CN215186543U - Photovoltaic combined energy storage power station - Google Patents

Abstract

The utility model provides an energy storage power station that photovoltaic combines through the surface with solar light panel component setting at energy storage power station to make the solar light panel after turning into the electric energy with light energy, can directly transmit to carrying out the storage of electric energy in the energy storage power station, thereby reduced the loss of electric energy. The application includes: the surface mounting of casing has the solar optical panel subassembly, the solar optical panel subassembly includes first solar optical panel, second solar optical panel and third solar optical panel, the upper end at the casing is installed to the electric energy converter, the top at the electric energy converter is installed to first solar optical panel, second solar optical panel and third solar optical panel all with electric energy converter electric connection, the casing is inside to be divided into a plurality of through the horizontal bar with the casing inside and to hold the chamber, hold intracavity portion and placed the reserve battery, reserve battery and electric energy converter electric connection.

Description

Photovoltaic combined energy storage power station

Technical Field

The utility model relates to an energy storage power station field specifically is an energy storage power station that photovoltaic combines.

Background

The photovoltaic module is mainly composed of three parts, namely a solar panel, a controller and an inverter, wherein the solar panel is an electronic component directly used for absorbing light energy, the solar panel is packaged and protected after being connected in series to form a large-area solar panel assembly, and the larger the area of the solar panel is, the more light energy can be absorbed, the more electric energy can be converted.

At present, with the increasing of urban power consumption, urban power consumption in one day is mainly provided by a power station, but in the process of emergency maintenance or rectification of the power station, the power supply to part of cities needs to be interrupted, and in the process of power failure, the power supply to the cities is mainly provided by an energy storage power station, so that a perfect energy storage power station can provide dozens of ten thousand watts of power and is enough to support the part of power consumption of the cities; the electric energy deposit in present energy storage power station mainly is the electricity generation that derives from photovoltaic module, or carries out the deposit of electric energy behind the tidal power generation, but present photovoltaic module after absorbing light energy and turn into the electric energy, need be through longer cable with electric energy transmission to the energy storage power station in, in transmission process, can lead to the electric energy to have partial loss in transmission process, is unfavorable for the deposit of deposit power station to the electric energy.

SUMMERY OF THE UTILITY MODEL

For solving prior art's is not enough, the utility model provides an energy storage power station that photovoltaic combines through the surface with solar light panel component setting at energy storage power station to make solar light panel after turning into the electric energy with light energy, can directly transmit to carrying out the storage of electric energy in the energy storage power station, thereby reduced the loss of electric energy.

The utility model discloses a realize above-mentioned purpose, realize through following technical scheme: a photovoltaic-combined energy storage power plant comprising: the solar panel assembly, the shell, the electric energy converter and the plurality of reserve batteries; the solar light panel assembly is arranged on the outer surface of the shell and comprises a first solar light panel, a second solar light panel and a third solar light panel, the electric energy converter is arranged at the upper end of the shell, the first solar light panel is arranged above the electric energy converter, the first solar light panel, the second solar light panel and the third solar light panel are all electrically connected with the electric energy converter, the interior of the shell is divided into a plurality of accommodating cavities through rails, the reserve batteries are placed in the accommodating cavities, the reserve battery is electrically connected with the electric energy converter, the solar panel assembly is used for absorbing light energy and then converting the light energy into electric energy to be output to the electric energy converter, the electric energy converter is used for transmitting electric energy to a reserve battery, and the reserve battery is used for storing and processing the electric energy.

The utility model discloses energy storage power station as foretell photovoltaic combines, it is further, first solar photovoltaic panel with the connected mode of electric energy converter is for dismantling the connection, the second solar photovoltaic panel is installed one side of casing, the third solar photovoltaic panel is installed the opposite side of casing.

The utility model discloses energy storage power station as foretell photovoltaic combination, it is further, second solar light panel is close to first support piece is installed to one side of casing, third solar light panel is close to second support piece is installed to the opposite side of casing, first support piece with the connected mode of casing is for dismantling the connection, second support piece with the connected mode of casing is for dismantling the connection.

