according to the present invention;

FIG. 6 is a schematic perspective view of a fourth view of the receiving mechanism of the present invention;

FIG. 7 is a schematic top view of the mounting structure of the mobile frame of the present invention;

FIG. 8 is a schematic side view of the mounting structure of the mobile frame of the present invention;

FIG. 9 is a schematic side view of the bending tank of the present invention;

FIG. 10 is a schematic perspective view of a photovoltaic folding mechanism according to the present invention at a first viewing angle;

FIG. 11 is a schematic perspective view of a second view of the photovoltaic folding mechanism of the present invention;

FIG. 12 is a schematic view of a partial structure of the photovoltaic folding mechanism of the present invention;

FIG. 13 is a bottom view of the photovoltaic folding mechanism of the present invention;

FIG. 14 is a schematic perspective view of a Z bar of the present invention;

FIG. 15 is a schematic perspective view of the interior of the suspension housing of the present invention at a first view;

FIG. 16 is a schematic perspective view of the interior of the suspension housing of the present invention from a second perspective;

FIG. 17 is a schematic side view of the interior of the suspension housing of the present invention;

FIG. 18 is a schematic side elevational view of the suspension housing of the present invention;

fig. 19 is a schematic view of the structure of the track plate of the present invention.

Wherein the reference numerals are as follows:

100. A suspension box; 200. a storage mechanism; 300. a photovoltaic folding mechanism; 1. fixing the shed; 2. a support plate; 3. a rolling wheel; 4. a hanging rope; 5. a winder; 6. an electric storage device; 7. a movable plate; 8. a support wheel; 9. a track plate; 10. a first swing lever; 11. fixing the column; 12. a second swing lever; 13. a first hooking column; 14. an end cap; 15. a spring; 16. a second hooking column; 17. a deflector rod; 19. an adapter plate; 20. an arc-shaped guide groove; 901. a riser; 902. a sloping plate; 903. a cross plate; 101. a rotating sleeve; 21. a protection plate; 22. a mounting plate; 23. a guide rail; 24. a gear; 25. a rack; 26. a guide plate; 27. a bending groove; 28. a clamping wheel; 29. slotting; 30. a rotating shaft; 31. a mounting box; 32. a moving rack; 33. a lifting rod; 2701. a long groove; 2702. a short groove; 34. a photovoltaic panel; 35. an upper step groove; 36. a lower step groove; 37. a slide block; 38. a mounting sleeve; 39. a shear blade holder; 40. an extension rod; 41. a first bending rod; 42. a push-pull rod; 43. a second bending rod; 44. a strip slide bar; 47. a steering lever; 48. a steering groove; 49. a Z-shaped rod; 50. a cross hinge point; 52. and a swinging shaft.

Detailed Description

The present invention will be described in more detail with reference to examples.

Example 1

Referring to fig. 1,15, 16,17,18 and 19, the solar energy power storage device of the present embodiment includes a fixed shed 1, a power storage device 6 disposed at the bottom of the fixed shed 1, and a photovoltaic panel 34 electrically connected to the power storage device 6, where the photovoltaic panel 34 is used to collect solar energy to convert it into electric energy, and the power storage device 6 is used to store the electric energy and can charge an electric automobile;

Specifically, one side of the fixed shed 1 is fixedly connected with the ground, the other side is provided with a containing mechanism 200 for containing the photovoltaic panel 34, and the photovoltaic panel 34 is foldably connected with the containing mechanism 200 through a photovoltaic folding mechanism 300;

the bottom of the fixed shed 1 is provided with a suspension box 100, the suspension box 100 is connected with the fixed shed 1 through a lifting suspension device, and the power storage device 6 is arranged in the suspension box 100.

As can be seen from the above description, the invention has the advantages that the photovoltaic panel 34 can be folded when no sun or rain is present by the arrangement of the storage mechanism 200, which can play a better role in protecting the photovoltaic panel 34 from being exposed to wind and rain, thereby shortening the service life, and simultaneously, the photovoltaic panel 34 can be well prevented from being exposed to the dust accumulated outside when not in use, the cleaning frequency of the photovoltaic panel 34 is reduced, and the photovoltaic panel 34 can be folded when in windy weather by the arrangement of the photovoltaic folding mechanism 300, the wind resistance can be effectively reduced, the photovoltaic panel 34 is prevented from being blown away, and the use stability of the photovoltaic panel 34 is further improved;

in addition, can shelter from rainwater and sun through setting up fixed canopy 1, the inside power storage device 6 of protection suspension case 100, moreover through the suspension type design of suspension case 100 liftable, can avoid the rainwater to get into suspension case 100 through adjusting the height of suspension case 100 to hang certain high being favorable to guaranteeing the cleanliness of suspension case 100 bottom, prevent to stick dirty such as earth.

