KR101209705B1 - Pre heater of multi layer Laminator - Google Patents

Abstract

The present invention is a laminating unit for fusion bonding solar cell module is installed in a multi-stage, preheating the solar cell module is installed in the loading unit is installed to the loading unit is loaded to the laminating unit of the multi-stage to be loaded up and down loading In the preheating heater, the preheating heater is installed in the lower portion of the loading unit, the heating element includes a planar heating element to reduce the load of the loading unit to facilitate the lifting up and down to one side of the laminating unit consisting of a multi-stage, the preheating heater The planar heating element is formed larger than the solar cell module, is installed on one surface of the planar heating element, is installed on the other side of the heat conducting member and the planar heating element installed so as to be located under the loading unit to insulate the heat generated from the planar heating element It characterized in that the insulating member is included It relates to a preheater in the laminating apparatus.
Therefore, the present invention minimizes the volume as a preheating heater in the loading unit to preheat the solar cell module, and by applying a light weight plane heating element, the load applied to the loading unit ascending and descending from one side of the laminating unit consisting of multiple stages is minimized. It is possible to reduce the performance of the driving unit for driving the loading unit, and because the heat generating performance of the surface heating element is superior to the heat generating performance of the heater rod at the same power, there is an effect that can save the power used in the laminating device.

Description

Pre heater of multi layer laminator

The present invention relates to a preheating heater of a multi-stage laminating apparatus, and more particularly, a laminating unit for heating and compressing a solar cell module in a vacuum state is arranged in multiple stages to perform a laminating process of a plurality of solar cell modules at the same time. The preheating heater for preheating is formed with a simpler and lighter structure to reduce the load as well as the size of the entire multistage laminating device and to preheat the heater of the multistage laminating device to preheat the front surface of the solar cell module evenly.

Fossil fuels such as liquefied natural gas and petroleum are the most used energy sources in the world. These fossil fuels have a great impact on industrialization and industrialization, but recently, serious problems such as environmental pollution, as well as concerns about exhaustion of these fossil fuels, have been studied.

Among various alternative fuels, solar energy has the characteristics of pollution-free, indefinite, vibration-free and noise-free, so many studies have been conducted as alternative energy in the future, and recently, many solar cells that accumulate and use solar energy have been introduced.

Solar cells are basically diodes composed of PN junctions. The amount of electricity available from a single solar cell is very low and the voltage is low. Therefore, in order to get more electricity, it is necessary to connect several solar cells. This connection of several solar cells is called a solar cell module.

Such a solar cell module is to manufacture a solar cell in the form of a cell. Referring to Figure 1, the structure of the solar cell module, the solar cell module (M) is a string (ST) is arranged between the transparent cover glass (G) disposed on the lower side and the rear sheet (BS) disposed on the upper side have.

Then, the cover material (G), the fusion material (C), the string (ST), the fusion material (C), the back sheet (BS) in the laminated state in the laminated state in the laminating apparatus from the lower side to the upper side, As the recording, the solar cell S is fixed between the cover glass B and the rear sheet BS to form a solar cell module M.

The above-mentioned laminating device is provided with a heater for melting the fusion material (C) is provided with a vacuum means to pressurize the solar cell module in the upper chamber and the lower chamber on which the solar cell module (M) of the laminated and laid up state is seated When the solar cell module (M) of the stacked upper chamber, laminated and laid up in the lower chamber is seated, the upper chamber and the lower chamber are pressurized by vacuum while heating the solar cell module (M) by a heater. Melting the fusion material (C) is made to form a solar cell module (C).

In addition, the upper chamber and the lower chamber described above form one laminating unit, and are laminated to a plurality of laminating units to simultaneously melt the fusion material C of the plurality of solar cell modules M.

Here, to prevent the cover glass (G) constituting the solar cell module (C) from bending when the solar cell module (M) is heated by the heater in the loading unit in which the solar cell module (M) is loaded into each laminating unit. In order to preheat the solar cell module (C) to the appropriate temperature in the loading unit is installed, this preheating heater is made of a cartridge heater.

Since the cartridge heater is made of a plurality of heater rods or heating wires, the size of the preheating heater is also increased by the size of the heating rods or heating wires, so that the size of the entire laminating equipment increases.

In particular, the preheating heater is installed in each of the loading units for introducing the solar cell module into each chamber of the laminating unit consisting of a multi-stage, so that the load applied to the loading unit when the loading unit is lowered as the load is added to the loading unit as the load of the preheater heater. As it becomes larger, the fatigue applied to the entire equipment is increased, as well as the energy required for the driving unit for raising and lowering the loading unit is increased.

In addition, the preheating heater has a problem that the preheating of the solar cell module (M) may be made uneven because the temperature is not uniform for each heating part as the heater rod or the heating wire is made of a plurality of heaters.

