CN113691217B - Photovoltaic module with temperature adjusting function - Google Patents

Abstract

The invention discloses a photovoltaic module with a temperature adjusting function, which comprises a glass front end, wherein the glass front end is made of ultra-white toughened glass; the rear end is made of toughened glass; the photovoltaic unit is packaged between the front end and the rear end of the glass, wherein the rear end comprises a plurality of water ways, and all the water ways are communicated with each other; according to the photovoltaic module provided by the invention, the temperature regulation function of the photovoltaic module is realized through the water way arranged at the rear end of the photovoltaic module, and a technical support is provided for the extended application of the photovoltaic module.

Description

Photovoltaic module with temperature adjusting function

Technical Field

The invention belongs to the field of photovoltaic power generation, and particularly relates to a photovoltaic module with a temperature adjusting function.

Background

In a photovoltaic module (solar module), since the output voltage of a single solar cell is low and an electrode of an unpackaged cell is easy to fall off due to the influence of the environment, a certain number of single cells must be sealed in a series-parallel connection manner to form the photovoltaic module, so as to prevent the cell electrode and an interconnection line from being corroded.

The photovoltaic module is divided into a crystalline silicon solar cell module and a thin film solar cell module according to the materials of the solar cell.

Traditional photovoltaic module is for under some low temperatures, the environment of high temperature, difficult normal work, the reason lies in that external environment causes photovoltaic module self because the temperature is too high or low excessively, work efficiency is low and because be in this kind of adverse circumstances for a long time, also cause certain influence to photovoltaic module's life-span easily, in addition, photovoltaic module is at the during operation, self will generate heat, and the certain perennial accumulation of these heats not only causes the reduction in photovoltaic module life-span, but also the circuit that appears easily ages and causes the production accident. In addition, the existing photovoltaic array, especially the photovoltaic array arranged on the roof, can generate a large amount of heat in the power generation process, the heat can cause the indoor temperature to be greatly increased, especially in the area with sufficient illumination, the indoor temperature can be increased to more than 37 ℃ or even higher, people can not live indoors, and unnecessary loss of indoor electrical equipment, furniture and the like due to high temperature is easily caused.

Therefore, a photovoltaic module with a temperature adjusting function is urgently needed, and the photovoltaic module can maintain good working temperature no matter how the external environment changes, so that the indoor temperature of an application room is reduced, unnecessary loss is avoided, and the application of the photovoltaic module in different areas is also guaranteed.

Disclosure of Invention

In order to solve the problems, the invention provides a photovoltaic module with a temperature regulation function, which comprises a glass front end, wherein the glass front end is made of ultra-white toughened glass; the rear end is made of toughened glass; and a plurality of photovoltaic units encapsulated between the front end and the rear end of the glass, wherein the inside of the rear end comprises a plurality of water ways, and each water way is communicated with each other.

Preferably, the upper end of the rear end is provided with a waterway inlet;

the water channel inlet is connected with each water channel through the first water storage layer;

the lower end of the rear end is provided with a waterway outlet;

every water route is through second reservoir bed and water route exit linkage.

Preferably, the waterway inlet and the waterway outlet are disposed inside the rear end; the connector is respectively packaged in the outer parts of the water path inlet and the water path outlet, the connector comprises a shell and a connecting pipe fitting packaged in the shell, the shell is an explosion-proof waterproof insulating shell, and the connecting pipe fitting further comprises an insulating layer.

Preferably, the first water storage layer and the second water storage layer are disposed inside the rear end;

the first area of the first water storage layer is larger than the second area of the second water storage layer.

Preferably, the first area is 2-3 times the second area.

The rear end also comprises a first left water outlet and a first right water outlet;

the first left water outlet and the first right water outlet are arranged on the same horizontal line;

the first left side water outlet and the first right side water outlet are communicated in a straight line mode through a water path, the water path further comprises a first filter strip arranged in the water path, and sealing plugs are arranged on the outer sides of the first left side water outlet and the first right side water outlet respectively.

The waterway comprises a first transverse waterway and a first longitudinal waterway;

the first transverse waterway is communicated with the first longitudinal waterway;

the first transverse waterway and the first longitudinal waterway are arranged between the photovoltaic units;

the first longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer;

the first transverse waterway is respectively communicated with the first left water outlet and the first right water outlet;

a plurality of branch circuits are further arranged between the first transverse waterway and the first longitudinal waterway, wherein each branch circuit is communicated with each other, the branch circuits are arranged on a first back surface of the photovoltaic unit, and the first back surface comprises 3-4 branch circuits.