In this embodiment, the suspension device includes a winder 5, the winder 5 is mounted on the top end of the fixed shed 1, the output end of the winder 5 is wound with a lifting rope 4, the free end of the lifting rope 4 moves and is fixedly connected with the suspension box 100 after penetrating through the top of the fixed shed 1 in a sealing manner, the lifting rope 4 can be driven to lift by winding at the output end of the winder 5, and then the suspension box 100 is driven to lift, in particular, the winder 5 is started under control of an upper computer, and the upper computer controls the starting of the winder 5 according to weather conditions and ground water level, so that intelligent protection is realized;

in order to prevent to hang case 100 and rock, hang case 100 both sides and all have the roll round 3 through the roll groove joint, and the roll round 3 of one side is connected with receiving mechanism 200 through backup pad 2, and the roll round 3 of opposite side is connected with fixed canopy 1 inside wall through backup pad 2, can make the motion trail of hanging case 100 relatively fixed through the setting of roll round 3, and lifting stability is higher to can also provide certain anti-wind deflection ability, stability is better.

Further, referring to fig. 15, 16, 17, 18 and 19, an opening is formed at one side of the suspension box 100, and a protective door assembly for closing the opening is provided inside the suspension box 100, when the electric storage device 6 is required to be protected during maintenance, the protective door assembly is closed when the electric storage device 6 is required to be protected during specific use, the safety of the electric storage device 6 can be effectively improved by the arrangement of the protective door assembly, and convenience in maintenance can be further improved by the arrangement of the opening.

In this embodiment, the guard door assembly includes a movable plate 7, a track plate 9, and a swing mechanism;

The track plate 9 is fixed on the inner side wall of the suspension box 100, the track plate 9 comprises a transverse plate 903, an inclined plate 902 and a vertical plate 901 which are sequentially connected from top to bottom, the vertical plate 901 is arranged near one side of the opening, and the bottom end of the movable plate 7 is rotatably provided with a supporting wheel 8 which is attached to the track plate 9; when the movable plate 7 is closed, the supporting wheels 8 can descend along the track plate 9 and are always attached to the extruded track plate 9, and the track plate 9 plays a role in guiding and supporting;

The swinging mechanism comprises a hinged connecting rod and a deflector rod 17, one end of the hinged connecting rod is hinged with one side, close to the opening, of the bottom end of the movable plate 7, the middle part of the hinged connecting rod is rotatably connected with the vertical plate 901, the other end of the hinged connecting rod is fixedly connected with the deflector rod 17, and the free end of the deflector rod 17 vertically penetrates through an arc-shaped guide groove 20 formed in the side wall of the suspension box 100;

The hinged connecting rod comprises a first swinging rod 10 and a second swinging rod 12, a rotating sleeve 101 is integrally connected between the first swinging rod 10 and the second swinging rod 12, a fixed column 11 is rotatably sleeved in the rotating sleeve 101, and the free end of the fixed column 11 is fixedly connected with a vertical plate 901;

Specifically, a pair of adapter plates 19 are fixed at the bottom end of the movable plate 7, two adapter plates 19 are arranged at intervals in front-back, one adapter plate 19 is rotationally connected with the supporting wheel 8, and the other adapter plate 19 is hinged with the end part of the first swinging rod 10.

As is clear from the above description, the movable plate 7 is normally closed under the action of gravity, so that the electric storage device 6 inside the suspension box 100 can be effectively protected;

