KR20170101877A - Apparatus and Method for removing Backsheet of Photovoltaic Module - Google Patents

Abstract

The present invention relates to an apparatus and method for removing the back sheet of a photovoltaic module. More particularly, the present invention provides an apparatus for removing the back sheet of a photovoltaic module which includes a heating part for heating a photovoltaic module; and a gas supply part for supplying a gas toward the back sheet of the photovoltaic module heated by the heating part. Also, the present invention provides an apparatus for removing the back sheet of a photovoltaic module, which includes a heating part for heating a photovoltaic module; and a removing part for removing the back sheet of the photovoltaic module heated by the heating part. A solar module back sheet removing device is provided. The apparatus and method for removing the back sheet of a photovoltaic module not only can effectively remove the back sheet from the solar cell module by spraying a high temperature and high pressure gas onto the back sheet made soft by heating or using physical friction, but also reduce manpower and time economically.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and a method for removing a back sheet of a photovoltaic module,

The present invention relates to an apparatus and a method for removing a backsheet of a solar module, and more particularly, to a method and apparatus for removing and removing a back sheet of a solar module by using a high temperature, high pressure gas or by using physical friction at a high temperature Apparatus and method.

The need for sustainable energy is ever higher than ever, due to concern about depletion of fossil fuels, warming due to its abuse, climate change, and safety concerns that exist in nuclear energy. Wind power, geothermal energy, and solar energy are recognized as the potential. In particular, solar energy and solar energy are relatively free from installation sites and are endowed with the highest growth potential with infinite supply of energy sources. Solar power generation has been growing rapidly due to international support measures, and the solar power industry, which is easy to use, continues to grow rapidly every year. Of course, not all of the energy from the sun can be exploited, but because of its relatively less localized characteristics and inherent eco-friendliness, photovoltaics has always been regarded as one of the most attractive renewable energy sources.

A solar cell is a device that converts light energy into electrical energy by using photovoltaic effect. The solar cell is divided into a silicon solar cell, a thin film solar cell, a dye-sensitized solar cell, and an organic polymer solar cell . Such a solar cell can be independently used as a power source for an electronic clock, a radio, an unmanned lighthouse, a satellite, and a rocket, and can be used as an auxiliary power source in connection with a system of a commercial AC power source.

Polycrystalline and single crystal cells using a silicon material are present in the solar cell, and various forms using inorganic or organic materials may exist. Such a solar cell includes a solar cell module including a sealing material, a tempered glass for protecting the surface, and a backsheet, which is a rear protective film, so that several to several tens of solar cells are connected, Is used.

The cell is positioned between a tempered glass for protection and a back sheet as a back side protective member, and at this time, an encapsulant is used to protect the cell and adhere to the glass and the rear protective film. More specifically, the reinforcing glass, the sealing material sheet, the solar cell, the sealing material sheet and the back sheet are laminated in this order, and the lamination process is carried out to modularize.

At this time, the back sheet has a structure in which a fluorine film such as a PVF (polyvinyl fluoride) film or a PVDF (polyvinylidene fluoride) film is adhered to both sides of a PET (polyethylene terephthalate) film excellent in water vapor and oxygen barrier properties. The back sheet not only protects the solar cell module, but also reflects the light transmitted through the solar cell and sends it back to the solar cell.

These solar cells must be removed over time as their use reduces the power conversion efficiency. At this time, the expensive material contained in the solar cell must be recovered together with the removal of the solar cell. This recovery can conserve expensive resources, recycle them, and preserve the environment. Patent Document 10-2013-0080950 discloses a method of disassembling a solar module including a process of pyrolyzing a back sheet together with an EVA layer. However, since a material such as TiO ₂ is present inside the back sheet, if the back sheet is simply burned, TiO ₂ remains on the solar cell and affects the rear end process, so that the working efficiency may be reduced. Thus, the backsheet must be removed during the shearing process during the separation of the solar modules. Open No. 2015-0039010 discloses a method for disassembling a solar cell module, which removes the insulating protective layer of the solar cell module and separates the glass and the back sheet from the solar cell module to obtain a glass and a solar cell . However, since the back sheet of the solar cell module is physically removed one by one, an apparatus and a method for removing the back sheet more efficiently as the amount of the used photovoltaic module increases.

