CN104467114A - Movable solar cell charging pile - Google Patents

Abstract

The invention relates to a movable solar cell charging pile which comprises a framework, a solar cell module, a photo-voltaic controller, a storage battery, a power supply unit and a moving unit. The solar cell module is installed on the framework. The photo-voltaic controller and the storage battery are contained in the framework. The power supply unit is used for supplying power to equipment. The moving unit is installed on the framework to make the charging pile move. Light energy is converted into electric energy through the solar cell module, then the electric energy is stored in the storage battery through the photo-voltaic controller, and the electric energy stored in the storage battery supplies power through the power supply unit. The charging pile can be moved everywhere conveniently, and is high in efficiency at various angles and in various directions.

Description

A mobile solar battery charging pile

technical field

The invention relates to solar battery charging equipment, in particular to a movable solar battery charging pile.

Background technique

The solar battery charging pile converts solar energy into electrical energy and stores it in the battery. It is generally composed of solar cells, batteries, and voltage regulating components. Under sunlight, solar energy is converted into electrical energy through light energy and stored in the built-in battery through the control circuit, and the electric energy generated by light energy can also be directly charged to mobile phones or other electronic digital products. Solar battery charging piles meet the charging needs of people in different places and under different conditions.

As a new high-tech solar technology, solar charging has an intelligent adjustment function, which can adjust different output voltages and currents. It can charge different charging products, adjust the voltage within the range of 3.7V-6V, and can charge MP3, MP4, PDA, digital cameras, mobile phones and other products, so as to realize the effective and more convenient use of solar energy.

However, the existing solar battery charging piles are not movable, for example, some distributed photovoltaic power stations are all fixed in the same place. The orientation of the solar cells in the solar cell charging pile is limited, and the maximum efficiency of the solar cells cannot be achieved.

That is, the existing solar battery charging piles cannot move freely. In addition, the solar cells installed in the existing solar cell charging piles are all on one side, and the installation angles are uniform and optimal.

Contents of the invention

In view of the above, in order to overcome the problem that the existing solar battery charging pile is not movable and the direction of the solar battery is limited, the present invention provides a movable solar battery charging pile, which can be easily moved around, and can be used in various angles and directions. have higher efficiency.

The mobile solar cell charging pile of the present invention comprises: a frame; a solar cell assembly installed on the frame; a photovoltaic controller and a storage battery accommodated in the frame; a power supply unit for supplying power to equipment; A mobile unit on the frame to move the charging pile; the light energy is converted into electrical energy by the solar cell assembly and then stored in the storage battery through the photovoltaic controller, and the electrical energy stored in the storage battery passes through the power supply unit power supply.

According to the movable solar cell charging pile of the present invention, the light energy is converted into electrical energy by the solar cell assembly and then stored in the battery through the photovoltaic controller. The photovoltaic controller can make the solar cell assembly output at the maximum power point, and then the battery passes through the The power supply unit supplies power to the equipment, and the movable solar battery charging pile is conveniently moved around by the mobile unit installed on the frame. Therefore, the charging pile can be fixed at a certain place or moved around. For example, it can be used both outdoors and indoors, both in places with strong light and in places with low light.

Moreover, the movable solar battery charging pile of the present invention puts the photovoltaic controller and the storage battery inside it, so that power generation, control, energy storage, etc. are all in the same mobile system, and solar power can be used to generate electricity While storing electricity and supplying power to some power-consuming equipment, it also solves the problem that the existing distributed photovoltaic power plants are all fixed in the same place. At the same time, in order to achieve the maximum efficiency of solar cells, the orientation of solar cells is limited.

Also, in the present invention, the solar battery module may be installed on a single surface or multiple surfaces of the charging pile.

According to the present invention, sunlight can be effectively utilized to generate more electric energy. In particular, installing solar cell components on multiple surfaces of the charging pile can utilize sunlight from multiple directions to meet charging piles with different usage requirements, thereby improving the utilization rate of sunlight.

Moreover, in the present invention, it is also possible that the solar cell module includes a single-glass module, a double-glass module, or a single solar cell unit.

Also, in the present invention, the solar cells in the solar cell module may include silicon-based solar cells, multi-element compound thin-film solar cells, or polymer multilayer modified electrode solar cells.

Preferably, the silicon-based solar cells include monocrystalline silicon solar cells, polycrystalline silicon solar cells, or amorphous silicon thin film solar cells.

Preferably, the multi-component compound thin-film solar cell includes gallium arsenide III-V compound, cadmium sulfide, or cadmium sulfide and copper-indium-selenium thin-film solar cell.

Preferably, the polymer multilayer modified electrode solar cell includes a dye-sensitized solar cell or a perovskite solar cell.

In the present invention, the solar cell module arranged on multiple surfaces can use either one type of solar cell or a mixed system of multiple types of solar cells.

