CN217824792U - Photovoltaic integrated energy storage device - Google Patents

Abstract

The application provides a photovoltaic integrated energy storage device, which belongs to the technical field of photovoltaic power generation. The photovoltaic integrated energy storage device includes a lifting component and a photovoltaic energy storage component. The lifting component includes a lifting frame, a lifting slide rail and a connecting seat. By setting the lifting frame, the lifting slide rail and the connecting seat, the photovoltaic energy storage component can be driven to lift For height adjustment, the photovoltaic energy storage assembly includes a bottom plate, threaded rod, moving block, moving plate, splint, energy storage power supply and photovoltaic power generation board, the bottom plate is arranged at the bottom of the connecting seat, and the bottom plate is provided with a groove, One end of the threaded rod is rotatably set in the groove. By setting the bottom plate, threaded rod, moving block, moving plate, splint, energy storage power supply and photovoltaic power generation board, and opening a number of slots on the moving plate, it can be used in many places. To a large extent, it can effectively fix energy storage power supplies of different sizes, thereby improving the scope of application.

Description

A photovoltaic integrated energy storage device

technical field

The present application relates to the field of photovoltaic power generation, in particular, to a photovoltaic integrated energy storage device.

Background technique

With the vigorous development of the photovoltaic industry, photovoltaic products for ordinary consumers or small enterprises are becoming more and more abundant, and many off-grid interoperable devices have emerged to meet daily electricity demand; among them, photovoltaic integrated energy storage technology is The more important part in this field is to store the electric energy of photovoltaic power generation, which is conducive to emergency use.

Publication number CN208924150U discloses a liftable photovoltaic integrated energy storage device. The photovoltaic integrated energy storage mechanism includes an energy storage power supply and a photovoltaic power generation board. The photovoltaic power generation board is arranged on the upper surface of the energy storage power supply through a controllable rotary joint. A ring of ribs protrudes longitudinally from the upper surface edges of the lateral ends of the lifting base respectively, and the ribs are wrapped around the lower edge of the energy storage power supply. The utility model has the advantages of simple structure, convenient installation and use, small ground space occupation, high resource utilization rate, green environmental protection, integrated structure of photovoltaic power generation and energy storage, and wide application range.

However, there are some defects in the above scheme: install energy storage power supply and photovoltaic power generation board on the lifting base to realize photovoltaic power generation and energy storage, and fix the energy storage power supply by setting a circle of ribs on the top of the lifting base. The fixed rib structure limits the The size of the energy storage power supply that can be fixed reduces the scope of application and has certain limitations.

Utility model content

In order to make up for the above deficiencies, the present application provides a photovoltaic integrated energy storage device, aiming to improve the problems raised in the background art above.

An embodiment of the present application provides a photovoltaic integrated energy storage device including a lifting component and a photovoltaic energy storage component.

The lifting assembly includes a lifting frame, a lifting slide rail and a connection seat, the lifting slide rail is arranged on one side of the lifting frame, and the connecting seat is arranged on one side of the lifting slide rail.

The photovoltaic energy storage assembly includes a bottom plate, threaded rod, moving block, moving plate, splint, energy storage power supply and photovoltaic power generation board. One end of the rod is rotated and set in the groove, the moving block is threaded on the surface of the threaded rod, the moving plate is set on the top of the moving block, and a number of slots are opened on one side of the moving plate. One end of the splint is inserted into the slot, the energy storage power supply is placed on the top of the bottom plate, the photovoltaic power generation board is installed on the top of the energy storage power supply, the energy storage power supply contacts the connecting seat, moves Boards and splints.

In a specific embodiment, the top of the bottom plate is provided with a guide chute, the bottom of the moving plate is fixedly connected with a guide slider, and the guide slider is slidably arranged in the guide chute.

In the above implementation process, by setting the guide slider to slide in the guide chute, not only the rotation during the thread transmission process can be restricted, but also the guide moving plate can move smoothly.

In a specific embodiment, a T-shaped block is fixedly connected to one end of the splint, and the T-shaped block is adapted to the slot.

In the above implementation process, the connection between the splint and the moving plate is more firm and stable by setting the T-shaped block and the slot to be plugged and matched.