Accordingly, in the present invention, there is provided an apparatus and method for separating and removing a back sheet from a solar module, comprising a heating unit for softening the back sheet and a gas supply unit for ejecting a strong gas onto the heated back sheet A removing unit for removing the optical module back sheet, a heating unit for softening the back sheet, and a removing unit for removing the heated back sheet through physical contact.

Patent Document 10-2015-0039010 Patent Document 10-2013-0080950

It is an object of the present invention to provide an apparatus and a method for removing a backsheet of a solar module.

According to an aspect of the present invention, there is provided a solar module comprising: a heating unit for heating a solar module; And a gas supply unit for supplying a gas toward the back sheet of the solar module heated by the heating unit.

The present invention also provides a method of removing a solar module back sheet using the apparatus, comprising the steps of: (1) heating the solar module with the heating unit; And a step (step 2) of ejecting gas from the gas supply section toward the back sheet of the solar module heated in the step 1.

Further, the present invention provides a solar module comprising: a heating unit for heating a solar module; And a removing unit for physically contacting and removing the solar module back sheet heated by the heating unit.

Further, the present invention provides a method of removing a solar module back sheet using the apparatus, comprising the steps of: (1) heating the solar module with the heating unit; And a removing step (step 2) of physically contacting and removing the back sheet of the solar module heated in the step 1 (step 2).

The apparatus and method for removing the solar cell module back sheet according to the present invention not only can effectively remove the back sheet from the solar cell module by spraying high temperature and high pressure gas onto the back sheet heated by heating or using physical friction, , Manpower and time can be used economically.

1 is a schematic view showing an apparatus for removing a solar module back sheet including a gas supply unit;
FIG. 2 is a process diagram showing a procedure and a procedure for removing a back sheet of a solar module including a gas supply unit; FIG.
3 is a photograph showing a process of removing a back sheet of a solar module including a gas supply unit;
4 is a schematic view showing an apparatus for removing a back sheet of a solar module module including a removal unit;
Fig. 5 is a photograph showing before and after removing the back sheet of the photovoltaic module through Examples 2 to 4 and Comparative Examples 1 and 2. Fig.

The present invention provides a solar module comprising: a heating unit for heating a solar module; And a gas supply unit for supplying a gas toward the back sheet of the solar module heated by the heating unit.

At this time, the apparatus for removing the solar cell module back sheet may further include a moving unit for moving the solar cell module.

1 is a schematic view of a solar cell module back sheet removing apparatus according to an embodiment of the present invention. Referring to FIG. 1, a solar cell module back sheet removing apparatus including a gas supply unit according to the present invention will be described in detail.

The heating unit 100 may be in the form of a chamber, and the solar module including the back sheet may be heated at a temperature of 100 to 300 캜 to soften the back sheet of the solar module, but the present invention is not limited thereto. If the back sheet is heated to a temperature of less than 100 ° C., the back sheet may not be softened and can not be separated from the module. If the back sheet is heated to a temperature higher than 300 ° C., There may be a problem that the sheet is locally melted and is not separated from the module.

The reason why such a problem may occur is that when the back sheet of the solar cell module has a structure in which a fluorine film such as PVF (Polyvinyl Fluoride) film or PVDF (polyvinylidene fluoride) film is adhered to both sides of the PET film And the glass transition temperature of PVDF is 159.02 ° C., the back sheet is difficult to separate from the solar cell module because of the viscosity lower than the glass transition temperature at a temperature lower than 100 ° C., and the melting point of PVDF Is 173.71 캜 and the melting point of PET is 250 캜, it may be difficult to separate the back sheet due to the temperature higher than the melting point at a temperature higher than 300 캜.

At this time, the back sheet of the solar cell module is not limited to the above structure, but a PE (polyethylene) film or an EVA (Ethylene Vinyl Acetate) film is adhered to one side of the PET film, A PVF film or a PVDF film; a structure in which a PE film or an EVA film is bonded to one side of the PET film, and an inner UV-curable film or a hydrolysis-resistant PET film is adhered to the other side of the PET film Structure, an aluminum foil or a transparent vapor-deposited PET film is bonded to one side of a PET film, and a fluorine film such as a PVF film or a PVDF film is bonded to one side of the aluminum foil or the transparent vapor-deposited PET film, A structure in which a PE film or an EVA film is adhered to one side, and the like.