Furthermore, in the present invention, it may also be that the power supply unit supplies power to the device in a wired or wireless manner. For example, wireless charging technology can be used to power devices, mainly using the principle of electromagnetism for charging during wireless connection. the

According to the present invention, the power supply unit can supply power to the equipment in a wired or wireless manner, so that the mobile solar battery charging pile of the present invention can be widely used.

Also, in the present invention, the moving unit may include wheels attached to the bottom of the frame.

According to the present invention, the mobile solar battery charging pile of the present invention can be effectively moved around by the wheels installed on the bottom of the frame.

The above contents and other objects, features and advantages of the present invention will be better understood according to the following detailed description and with reference to the accompanying drawings.

Description of drawings

Fig. 1 shows a schematic structural diagram of a movable solar battery charging pile according to an embodiment of the present invention;

Fig. 2 shows the schematic structural view of the solar cell assembly in the movable solar cell charging pile shown in Fig. 1;

Fig. 3 shows a schematic structural diagram of the interior of the movable solar battery charging pile shown in Fig. 1;

FIG. 4 shows a schematic diagram of the electrical system of the movable solar battery charging pile shown in FIG. 1 .

Detailed ways

In order to make the above and other objects, features and advantages of the present invention more comprehensible, a detailed description will now be given with reference to the accompanying drawings. It should be noted that the above embodiments are only for illustrating the present invention, rather than limiting the spirit and scope of the present invention, those skilled in the art can make modifications to obtain equivalent embodiments.

The mobile solar cell charging pile of the present invention comprises: a frame; a solar cell assembly installed on the frame; a photovoltaic controller and a storage battery accommodated in the frame; a power supply unit for supplying power to equipment; A mobile unit on the frame to move the charging pile; light energy is converted into electrical energy by the solar cell assembly and then stored in the storage battery through the photovoltaic controller.

1 to 4 schematically show a movable solar battery charging pile according to an embodiment of the present invention. As shown in FIG. 1 , the mobile solar cell charging pile 1 of the present invention includes a frame 11 and a solar cell assembly 2 installed on the frame 11 . As shown in FIGS. 3 and 4 , the movable solar battery charging pile 1 further includes a photovoltaic controller 3 and a storage battery 4 accommodated in a frame 11 . For example, FIG. 3 shows the battery 4 arranged on the lower panel 16 of the charging pile 1 , and the photovoltaic controller 3 connected to the battery 4 through the connection line 5 .

In addition, the movable solar battery charging pile 1 also includes a power supply unit for supplying power to the device, for example, refer to the lead wire 15 shown in FIG. 1 . The lead wire 15 passes through the opening 13 formed on the upper panel 12 of the charging post 1 . Also, the charging post 1 can be moved by a moving unit such as wheels 14 installed on the bottom of the frame 11 . In the mobile solar battery charging pile 1 of the present invention, the light energy is converted into electrical energy by the solar battery module 2 and then stored in the storage battery 4 through the photovoltaic controller 3 .

As shown in Figure 4, in the movable solar cell charging pile 1, the light energy is converted into electrical energy by the solar cell module 2 and then stored in the storage battery 4 through the photovoltaic controller 3, and then the storage battery 4 charges the equipment 6 through the power supply unit. powered by. And the movable solar battery charging pile 1 is conveniently moved around by a moving unit such as wheels 14 installed on the frame. Therefore, the charging pile 1 can be fixed at a certain place, and can also be moved around. For example, it can be used both outdoors and indoors, both in places with strong light and in places with low light.

And the movable solar battery charging pile 1 of the present invention puts the photovoltaic controller 3 and the storage battery 4 inside it, so that power generation, control, energy storage, etc. are all in the same movable system, and sunlight can be used While generating electricity, storing electricity, and supplying power to some power-consuming equipment, it also solves the problem that the existing distributed photovoltaic power plants are all fixed in the same place. At the same time, in order to achieve the maximum efficiency of solar cells, the orientation of solar cells is limited. question.

In addition, as shown in FIG. 1 , the solar cell assembly 2 can be installed on a single surface or multiple surfaces of the charging pile 1 , so that sunlight can be effectively used to generate more electric energy. In particular, installing the solar cell assembly 2 on multiple surfaces of the charging pile 1 can utilize sunlight from multiple directions to meet charging piles with different usage requirements, thereby improving the utilization rate of sunlight. For example, solar battery modules 2 may be provided on four surfaces of the charging pile 1 shown in FIG. 1 .

In the present invention, the solar cell module 2 may include a single-glass module, a double-glass module, or a single solar cell unit. And the solar cells in the solar cell module 2 may include silicon-based solar cells, multi-element compound thin-film solar cells, or polymer multilayer modified electrode solar cells.

