CN112636673A

CN112636673A - Photovoltaic container and power supply system

Info

Publication number: CN112636673A
Application number: CN202011472018.3A
Authority: CN
Inventors: 黄毅翔; 林宝伟; 赵志刚
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-04-09

Abstract

The utility model provides a photovoltaic container and power supply system, photovoltaic container includes: the container comprises a container body, wherein the container body comprises a side plate which is hinged on the container body; be equipped with first photovoltaic board on the curb plate, the curb plate is constructed to be opened to the outside of container body, adjusts the daylighting inclination of first photovoltaic board. According to the photovoltaic container, the photovoltaic plate is arranged on the side plate which can be opened, the lighting inclination angle of the photovoltaic plate can be adjusted according to the opening angle of the side plate, the optimal lighting posture can be achieved, or the sun position can be tracked, so that the solar photovoltaic plate can keep efficient power generation efficiency, and the power generation capacity of photovoltaic power generation is improved. Simultaneously, combine photovoltaic board and container organically, satisfy container community's power consumption needs, given the nimble convenient characteristic of solar energy power supply system promptly, can not occupy ground space again, provide the green energy for container community, build the comfortable home environment of zero carbon safety.

Description

Photovoltaic container and power supply system

Technical Field

The utility model belongs to the technical field of solar energy, concretely relates to photovoltaic container and power supply system.

Background

The container community is a new building cluster and is widely applied to the fields of building site office and residence, factory buildings, field operation places, roof additional facilities and the like. The container community has the advantages of being fast and convenient to move, flexible in combination, environment-friendly, low-carbon and energy-saving. Solar energy is widely applied to daily life as a green clean energy, but the solar photovoltaic technology needs a large power generation area to generate enough electric energy, and how to utilize the clean energy to provide electric energy for container communities is a problem of concern in the industry.

Disclosure of Invention

Therefore, the technical problem to be solved by the present disclosure is the organic combination of photovoltaic power generation technology and container community, thereby providing a photovoltaic container and a power supply system.

In order to solve the above problem, the present disclosure provides a photovoltaic container, including:

the container comprises a container body, wherein the container body comprises a side plate which is hinged on the container body;

be equipped with first photovoltaic board on the curb plate, the curb plate is constructed to be opened to the outside of container body, adjusts the daylighting inclination of first photovoltaic board.

The purpose of the present disclosure and the technical problems solved thereby can be further achieved by the following technical measures.

In some embodiments, the container body further comprises a top panel on which the second photovoltaic panel is disposed.

In some embodiments, the angle of the side panels that are opened changes with the position of the sun, so that the lighting inclination angle of the first photovoltaic panel is equal to the preset lighting inclination angle.

In some embodiments, the preset lighting inclination is 90 °.

In some embodiments, the side panels are hingedly connected to the top panel, and the side panels can be flipped open along the edges of the top panel.

In some embodiments, the container body is provided with a mechanical arm, one end of the mechanical arm is fixed on the container body, the other end of the mechanical arm is connected to the side plate, and the mechanical arm is configured to drive the side plate to be opened and adjusted in angle.

In some embodiments, the side plates include a first side plate and a second side plate, the first side plate and the second side plate are respectively hinged to two long edges of the top plate, the first photovoltaic plate I is arranged on the first side plate, and the second photovoltaic plate II is arranged on the second side plate.

In some embodiments, when the first side plate and the second side plate are folded, the first photovoltaic plate, the second photovoltaic plate and the second photovoltaic plate are arranged in a U shape, the reflected light of the first photovoltaic plate can irradiate the first photovoltaic plate and the second photovoltaic plate, and the reflected light of the second photovoltaic plate can irradiate the first photovoltaic plate and the second photovoltaic plate.

In some embodiments, the side panel comprises at least two flaps, edges of the at least two flaps are hinged, and the at least two flaps unfold when the side panel is opened.

