KR101048664B1 - Photovoltaic devices - Google Patents

Abstract

The present invention includes a photovoltaic unit for supplying electricity converted from incident light to the outside, a sealing portion covering a portion of the edge of the photovoltaic portion, and a sealing material covering a portion of the photovoltaic portion not covered by the sealing portion.

Seal, Photovoltaic, Seal

Description

Photovoltaic Device

The present invention relates to a photovoltaic device.

Recently, as the prediction of depletion of existing energy sources such as oil and coal is increasing, interest in alternative energy to replace them is increasing. Among them, the solar cell module is particularly attracting attention because it is rich in energy resources and has no problems with environmental pollution.

Photovoltaic devices utilize photovoltaic phenomena that convert light into electrical energy. Photovoltaic devices come in various forms, such as using silicon semiconductors or compound semiconductors. For example, in the case of a silicon semiconductor, when light is incident on a silicon semiconductor doped with an impurity, energy of the light generates electrons and holes in the semiconductor, and current flows to the outside through electrodes and conductors connected to the semiconductor.

Once installed, the photovoltaic device must have high reliability because it has to perform stable operation for a long time. Therefore, various studies for protecting the photovoltaic device from the external environment have been conducted.

The present invention is to provide a photovoltaic device that can be protected from the external environment.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

The present invention includes a photovoltaic unit for supplying electricity converted from incident light to the outside, a sealing portion covering a portion of the edge of the photovoltaic portion, and a sealing material covering a portion of the photovoltaic portion not covered by the sealing portion.

The present invention provides a photovoltaic unit for supplying electricity converted from incident light to the outside, a plurality of seals covering a portion of the edge of the photovoltaic unit, a sealing material covering a portion of the photovoltaic unit not covered by the seal and the plurality of seals And a connection part connecting the parts and having a hole exposing the sealing material.

The photovoltaic unit may include one of an amorphous silicon layer, a crystalline silicon layer, or a compound semiconductor layer.

The sealing part may cover a portion except an edge of the photovoltaic part.

The sealing part includes a body and a plurality of fixing parts connected to the body and facing each other, and a distance between an end of the fixing part and an end of the fixing part may be smaller than the thickness of the photovoltaic part.

The sealing part may include a body and a plurality of fixing parts connected to the body and facing each other, and each of the plurality of fixing parts may be bent toward another fixing part facing each other.

The sealing part may include a body, a plurality of fixing parts connected to the body and facing each other, and protrusions protruding toward the other fixing parts facing from each of the plurality of fixing parts.

The apparatus may further include a frame covering the seal.

The apparatus may further include a frame covering the seal, wherein the inner width of the frame may be smaller than the outer maximum width of the seal.

The sealing part may include a body and a plurality of fixing parts connected to the body and facing each other, and a hook part for hooking the sealing part to a frame may be positioned at an end of one fixing part.

The sealing part includes a body and a plurality of fixing parts connected to the body and facing each other. At one end of the fixing part, a hook part is arranged to fasten the sealing part to a frame, and the one fixing part is opposite to the fixing part. It may include a protrusion projecting toward.

The seal can be made of thermoplastic elastomer.

The sealing part includes a body and a plurality of fixing parts connected to the body and facing each other. At one end of the fixing part, a hook part is disposed to fasten the sealing part to a frame, and the frame protrudes toward the sealing part. It may include protrusions.

The sealing part includes a body and a plurality of fixing parts connected to the body and facing each other. At one end of the fixing part, a hook part is disposed to fasten the sealing part to a frame, and the frame protrudes toward the sealing part. Including a protrusion, the thickness of the protrusion of the frame may be less than the thickness of the fixing portion adjacent to the protrusion of the frame.

The present invention can provide a photovoltaic device that can protect the photovoltaic unit from an external environment such as moisture or external impact such as water.

Next, embodiments of the present invention will be described in detail with reference to the drawings.

1 shows a photovoltaic device according to a first embodiment of the present invention. As shown in FIG. 1, the photovoltaic device according to the first embodiment of the present invention includes a photovoltaic unit 100, a sealing unit 300, and a sealing material 500.

The photovoltaic unit 100 supplies electricity converted from incident light to the outside, and may include one of an amorphous silicon layer, a crystalline silicon layer, or a compound semiconductor layer.

2A illustrates the photovoltaic unit 100 including an amorphous silicon layer. As shown in FIG. 2A, the first electrode 110 is formed on the insulating transparent substrate 100 and scribed by a laser. This prevents a short circuit between adjacent first electrodes 110. The first electrode 110 may be formed by a chemical vapor deposition (CVD) method, and may be a transparent electrode including tin oxide (SnO ₂ ) or zinc oxide (ZnO).

