CN108561060A - A kind of modular photovoltaic energy storage shutter - Google Patents

Abstract

The invention relates to a modularized photovoltaic energy storage louver, which includes a photovoltaic solar panel forming a louver grid, a blind side ladder belt for manually adjusting the angle of the solar panel, a main ladder belt connected to a fixed shutter pane, positive lead wires and The negative lead wires are respectively connected in series on the positive contact surface and the negative contact surface of the battery board, and connected to the energy storage battery fixed on the upper part of the louver, and the detachable suspension plate on the top of the device. The energy storage battery has a reserved slot, and the suspension plate is an aluminum alloy plate. Compared with the prior art, the present invention has the advantages of light weight, flexibility, modularization and integration of power generation and energy storage.

Description

A modular photovoltaic energy storage shutter

technical field

The invention relates to a modular photovoltaic energy storage shutter, which belongs to the field of photovoltaic power generation.

Background technique

With the continuous development of new energy technologies, solar energy is a widely distributed, clean, environmentally friendly and renewable emerging energy. Its development and utilization are of great significance to alleviate the energy crisis and protect the ecological environment. Therefore, photovoltaic power generation is a highly favored and expected energy source among new energy sources. In fact, the energy irradiated by the sun on the earth can meet all the energy needed for the survival of all human beings. In recent years, with the continuous improvement of photoelectric conversion efficiency, some application scenarios of photovoltaic technology have emerged. At present, the use of photovoltaic roofs continues to expand, but the utilization rate of building facades is relatively low. The main reason is that the photovoltaic energy-saving renovation of the facade may be more complicated than that of the roof, and it needs to be connected to the power grid in the building, which may affect the normal use of the building. At the same time, the whole piece of customized photovoltaic panels leads to the need to measure and customize windows of different sizes separately, the installation process is more cumbersome, and the usage scenarios are relatively fixed.

Contents of the invention

The purpose of the present invention is to propose a modular photovoltaic energy storage shutter.

A modularized photovoltaic energy storage shutter proposed by the present invention comprises a photovoltaic solar panel 1, a blind side ladder belt 2, a main ladder belt 3, a positive lead 4, a negative lead 5, an energy storage battery 8 and a suspension plate 10, and is characterized in that The plurality of photovoltaic solar panels 1 are arranged to form a louver grid, and the louver side ladder belt 2 is arranged on both sides of the louver grid, and the side ladder belt 2 of the louver is connected with any component for manual adjustment. The ladder belt 2 and the side edge of the photovoltaic panel are bonded and fixed, and the adjustment of the angle of the photovoltaic panel is realized by pulling the ladder belt up and down; the main ladder belt 3 is fixed in the middle of the louver grid; the positive lead 4 is connected in series to each photovoltaic solar panel 1 The positive contact surface 6 and the negative electrode lead 5 are connected in series to the negative contact surface 7 of each photovoltaic solar panel 1; the positive electrode lead 4 is connected to the positive electrode of the energy storage battery 8, and the negative electrode lead 5 is connected to the negative electrode of the energy storage battery 8; The energy battery 8 is positioned at the top of the louver grid, and the top of the louver grid is provided with a detachable suspension plate 10.

In the present invention, the adjacent photovoltaic solar panels 1 are connected by wires, which ensures that the passage will not be damaged when the blinds change their angles.

In the present invention, the storage battery 8 is composed of several rechargeable batteries, and the two ends of the battery at both ends have lead wires, and reserve slots 9 for series connection.

In the present invention, the upper part of the storage battery 8 is provided with a suspension plate 10 and an installation hole for easy installation.

In the present invention, the main ladder belt 3 is a hollow structure, and the positive electrode lead 4 and the negative electrode lead 5 are both located in the hollow structure of the main ladder belt 3 .

In the present invention, the photovoltaic solar panel 1 is a strip-shaped photovoltaic cell sheet, and the strip-shaped photovoltaic cell sheet is formed by welding a plurality of strip-shaped cells with the same width in series through a series welding wire.

In the present invention, each photovoltaic panel can also generate electricity to meet the requirements of the power consumption end while playing the role of sunshade.

In the present invention, the generated electric energy can be connected to the fixed terminal in the house and connected to the power grid in the building as a fixed electric energy output device, or its battery can be used alone for energy storage and moved to meet different needs.

In the present invention, each photovoltaic panel is parallel to each other, fixed by the central ladder belt, and the angle can be adjusted by the two side ladder belts.

In the present invention, the energy storage battery is provided with a connection interface, and the two components can be connected in series when assembling.

Compared with prior art, the beneficial effect of the present invention is:

1. The integrated design of power generation and energy storage is realized, which improves the convenience of users. It can be connected to the internal network of the building through the transformation of the power grid to achieve stable power supply, or it can be powered by an energy storage battery as a mobile power supply, and the usage scenarios are more diverse.

2. Modular design. A plurality of photovoltaic louver modules can be connected in series through the above method, which reduces the cost of producing battery components of different sizes and improves production efficiency.

Description of drawings

Fig. 1 is the front view of the structure of the photovoltaic energy storage shutter of the present invention;

Fig. 2 is a side view of the structure of the photovoltaic energy storage shutter of the present invention.