In some embodiments, an energy storage battery is arranged in the container body, and the energy storage battery is configured to receive and store the electric energy of the first photovoltaic panel and the second photovoltaic panel and simultaneously can supply power to external electric equipment.

In some embodiments, when the mechanical arm is included, an inverter is arranged in the container body, the inverter is electrically connected with the energy storage battery and the mechanical arm, and the inverter is configured to convert electric energy in the energy storage battery and supply power to the mechanical arm.

A power supply system adopts the photovoltaic container.

The photovoltaic container and power supply system provided by the present disclosure have at least the following beneficial effects:

this disclosed photovoltaic container, the curb plate design of container is for can turning over to the outside to set up the photovoltaic board on the curb plate that can turn over, the daylighting inclination of photovoltaic board can be adjusted according to the angle that the curb plate turned over, can realize the optimum daylighting gesture, or realize the sun position and trail, make the solar photovoltaic board keep efficient generating efficiency, improve photovoltaic power generation's generated energy. Simultaneously, combine photovoltaic board and container organically, satisfy container community's power consumption needs, given the nimble convenient characteristic of solar energy power supply system promptly, can not occupy ground space again, provide the green energy for container community, build the comfortable home environment of zero carbon safety.

Drawings

Fig. 1 is a schematic structural view of a photovoltaic container of an embodiment of the present disclosure;

fig. 2 is a top view of a photovoltaic container according to an embodiment of the disclosure in an open position;

fig. 3 is a schematic view illustrating adjustment of a lighting tilt angle of a first photovoltaic module according to an embodiment of the disclosure.

The reference numerals are represented as:

1. a container body; 2. a side plate; 3. a first photovoltaic panel; 4. a top plate; 5. a second photovoltaic panel; 6. a mechanical arm; 7. a first side plate; 8. a second side plate; 9. a first photovoltaic panel I; 10. a second photovoltaic panel; 11. and (5) folding the board.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the following embodiments of the present disclosure will be clearly and completely described in conjunction with the accompanying drawings. It is to be understood that the described embodiments are merely a subset of the disclosed embodiments and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

As shown in fig. 1 to 3, the present embodiment provides a photovoltaic container, including: the container comprises a container body 1, wherein the container body 1 comprises a side plate 2, and the side plate 2 is hinged on the container body 1; be equipped with first photovoltaic board 3 on the curb plate 2, curb plate 2 is constructed and to be opened to the outside of container body 1, adjusts the daylighting inclination of first photovoltaic board 3.

This disclosed photovoltaic container, 2 designs the curb plate of container for can outwards turning over to set up the photovoltaic board on the curb plate 2 that can turn over, the daylighting inclination of photovoltaic board can be adjusted according to the angle that curb plate 2 turned over, can realize the optimum daylighting gesture, or realize that the sun position is tracked, make the solar photovoltaic board keep efficient generating efficiency, improve photovoltaic power generation's generated energy. Simultaneously, combine photovoltaic board and container organically, satisfy container community's power consumption needs, given the nimble convenient characteristic of solar energy power supply system promptly, can not occupy ground space again, provide the green energy for container community, build the comfortable home environment of zero carbon safety.

In some embodiments, the container body 1 further comprises a top plate 4, a second photovoltaic plate 5 is arranged on the top plate 4, photovoltaic plates are arranged on the top plate 4 of the container body 1, photovoltaic power generation is performed together with the side photovoltaic plates, more photovoltaic modules can be laid in a limited space, the power generation area of the photovoltaic plates is increased, and the power generation capacity is improved.

In some embodiments, the second photovoltaic panel 5 and the first photovoltaic panel 3 are installed in a criss-cross manner, and the surface areas of the top plate 4 and the side plates 2 of the container body 1 are fully utilized, so that the power generation area utilization rate is maximized.

In some embodiments, in order to improve the power generation efficiency of the photovoltaic panel, the angle of the side panel 2 is changed along with the change of the position of the sun, so as to realize the tracking of the position of the sun, and the lighting inclination angle of the first photovoltaic panel 3 is always equal to the preset lighting inclination angle, so that the power generation efficiency of the photovoltaic panel is kept in the optimal state.