The utility model discloses as the energy storage power station that foretell photovoltaic combines, further, the inside horizontal bar of casing with the connected mode of casing sets up for integrated into one piece, a plurality of holds the reserve space area in chamber the same.

The utility model discloses an energy storage power station as foretell photovoltaic combines, it is further, a plurality of holds the area setting in chamber and sets up to predetermineeing numerical value.

The utility model discloses energy storage power station as foretell photovoltaic combines, it is further, the apron is installed in casing the place ahead, the apron through the pivot with the casing is connected, be provided with the buckle on the apron, the inside draw-in groove that is provided with of casing, the buckle cooperation the draw-in groove is used for with the apron is fixed on the casing.

The utility model discloses as foretell energy storage power station that photovoltaic combines, it is further, be provided with the handle on the apron, the handle sets up the surface both sides of apron, be provided with the software sponge on the internal surface of handle.

The utility model discloses energy storage power station as foretell photovoltaic combines, it is further, energy storage battery pass through the cable with electric energy converter connects, energy storage battery with electric energy converter's junction sets up the bonding has the insulating cement.

The utility model discloses energy storage power station as foretell photovoltaic combines, it is further, second solar photovoltaic panel with be provided with between the casing and predetermine the clearance, it is right to predetermine the clearance second solar photovoltaic panel carries out the heat dissipation and handles.

The utility model discloses energy storage power station as foretell photovoltaic combines, it is further, third solar photovoltaic panel with be provided with between the casing and predetermine the clearance, it is right to predetermine the clearance third solar photovoltaic panel carries out the heat dissipation and handles.

Contrast prior art, the beneficial effects of the utility model are that:

the solar panel component, the shell, the electric energy converter and the plurality of reserve batteries are arranged; wherein, the surface mounting of casing has the solar optical panel subassembly, the solar optical panel subassembly includes first solar optical panel, second solar optical panel and third solar optical panel, the upper end at the casing is installed to the electric energy converter, the top at the electric energy converter is installed to first solar optical panel, second solar optical panel and third solar optical panel all with electric energy converter electric connection, the inside cavity that holds that divides the casing inside into a plurality of through the horizontal bar, hold intracavity portion and place reserve battery, reserve battery and electric energy converter electric connection, the solar optical panel subassembly is arranged in absorbing the light energy and turns into electric energy output to electric energy converter in, electric energy converter is arranged in transmitting the electric energy to reserve battery, reserve battery is used for storing the electric energy and handles.

Through the aforesaid, in practical application, a plurality of reserve batteries have been placed in the energy storage power station, and be provided with the solar optical panel subassembly at the surface in reserve power station, the solar optical panel subassembly is after becoming the electric energy with light energy absorption, with electric energy transmission to the electric energy converter in, then carry out storage process by the electric energy converter with electric energy transmission to the reserve battery in, wherein, because the solar optical panel just sets up the surface at the casing, the cable length that the event needs is very short, when carrying out the transmission of electric energy, it is less to the loss of electric energy, be favorable to the storage of reserve power station to electric energy.

Drawings

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

FIG. 2 is another schematic view of the overall structure of the present invention;

FIG. 3 is another schematic view of the overall structure of the present invention;

FIG. 4 is another schematic view of the overall structure of the present invention;

FIG. 5 is another schematic view of the overall structure of the present invention;

reference numerals shown in the drawings: 1. a first solar panel; 2. an electric energy converter; 3. a second solar panel; 31. a first support member; 4. a cover plate; 41. a handle; 5. a third solar panel; 51. a second support member; 6. a rail; 7. and (5) reserving the battery.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope defined in the present application.