The working principle of the embodiment is as follows: referring to fig. 15, 16, 17 and 18, the movable plate 7 is in an open state;

when the movable plate 7 is closed, the deflector rod 17 moves upwards along the arc-shaped guide groove 20, the deflector rod 17 drives the hinged connecting rod to rotate anticlockwise around the fixed column 11, and then the free end of the first swinging rod 10 drives one end of the movable plate 7 close to the opening to move downwards, when the deflector rod 17 reaches the top end of the arc-shaped guide groove 20, the bottom end of the movable plate 7 just abuts against the inner wall of the bottom end of the suspension box 100, and the movable plate 7 can be kept stable in the moving process by matching with the arrangement of the supporting wheel 8, so that the movable plate 7 is convenient to close, and due to the gravity of the movable plate 7, the movable plate 7 can be automatically closed, so that a good protective effect can be achieved, and when the movable plate 7 needs to be opened again after the movable plate 7 is closed, the movable plate 7 needs to be opened upwards due to the fact that the deflector rod 17 needs to be reversely rotated, the movable plate 7 can not be opened under the condition that no external force, a certain wind deflection and rain protection effect can be achieved, and the movable plate 7 can be opened smoothly only by reversely stirring the deflector rod 17 when the movable plate 7 is opened.

In particular, in order to facilitate the opening of the movable plate 7, the free end of the second swinging rod 12 is sleeved with a first hook post 13, a second hook post 16 is fixed on the inner side wall of the suspension box 100, the second hook post 16 is arranged below the first hook post 13 and close to the opening side, a spring 15 which is always in a pulled-up state is connected between the first hook post 13 and the second hook post 16, the second hook post 16 is arranged closer to the opening direction than the first hook post 13, the arrangement of the spring 15 is matched, the convenience is improved in the process of opening the movable plate 7, specifically, hooks are arranged at two ends of the spring 15, the two hooks are respectively hooked on the first hook post 13 and the second hook post 16, and in order to prevent the spring 15 from falling out, the end parts of the first hook post 13 and the second hook post 16 are fixedly connected with an end cover 14.

Referring to fig. 15, 16, 17 and 18, the movable plate 7 is in an open state, the spring 15 is in a stretched state, and the spring 15 provides a pulling force to the free end of the second swinging rod 12 to prevent the second swinging rod 12 from swinging, so that the movable plate 7 can be kept in an open state, and the movable plate is convenient to access and overhaul and charge an electric automobile;

When the movable plate 7 is closed, the deflector rod 17 is pushed to move upwards along the arc-shaped guide groove 20, and the end part of the spring 15 is driven to move to the left side of the second swing rod 12 by the second swing rod 12 in the swing process, so that the spring 15 can pull the second swing rod 12 to rotate anticlockwise from the left side of the second swing rod 12, the swing from limiting the swing of the second swing rod 12 to pulling the swing of the second swing rod 12 is completed, the movable plate 7 can be helped to be automatically closed, the spring 15 is always in a stretching state when the movable plate 7 is closed, the spring 15 can always keep the pulling force on the second swing rod 12, and the movable plate 7 can be more stably ensured to be in a closing state;

When the movable plate 7 can be opened and closed again due to the arrangement of the springs 15, the movable plate 7 can be automatically closed or closed only by overcoming the elasticity of a certain spring 15, so that the opening and closing of the movable plate 7 can be controlled more conveniently, and the convenience of operation is improved; meanwhile, the arrangement of the springs 15 enables the opening and closing of the movable plate 7 to be stable and controllable, the state of the movable plate 7 can be controlled more accurately, and the convenience and the protection stability of the whole suspension box 100 in use are improved.

Example two

In the solar power energy storage device of the present embodiment, on the basis of the first embodiment, the overall mechanical connection relationship of the housing mechanism 200 is further defined as follows:

Referring to fig. 2,3, 4, 5, 6, 7, 8 and 9, the storage mechanism 200 includes a protection plate 21 and a mounting box 31, the photovoltaic panel 34 and the photovoltaic folding mechanism 300 are both disposed in the mounting box 31, and an opening at one side of the mounting box 31 is disposed, so that the photovoltaic panel 34 can receive illumination conveniently;

Specifically, the top end of the protection plate 21 is fixedly connected with the fixed shed 1, the bottom end of the protection plate is inclined towards one side far away from the fixed shed 1, and the inclined arrangement of the protection plate 21 can facilitate the flushing and cleaning of rainwater on the protection plate 21, and meanwhile, the photovoltaic panel 34 can better face the sun;

The lower half of the side surface of the protection plate 21 is provided with a slot 29 in a penetrating way, the slot 29 corresponds to the opening of the mounting box 31, one side of the protection plate 21 close to the fixed shed 1 is fixedly provided with a pair of guide rails 23 arranged along the length direction of the protection plate 21, a movable frame 32 is slidably arranged between the two guide rails 23, the movable frame 32 is driven to move by a driving mechanism arranged on the protection plate 21, the driving mechanism is externally connected with an upper computer, the mounting box 31 is arranged on one side of the movable frame 32 close to the protection plate 21, and a sliding propulsion mechanism for pushing the mounting box 31 out of the slot 29 is arranged between the mounting box 31 and the movable frame 32.