In a specific embodiment, the top of the energy storage power supply is fixedly connected to a support rod, one end of the photovoltaic power generation panel is rotatably connected to the top of the support rod, and the energy storage power supply and the photovoltaic power generation panel are hinged With telescoping pole.

In the above implementation process, by setting the support rod and the telescopic rod, the length of the telescopic rod can be adjusted to adjust the angle of the photovoltaic power generation panel so that the photovoltaic power generation board can achieve an optimal irradiation angle.

In a specific embodiment, the telescopic rod includes a fixed tube, a connecting rod and a fixed knob, one end of the fixed tube is hinged to the top of the energy storage power supply, and one end of the connecting rod is slidably arranged in the fixed tube, The other end of the connecting rod is hinged to the bottom of the photovoltaic power generation panel, and the fixing knob is threaded through one side of the fixing pipe and abuts against the connecting rod.

In the above implementation process, the length of the connecting rod in the fixing tube is adjusted by setting the fixing tube, the connecting rod and the fixing knob, so as to adjust its overall length, and then tighten and fix it with the fixing knob.

In a specific embodiment, the end of the threaded rod away from the bottom plate is fixedly connected with a hand wheel.

In the above implementation process, by setting the hand wheel, it is convenient to turn the hand wheel, and the hand wheel drives the threaded rod to rotate.

In a specific embodiment, a reinforcing plate is arranged between the bottom plate and the connecting seat.

In the above implementation process, the structural strength of the connection between the bottom plate and the connection seat is strengthened by setting a reinforcing plate, and the load-bearing capacity is improved.

In a specific embodiment, the energy storage power supply is electrically connected to the photovoltaic power generation panel, and a handle is provided on the side wall of the energy storage power supply.

In the above implementation process, by providing a handle, it is convenient to lift the energy storage power supply by holding the handle for disassembly and assembly.

The beneficial effects of the utility model are: by setting the lifting frame, the lifting slide rail and the connecting seat, the photovoltaic energy storage component can be driven to adjust the lifting height; Photovoltaic power generation panels and a number of slots are provided on the mobile panel, which can effectively fix energy storage power sources of different sizes to a large extent, thereby improving the scope of application.

Description of drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the accompanying drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of the present application, so It should be regarded as a limitation on the scope, and those skilled in the art can also obtain other related drawings based on these drawings without creative work.

Fig. 1 is a schematic structural diagram of a photovoltaic integrated energy storage device provided in an embodiment of the present application;

Fig. 2 is a schematic structural diagram of the lifting assembly provided in the embodiment of the present application;

Fig. 3 is a schematic diagram of the bottom plate structure provided by the embodiment of the present application;

FIG. 4 is a schematic structural diagram of a mobile plate provided in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a telescopic rod provided in an embodiment of the present application.

In the figure: 100-lifting component; 110-lifting frame; 120-lifting slide rail; 130-connecting seat; 131-strengthening plate; 200-photovoltaic energy storage component; 210-bottom plate; ;220-threaded rod; 221-hand wheel; 230-moving block; 240-moving plate; Support rod; 270-photovoltaic power generation panel; 280-telescopic rod; 281-fixing tube; 282-connecting rod; 283-fixing knob.

Detailed ways

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

In order to make the purpose, technical solutions and advantages of the embodiments of the application clearer, the technical solutions in the embodiments of the application will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the application. Obviously, the described embodiments It is a part of embodiment of this application, and is not all embodiment. Based on the implementation manners in this application, all other implementation manners obtained by persons of ordinary skill in the art without creative efforts fall within the scope of protection of this application.

Referring to FIGS. 1-5 , the present application provides a photovoltaic integrated energy storage device including a lifting assembly 100 and a photovoltaic energy storage assembly 200 .

Referring to FIGS. 1 and 2 , the lifting assembly 100 includes a lifting frame 110 , a lifting slide rail 120 and a connecting base 130 .