Preferably, the first area is 5 times the second area.

The rear end also comprises a second left water outlet and a second right water outlet;

the second left water outlet and the second right water outlet are arranged on the same horizontal line;

the second left side delivery port and the second right side delivery port are communicated in a straight line mode through a waterway, wherein the waterway further comprises a filter strip arranged in the waterway.

The waterway comprises a second transverse waterway and a second longitudinal waterway;

the second transverse waterway is communicated with the second longitudinal waterway;

the second transverse waterway and the second longitudinal waterway are arranged on the second back of the photovoltaic unit;

the second longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer;

the second transverse waterway is respectively communicated with the second left water outlet and the second right water outlet;

and 5-6 branch water paths are further arranged between the photovoltaic units, wherein each branch water path is respectively communicated with the second transverse water path and the second longitudinal water path.

The positive progress effects of the invention are as follows:

according to the photovoltaic module provided by the invention, the temperature regulation function of the photovoltaic module is realized through the water way arranged at the rear end of the photovoltaic module, and a technical support is provided for the extended application of the photovoltaic module.

Drawings

Fig. 1 is a schematic view of a photovoltaic module according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. The components of the embodiments of the present application, as generally described and illustrated in the figures herein, could be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1, the present embodiment provides a photovoltaic module with a temperature adjustment function, where the photovoltaic module includes a glass front end, and the glass front end is made of ultra-white tempered glass; the rear end is made of toughened glass; and a plurality of photovoltaic units encapsulated between the front end and the rear end of the glass, wherein the inside of the rear end comprises a plurality of water ways, and each water way is communicated with each other.

The upper end of the rear end is provided with a waterway inlet; the water channel inlet is connected with each water channel through the first water storage layer; the lower end of the rear end is provided with a waterway outlet; every water route is through second reservoir bed and water route exit linkage.

The waterway inlet and the waterway outlet are arranged in the rear end; the connector is respectively packaged in the outer parts of the water path inlet and the water path outlet, the connector comprises a shell and a connecting pipe fitting packaged in the shell, the shell is an explosion-proof waterproof insulating shell, and the connecting pipe fitting further comprises an insulating layer.

The first water storage layer and the second water storage layer are arranged inside the rear end; the first area of the first water storage layer is larger than the second area of the second water storage layer.

When the first area is 2-3 times of the second area, the rear end also comprises a first left water outlet and a first right water outlet; the first left water outlet and the first right water outlet are arranged on the same horizontal line; the first left water outlet and the first right water outlet are communicated in a straight line through a water path, the water path further comprises a first filter strip arranged in the water path, and sealing plugs are respectively arranged on the outer sides of the first left water outlet and the first right water outlet; the waterway comprises a first transverse waterway and a first longitudinal waterway; the first transverse waterway is communicated with the first longitudinal waterway; the first transverse waterway and the first longitudinal waterway are arranged between the photovoltaic units; the first longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer; the first transverse waterway is respectively communicated with the first left water outlet and the first right water outlet; a plurality of branch circuits are further arranged between the first transverse waterway and the first longitudinal waterway, wherein each branch circuit is communicated with each other, the branch circuits are arranged on a first back surface of the photovoltaic unit, and the first back surface comprises 3-4 branch circuits.

When the first area is 5 times the second area; the rear end also comprises a second left water outlet and a second right water outlet; the second left water outlet and the second right water outlet are arranged on the same horizontal line; the second left water outlet and the second right water outlet are linearly communicated through a water path, wherein the water path further comprises a filter strip arranged in the water path; the waterway comprises a second transverse waterway and a second longitudinal waterway; the second transverse waterway is communicated with the second longitudinal waterway; the second transverse water channel and the second longitudinal water channel are arranged on the second back of the photovoltaic unit; the second longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer; the second transverse waterway is respectively communicated with the second left water outlet and the second right water outlet; and 5-6 branch water paths are further arranged between the photovoltaic units, wherein each branch water path is respectively communicated with the second transverse water path and the second longitudinal water path.