In this embodiment, actuating mechanism includes pivot 30, gear 24, rack 25 and driving motor, the one side that guard plate 21 is close to fixed canopy 1 is fixed with a pair of mounting panel 22, and two mounting panels 22 set up respectively in the outside of two guide rails 23, pivot 30 rotates and installs between two mounting panels 22, gear 24 fixed sleeve establishes in pivot 30, rack 25 is fixed in the removal frame 32 bottom and meshes with gear 24, and rack 25 and the mutual parallel arrangement of guide rail 23, during the drive, driving motor drives pivot 30 rotation, pivot 30 rotation drives gear 24 rotation, again by gear 24 drive rack 25 removal can, actuating mechanism passes through the cooperation of pivot 30, gear 24, rack 25 and driving motor, realize the high-efficient drive to removal frame 32, and the operating efficiency and the speed of whole receiving system have been improved, and the design of cooperation guide rail 23 has guaranteed actuating mechanism's stability and continuously running reliability.

The working principle of the embodiment is as follows: when the photovoltaic panel 34 needs to be stored, the driving mechanism is started, the movable frame 32 starts to slide and push towards the slot 29, and the mounting box 31 is pushed out of the slot 29 under the action of the sliding and pushing mechanism; when the mounting box 31 is completely pushed out, the photovoltaic panel 34 can be unfolded by the photovoltaic folding mechanism 300, so that the irradiation area of the photovoltaic panel 34 is increased; the setting of guide rail 23 is convenient for remove the frame 32 motion to fluting 29 sets up in guard plate 21 lower half, can accomodate the upper half of guard plate 21 with photovoltaic board 34 when not using photovoltaic board 34, and then improves the height of placing of photovoltaic board 34, can prevent rainwater and high water level's influence effectively, improves the security.

Specifically, referring to fig. 7, 8 and 9, the sliding propulsion mechanism includes a guide plate 26 and four lifting rods 33, the four lifting rods 33 are uniformly arranged on two sides of the installation box 31, the guide plate 26 is fixed at the bottom end of the protection plate 21 and is positioned at one side of the installation box 31, a bending groove 27 is formed on the guide plate 26, the bending groove 27 includes a long groove 2701 in the same direction as the sliding direction of the installation box 31 and a short groove 2702 communicated with the long groove 2701 and perpendicular to the sliding direction of the installation box 31, and the free end of the short groove 2702 is arranged close to the protection plate 21;

the bottom end of each lifting rod 33 is hinged with the movable frame 32, the top end of each lifting rod 33 is hinged with the mounting box 31, and the hinge rod at the top end of one lifting rod 33 closest to the free end of the long groove 2701 is hinged with a clamping wheel 28, and the clamping wheel 28 is clamped in the bending groove 27 in a rolling way.

As can be seen from the above description, in the downward movement process of the moving frame 32, the lifting rods 33 are driven to synchronously move, the lifting rods 33 can push the mounting box 31 to move, because the hinge rod of one lifting rod 33 is connected with the clamping wheel 28, and the clamping wheel 28 is in rolling clamping connection with the bending groove 27, when the clamping wheel 28 moves to the short groove 2702, the lifting rod 33 connected with the clamping wheel 28 can be lifted upwards, and four lifting rods 33 can synchronously drive the other three lifting rods 33 to synchronously lift, so that the mounting box 31 can be lifted, and at the moment, the mounting box 31 just moves to the position of the groove 29, and further, the photovoltaic panel 34 in the mounting box 31 can be irradiated with sunlight; through the setting of sliding propulsion, can accomodate photovoltaic board 34 steadily high-efficiently to can also lift the position of photovoltaic board 34 when accomodating photovoltaic board 34, and then can avoid the risk that rainwater and high water level brought soaking effectively, can also avoid the insolation of blowing effectively, improved photovoltaic board 34's life effectively, lift rod 33, joint wheel 28 and the setting of bending groove 27, make the lifting process of mounting box 31 more stable and accurate.