1, 2, 3 and 4, the photovoltaic energy storage assembly 200 includes a base plate 210, a threaded rod 220, a moving block 230, a moving plate 240, a splint 250, an energy storage power supply 260 and a photovoltaic power generation panel 270, and the base plate 210 is arranged on the connection At the bottom of the seat 130, the base plate 210 is provided with a groove 211, one end of the threaded rod 220 is rotated in the groove 211, the moving block 230 is threaded on the surface of the threaded rod 220, and the moving plate 240 is arranged on the top of the moving block 230. There are several slots 241 on the side, one end of the splint 250 is inserted into the slot 241, the energy storage power supply 260 is placed on the top of the bottom plate 210, the photovoltaic power generation board 270 is installed on the top of the energy storage power supply 260, and the energy storage power supply 260 contacts the connecting seat 130, The plate 240 and the splint 250 are moved.

It should be noted that the top of the base plate 210 is provided with a guide chute 212, and the bottom of the moving plate 240 is fixedly connected with a guide slider 242, and the guide slider 242 is slidably arranged in the guide chute 212, and by setting the guide slider 242 on the guide chute. The inner sliding of 212 can not only limit the rotation during the thread transmission process, but also can guide the moving plate 240 to move smoothly.

In a specific embodiment, one end of the splint 250 is fixedly connected with a T-shaped block 251, and the T-shaped block 251 is adapted to the slot 241. By setting the T-shaped block 251 and the slot 241 to be plugged and matched, so that The clamping plate 250 and the moving plate 240 are connected more firmly and stably.

In a specific embodiment, the end of the threaded rod 220 away from the bottom plate 210 is fixedly connected with a hand wheel 221 , by setting the hand wheel 221 , it is convenient to turn the hand wheel 221 , and the hand wheel 221 drives the threaded rod 220 to rotate.

In a specific embodiment, a reinforcing plate 131 is provided between the bottom plate 210 and the connection seat 130, and the structural strength of the connection between the bottom plate 210 and the connection seat 130 is strengthened by arranging the reinforcing plate 131, thereby improving the load-bearing capacity.

In a specific implementation, the energy storage power supply 260 is electrically connected to the photovoltaic power generation panel 270, and a handle is provided on the side wall of the energy storage power supply 260. By setting the handle, it is convenient to lift the energy storage power supply 260 by holding the handle for disassembly. Pack.

Please refer to Figures 1, 3 and 5, the top of the energy storage power supply 260 is fixedly connected to a support rod 261, one end of the photovoltaic power generation panel 270 is rotatably connected to the top of the support rod 261, and a telescopic rod 280 is hinged between the energy storage power supply 260 and the photovoltaic power generation panel 270 , by setting the support rod 261 and the telescopic rod 280, the length of the telescopic rod 280 can be adjusted to adjust the angle of the photovoltaic power generation panel 270 so that the photovoltaic power generation board 270 can achieve an optimal irradiation angle.

In a specific embodiment, the telescopic rod 280 includes a fixed tube 281, a connecting rod 282 and a fixing knob 283. One end of the fixed tube 281 is hinged to the top of the energy storage power supply 260, and one end of the connecting rod 282 is slidably arranged in the fixed tube 281. The other end of the rod 282 is hinged to the bottom of the photovoltaic power generation panel 270. The fixing knob 283 threads through one side of the fixing tube 281 and abuts against the connecting rod 282. length in the pipe 281, thereby adjusting its overall length, and then tighten and fix it with the fixing knob 283.

The working principle of the photovoltaic integrated energy storage device: When in use, lift the energy storage power supply 260 by holding the handle, place the energy storage power supply 260 and the photovoltaic power generation panel 270 together on the bottom plate 210, and place the splint 250 according to the size of the energy storage power supply 260 The T-shaped block 251 at the end is inserted into the corresponding slot 241, so that the side of the splint 250 fits the outside of the energy storage power supply 260, and then the hand wheel 221 is turned, and the hand wheel 221 drives the threaded rod 220 to rotate, and the threaded rod 220 drives the moving block 230 moves, the moving block 230 drives the moving plate 240 to move, the moving plate 240 moves along the guide slider 242 under the guidance of the guide slider 242, and the moving plate 240 abuts against the outside of the energy storage power supply 260, so that the energy storage power supply 260 It is clamped and fixed between the moving plate 240, the connecting seat 130 and the clamping plate 250, and the position of the clamping plate 250 on the moving plate 240 is adjusted, and the moving plate 240 is pushed to clamp the energy storage power supply 260 through the threaded transmission of the threaded rod 220, so that the To a large extent, energy storage power sources 260 of different sizes are effectively fixed, thereby improving the scope of application.