According to the photovoltaic module provided by the invention, the function of self temperature reduction or temperature rise is realized by designing the water channel at the rear end of the photovoltaic module, when the self temperature is higher, cold water is input through the water channel for temperature reduction, and redundant heat is output through the water circulation of the water channel, and when the self temperature is lower, hot water is input through the water channel for temperature rise, so that the photovoltaic module can be ensured to operate in a relatively moderate environment, the power generation efficiency and the power generation stability of the whole module are improved, and the energy conversion can be carried out on the self heat through the water circulation by alternating cold water and hot water, so that a new thought is provided for the application of the photovoltaic module.

The photovoltaic module provided by the invention has two designs, the first design is a full-flow design, the water storage area of a first water storage layer of the photovoltaic module is designed to be 2-3 times, preferably 2 times, the water storage area of a second water storage layer, the water storage area of the first water storage layer of the photovoltaic module is designed to be 2-3 times, the two ends and the lower end of the photovoltaic module are designed with a plurality of water outlets, the water outlets at the two ends are mutually symmetrical and are horizontally connected through a water channel, a filtering strip is placed in the water channel communicated from left to right for filtering, a water seal is arranged outside, so that the whole water channel forms a water channel with a single outlet.

The second design is a multi-outlet design, the water storage area of a first water storage layer of the photovoltaic module is designed to be 5-8 times, preferably 5 times, the two ends and the lower end of the photovoltaic module are provided with a plurality of water outlets, the water outlets at the two ends are mutually symmetrical and are horizontally connected through a water channel, the filter strips are placed in the water channel communicated from left to right for filtering, the fixing devices for fixing the filter strips are mounted on the two end frames, the fixing devices can be used as the water outlets, the designed water channel is a multi-outlet water channel and is applied to the photovoltaic module with smaller gradient or horizontal arrangement, the main water channel of the design is arranged on the back of the photovoltaic units packaged in the photovoltaic module, branch water channels are arranged between the photovoltaic units, the photovoltaic units are cooled mainly through the main water channel, and the photovoltaic array composed of the photovoltaic modules is externally provided with a pressure water pump and a wind leakage when the inclination angle of the photovoltaic array is smaller than 20 degrees or the photovoltaic array is horizontally arranged; when the inclination angle of the photovoltaic array is less than 45 degrees and more than 20 degrees, a pressurized water pump and wind leakage can be selectively installed.

The water channel of the photovoltaic module provided by the invention is reasonable in design and moderate in size, the water flow impact is reduced through the design of the upper water storage layer and the lower water storage layer, the safety of the photovoltaic module is ensured, in addition, when hot water is output, other energy storage or energy conversion equipment can be additionally arranged outside a photovoltaic array formed by the photovoltaic module, the part of energy can be utilized, and the photovoltaic array can be communicated with an indoor heat circulation system, so that auxiliary heating and other heat energy supply can be carried out in winter. When the photovoltaic module provided by the invention is applied as a roof and wall photovoltaic array, the indoor temperature can be effectively reduced, the self temperature of the photovoltaic module erection unit is ensured, and a comfortable living environment is provided for users. The photovoltaic module can ensure the temperature of the photovoltaic module to be 20-35 degrees, and in addition, the temperature of each photovoltaic module can be ensured to be 25 degrees through an external control design.

The output power of the solar module is equal to the output voltage multiplied by the operating current. Most of the I-U curves were measured under standard test conditions. This I-U curve includes three important points: a maximum power point, an open circuit voltage point and a short circuit current point; the output current of the component is proportional to the irradiance of the sunlight, and the stronger the sunlight, the higher the output power of the component. As the irradiance decreases, the shape of the current-voltage characteristic curve is substantially unchanged, but the short-circuit current gradually decreases. The open circuit voltage has small change along with irradiance; when the temperature of the assembly is 25 ℃ higher than the standard working temperature, the efficiency of the assembly is reduced, mainly represented by the reduction of the open-circuit voltage. The shape of the current-voltage characteristic is substantially unchanged with increasing temperature, but the overall shift to the left indicates that the open-circuit voltage decreases with increasing temperature; the effect on the performance of the entire assembly if one cell in the assembly is shaded can be as much as 75% of the power lost to the entire assembly if one cell in the assembly is completely shaded. Of course, there are some components that are less affected by the shielding; this application has improved the work efficiency of subassembly through control operating temperature.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus once an item is defined in one figure, it need not be further defined and explained in subsequent figures, and moreover, the terms "first", "second", "third", etc. are used merely to distinguish one description from another and are not to be construed as indicating or implying relative importance.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, which are used for illustrating the technical solutions of the present invention and not for limiting the same, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the present invention in its spirit and scope. Are intended to be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The photovoltaic module with the temperature adjusting function is characterized by comprising a glass front end, wherein the glass front end is made of ultra-white toughened glass; a rear end, the rear end being tempered glass; the photovoltaic unit is packaged between the front end and the rear end of the glass, wherein the rear end comprises a plurality of water ways, and all the water ways are communicated with each other;