The moving unit 200 may move the solar module heated by the heating unit 100 toward the gas supply unit 300. If the solar module is moved through the moving part 200 and faces the gas ejected from the gas supply part 300, the speed of the moving solar module is increased, so that the back sheet of the solar module can be more effectively peeled off. At this time, the moving unit 200 can move the photovoltaic module at a speed of 0.1 to 30 cm / s, but the present invention is not limited thereto.

The gas supply unit 300 is configured to supply the gas to the back sheet of the photovoltaic module heated or heated by the heating unit 100 and moving through the moving unit 200 and in a direction different from the moving direction of the moving unit 200 As shown in Fig.

Specifically, it is preferable that the gas supply unit 300 supplies the gas toward the back sheet of the solar module, and supplies the gas in a direction not perpendicular to the plane of the back sheet of the solar module. The back sheet can not be removed when the gas is supplied in a direction perpendicular to the back surface of the solar module. Preferably, the gas can be supplied toward the horizontal one end surface portion of the solar module.

At this time, the temperature of the gas ejected from the gas supply unit 300 may be in a range of 150 to 450 ° C, but is not limited thereto. If the temperature of the gas ejected from the gas supply unit 300 is less than 150 ° C, there may be a problem that the back sheet of the solar module is not peeled off properly. If the temperature of the base exceeds 450 ° C, There is a problem that the sheet melts and can not be effectively peeled off. However, if the temperature of the gas is 450 ° C, it may be necessary if the back sheet of the solar module is not heated by the heating unit. If the back sheet of the solar module is sufficiently heated, the temperature of the base It is not necessary to raise the temperature to 450 ° C.

In addition, the pressure of the gas ejected from the gas supply unit 300 is preferably 10 psi or more, and more preferably 15 psi or more.

In the above-described solar cell module back sheet removing device, the gas supply part may move in a direction in which the solar cell module back sheet is present. When the gas supply unit moves, the gas supply unit can move at a speed of 0.1 to 30 cm / s in the presence of the heating unit and the gas supply unit without the moving unit, but the present invention is not limited thereto.

In addition, not only the movement of the solar module through the moving part 200 but also the movement of the gas supplying part 300 itself can be performed at the same time, so that the back sheet of the solar module can be more effectively peeled off.

The present invention also provides a method of removing a solar module back sheet using the apparatus, comprising the steps of: (1) heating the solar module with the heating unit; And a step (step 2) of ejecting gas from the gas supply section toward the back sheet of the solar module heated in the step 1.

Hereinafter, the method for removing the back sheet of the solar module of the present invention will be described in detail for each step.

In the method for removing the solar cell module back sheet according to the present invention, step 1 is a step of heating the solar cell module by the heating unit 100. By heating the solar module, it is possible to soften the back sheet to be separated from the solar module. In order to soften the solar module back sheet, the solar module including the back sheet at a temperature of 100 to 300 캜 may be heated, but is not limited thereto. When the fluorine film such as PVF (polyvinyl fluoride) film or PVDF (polyvinylidene fluoride) film is adhered to both sides of the PET film due to the structure of the solar cell module back sheet, the glass transition temperature of PVDF is 159.02 ° C , When the gas heated at a temperature of less than 100 ° C and blown out from the gas supply unit 300 is not high temperature, the back sheet may not be softened even when brought into contact with the back sheet, the melting point of PVDF is 173.71 ° C, Since the temperature is 250 DEG C, the back sheet melts at a temperature higher than 300 DEG C and may be difficult to separate.

At this time, the back sheet of the solar cell module is not limited to the above structure, but a PE (polyethylene) film or an EVA (Ethylene Vinyl Acetate) film is adhered to one side of the PET film, A PVF film or a PVDF film; a structure in which a PE film or an EVA film is bonded to one side of the PET film, and an inner UV-curable film or a hydrolysis-resistant PET film is adhered to the other side of the PET film Structure, an aluminum foil or a transparent vapor-deposited PET film is bonded to one side of a PET film, and a fluorine film such as a PVF film or a PVDF film is bonded to one side of the aluminum foil or the transparent vapor-deposited PET film, A structure in which a PE film or an EVA film is adhered to one side, and the like.

In the method for removing the solar cell module back sheet according to the present invention, it is preferable that the solar module heated in the step 1 is moved toward the gas supply part through the moving part between the heating step of step 1 and the gas ejecting step of step 2 And a moving step. When the solar module heated in the heating unit 100 of the solar module back sheet removing device faces the high temperature and high pressure gas ejected from the gas supplying unit 300, The back sheet of the optical module can be more effectively peeled off.