Therefore, the present invention has been made to solve the conventional problems as described above, the object of the present invention is to preheat the solar cell module loaded in the loading unit to be introduced into the laminating unit, but installed in a multi-stage laminating device It is to provide a preheating heater of a multi-stage laminating device that can reduce the volume and load of the preheating heater.

In addition, an object of the present invention is to allow the preheating heater to generate heat only toward the solar cell module seated on the loading portion.

It is also an object of the present invention to prevent the preheating heater from being deformed.

In addition, an object of the present invention is to minimize the heat generated in the preheating heater is lost in the loading unit.

In addition, an object of the present invention is to facilitate the heat generation of the preheating heater to the loading unit.

As described above, the preheating heater of the multi-stage laminating apparatus for achieving the object of the present invention is installed in multiple stages, the laminating unit for fusion welding the solar cell module is formed to be able to move up and down, the solar cell module is introduced into the laminating unit of the multi-stage In the preheating heater for preheating the solar cell module is installed in the loading unit to be loaded, the preheating heater is installed in the lower portion of the loading unit, the loading unit is easy to move up and down to one side of the laminating unit consisting of multiple stages It characterized in that the surface heating element is included to reduce the load of the negative.

The preheater is formed in the planar heating element is larger than the solar cell module, is installed on one surface of the planar heating element, is installed on the other side of the heat conducting member and the planar heating element installed so as to be located under the loading portion is generated in the planar heating element Characterized in that it comprises a heat insulating member for insulating the heat.

The lower portion of the heat insulating member is characterized in that the reinforcing member is further installed to prevent deformation of the planar heating element.

The loading unit and the preheating heater are wrapped around the loading unit and the preheating heater, and a housing surrounding the upper portion of the loading unit is further installed.

The housing is characterized in that formed of a thermally conductive material.

Therefore, the present invention minimizes the volume as a preheating heater in the loading unit to preheat the solar cell module, and by applying a light weight plane heating element, the load applied to the loading unit ascending and descending from one side of the laminating unit consisting of multiple stages is minimized. It is possible to reduce the performance of the driving unit for driving the loading unit, and because the heat generating performance of the surface heating element is superior to the heat generating performance of the heater rod at the same power, there is an effect that can save the power used in the laminating device.

In addition, the present invention has an effect that can increase the preheating performance by allowing the heat generated from the planar heating element to be concentrated to the loading side as the heat insulating member is installed in the lower portion of the planar heating element.

In addition, according to the present invention, as the reinforcing member is provided in the preheating heater, the preheating heater made of a planar heating element is prevented from being easily deformed by external shock as well as deformation due to heat generated from itself, thereby increasing laminating efficiency. It works.

In addition, the present invention is installed to surround the preheating heater and the loading unit, the housing is formed so as to surround the upper side of the loading portion, the heat generated from the preheating heater to the loading side is prevented from being lost to the outside of the loading portion of the preheating heater There is an effect that the heat can be concentrated to the solar cell module seated on the upper surface of the loading portion.

In addition, according to the present invention, since the housing surrounding the preheating heater and the loading part is formed of a heat conductive material, heat generated from the preheating heater is easily transferred to the loading part, thereby increasing preheating performance.

1 is a view showing the structure of a typical solar cell module.
Figure 2 shows a multi-stage laminating apparatus according to the present invention.
Figure 3 is a view showing a separate loading unit is installed preheating heater of the multi-stage laminating apparatus according to the present invention.
Figure 4 is a view showing a separate preheating heater of the multi-stage laminating apparatus according to the present invention.
5 is a cross-sectional view showing a preheating heater of the multi-stage laminating apparatus according to the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 is a view showing the structure of a general solar cell module, Figure 2 is a view showing a multi-stage laminating apparatus according to the present invention.

As shown, the multi-stage laminating apparatus according to the present invention is a cover glass member (G), the fusion member (C), the string (ST), the fusion member (C) and the back sheet (BS) are sequentially stacked Heating the welding member (C) in the solar cell module (M) to melt the welding member (C) by melting the cover glass member (G), the back sheet (BS) and the string (ST) at the same time a plurality of In order to be applied to the battery module (M), the solar cell module (M) to be fused is loaded into the loading unit 10 and the loading unit 10, the solar cell module (M) loaded in And the unloading unit 30 into which the laminating unit 20 and the solar cell module M, which undergoes the fusion process in the laminating unit 20, are inserted and unloaded.

Here, the laminating unit 20 is for fusing a plurality of solar cell modules (M) at the same time, as shown in Figure 2, the shelf frame 240 divided into a plurality of spaces, and each of the shelf frame 240 It includes an elevator 230 for elevating the upper chamber 210 and the lower chamber 220 and the upper chamber 210 respectively installed on the upper and lower.

In detail, the lower chamber 220 in which the solar cell module M is seated therein and the upper portion of the solar cell module M seated in the lower chamber 220 in each partitioned space of the shelf frame 240. The upper chamber 210 is installed to cover.