Preferably, the silicon-based solar cells may include monocrystalline silicon solar cells, polycrystalline silicon solar cells, or amorphous silicon thin film solar cells. The multi-component compound thin-film solar cell may include gallium arsenide III-V compound, cadmium sulfide, or cadmium sulfide and copper-indium-selenium thin-film solar cell. The polymer multilayer modified electrode solar cell may include a dye-sensitized solar cell or a perovskite solar cell. The solar cell module 2 installed on multiple surfaces can use either one type of solar cell or a hybrid system of multiple types of solar cells.

Further, as shown in FIG. 2 , the solar cell module 2 may include a solar cell panel 23 , a solar cell back sheet 25 , and a solar cell filling material 24 filled therebetween. The solar cell module 2 also includes a frame 21 surrounding the panel 23 , the back plate 25 and the filling material 24 through the sealant 22 . Solar battery cells 26 for performing photoelectric conversion are provided on the surface 23 . Between the individual solar cells, the current they generate is conducted by solar cell busbars 27 . The electric energy generated by the solar battery unit 26 is output through the solar battery lead 28 .

Also, as shown in FIG. 1 , the power supply unit of the charging pile 1 of the present invention may be, for example, a lead wire 15 inserted through a USB socket, that is, the charging pile 1 of the present invention supplies power to the device 6 in a wired form, but the present invention is not limited to Therefore, it is also possible to supply power to the device 6 wirelessly. Wireless charging can be realized, for example, by a dedicated wireless charging device. Therefore, the movable solar battery charging pile of the present invention can be widely used.

The present invention is further illustrated below by specific examples.

Example 1

Four dye-sensitized solar cell modules 2 of 600mm*900mm are prepared. And prepare the frame 11 suitable for fixing and carrying the solar battery module 2, panels 12, 16, photovoltaic controller 3, storage battery 4, wheels 14, etc.

The dye-sensitized solar cell module 2 is fixed in the frame 11, and the four sides are respectively fixed, that is, the preliminary structure of the four-sided solar cell module is obtained.

Fix the storage battery 4 , photovoltaic controller 3 and various power supply interfaces at suitable positions inside and outside the charging pile respectively, and cover the upper panel 12 .

Fixing the wheels 14 under the charging pile can form a movable solar battery charging pile 1 as shown in FIG. 1 .

The movable solar battery charging pile of the present invention is an independent system and can be moved. The charging pile is equipped with solar cell modules on one or more sides. The charging pile can be constantly moved outdoors to make adjustments according to changes in light, or it can be placed indoors to use indoor light to generate electricity. There is a control and energy storage system inside the charging pile, which can use the stored solar power to directly power or charge electronic products. Utilizing the present invention, a movable solar cell charging pile is realized, further expands the use range and space of solar energy, and realizes power supply in special environments and special requirements.

The present invention can be embodied in various forms without departing from the essential characteristics of the present invention, so the embodiments in the present invention are for illustration rather than limitation, because the scope of the present invention is defined by the claims rather than by the description , and all changes within the range defined in the claims, or within the range equivalent to the range defined in the claims, should be construed as being included in the claims.

Claims (9)

1. A movable solar battery charging pile, characterized in that, comprising: frame; a solar cell module mounted on the frame; a photovoltaic controller and a battery housed within the frame; a power supply unit for powering the device; and a mobile unit mounted on said frame to move the charging post; The light energy is converted into electrical energy by the solar cell assembly and stored in the storage battery through the photovoltaic controller, and the electrical energy stored in the storage battery is powered by the power supply unit. 2. The mobile solar battery charging pile according to claim 1, wherein the solar battery module is installed on a single surface or multiple surfaces of the charging pile. 3. The mobile solar battery charging pile according to claim 1, wherein the solar battery module comprises a single glass module, a double glass module, or a single solar battery unit. 4. The movable solar cell charging pile according to any one of claims 1 to 3, characterized in that, the solar cells in the solar cell module include silicon-based solar cells, multi-element compound thin-film solar cells, or Polymer multilayer modified electrode solar cell. 5 . The mobile solar battery charging pile according to claim 4 , wherein the silicon-based solar cells include monocrystalline silicon solar cells, polycrystalline silicon solar cells, or amorphous silicon thin-film solar cells. 6. The mobile solar battery charging pile according to claim 4, wherein the multi-element compound thin-film solar battery comprises gallium arsenide III-V compound, cadmium sulfide, or cadmium sulfide and copper-indium-selenium thin-film solar energy. Battery. 7. The mobile solar battery charging pile according to claim 4, characterized in that, the polymer multilayer modified electrode solar cell comprises a dye-sensitized solar cell or a perovskite solar cell. 8. The mobile solar battery charging pile according to claim 1, wherein the power supply unit supplies power to the device in a wired or wireless manner. 9. The mobile solar battery charging pile according to any one of claims 1 to 3, wherein the mobile unit comprises wheels mounted on the bottom of the frame.