As shown in fig. 1-5, the utility model relates to an energy storage power station that photovoltaic combines, include: the solar panel assembly, the shell, the electric energy converter 2 and the plurality of reserve batteries 7; the solar panel assembly is mounted on the outer surface of the shell and comprises a first solar panel 1, a second solar panel 3 and a third solar panel 5, the electric energy converter 2 is mounted at the upper end of the shell, the first solar panel 1 is mounted above the electric energy converter 2, the first solar panel 1, the second solar panel 3 and the third solar panel 5 are all electrically connected with the electric energy converter 2, the interior of the shell is divided into a plurality of accommodating cavities through rails 6, the accommodating cavities are internally provided with the reserve batteries 7, the reserve batteries 7 are electrically connected with the electric energy converter 2, the solar panel assembly is used for converting optical energy into electric energy and outputting the electric energy to the electric energy converter 2, the electric energy converter 2 is used for transmitting the electric energy to the reserve batteries 7, the reserve battery 7 is used for storing and processing electric energy.

In order to effectively solve the problems that after the current photovoltaic module absorbs light energy and converts the light energy into electric energy, the electric energy needs to be transmitted to an energy storage power station through a longer cable, and in the transmission process, the electric energy can be partially lost in the transmission process, and the electric energy is not beneficial to the storage of the electric energy by a storage power station, the application provides a photovoltaic combined energy storage power station, wherein a solar light panel component is arranged on the outer surface of the energy storage power station, so that after the light energy is converted into the electric energy by the solar light panel, the electric energy can be directly transmitted to the energy storage power station to be stored, and the loss of the electric energy is reduced; more specifically, the photovoltaic combined energy storage power station mainly comprises a solar light panel assembly, a housing, an electric energy converter 2 and a plurality of reserve cells 7, wherein the solar light panel assembly is installed on the outer surface of the housing, wherein the reserve cells 7 are installed inside the housing, it is noted that, in the present application, the number of reserve cells 7 inside the housing is not specifically limited, the solar light panel assembly installed outside the housing converts light energy into electric energy after absorbing the light energy, transmits the electric energy into the electric energy converter 2, and transmits the electric energy into the reserve cells 7 by the electric energy converter 2, wherein it is noted that, after the solar light panel converts light energy into electric energy and transmits the electric energy into the electric energy converter 2, the electric energy converter 2 quantitatively boosts the electric energy and then inputs the electric energy into the reserve cells 7 for storage treatment, here, it should be noted that the boost conversion value of the electric energy by the electric energy converter 2 is not specifically limited in the present application.

It can be known through the aforesaid, in practical application, a plurality of reserve batteries 7 have been placed in the energy storage power station, and be provided with the solar optical panel subassembly at the surface in reserve power station, the solar optical panel subassembly is after becoming the electric energy with light energy absorption, with electric energy transmission to electric energy converter 2 in, then carry out storage process in transmitting electric energy to reserve battery 7 by electric energy converter 2, wherein, because the solar optical panel just sets up the surface at the casing, the cable length that the event needs is very short, when carrying out the transmission of electric energy, it is less to the loss of electric energy, be favorable to the storage of reserve power station to the electric energy.

Optionally, the first solar panel 1 and the electric energy converter 2 are detachably connected, the second solar panel 3 is installed on one side of the housing, and the third solar panel 5 is installed on the other side of the housing; second solar light panel 3 is close to first support piece 31 is installed to one side of casing, third solar light panel 5 is close to second support piece 51 is installed to the opposite side of casing, first support piece 31 with the connected mode of casing is for dismantling the connection, second support piece 51 with the connected mode of casing is for dismantling the connection.

Optionally, the rails 6 inside the housing and the housing are connected in an integrally formed manner, and the areas of the storage spaces of the plurality of accommodating cavities are the same; the area of the plurality of accommodating cavities is set to be a preset value.

In the embodiment of the present application, the area value that the inside of the housing holds is a preset value, and it should be noted that, in the present application, the preset value of the area that holds the cavity is not specifically limited, wherein the number of the inside of the housing that holds the cavity needs to be greater than 5, and the specific subdivision is determined according to the holding area of the housing itself, and here, the specific limitation is not made, and the connection mode of the rail 6 inside the housing and the housing is set as an integrated molding, which means that the connection mode of the rail 6 and the housing is non-detachable.