The photoelectric conversion layer 130 is stacked by CVD to cover the first electrode 110. The photoelectric conversion layer 130 may include a p-type amorphous silicon layer, an intrinsic amorphous silicon layer, and an n-type amorphous silicon layer stacked by CVD. To form the p-type amorphous silicon layer, when a source gas containing silicon such as mono silane (SiH4) and a gas containing group III elements such as B2H6 are mixed in the reaction chamber, the p-type amorphous silicon layer is laminated by CVD. do. Then, when only the source gas containing silicon flows into the reaction chamber, an intrinsic amorphous silicon layer is formed on the p-type amorphous silicon layer by the CVD method. Finally, when a gas containing a Group 5 element such as PH 3 and a raw material gas containing silicon are mixed, an n-type amorphous silicon layer is laminated on the intrinsic amorphous silicon layer by the CVD method.

The second electrode 150 is formed to cover the photoelectric conversion layer 130 by CVD or sputtering. The second electrode 250 may include at least one of zinc oxide (ZnO) or silver (Ag). In addition, a buffer layer 260 including at least one of indium tin oxide (ITO), tin oxide (SnO 2), or indium zinc oxide (IZO) may be formed on the second electrode 250 by a sputtering method to enhance moisture resistance. Can be.

By the lamination method, the first protective layer 170 covers the first electrode 110, the photoelectric conversion layer 130, and the second electrode 150, and thus the first electrode 110, the photoelectric conversion layer 130, and the second electrode 150. Protect the electrode 150. The first passivation layer 170 may include EVA (Ethylene Vinyl Acetate).

The second passivation layer 190 may be positioned on the first passivation layer 170, and may include low iron tempered glass.

2B illustrates a photovoltaic unit 100 including a crystalline silicon layer. As shown in FIG. 2B, the photoelectric conversion layer 210 converts light emitted from the outside into electrical energy. The crystalline photoelectric conversion layer 210 includes single crystal or polycrystalline silicon doped with impurities such as Group 3 and Group 5 materials.

The anti-reflection film 220 is positioned on the photoelectric conversion layer 210 and increases the photoelectric conversion efficiency of the photovoltaic unit by preventing the light irradiated from the outside.

The first electrode 230 may contact the first type semiconductor layer of the photoelectric conversion layer 210 of the photoelectric conversion layer 210, and the second electrode 240 may be different from the first type semiconductor layer. Contact the second type semiconductor layer. In this case, the first type semiconductor layer may be either an n-type semiconductor layer doped with an impurity such as a Group 3 material, or a p-type semiconductor layer doped with an impurity such as a Group 5 material, and the second type semiconductor layer may be an n-type semiconductor layer. Or the other one of the p-type semiconductor layers.

The protective layer 250 is to protect the photoelectric conversion layer 210, the first electrode 230, and the second electrode 240 from an external environment such as temperature change, moisture, or pressure, and may be ethylene vinyl acetate (EVA) or PVB. Resins such as (Poly Vinyl Butylo).

Therefore, the first embodiment of the present invention can be applied to the photovoltaic unit 100 of various forms.

Meanwhile, the sealing part 300 of FIG. 1 covers a part of the edge of the photovoltaic part 100 to protect the photovoltaic part 100 from an external environment such as moisture or external impact.

For example, as shown in FIG. 1, when the photovoltaic unit 100 is formed of four sides, the sealing unit 300 does not cover the entire side of the photovoltaic unit 100 but the photovoltaic unit. It may cover a portion except the corner of the (100). Therefore, in the case of the seal covering the entire side, the worker or the work machine installing the seal must accurately install the seals covering the adjacent sides at the corners.

However, in the case of the sealing part 300 covering a part of the side of the photovoltaic part 100 as in the embodiment of the present invention, it is not necessary to accurately match the sealing parts 300 covering the adjacent sides at the corners. Therefore, the installation of the seal 300 becomes easy.

Such a sealing part 300 may be made of a material such as a thermoplastic plastic elastomer that can be bent.

As shown in FIG. 1, the sealing material 500 covers a portion of the photovoltaic unit 100 which is not covered by the sealing unit 300, and externals a portion of the photovoltaic unit 100 which is not covered by the sealing unit 300. Protect from the environment Such a sealing material 500 may be a silicone applicable (silicone).

3 is a cross-sectional view of the sealing part 300 of FIG. 1. As shown in FIG. 3, the sealing part 300 includes a body 305 and a plurality of fixing parts 310a and 310b connected to the body 305 and facing each other. The distance d between the end of the fixing part 310a and the end of the fixing part 310b may be smaller than the thickness t of the photovoltaic part 100. Accordingly, the photovoltaic unit 100 is sandwiched between the fixing units 310a and 310b, and the fixing units 310a and 310b apply pressure to the photovoltaic unit 100 so that the sealing unit 300 is connected to the photovoltaic unit ( 100).