In the method for removing the solar cell module back sheet according to the present invention, step 2 is a step of ejecting gas from the gas supply part toward the back sheet of the solar cell module heated in step 1 above. In step 1, the solar module is heated in the heating unit 100, so that the back sheet of the solar module is softened in a viscous state. Accordingly, the softened back sheet can be dried or peeled off by the high-temperature, high-pressure gas supplied from the gas supply unit 300.

Specifically, it is preferable that the gas supplier 300 supplies the gas in a direction not perpendicular to the plane of the solar module back sheet. The back sheet can not be removed when the gas is supplied in a direction perpendicular to the back surface of the solar module.

At this time, the temperature of the gas ejected from the gas supply unit 300 may be in a range of 150 to 450 ° C, but is not limited thereto. However, if the temperature of the gas is 450 ° C, it may be necessary if the back sheet of the solar module is not heated by the heating unit. If the back sheet of the solar module is sufficiently heated, the temperature of the base It is not necessary to raise the temperature to 450 ° C. Further, in a state where the moving part is not included, the gas supply part of step 2 can move toward the back sheet of the solar module.

In addition, the pressure of the gas ejected from the gas supply unit 300 is preferably 10 psi or more, and more preferably 15 psi or more.

Further, the present invention provides a solar module comprising: a heating unit for heating a solar module; And a removing unit for physically contacting and removing the solar module back sheet heated by the heating unit.

At this time, the apparatus for removing the solar cell module back sheet may further include a moving unit for moving the solar cell module.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for removing a solar module back sheet according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 and 4. FIG.

4 is a schematic view of the apparatus for removing a solar module back sheet according to an embodiment of the present invention. Referring to FIG. 4, 500). The heating unit 100 may be in the form of a chamber, and it is preferable to heat the solar module including the back sheet at a temperature of 100 to 300 캜 in order to soften the back sheet of the solar module, but the present invention is not limited thereto. If the back sheet is heated to a temperature of less than 100 ° C. in the heating unit 100, the back sheet may not be softened and the back sheet may not be separated from the solar cell module. But if heated to a temperature above 300 ° C, it may be difficult to separate the back sheet from the module due to melting or steam generation.

The moving unit 200 may move the solar module heated by the heating unit 100 toward the removal unit 500. The moving unit 200 may move the photovoltaic module at a speed of 0.1 to 30 cm / s, but is not limited thereto.

In the removal unit 500, the solar module back sheet can be removed. The removing unit 500 includes a removing member capable of physically applying friction to the back sheet, and the back sheet can be removed through physical friction between the removing member and the back sheet. The removing member may be selected from among sandpaper, abrasive stone, ceramic dust, metal wool, nylon brush and the like, but includes all means capable of physically friction, and the shape of the removing member may be a roller shape, a plate shape, However, other forms are possible. In the apparatus for removing the solar module back sheet according to the present invention, the method of supplying the high-temperature and high-pressure gas through the gas supply unit 300 separates and removes the back sheet without contacting the solar module back sheet, When the removing unit 500 is included, the back sheet can be removed in a contact manner by physically applying friction to the back sheet through the removing member. In this case, for example, the back sheet melted in the process of removing the solar module back sheet may remain on the sand paper mounted on the sander, and it is preferable to periodically replace or wash the back sheet. If the back sheet is not heated in the heating unit, the back sheet may be heated at a temperature of 100 to 300 ° C in the removing unit, but the present invention is not limited thereto.

In the solar module back sheet removing apparatus including the removing unit, the removing unit may move in a direction of the back sheet of the solar module. When the removing part moves, the removing part can move at a speed of 0.1 to 30 cm / s in the presence of the heating part and the removing part without the moving part, but the present invention is not limited thereto.

In addition, not only the movement of the solar module through the moving unit 200 but also the movement of the removal unit 500 itself can be performed at the same time, so that the back sheet of the solar module can be more effectively peeled off.

Further, the present invention provides a method of removing a solar module back sheet using the apparatus, comprising the steps of: (1) heating the solar module with the heating unit; And a removing step (step 2) of physically contacting and removing the back sheet of the solar module heated in the step 1 (step 2).

Hereinafter, the method for removing the back sheet of the solar module of the present invention will be described in detail for each step.