In some embodiments, the preset lighting inclination angle is 90 °, and when the sunlight received by the photovoltaic panel is incident on the photovoltaic panel at 90 ° perpendicularly, the photovoltaic panel has the highest power generation efficiency.

In some embodiments, the side plate 2 is hinged to the top plate 4, the side plate 2 can be folded along the edge of the top plate 4, the hinge point is arranged at the edge of the top plate 4, the side plate 2 is folded from bottom to top, after the side plate is completely folded, the side plate 2 forms a large-area lighting platform which is flush with the top plate 4, each photovoltaic plate is not shielded, and the lighting area is the largest.

In some embodiments, in order to realize the automatic or manual opening and closing of the side plates 2, a mechanical arm 6 is installed on the container body 1, one end of the mechanical arm 6 is fixed on the container body, the other end of the mechanical arm 6 is connected to the side plates 2, and the mechanical arm 6 is configured to drive the side plates 2 to be opened and adjusted in angle.

In some embodiments, considering that the container body 1 has two large-area side plates 2, each side plate 2 includes a first side plate 7 and a second side plate 8, the first side plate 7 and the second side plate 8 are respectively hinged to two long edges of the top plate 4, a first photovoltaic plate 9 is arranged on the first side plate 7, a second photovoltaic plate 10 is arranged on the second side plate 8, the two side plates 2 can be opened upwards to form a large-area lighting platform, each photovoltaic plate is not shielded, and the lighting area is the largest.

In some embodiments, the first side plate 7 and the second side plate 8 can be controlled to open independently or controlled in a linkage manner. When container body 1 is as street bar, or convenience store, simple and easy house, can install inlayer glass additional in curb plate 2, under the condition that first curb plate 7, second curb plate 8 were opened, the both sides face position panorama french window, elegant appearance.

In some embodiments, when the first side plate 7 and the second side plate 8 are opened, the first photovoltaic plate 9, the second photovoltaic plate 5 and the first photovoltaic plate two 10 are arranged in a U shape, the first photovoltaic plate two 10 and the second photovoltaic plate 5 can be irradiated by the reflected light of the first photovoltaic plate 9, the first photovoltaic plate 9 and the second photovoltaic plate 5 can be irradiated by the reflected light of the first photovoltaic plate two 10, the sunlight can be reflected after being injected into the photovoltaic plate on one side, the reflection can be received by the photovoltaic plate on the other side, the reflection can still be generated, and the like, so that the effect of increasing the sunlight utilization rate is achieved.

In some embodiments, to further increase the effective area of the first photovoltaic panel 3, the side panel 2 comprises at least two flaps 11, the edges of the at least two flaps 11 are hinged, and when the side panel 2 is opened, the at least two flaps 11 are unfolded. When the folded plate 11 is the same as the side plate 2 in size, the first photovoltaic panel 3 can be provided with one more group, and when the folded plate 11 is completely unfolded, the area of the first photovoltaic panel 3 is doubled. When the size of the folded plate 11 is smaller than that of the side plate 2, although the area of the photovoltaic panel cannot be increased remarkably, the space required by unfolding of the side plate 2 can be effectively reduced, the placing density of the photovoltaic container can be increased, or the folded plate is close to other buildings, and the space adaptability of the photovoltaic container is improved.

In some embodiments, an energy storage battery is arranged in the container body 1, and the energy storage battery is configured to receive and store the electric energy of the first photovoltaic panel 3 and the second photovoltaic panel 5, and simultaneously can supply power to external electric equipment, so that the illumination is sufficient in the daytime, the power consumption is low, the power generation of the photovoltaic panels is excessive, the excessive electric energy is stored in the energy storage battery at the moment, and the power consumption is increased at night, and the energy storage battery discharges for the electric equipment to use.