In addition, the fixing part 310a or 310b may be bent toward the opposite fixing part. When the fixing part 310a or 310b is bent toward the opposite fixing part, the sealing member 500 of FIG. 1 may prevent the sealing member 500 from leaking out of the sealing part 300 or coming out of the sealing part 300.

In the embodiment of the present invention, the sealing part 300 may further include a protrusion 320 protruding from the fixing part 310a or 310b toward the opposite fixing part. As shown in FIG. 4, as shown in FIG. 4, since the sealing material 500 attached to the photovoltaic unit 100 is caught by the protrusion 320, the protrusion 320 is a photovoltaic unit 100 sealed. The escape from the 300 can be prevented. In addition, the protrusion 320 may prevent the sealing material 500 from leaking to the outside of the sealing part 300.

As shown in FIG. 1 and FIG. 5, the photovoltaic device according to the first embodiment of the present invention may further include a frame FR covering the sealing part 300. Accordingly, protection of the photovoltaic unit 100 may be made more stable. In this case, the inner width W2 of the frame FR may be smaller than the outer maximum width W1 of the sealing part 300. Therefore, when the sealing part 300 is inserted into the frame FR, the frame FR and the sealing part 300 may be stably coupled.

6 shows a photovoltaic device according to a second embodiment of the present invention. As shown in FIG. 6, the photovoltaic device according to the second embodiment includes a photovoltaic unit 100, a sealing unit 300, a sealing member 500, and a connection unit 330. Description of the photovoltaic unit 100, the sealing unit 300, and the sealing material 500 is omitted since the description has been made through the first embodiment.

The connection part 330 connects the plurality of sealing parts 300 and has a hole 331 exposing the sealing material 500. The connection part 330 does not need to accurately match the sealing parts 300 covering the adjacent sides of the photovoltaic part 100 at the corners of the photovoltaic part 100 when the sealing part 300 is installed. 300) is prevented from being installed in an unwanted location.

In addition, the connection part 330 connects the body 305 of each of the sealing parts 300 adjacent to each other, and the connection part 330 is provided with a hole 331 exposing the sealing material 500 to the outside. The connection part 330 and the hole 331 may provide flexibility to allow the connection part 330 to bend smoothly.

The material of the connection part 330 may be the same as the material of the sealing part 300. Accordingly, the connection part 330 and the sealing part 300 may be simultaneously formed.

7A and 7B show another embodiment of the seal, showing a cross-sectional view of the seal. The sealing part 700 of FIGS. 7A and 7B also covers a portion of the edge of the photovoltaic part 100 to protect the photovoltaic part 100 from an external environment such as moisture or external impact.

The sealing part 700 includes a body 705 and a plurality of fixing parts 710a and 710b connected to the body 705 and facing each other. The length of one fixing part 710a is larger than the length of the other fixing part 710b. This is because the end of one fixing part 710a must span the frame FR, so the length l2 of one fixing part 710a must be larger than the length l1 of the frame FR. .

In addition, a hook portion 711a for fastening the sealing portion 700 to the frame FR is positioned at the end of one fixing portion 710a, and the sealing portion 700 and the frame FR are formed by the hook portion 711a. The coupling is made smoothly.

The other fixing part 710b is bent such that when the photovoltaic part 100 is inserted, the distance from the opposite fixing part 710a becomes close. That is, the other fixing part 710b is bent to the outside of the body 705, and the distance from the opposite fixing part 710a is close by the pressure into which the photovoltaic part 100 is inserted.

As shown in FIG. 7B, one fixing part 710a of the sealing part 700 may further include a protrusion 713a protruding toward the opposite fixing part 710b. Since the sealing material 500 attached to the photovoltaic unit 100 is caught by the protrusion 713a, the protrusion 713a may prevent the photovoltaic unit 100 from escaping from the sealing unit 300. In addition, the protrusion 713a may prevent the sealing material 500 from leaking to the outside of the sealing part 300.

7A and 7B, the plurality of sealing parts 700 shown in FIG. 7 may be connected to each other by the connection part 330 of FIG. 6. Since the description of the connecting portion 330 has already been made above, a detailed description thereof will be omitted.

FIG. 8 illustrates a state in which the photovoltaic unit is inserted into the sealing unit of FIG. 7A. As shown in FIG. 8, the frame FR includes a protrusion FRa protruding toward the sealing part 700. The projection FRa serves as a locking jaw that takes an end of the fixing portion 710a adjacent to the projection FRa when the photovoltaic portion 100 is inserted into the sealing portion 700. In addition, when the photovoltaic unit 100 is inserted into the sealing unit 700 and the photovoltaic unit 100 and the sealing unit 700 are coupled by the sealing material 500, the projection FRa is the sealing unit 700. It acts as a stopping jaw to prevent the escape out.