Example III

The solar energy power storage device of the present embodiment further defines the overall mechanical connection relationship of the photovoltaic folding mechanism 300 on the basis of the first or second embodiment as follows:

Referring to fig. 10, 11, 12, 13 and 14, the photovoltaic folding mechanism 300 includes a long bar 44, a scissors frame 39, a slider 37 and a turning mechanism, an upper step groove 35 and a lower step groove 36 are sequentially formed at the top end of the long bar 44 from top to bottom, and the bottom end of the lower step groove 36 is disposed through the long bar 44; one end of the shear rest 39 is hinged with the top end of the strip slide bar 44, the other end of the shear rest is hinged with the slide block 37, and the slide block 37 is slidably clamped in the upper step groove 35, specifically, when the shear rest 39 is unfolded or folded, the slide block 37 is driven to slide along the upper step groove 35, so that stability when the shear rest 39 is unfolded or folded can be ensured; wherein, the end of the scissors frame 39 far away from the sliding block 37 is provided with an extension rod 40 in an extending way, so that the scissors frame 39 is conveniently driven to be unfolded or folded by pulling the extension rod 40;

In this embodiment, three cross hinge points 50 between two ends of the scissor rest 39 are all disposed right above the upper step groove 35, and the cross hinge points 50 located right above the upper step groove 35 are fixedly connected with the photovoltaic panel 34 through swing shafts 52, each swing shaft 52 is fixedly connected with a Z-shaped rod 49 after penetrating the cross hinge point 50 downwards, and the Z-shaped rod 49 extends out of the lower step groove 36 and then is rotated by a rotation stirring mechanism; the scissor rest 39 and the shifting mechanism are driven to move through a driving assembly, and the driving assembly is externally connected with an upper computer.

The working principle of the embodiment is as follows: the driving component controls the expansion or the retraction of the scissor rest 39, when photoelectric conversion is needed, the scissor rest 39 is controlled to be expanded, and when the scissor rest 39 is in contact with rainy weather or cloudy weather, the scissor rest 39 is controlled to be retracted, so that the photovoltaic panel 34 is conveniently protected; meanwhile, through the arrangement of the Z-shaped rod 49 and the shifting mechanism, the swinging shaft 52 can be rotated, the angle of the photovoltaic panels 34 can be adjusted, the windward area can be reduced in a zigzag manner by adjusting the angle of each photovoltaic panel 34 in windy weather, the structural stability is ensured, and the dust on the surfaces of the photovoltaic panels 34 can be automatically cleaned by adjusting the angle of the photovoltaic panels 34 by natural wind, so that the time and the labor are saved.

Further, the turning mechanism includes a first bending rod 41, a second bending rod 43, a steering rod 47 and a push-pull rod 42, the first bending rod 41 and the second bending rod 43 are rotatably installed at two sides of the bottom end of the strip sliding rod 44, and in this embodiment, the first bending rod 41 is disposed at one side where the photovoltaic panel 34 is folded, the steering rod 47 and the push-pull rod 42 are disposed parallel to each other and are hinged to the first bending rod 41 and the second bending rod 43 respectively, the steering rod 47 is disposed at one side of the push-pull rod 42 close to the strip sliding rod 44, a steering groove 48 is disposed at the top end of the steering rod 47 along the length direction, and a free end of the z-shaped rod 49 is movably clamped in the steering groove 48.

Specifically, the bottom end of the long bar slide bar 44 is provided with a mounting sleeve 38, two ends of the mounting sleeve 38 are fixed on the side surface of the long bar slide bar 44, the mounting sleeve 38 is convenient for fixing the long bar slide bar 44 and the mounting box 31, and meanwhile, the movement of the shifting mechanism is convenient for preventing movement interference.

As can be seen from the above description, after the photovoltaic panel 34 is fully unfolded, the driving assembly controls the first bending rod 41 to swing, and at the same time, the second bending rod 43 is connected with the push-pull rod 42 and swings in the same direction with the first bending rod 41, so that the steering rod 47 connected between the first bending rod 41 and the other end of the second bending rod 43 can be synchronously driven to move, and the free end of the Z-shaped rod 49 is movably clamped in the steering groove 48, so that the Z-shaped rod 49 can be driven to rotate, and the rotation of the Z-shaped rod 49 synchronously drives the swinging shaft 52 connected with the Z-shaped rod 49 to rotate, thereby realizing the rotation of the photovoltaic panel 34 connected with the swinging shaft 52 to adjust the angle;

In the strong wind environment, the photovoltaic panel 34 can reduce the influence of wind power on the photovoltaic panel 34 to the greatest extent through adjusting the angle, so that the safe and stable operation of the system is guaranteed, meanwhile, along with the change of the sun position, the photovoltaic panel 34 can adjust the angle of sunward, the solar energy resource is fully utilized, the power generation efficiency and the energy collection efficiency of the photovoltaic system are improved, and the power output capacity of the system is improved to the greatest extent.

