WO2012053738A2 - Photovoltaic module - Google Patents

Abstract

The present invention relates to a photovoltaic module including a lens which enhances collection efficiency by concentrating solar light onto the upper portion of an airtight container in which a silicon cell, which is a solar collector cell, is arranged, thereby preventing collection efficiency from being reduced due to a contamination of the cell by dust, and further including a heat pipe and a heat sink in the lower portion of the airtight container to thereby capture heat generated in the airtight container to drive a water heater. The photovoltaic module according to the present invention comprises: a lens (100) which concentrates solar light; a cell (300) positioned in the lower portion of the lens (100) and which captures the concentrated solar light; an airtight container (500) which is provided with said cell (300) and which reflects the solar light concentrated through the lens (100) to generate thermal energy due to the collision of the reflected light against the surfaces of the walls thereof; and a member for generating heat (700) which is positioned in the lower portion of the airtight container (500) and which receives the thermal energy generated in the airtight container (500) to drive a water heater.

Description

Solar modules

The present invention relates to a photovoltaic module, and more particularly, a lens for improving dust collection efficiency by storing silicon cells in an airtight container and condensing sunlight intensively on top of the airtight container. The solar module prevents the cell from being contaminated by dust and the like and deteriorates the collection efficiency, and further includes a heat pipe and a heat sink at the bottom of the sealed container to collect heat generated in the sealed container to drive the water heater. will be.

In general, photovoltaic power generation means concentrating (heating) solar light on a solar cell or a photovoltaic module to perform power generation.

The solar module is called a solar module as a kind of solar panel, and there are a general type, a window type, a tracking type, and a hybrid type (type in parallel with other clean energy generating means).

The principle of photovoltaic using this photovoltaic module is carried out by the photovoltaic effect. When solar light is irradiated to a pn junction solar farm with n-type doping on a silicon crystal, Electromotive force by electron-holes is generated by light energy, which is called photovoltaic effect. The solar panels can be connected in parallel and as many times as you want to make the desired power.The system stored in the battery and used when needed is called individual solar power generation system or stand-alone solar power generation system. It is called grid-connected solar power system.

In particular, the DC power stored in the battery is converted into AC power through an inverter device and then supplied to a power consuming device such as a lamp.

The structure of the photovoltaic module for photovoltaic power generation according to the prior art is as shown in FIG. 1, on the support frame 2 and the ground on which the plurality of photovoltaic modules 1 are arranged horizontally or vertically. It has a support shaft 3 which is erected vertically.

The photovoltaic module 1 is an integrated solar cell. In general, a glass plate and a sheet or plate-shaped cell are stacked inside a rectangular frame-shaped module frame, and a back surface (back side) of which is developed by the photovoltaic effect in the cell. A box shaped current collector (not shown) is provided for collecting power to the charge regulator and the battery.

Such a conventional solar module has a favorable rate of only 14%, that is, more than 80% is wasted, which is why the breakeven point of the solar water heater is one year while the profit and loss of the photovoltaic facility is 10 years. .

The main reason is that even though the cost of silicon, which is a component of the solar module, is very expensive, the silicon cells are contaminated by external factors such as dust and thus do not collect solar heat efficiently.

In addition, the existing shape is provided in the shape of a flat plate is formed to collect only the sunlight reflected on the surface.

The present invention is designed to solve the above problems has the following object.

The present invention includes a lens that improves dust collection efficiency by storing silicon cells in a sealed cell in a sealed container and concentrating solar light on the top of the sealed container. It is an object of the present invention to provide a photovoltaic module that prevents the water, and further comprises a heat pipe and a heat sink in the lower portion of the sealed container to collect heat generated in the sealed container to drive the water heater.

The present invention for achieving the above object includes the following embodiments.

According to the first embodiment of the present invention, the present invention solar module

A lens 100 that aggregates sunlight; A cell 300 provided below the lens 100 and collecting the aggregated sunlight; An airtight container 500 for storing the cell 300 and reflecting the aggregated solar light through the lens 100 to generate heat energy as the reflected light impinges on the wall; It is characterized in that it comprises a heat generating member 700 provided below the sealed container 500 to drive the water heater by receiving the heat energy generated from the sealed container 500.

According to a second embodiment of the present invention, a solar module of the present invention

The lens 100 agglomerates solar light, using a Fresnl lens (100) that is light in weight, has excellent durability, and is inexpensive in a convex shape only, and condenses sunlight into a lower part. The cell 300 can penetrate the provided cell 300 to collect solar light more efficiently, and is located above the sealed container 500 to prevent dust from penetrating into the sealed container 300. The cell 300 provided inside the container 500 may be prevented from being contaminated by dust or the like.