the upper end of the rear end is provided with a waterway inlet;

the water channel inlets are connected with the water channels through the first water storage layer;

the lower end of the rear end is provided with a waterway outlet;

each waterway is connected with the waterway outlet through a second water storage layer;

the waterway inlet and the waterway outlet are disposed within the interior of the rear end;

connectors are respectively packaged outside the waterway inlet and the waterway outlet, each connector comprises a shell and a connecting pipe fitting packaged inside the shell, the shell is an explosion-proof waterproof insulating shell, and the connecting pipe fitting further comprises an insulating layer;

the first water storage layer and the second water storage layer are arranged in the rear end;

the first area of the first water storage layer is larger than the second area of the second water storage layer;

the first area is 2-3 times of the second area, and the rear end further comprises a first left water outlet and a first right water outlet;

the first left water outlet and the first right water outlet are arranged on the same horizontal line;

the first left water outlet and the first right water outlet are linearly communicated through the waterway, the waterway further comprises a first filter strip arranged in the waterway, and the outer sides of the first left water outlet and the first right water outlet are respectively provided with a sealing plug;

the waterway comprises a first transverse waterway and a first longitudinal waterway;

the first transverse waterway and the first longitudinal waterway are communicated with each other;

the first transverse waterway and the first longitudinal waterway are disposed between the photovoltaic units;

the first longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer;

the first transverse waterway is respectively communicated with the first left water outlet and the first right water outlet;

a plurality of branches are further arranged between the first transverse waterway and the first longitudinal waterway, wherein each branch is communicated with each other, the branches are arranged on the first back of the photovoltaic unit, and the first back comprises 3-4 branches;

the rear end also comprises a first left water outlet and a first right water outlet;

the first left water outlet and the first right water outlet are arranged on the same horizontal line;

the first left water outlet and the first right water outlet are linearly communicated through the waterway, the waterway further comprises a first filter strip arranged in the waterway, and the outer sides of the first left water outlet and the first right water outlet are respectively provided with a sealing plug;

the waterway comprises a first transverse waterway and a first longitudinal waterway;

the first transverse waterway and the first longitudinal waterway are communicated with each other;

the first transverse waterway and the first longitudinal waterway are disposed between the photovoltaic units;

the first longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer;

the first transverse waterway is respectively communicated with the first left water outlet and the first right water outlet;

the photovoltaic water supply system is characterized in that a plurality of branch circuits are further arranged between the first transverse water circuit and the first longitudinal water circuit, wherein each branch circuit is communicated with each other, the branch circuits are arranged on a first back surface of the photovoltaic unit, and the first back surface comprises 3-4 branch circuits.

2. The photovoltaic module with temperature regulation function according to claim 1,

the first area is 5 times the second area.

3. The photovoltaic module with temperature regulation function according to claim 2,

the rear end also comprises a second left water outlet and a second right water outlet;

the second left water outlet and the second right water outlet are arranged on the same horizontal line;

the second left side delivery port with the second right side delivery port passes through the water route straight line intercommunication, wherein, the water route is still including setting up the filter strip in the water route.

4. The photovoltaic module with temperature regulation function according to claim 3,

the waterway comprises a second transverse waterway and a second longitudinal waterway;

the second transverse waterway and the second longitudinal waterway are communicated with each other;

the second transverse waterway and the second longitudinal waterway are arranged on a second back surface of the photovoltaic unit;

the second longitudinal waterway is respectively communicated with the first water storage layer and the second water storage layer;

the second transverse waterway is respectively communicated with the second left water outlet and the second right water outlet;

and 5-6 branch water paths are further arranged between the photovoltaic units, wherein each branch water path is respectively communicated with the second transverse water path and the second longitudinal water path.

Images