Further, a wind direction sensor, a wind speed sensor and a rainwater sensor are arranged on the protection plate 21, the wind direction sensor, the wind speed sensor and the rainwater sensor are externally connected with an upper computer, the upper computer monitors weather conditions, and accordingly the photovoltaic panels 34 are stored and unfolded, wind direction is utilized, the height of the suspension box 100 can be adjusted according to the weather conditions, and the safety of the system is guaranteed.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "inner", "outer", "upper", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the term "connected" should be interpreted broadly, and for example, it may be a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

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 based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Claims (8)

1. The utility model provides a solar energy electric power energy memory, includes fixed canopy (1), sets up electric power storage device (6) and photovoltaic board (34) be connected with electric power storage device (6) in fixed canopy (1) bottom, its characterized in that: one side of the fixed shed (1) is fixedly connected with the ground, the other side of the fixed shed is provided with a containing mechanism (200) for containing the photovoltaic panel (34), and the photovoltaic panel (34) is connected with the containing mechanism (200) in a foldable manner through a photovoltaic folding mechanism (300); the bottom of the fixed shed (1) is provided with a suspension box (100), the suspension box (100) is connected with the fixed shed (1) through a lifting suspension device, and the power storage device (6) is arranged in the suspension box (100);

The storage mechanism (200) comprises a protection plate (21) and a mounting box (31), and the photovoltaic panel (34) and the photovoltaic folding mechanism (300) are both arranged in the mounting box (31); the top end of the protection plate (21) is fixedly connected with the fixed shed (1), the bottom end of the protection plate inclines towards the side far away from the fixed shed (1), a slot (29) is formed in the lower half portion of the side face of the protection plate (21) in a penetrating mode, a pair of guide rails (23) arranged along the length direction of the protection plate (21) are fixed on one side, close to the fixed shed (1), of the protection plate (21), a movable frame (32) is slidably mounted between the guide rails (23), the movable frame (32) is driven to move through a driving mechanism mounted on the protection plate (21), a mounting box (31) is mounted on one side, close to the protection plate (21), of the movable frame (32), and a sliding propelling mechanism for pushing the mounting box (31) out of the slot (29) is arranged between the mounting box (31) and the movable frame (32);

The novel anti-theft protection door is characterized in that an opening is formed in one side of the suspension box (100), a protection door assembly for closing the opening is arranged in the suspension box (100), the protection door assembly comprises a movable plate (7), a track plate (9) and a swinging mechanism, the track plate (9) is fixed on the inner side wall of the suspension box (100), the track plate (9) comprises a transverse plate (903), an inclined plate (902) and a vertical plate (901) which are sequentially connected from top to bottom, the vertical plate (901) is arranged close to one side of the opening, and a supporting wheel (8) which is attached to the track plate (9) is rotatably arranged at the bottom end of the movable plate (7); the swing mechanism comprises a hinged connecting rod and a deflector rod (17), one end of the hinged connecting rod is hinged to one side, close to the opening, of the bottom end of the movable plate (7), the middle part of the hinged connecting rod is rotatably connected with the vertical plate (901), the other end of the hinged connecting rod is fixedly connected with the deflector rod (17), and the free end of the deflector rod (17) vertically penetrates through an arc-shaped guide groove (20) formed in the side wall of the suspension box (100).

2. A solar power storage device according to claim 1, wherein: the sliding propulsion mechanism comprises a guide plate (26) and a plurality of lifting rods (33), the guide plate (26) is fixed at the bottom end of the protection plate (21) and is positioned on one side of the installation box (31), a bending groove (27) is formed in the guide plate (26), the bending groove (27) comprises a long groove (2701) which is in the same direction as the sliding direction of the installation box (31) and a short groove (2702) which is communicated with the long groove (2701) and is perpendicular to the sliding direction of the installation box (31), and the free end of the short groove (2702) is arranged close to the protection plate (21); the bottom ends of the lifting rods (33) are hinged with the movable frame (32), the top ends of the lifting rods are hinged with the mounting box (31), the hinging rod at the top end of one lifting rod (33) closest to the free end of the long groove (2701) is hinged with a clamping wheel (28), and the clamping wheel (28) is clamped in the bending groove (27) in a rolling mode.