According to a third embodiment of the present invention, a solar module of the present invention

The airtight container 500 accommodates the cell 300 therein, and the lens 100 is fastened to an upper portion thereof, and is sealed by the lens 100 to prevent the cell 300 from being contaminated by dust or the like. It is characterized in that the solar heat generated from the cell 300 collecting the solar light aggregated through the lens 100 is prevented from leaking to the outside, and the solar heat is sent to the heat generating member 700 to drive a water heater. It is done.

According to a fourth embodiment of the present invention, a solar module of the present invention

The heat generating member 700 is provided in the lower portion of the sealed container 500 to drive the water heater by the solar energy sent from the sealed container 500, the heat pipe 710 for transmitting the solar energy to the water heater. And a heat sink 730 that generates heat by solar energy transmitted through the heat pipe 710 and heats a water heater, etc., and discharges heat generated in the process of collecting the solar energy by the cell 300 to the outside. The solar module, characterized in that the discharged heat can be used without the remaining solar energy by driving a water heater and the like through the heat generating member (700).

According to a fifth embodiment of the present invention, a solar module of the present invention

The airtight container 500 is formed as a mirror, but the mirror is formed as a polygon, that is, the reflected sunlight can be gathered as a reference point, and the collected solar light is intensively reflected to the cell 300 so as to efficiently collect the cells ( Allow the 300 to collect solar light so that the cell 300 can produce electrical energy more efficiently than the cell 300, and the cell 300 on the upper portion of the sealed container 500, the upper portion of the cell 300 Afterwards, the heat generating member 700 is placed on the upper side, so that the sealed container 500 as a mirror reflects the solar energy so that the aggregated solar energy is collected by the cell 300, and the generated solar energy is heat. Solar module, characterized in that to be sent to the generating member 700 to drive the water heater.

The present invention has the following effects by the above configuration.

The solar module of the present invention includes a lens that improves dust collection efficiency by storing silicon cells in a sealed container in a sealed container and then concentrating agglomeration of solar light on the top of the sealed container. It has an effect of preventing efficiency from falling.

And further comprising a heat pipe and a heat sink in the lower portion of the sealed container to collect the heat generated in the sealed container to drive the water heater has an effect that there is no wasted solar energy.

In addition to the conventional function of converting the collected solar energy into electrical energy, by using the remaining solar energy during the conversion process to electrical energy to drive a water heater, the use efficiency of the device by using the electrical energy and solar energy through a single device Increase and thus increase the economic efficiency.

1 is a perspective view showing a conventional solar module,

2 is an exploded perspective view showing a solar module according to the present invention,

3 is a perspective view showing a combined solar module according to the present invention,

Figure 4 is a perspective view showing a state in which the present invention solar module is fastened to the frame,

5 and 6 is an exploded perspective view showing another example of the solar module according to the present invention,

◎ Explanation of the sign ◎

100: lens 100

300: cell 300

500: airtight container (500)

700 heat generating member

Applicants will now be described in detail the configuration of the present embodiment with reference to the accompanying drawings.

Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

The solar module of the present invention includes a lens 100 that aggregates the solar light largely; A cell 300 provided below the lens 100 and collecting the aggregated sunlight; An airtight container 500 for storing the cell 300 and reflecting the aggregated solar light through the lens 100 so that heat energy can be generated as the reflected light impinges on the wall; It is composed of a heat generating member 700 provided under the sealed container 500 to drive the water heater (not shown) by receiving the heat energy generated from the sealed container 500.

The lens 100 is made of a convex lens having a small diopter (short focal length) as a tool to aggregate sunlight.

Particularly, among the convex lenses, the lens 100 used a Fresnl lens 100.

The Fresnel lens has a feature that the general convex lens is convex on both sides while the convex section is light in weight, excellent durability, and low cost.

The lens 100 aggregates sunlight and transmits it to the cell 300 provided at the bottom so that the cell 300 can collect sunlight more efficiently.

In addition, the lens 100 is positioned above the sealed container 500 to prevent dust, etc. from penetrating into the sealed container 300, thereby preventing the cell 300 provided inside the sealed container 500 from being contaminated by dust or the like. do.