Optionally, a cover plate 4 is installed in front of the housing, the cover plate 4 is connected with the housing through a rotating shaft, a buckle is arranged on the cover plate 4, a clamping groove is arranged in the housing, and the buckle is matched with the clamping groove and used for fixing the cover plate 4 on the housing; the cover plate 4 is provided with handles 41, the handles 41 are arranged on two sides of the outer surface of the cover plate 4, and soft sponge is arranged on the inner surface of each handle 41.

Optionally, the energy storage battery is connected with the electric energy converter 2 through a cable, and an insulating adhesive is arranged at a connection position of the energy storage battery and the electric energy converter 2; a preset gap is formed between the second solar panel 3 and the shell, and the preset gap is used for performing heat dissipation treatment on the second solar panel 3; a preset gap is formed between the third solar panel 5 and the shell, and the preset gap is used for performing heat dissipation treatment on the third solar panel 5.

The technical features disclosed above are not limited to the combinations with other features disclosed, and other combinations between the technical features can be performed by those skilled in the art according to the purpose of the invention to achieve the aim of the invention.

Claims (10)

1. A photovoltaic-combined energy storage power station, comprising: the solar panel assembly, the shell, the electric energy converter and the plurality of reserve batteries;

the solar light panel assembly is arranged on the outer surface of the shell and comprises a first solar light panel, a second solar light panel and a third solar light panel, the electric energy converter is arranged at the upper end of the shell, the first solar light panel is arranged above the electric energy converter, the first solar light panel, the second solar light panel and the third solar light panel are all electrically connected with the electric energy converter, the interior of the shell is divided into a plurality of accommodating cavities through rails, the reserve batteries are placed in the accommodating cavities, the reserve battery is electrically connected with the electric energy converter, the solar panel assembly is used for absorbing light energy and then converting the light energy into electric energy to be output to the electric energy converter, the electric energy converter is used for transmitting electric energy to a reserve battery, and the reserve battery is used for storing and processing the electric energy.

2. The pv-combined energy storage power station of claim 1 wherein the first solar panel is detachably connected to the electric energy converter, the second solar panel is mounted on one side of the housing, and the third solar panel is mounted on the other side of the housing.

3. The pv-combined energy storage power station of claim 2 wherein the second solar panel is fitted with a first support on one side adjacent to the housing, and the third solar panel is fitted with a second support on the other side adjacent to the housing, the first support being detachably connected to the housing, and the second support being detachably connected to the housing.

4. The pv-combined energy storage plant as claimed in claim 1, characterized in that the rails inside the housing are connected to the housing in an integrally formed manner, and the storage spaces of the accommodating chambers have the same area.

5. The pv-combined energy storage plant of claim 4 wherein the areas of the several containment cavities are set to a preset value.

6. The pv-combined energy storage plant as claimed in claim 1, characterized in that a cover plate is mounted in front of the casing and connected to the casing via a pivot, and the cover plate is provided with a snap-in element, and the casing is provided with a snap-in groove therein, the snap-in element being engaged with the snap-in groove for fixing the cover plate to the casing.

7. The pv combined energy storage plant of claim 6 wherein handles are provided on the cover plate, said handles being disposed on both sides of the outer surface of the cover plate, and soft sponges being disposed on the inner surface of the handles.

8. The pv-combined energy storage plant according to any of claims 1 to 7, characterized in that the reserve battery is connected to the energy converter by means of a cable, and that an adhesive is provided at the connection between the reserve battery and the energy converter.

9. The pv-combined energy storage power station of claim 8 wherein a preset gap is provided between the second solar panel and the housing, the preset gap being used for heat dissipation of the second solar panel.

10. The pv-combined energy storage power station of claim 8 wherein a preset gap is provided between the third solar panel and the housing, the preset gap being used for heat dissipation of the third solar panel.

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