In the method for removing the solar cell module back sheet according to the present invention, step 1 is a step of heating the solar cell module by the heating unit 100. By heating the solar module, it is possible to soften the back sheet to be separated from the solar module. In order to soften the solar module back sheet, the solar module including the back sheet may be heated at a temperature of 100 to 300 캜 in the heating unit, but the present invention is not limited thereto. The method of removing the solar cell module back sheet according to claim 1, further comprising the step of: moving the solar module heated in step 1 toward the removal part through the moving part between the heating step of step 1 and the back sheet removing step of step 2 As shown in FIG.

In the method for removing the solar module back sheet according to the present invention, the removing step is a step of physically contacting and removing the back sheet of the solar module heated in step 1 above. The photovoltaic module back sheet is heated in step 1 and the softened back sheet is physically rubbed with a removing member selected from sandpaper, abrasive stone, ceramic fiber, metal wool nylon brush, Can be removed. The removal member may be a roller, a plate, or a blade. If the back sheet is not heated in the heating unit, the back sheet may be heated to a temperature of 100 to 300 ° C in the removing unit, but the present invention is not limited thereto. At this time, in the state where the moving part is not included, the removing part of step 2 can move in the direction of the back sheet of the solar module.

Further, the method may further include forming the pattern on the backsheet before heating the solar module in the step 1, but the present invention is not limited thereto. At this time, the shape of the pattern may be a regular shape such as a lattice, a line, a circle, or the like, or it may be irregularly shaped, and it is preferable that the inside of the solar module back sheet is at least partially exposed. For example, a PE film, an EVA film, a fluorine film, and the like of the solar cell module back sheet can be exposed. Thus, by forming a pattern on the back sheet to be removed from the solar module, the back sheet can be more effectively peeled from the solar module. That is, by reducing the temperature and pressure of the gas supplied from the gas supply unit, the energy consumption can be reduced, or the load of the removal unit can be reduced, so that the back sheet can be removed more easily.

Hereinafter, the present invention will be described in more detail with reference to examples. The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention. In the following Examples and Comparative Examples, the back sheet was removed by using the apparatus for removing the back sheet of the solar module of the present invention.

Example 1 Removal of Solar Module Back Sheet 1

Step 1: The back sheet of the photovoltaic module was heated to a temperature of 200 캜 at a hot plate corresponding to the heating part of the apparatus for removing the back sheet of the solar module.

Step 2: A gas ejected from an air pressure, which corresponds to a gas supply part of the solar cell module back sheet removing device, is ejected toward the back sheet of the solar cell module heated in step 1, The back sheet was peeled and removed.

≪ Example 2 > Removal of solar module back sheet 2

Step 1: The back sheet of the photovoltaic module was heated to a temperature of 200 캜 at a hot plate corresponding to the heating part of the apparatus for removing the back sheet of the solar module.

Step 2: A backing sheet is removed by contacting a solar module back sheet heated in step 1 with a sander corresponding to the removal of the apparatus.

≪ Example 3 > Removal of back sheet of solar module 3

The back sheet was removed in the same manner as in Example 2 except that the back sheet was heated to a temperature of 250 ° C in the step 1 of Example 2.

Example 4 Removal of Solar Module Back Sheet 4

Step 1: Prior to using the solar module back sheet removing device of the present invention, a lattice pattern was formed on the back sheet of the solar module to expose a part of the EVA in the back sheet.

Step 2: In step 1, the back sheet of the photovoltaic module having the pattern formed therein was heated at a temperature of 250 ° C on a hot plate corresponding to the heating part of the solar cell module back sheet removing apparatus.

Step 3: A backing sheet is removed by contacting a solar module back sheet heated in step 2 with a sander corresponding to the removal of the apparatus.

Example 5 Removal of Solar Module Back Sheet 5

Step 1: The back sheet of the photovoltaic module was heated to a temperature of 200 캜 at a hot plate corresponding to the heating part of the apparatus for removing the back sheet of the solar module.

Step 2: The solar module back sheet heated in step 1 was moved in the direction of the air pressure in the gas supply part of the apparatus using a conveyor belt corresponding to the moving part of the apparatus.

Step 3: The gas ejected from the air pressure corresponding to the gas supply unit of the solar cell module back sheet removing device is ejected toward the back sheet of the solar cell module moved in step 2, The back sheet was peeled and removed.

≪ Example 6 > Removal of solar module back sheet 6

Step 1: The back sheet of the photovoltaic module was heated to a temperature of 200 캜 at a hot plate corresponding to the heating part of the apparatus for removing the back sheet of the solar module.