It should be noted that the specific models and specifications of the lifting frame 110, the energy storage power supply 260 and the photovoltaic power generation panel 270 need to be selected according to the actual specifications of the devices, and the specific model selection calculation method adopts the existing technology in the field, so it is no longer Go into details.

The power supply of the lifting frame 110 , the energy storage power supply 260 and the photovoltaic power generation panel 270 and their principles are clear to those skilled in the art, and will not be described in detail here.

The above descriptions are only examples of the present application, and are not intended to limit the scope of protection of the present application. For those skilled in the art, various modifications and changes may be made to the present application. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of this application shall be included within the protection scope of this application. It should be noted that like numerals and letters denote similar items in the following figures, therefore, once an item is defined in one figure, it does not require further definition and explanation in subsequent figures.

The above is only a specific implementation of the application, but the scope of protection of the application is not limited thereto. Anyone familiar with the technical field can easily think of changes or substitutions within the technical scope disclosed in the application. Should be covered within the protection scope of this application. Therefore, the protection scope of the present application should be based on the protection scope of the claims.

Claims (8)

1. A photovoltaic integrated energy storage device is characterized by comprising

The lifting assembly (100) comprises a lifting rack (110), a lifting slide rail (120) and a connecting seat (130), wherein the lifting slide rail (120) is arranged on one side of the lifting rack (110), and the connecting seat (130) is arranged on one side of the lifting slide rail (120);

the photovoltaic energy storage assembly (200) comprises a bottom plate (210), a threaded rod (220), a moving block (230), a moving plate (240), a clamping plate (250), an energy storage power supply (260) and a photovoltaic power generation plate (270), wherein the bottom plate (210) is arranged at the bottom of the connecting seat (130), a groove (211) is formed in the bottom plate (210), one end of the threaded rod (220) is rotatably arranged in the groove (211), the moving block (230) is sleeved on the surface of the threaded rod (220) in a threaded manner, the moving plate (240) is arranged at the top of the moving block (230), a plurality of slots (241) are formed in one side of the moving plate (240), one end of the clamping plate (250) is inserted into the slots (241), the energy storage power supply (260) is arranged at the top of the bottom plate (210), the photovoltaic power generation plate (270) is arranged at the top of the energy storage power supply (260), and the energy storage power supply (260) contacts with the connecting seat (130), the moving plate (240) and the clamping plate (250).

2. The integrated energy storage device of claim 1, wherein a guide sliding groove (212) is formed in the top of the bottom plate (210), a guide sliding block (242) is fixedly connected to the bottom of the moving plate (240), and the guide sliding block (242) is slidably disposed in the guide sliding groove (212).

3. The integrated energy storage device of a photovoltaic system according to claim 1, wherein a T-shaped block (251) is fixedly connected to one end of the clamp plate (250), and the T-shaped block (251) is adapted to the slot (241).

4. The integrated energy storage device of a photovoltaic system according to claim 1, wherein a support rod (261) is fixedly connected to the top of the energy storage power source (260), one end of the photovoltaic power generation panel (270) is rotatably connected to the top of the support rod (261), and a telescopic rod (280) is hinged between the energy storage power source (260) and the photovoltaic power generation panel (270).

5. The photovoltaic integrated energy storage device according to claim 4, wherein the telescopic rod (280) comprises a fixed tube (281), a connecting rod (282) and a fixed knob (283), one end of the fixed tube (281) is hinged to the top of the energy storage power supply (260), one end of the connecting rod (282) is slidably arranged in the fixed tube (281), the other end of the connecting rod (282) is hinged to the bottom of the photovoltaic power generation panel (270), and the fixed knob (283) penetrates through one side of the fixed tube (281) in a threaded manner and abuts against the connecting rod (282).

6. The integrated energy storage device of a photovoltaic system of claim 1, wherein a hand wheel (221) is fixedly connected to an end of the threaded rod (220) away from the base plate (210).

7. The integrated photovoltaic energy storage device according to claim 1, wherein a reinforcing plate (131) is arranged between the base plate (210) and the connection socket (130).

8. The integrated energy storage device of claim 1, wherein the energy storage power source (260) is electrically connected with the photovoltaic power generation panel (270), and a handle is arranged on a side wall of the energy storage power source (260).

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