The cell 300 is provided inside the hermetically sealed container 500 to collect and collect the collected solar light through the lens 100, and transmit the collected solar light to a generator (not shown) to obtain electrical energy. Make sure

 Characteristics by Cell Type

Table 1

The cell 300 secures efficiency and durability by using a unitary cell.

The airtight container 500 accommodates the cell 300 therein, and the lens 100 is fastened to an upper part thereof, and is sealed by the lens 100 to prevent the cell 300 from being contaminated by dust or the like.

In addition, it prevents the solar heat generated from the cell 300 collecting the solar light aggregated through the lens 100 to the outside, and sends the solar heat to the heat generating member 700 to drive the water heater.

The heat generating member 700 is provided in the lower portion of the sealed container 500 to drive the water heater by the solar energy sent from the sealed container 500, the heat pipe 710 for transmitting the solar energy to the water heater. And heat sink 730 for generating heat by solar energy transmitted through the heat pipe 710 to heat a water heater.

Normally, the cell 300 generates heat in the process of capturing solar energy, and when the high heat is received, the efficiency tends to be reduced, so the heat must be discharged to the outside. By driving the water heater, etc. to use without the remaining solar energy.

At this time, in another embodiment, the airtight container 500 is formed as a mirror, but the mirror is formed as a polygon, that is, the reflected solar light is collected at one reference point, and the cell 300 is formed on the top of the airtight container 500. After placing the heat generating member 700 on the top of the cell 300 so as to be positioned at the top, the sealed container 500 as a mirror reflects the solar energy and the aggregated solar energy is collected by the cell 300. The solar energy generated at this time may be sent to the heat generating member 700 to drive a water heater.

That is, by forming the airtight container 700 as a mirror, the collected solar light is intensively reflected to the cell 300 so that the cell 300 can collect the sun light more efficiently, thereby making the cell 300 more efficient. Can produce electrical energy.

In addition, as shown in FIG. 6, the upper box and the lower box are combined to have a sealed structure, and the lens is formed in a square shape.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

Claims (4)

1. A lens 100 that aggregates sunlight; A cell 300 provided below the lens 100 and collecting the aggregated sunlight; An airtight container 500 for storing the cell 300 and reflecting the aggregated solar light through the lens 100 so that heat energy can be generated as the reflected light impinges on the wall; In the solar module of the heat generating member 700 provided in the bottom of the sealed container 500 to drive the water heater (not shown) by receiving the heat energy generated from the sealed container 500,

   The lens 100 agglomerates solar light, and has a convex cross-sectional shape, and uses a low-cost Fresnl lens 100 to agglomerate the sun light to a cell 300 provided below. Through the cell 300 to collect the solar light more efficiently, it is located in the upper portion of the hermetic container 500 to prevent dust, etc. from penetrating the hermetic container 300 is provided inside the hermetic container 500. Photovoltaic module, characterized in that the cell 300 is prevented from being contaminated by dust and the like.
2. The method of claim 1,

   The airtight container 500 accommodates the cell 300 therein, and the lens 100 is fastened to an upper portion thereof, and is sealed by the lens 100 to prevent the cell 300 from being contaminated by dust or the like. It is characterized in that the solar heat generated from the cell 300 collecting the solar light aggregated through the lens 100 is prevented from leaking to the outside, and the solar heat is sent to the heat generating member 700 to drive a water heater. Photovoltaic module.
3. The method of claim 1,

   The heat generating member 700 is provided in the lower portion of the sealed container 500 to drive the water heater by the solar energy sent from the sealed container 500, the heat pipe 710 for transmitting the solar energy to the water heater. And a heat sink 730 that generates heat by solar energy transmitted through the heat pipe 710 and heats a water heater, etc., and discharges heat generated in the process of collecting the solar energy by the cell 300 to the outside. The solar module, characterized in that the discharged heat can be used without the remaining solar energy by driving a water heater and the like through the heat generating member (700).
4. The method of claim 1,

   The airtight container 500 is formed as a mirror, but the mirror is formed as a polygon, that is, the reflected sunlight can be gathered as a reference point, and the collected solar light is intensively reflected to the cell 300 so as to efficiently collect the cells ( By allowing the 300 to collect the solar light so that the cell 300 can produce electrical energy more efficiently, the cell 300 on the upper portion of the cell 300 is located above the sealed container 500. Afterwards, the heat generating member 700 is placed on the upper side, so that the sealed container 500 as a mirror reflects the solar energy so that the aggregated solar energy is collected by the cell 300, and the generated solar energy is heat. Solar module, characterized in that to be sent to the generating member 700 to drive the water heater.

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