3. A solar power storage device according to claim 2, wherein: the driving mechanism comprises a rotating shaft (30), a gear (24), a rack (25) and a driving motor, a pair of mounting plates (22) are fixed on one side, close to a fixed shed (1), of the protection plate (21), the two mounting plates (22) are respectively arranged on the outer sides of two guide rails (23), the rotating shaft (30) is rotatably arranged between the two mounting plates (22), the gear (24) is fixedly sleeved on the rotating shaft (30), the rack (25) is fixed at the bottom end of a movable frame (32) and meshed with the gear (24), and the rack (25) and the guide rails (23) are mutually parallel.

4. A solar power storage device according to claim 1, wherein: the photovoltaic folding mechanism (300) comprises a strip sliding rod (44), a scissor frame (39), a sliding block (37) and a shifting mechanism, wherein an upper step groove (35) and a lower step groove (36) are sequentially formed in the top end of the strip sliding rod (44) from top to bottom, and the bottom end of the lower step groove (36) penetrates through the strip sliding rod (44); one end of the scissors frame (39) is hinged with the top end of the strip sliding rod (44), the other end of the scissors frame is hinged with the sliding block (37), the sliding block (37) is slidably clamped in the upper step groove (35), a plurality of cross hinge points (50) between two ends of the scissors frame (39) are all arranged right above the upper step groove (35), the cross hinge points (50) right above the upper step groove (35) are fixedly connected with the photovoltaic panel (34) through swinging shafts (52), each swinging shaft (52) downwards movably penetrates through the cross hinge point (50) and then is fixedly connected with a Z-shaped rod (49), and the Z-shaped rod (49) stretches out of the lower step groove (36) and then is shifted to rotate through a shifting mechanism; the scissors frame (39) and the shifting mechanism are driven to move through the driving assembly.

5. A solar power energy storage device as defined in claim 4, wherein: the shifting mechanism comprises a first bending rod (41), a second bending rod (43), a steering rod (47) and a push-pull rod (42), wherein the first bending rod (41) and the second bending rod (43) are rotatably arranged at two sides of the bottom end of the long-strip sliding rod (44), the steering rod (47) and the push-pull rod (42) are mutually parallel and are respectively hinged with the first bending rod (41) and the second bending rod (43), the steering rod (47) is arranged on one side, close to the long-strip sliding rod (44), of the push-pull rod (42), a steering groove (48) is formed in the top end of the steering rod (47) along the length direction, and the free end of the Z-shaped rod (49) is movably clamped in the steering groove (48).

6. A solar power storage device according to claim 1, wherein: the hinged connecting rod comprises a first swinging rod (10) and a second swinging rod (12), a rotating sleeve (101) is integrally connected between the first swinging rod (10) and the second swinging rod (12), a fixed column (11) is rotatably sleeved in the rotating sleeve (101), and the free end of the fixed column (11) is fixedly connected with a vertical plate (901); the free end of the second swinging rod (12) is sleeved with a first hook column (13), a second hook column (16) is fixed on the inner side wall of the suspension box (100), the second hook column (16) is arranged below the first hook column (13) and close to the position of the opening side, and a spring (15) is connected between the first hook column (13) and the second hook column (16).

7. A solar power storage device according to claim 1, wherein: the suspension device comprises a winding machine (5) arranged at the top end of the fixed shed (1), a lifting rope (4) is wound at the output end of the winding machine (5), and the free end of the lifting rope (4) movably penetrates through the top of the fixed shed (1) and is fixedly connected with the suspension box (100); the two sides of the suspension box (100) are respectively connected with a rolling wheel (3) through rolling grooves, the rolling wheel (3) on one side is connected with the containing mechanism (200) through the supporting plate (2), and the rolling wheel (3) on the other side is connected with the inner side wall of the fixed shed (1) through the supporting plate (2).

8. A solar power storage device according to claim 1, wherein: a wind direction sensor, a wind speed sensor and a rainwater sensor are arranged on the protection plate (21), the wind direction sensor, the wind speed sensor and the rain sensor are all externally connected with an upper computer.