In this case, the thickness t2 of the protrusion FRa may be smaller than the thickness t1 of the fixing part 710a adjacent to the protrusion FRa. When the fixing part 710a is thicker than the projection FRa, the frame FR and the photovoltaic unit 100 are prevented from contacting each other when the photovoltaic unit 100 is inserted, so that the photovoltaic unit 100 is damaged or Scratches are prevented from occurring on the surface of the photovoltaic unit 100.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. will be. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

1 shows a photovoltaic device according to a first embodiment of the present invention.

2A and 2B each show a photovoltaic unit including an amorphous silicon layer and a crystalline silicon layer.

3 shows a cross section of the sealing part of FIG. 1.

4 shows a sealing portion in which protrusions are formed.

5 shows a combination of a photovoltaic part, a seal and a frame.

6 shows a photovoltaic device according to a second embodiment of the present invention.

7A and 7B show another embodiment of the seal.

FIG. 8 illustrates a state in which the photovoltaic unit is inserted into the sealing unit of FIG. 7A.

Claims (26)

delete A photovoltaic unit for supplying electricity converted from incident light to the outside; A plurality of seals covering a portion of an edge of the photovoltaic unit; A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion; And A photovoltaic device comprising a connection portion for connecting the plurality of seals and a hole for exposing the sealing material. The method of claim 2, And the photovoltaic unit comprises one of an amorphous silicon layer, a crystalline silicon layer, or a compound semiconductor layer. The method of claim 2, And the sealing part covers a portion except an edge of the photovoltaic part. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, And a distance between an end of the fixing portion and an end of the fixing portion is smaller than a thickness of the photovoltaic portion. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, Each of the plurality of fixing portions is bent toward the other fixing portion facing each other. The method of claim 2, And the sealing part includes a body, a plurality of fixing parts connected to the body and facing each other, and a protrusion protruding toward another fixing part facing from each of the plurality of fixing parts. The method of claim 2, The photovoltaic device further comprises a frame covering the seal. The method of claim 2, Further comprising a frame covering the seal, The inner width of the frame is less than the outer maximum width of the sealing portion photovoltaic device. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, And the connecting portion connects the bodies of each of the sealing portions adjacent to each other. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, A photovoltaic device, characterized in that a hook portion is positioned at the end of one fixing portion for hooking the seal to the frame. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, At the end of one fixing portion is a hook portion for hanging the seal on the frame, And the one fixing portion includes a protrusion protruding toward the opposite fixing portion. The method of claim 2, The sealing unit is a photovoltaic device, characterized in that the thermoplastic plastic elastomer. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, At the end of one fixing portion is a hook portion for hanging the seal on the frame, The frame includes a photovoltaic device comprising a protrusion protruding toward the sealing portion. The method of claim 2, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, At the end of one fixing portion is a hook portion for hanging the seal on the frame, The frame includes a protrusion protruding toward the seal, The thickness of the projection of the frame is smaller than the thickness of the fixing portion adjacent to the projection of the frame Photovoltaic device characterized in that. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, And the sealing part covers a portion except an edge of the photovoltaic part. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, And a distance between an end of the fixing portion and an end of the fixing portion is smaller than a thickness of the photovoltaic portion. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, Each of the plurality of fixing portions is bent toward the other fixing portion facing each other. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, And the sealing part includes a body, a plurality of fixing parts connected to the body and facing each other, and a protrusion protruding toward another fixing part facing from each of the plurality of fixing parts. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion; And And a frame covering the seal. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion; And A frame covering the seal; The inner width of the frame is less than the outer maximum width of the sealing portion photovoltaic device. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, A photovoltaic device, characterized in that a hook portion is positioned at the end of one fixing portion for hooking the seal to the frame. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, At the end of one fixing portion is a hook portion for hanging the seal on the frame, And the one fixing portion includes a protrusion protruding toward the opposite fixing portion. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The sealing unit is a photovoltaic device, characterized in that the thermoplastic plastic elastomer. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, At the end of one fixing portion is a hook portion for hanging the seal on the frame, The frame includes a photovoltaic device comprising a protrusion protruding toward the sealing portion. A photovoltaic unit for supplying electricity converted from incident light to the outside; A sealing part covering a part of an edge of the photovoltaic part; And A sealing material covering a portion of the photovoltaic portion not covered by the sealing portion, The seal includes a body and a plurality of fixing parts connected to the body and facing each other, At the end of one fixing portion is a hook portion for hanging the seal on the frame, The frame includes a protrusion protruding toward the seal, The thickness of the projection of the frame is smaller than the thickness of the fixing portion adjacent to the projection of the frame Photovoltaic device characterized in that.

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