Labels in the figure: 1-photovoltaic solar panels in louver grid format; 2-side ladder belt; 3-main ladder belt; 4-positive lead wire; 5-negative lead wire; 6-positive contact surface; - energy storage battery; 9 - energy storage battery series slot; 10 - suspension board.

Detailed ways

The technical solutions in the embodiments of the present invention are clearly and completely described below in conjunction with the drawings in the embodiments of the present invention.

Embodiment 1: As shown in Fig. 1, a kind of modularized photovoltaic energy storage louver comprises photovoltaic panels arranged in a louver structure as a whole. Mainly consists of louver grid (photovoltaic solar panel 1), side ladder belt 2, main ladder belt 3, positive lead wire 4, negative lead wire 5, positive contact surface, 7-negative base surface, energy storage battery 8, energy storage battery series plug Groove 9 and hanging plate 10. Photovoltaic solar panel 1 forms the louver grid, the louver side ladder belt 2 manually adjusts the angle of the solar panel, connects the main ladder belt 3 that fixes the louver grid, and the positive lead 4 and the negative lead 5 are respectively connected in series to the positive contact of the battery panel Surface 6 and negative contact surface 7, and connected to the energy storage battery 8 fixed on the upper part of the shutter, the detachable suspension plate 10 on the top of the device.

The photovoltaic solar panels 1 forming the louver grid are connected by wires, which ensures that the passage will not be damaged when the louver changes angles.

The energy storage battery 8 installed on the top is provided with several rechargeable batteries. Lead wires are drawn out from both ends of the battery and a slot 9 connected in series is reserved.

The top of the energy storage battery has a suspension plate 10 and a mounting hole for easy installation. The suspension plate is an aluminum alloy plate.

The strip-shaped photovoltaic solar panel 1 is connected in series by welding a plurality of strip-shaped cells with the same width through a series welding wire.

The main ladder belt 3 has a hollow structure, and the positive lead wire 4 and the negative electrode lead wire 5 are arranged in the main ladder belt 3 . Using such a composite method saves space and avoids the exposure of lead wires, making it safer during use.

During the user's use, there is no difference from the normal shutter opening and closing operation. The opening and closing of the louver grid can be controlled by the movement of the side ladder belt 2 .

The electric energy generated by the photovoltaic panel will be transmitted to the energy storage battery 8 on the upper part of each louver structure through the lead wire in the main ladder belt 3 . There are slots 9 at both ends of the battery, and two photovoltaic shutter modules can be spliced together.

The suspension plate 10 is made of aluminum alloy, and the holes are reserved for simple suspension, which is convenient for quick installation when construction is inconvenient. This part is also detachable. If the installation of the blinds is considered in the interior design, it can be detached, which is more beautiful.

Claims (6)

1. A modular photovoltaic energy storage blinds, including photovoltaic solar panels (1), blind side ladder belts (2), main ladder belts (3), positive lead wires (4), negative lead wires (5) and energy storage batteries ( 8) and a hanging plate (10), characterized in that the plurality of photovoltaic solar panels (1) are arranged to form a louver grid, and the louver grid is provided with louver side ladder belts (2) on both sides, and the louver side ladder The belt (2) is connected with any part to facilitate manual adjustment. The side ladder belt (2) of the louver is bonded and fixed to the side edge of the photovoltaic panel, and the adjustment of the angle of the photovoltaic panel is realized by pulling the ladder belt up and down; the middle part of the louver grid The main ladder belt (3) is fixed; the positive lead (4) is connected in series to the positive contact surface (6) of each photovoltaic solar panel (1), and the negative lead (5) is connected in series to the contact surface of each photovoltaic solar panel (1) The negative contact surface (7); the positive lead wire (4) is connected to the positive pole of the energy storage battery (8), and the negative pole lead wire (5) is connected to the negative pole of the energy storage battery (8); the energy storage battery (8) is located on the shutter grid The top of the shutter grid is provided with a detachable hanging plate (10). 2. The photovoltaic energy storage shutter according to claim 1, characterized in that, the adjacent flexible photovoltaic cells (1) are connected by wires to ensure that the passage will not be damaged when the shutter changes its angle. 3. The photovoltaic energy storage shutter according to claim 1, characterized in that, the storage battery (8) is composed of several rechargeable batteries, the two ends of the batteries at both ends have lead wires, and reserved slots in series ( 9). 4. The photovoltaic energy storage shutter according to claim 1, characterized in that, the upper part of the storage battery (8) is provided with a suspension plate (10) and an installation hole for easy installation. 5. The photovoltaic energy storage shutter according to claim 1, characterized in that, the main ladder belt (3) is a hollow structure, and the positive electrode lead (4) and the negative electrode lead (5) are both located on the main ladder belt (3) in the hollow structure. 6. The photovoltaic energy storage shutter according to claim 1, characterized in that, the photovoltaic solar panel (1) is a strip-shaped photovoltaic cell, and the strip-shaped photovoltaic cell consists of several strip-shaped cells with the same width It is connected in series by welding wires.