In some embodiments, when the mechanical arm 6 is included, an inverter is disposed in the container body 1, the inverter is electrically connected to the energy storage battery and the mechanical arm 6, the inverter is configured to transform electric energy in the energy storage battery to supply power to the mechanical arm 6, and the inverter provides reliable and stable electric energy for the mechanical arm 6.

In the specific application, the photovoltaic container of this embodiment can divide into 5 kinds of operational modes, controls through the control module in the container body 1.

As shown in fig. 3, the solar energy generation system is divided into a solar energy rising mode, a morning mode, an noon mode, an afternoon mode and a sunset mode, so that the photovoltaic utilization rate is maximized.

A power supply system adopts the photovoltaic container.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present disclosure is to be considered as limited only by the preferred embodiments and not limited to the specific embodiments described herein, and all changes, equivalents and modifications that come within the spirit and scope of the disclosure are desired to be protected. The foregoing is only a preferred embodiment of the present disclosure, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present disclosure, and these improvements and modifications should also be considered as the protection scope of the present disclosure.

Claims

1. A photovoltaic shipping container, comprising:

the container comprises a container body (1), wherein the container body (1) comprises side plates (2), and the side plates (2) are hinged to the container body (1);

the side plate (2) is provided with a first photovoltaic plate (3), and the side plate (2) is constructed to be capable of being opened towards the outer side of the container body (1) to adjust the lighting inclination angle of the first photovoltaic plate (3).

2. The photovoltaic container of claim 1, wherein the container body (1) further comprises a top panel (4), and a second photovoltaic panel (5) is provided on the top panel (4).

3. The photovoltaic container according to claim 1, characterized in that the angle of opening of said side panels (2) varies as a function of the position of the sun, so that the lighting inclination of said first photovoltaic panel (3) is equal to a preset lighting inclination.

4. The photovoltaic container of claim 3, wherein the pre-set lighting tilt angle is 90 °.

5. The photovoltaic container according to claim 2, characterized in that the side panels (2) are hingedly connected to the top panel (4), the side panels (2) being foldable along the edges of the top panel (4).

6. The photovoltaic container according to claim 5, wherein a mechanical arm (6) is mounted on the container body (1), one end of the mechanical arm (6) is fixed on the container body (1), the other end is connected to the side plate (2), and the mechanical arm (6) is configured to drive the side plate (2) to be opened and adjusted in angle.

7. The photovoltaic container according to claim 5, wherein the side plates (2) comprise a first side plate (7) and a second side plate (8), the first side plate (7) and the second side plate (8) are respectively hinged to two long sides of the top plate (4), a first photovoltaic plate I (9) is arranged on the first side plate (7), and a second photovoltaic plate II (10) is arranged on the second side plate (8).

8. The photovoltaic container according to claim 7, wherein when the first side plate (7) and the second side plate (8) are folded, the first photovoltaic plate (9), the second photovoltaic plate (5) and the second photovoltaic plate (10) are arranged in a U shape, the reflected light of the first photovoltaic plate (9) can irradiate the first photovoltaic plate (10) and the second photovoltaic plate (5), and the reflected light of the first photovoltaic plate (10) can irradiate the first photovoltaic plate (9) and the second photovoltaic plate (5).

9. Photovoltaic container according to any of claims 1-8, characterized in that the side panel (2) comprises at least two flaps (11), the edges of the at least two flaps (11) being hinged, the at least two flaps (11) unfolding when the side panel (2) is folded open.

10. The photovoltaic container according to claim 9, wherein an energy storage battery is arranged in the container body (1), and the energy storage battery is configured to receive and store the electric energy of the first photovoltaic panel (3) and the second photovoltaic panel (5) and supply power to external electric equipment.

11. The photovoltaic container of claim 10, wherein when the robotic arm (6) is included, an inverter is disposed within the container body (1), the inverter being electrically connected to the energy storage battery and the robotic arm (6), the inverter being configured to transform electrical energy within the energy storage battery to power the robotic arm (6).

12. A power supply system, characterized in that a photovoltaic container according to any one of claims 1-11 is used.