Step 2: The solar module back sheet heated in step 1 was moved in the direction of the sander in the removal unit of the apparatus using the conveyor belt corresponding to the moving unit of the apparatus.

Step 3: A sander corresponding to the removal of the apparatus was contacted to the back sheet of the solar module moved in step 2 to remove the back sheet.

≪ Comparative Example 1 &

Step 1: The back sheet of the photovoltaic module was heated at a temperature of 90 ° C on a hot plate corresponding to the heating part of the apparatus for removing the back sheet of the solar module.

Step 2: A backing sheet is removed by contacting a solar module back sheet heated in step 1 with a sander corresponding to the removal of the apparatus.

≪ Comparative Example 2 &

The backsheet was removed in the same manner as in Comparative Example 1, except that the backsheet was heated to 310 ° C in Step 1 of Comparative Example 1.

≪ Comparative Example 3 &

Step 1: The back sheet of the photovoltaic module was heated at a temperature of 90 ° C on a hot plate corresponding to the heating part of the apparatus for removing the back sheet of the solar module.

Step 2: The photovoltaic module back sheet heated in step 1 is sandwiched by a sander corresponding to the removal unit of the back light sheet removing apparatus of the present invention using a conveyor belt corresponding to the moving part of the apparatus In the direction of the arrow.

Step 3: A sander corresponding to the removal of the apparatus was contacted to the back sheet of the solar module moved in step 2 to remove the back sheet.

Experimental Example 1 Removal of back sheet of solar module due to gas ejection

FIG. 2 and FIG. 3 show a process of removing the back sheet of the solar module and a photograph of the back sheet of the solar module back sheet removing device of the present invention.

As shown in FIG. 2, (a) the back sheet is charged and heated in the solar module back sheet removing device including the gas supplying part, and (b) the moving part is operated. At this time, the gas supply unit may be moved instead of the moving unit, and both the moving unit and the gas supply unit may be moved. (C) the gas is blown out from the gas supply part, (d) the back sheet peeling is started, and the back sheet is peeled from the photovoltaic module through the process as shown in (e).

As shown in FIG. 3, a high temperature and high pressure gas using an air pressure was ejected onto a back sheet heated by a hot plate to show a state that the back sheet was dried and peeled off, After a certain period of time, the cell and back sheet of the solar module are separated.

<Experimental Example 2> Removing the back sheet of the photovoltaic module using a sander

FIG. 5 shows a state before and after removing the back sheet of the solar module through Examples 2 to 4 and Comparative Examples 1 and 2.

As shown in FIG. 5, when the backsheet of the solar module was heated at 90 ° C. through Comparative Example 1, the backsheet was not softened and it was not easy to remove. In Comparative Example 2, It can be confirmed that steam is generated in the back sheet when the back sheet of the back sheet is heated at 310 DEG C, which can be assumed to be the vaporization of PVDF which is a component of the back sheet.

On the other hand, when the back sheet of the photovoltaic module is heated at 200 ° C and 250 ° C through Examples 2 to 4, the back sheet is softened and the back sheet is effectively removed by using a sander. Particularly, in the case of Example 4, it can be confirmed that the back sheet can be more easily peeled from the solar module by forming the pattern in advance on the back sheet.

100:
200:
300:
400: Solar module back sheet
500: Remove

Claims (2)

A heating unit for heating the solar module;
A gas supply unit including an air pressure for supplying a gas at a temperature of 150 to 450 ° C toward a back sheet of the solar module heated by the heating unit; And
And a moving unit for moving the solar module heated by the heating unit,
The heating unit is heated to a temperature of 100 to 300 DEG C,
The gas supply unit moves in the direction of the back sheet of the solar module,
Wherein the back sheet is dried or peeled off by the gas supplied from an air pressure of the gas supply unit.
Heating the solar module with the heating unit (step 1); And
(Step 2) of ejecting a gas at a temperature of 150 to 450 DEG C toward the back sheet of the solar module heated in step 1 to dry or tear the back sheet upward
In the step 1, the solar module is heated to a temperature of 100 to 300 캜,
In the step 2, the gas supply unit to which the gas is supplied moves in the direction in which the back sheet of the solar module is present,
Wherein the back sheet is dried or peeled off by the gas supplied from an air pressure of the gas supply unit.

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