The lower chamber 220 is provided with a heater 221 for melting the welding member (C) when the solar cell module (M) is seated, the upper chamber 210 in the lower chamber 220, the solar cell module (M) When the seated, the solar cell module (M) is seated is provided with an upper chamber elevator 230 for raising and lowering the upper chamber 210 to cover the upper portion of the solar cell module (M).

As described above, the laminating unit 20 is installed in multiple stages so that the upper and lower chambers 210 and 220 can melt the fusion member C for each divided shelf frame 240.

The loading unit 10 and the unloading unit 30 are transferred to the laminating unit 20 by mounting the solar cell module M on the upper surface, or after the laminating process is completed, the solar cell module M from the laminating unit 20. As it is configured to receive the transfer, it is made possible to move up and down to be located in a straight line with the lower chamber 220 installed in multiple stages.

3 is a view showing a separate loading unit in which the preheat heater of the multi-stage laminating apparatus is installed according to the present invention, and FIG. 4 is a view showing the preheating heater of the multistage laminating apparatus according to the present invention separately, and FIG. 5 is the present invention. It is sectional drawing which shows the preheating heater of the multistage laminating apparatus which concerns on.

The loading unit 10 is mounted on the upper surface of the solar cell module (M) to be lifted up and down by the elevator 14 to be introduced into the lower chamber 220 of the laminating unit 20 installed in multiple stages (solar cell module ( As M), as shown in Figure 3, the loading frame 11, one side and the other side is opened, and the seating loading frame 12 is installed to protrude to the open side and the other side of the loading frame 11 and The loading elevator 14 and the preheating heater 40 installed below the loading unit 10 are mounted on the seating loading frame 12 to lift the seating loading frame 12 up and down.

The seating loading frame 12 is installed inside the loading frame 11 to protrude toward one side and the other of the opening of the loading frame 11, and the loading frame 11 is formed in a box shape in which one side and the other side are opened. do.

On both sides of the seating loading frame 12 protruding from the loading frame 11, a loading feed roller 12a is installed, and the loading conveyor belt 13 is wrapped around the loading feed roller 12a and the seating loading frame 12. Is installed. The loading conveyor belt 13 is provided with a load transfer driving unit 13a for driving one side of the transfer roller 12a. Here, the solar cell module (M) is seated on the upper surface of the loading conveyor belt 13 is transferred to the laminating unit 20 to be described later.

In addition, the preheat heater 18 is installed on the upper part of the seating loading frame 12, that is, the lower part of the loading conveyor belt 13, so that the solar cell module M seated on the upper surface of the loading conveyor belt 13 at a low temperature. By heating and transported to the laminating unit 20 to reduce the time that the fusion material (C) of the solar cell module (M) is melted and fused in the laminating unit 20, the loading unit 10 is a laminating unit ( Planar heating element 41 is included to reduce the load so as to easily move up and down to one side of 20).

In detail, as shown in FIG. 4, the preheating heater 40 has a planar heating element 41 and a heat conduction installed on one surface of the planar heating element 41, that is, a surface located below the loading part 10. The heat insulating member 43 is provided on the other side of the member 42 and the planar heating element 41, that is, the lower part of the planar heating element 41.

The planar heating element 41 may be used in a variety of products, such as a known rubber heater or heating film is small in volume, it is preferable that the heat generation can be maximized with less power.

The planar heating element 41 can be used by connecting a plurality, the overall size is formed larger than the size of the Tae-ang battery module (M) that is seated in the loading portion 10, the front surface of the solar cell module (M) evenly preheated It is desirable to.

The heat conducting member 42 is installed on one surface of the planar heating element 41, that is, the upper surface of the planar heating element 41, so that heat generated from the planar heating element 41 can be easily conducted to the loading unit 10. It can be high aluminum.

In addition, the heat insulating member 43 is installed on the other surface of the planar heating element 41, that is, the lower surface of the planar heating element 41, so that the heat generated from the planar heating element 41 is conducted to the opposite side to the loading part 10, so that the heat loss is reduced. It is to prevent the occurrence of may be formed of a silicon material. Thus, the heat generated from the planar heating element 41 is conducted to the outside of the planar heating element 41 through the heat conducting member 42, but the heat is concentrated to the loading unit 10 side because it is prevented from conducting to the heat insulating member 43 side. Can be.

Thus, the thermally conductive member 42 and the planar heating element 41 and the heat insulating member 43 which are sequentially stacked may be adhered to each other by adhesives made of silicon.

On the other hand, the lower surface of the heat insulating member 43, such as a rubber heater or a heating film, the planar heating element 41, which is small in volume and weak in durability, is deformed by its own heat generated from the planar heating element 41, or by external impact. The reinforcing member 44a is further installed to prevent the shape from being deformed or damaged. The reinforcing member 44a may be formed in the shape of the frame 44b so as to support the edge and the center side of the plate-shaped or planar heating element 41 formed in the size of the planar heating element 41.

Here, the preheating heater 40 and the loading unit 10 are coupled to each other, and the upper surface of the loading unit 10 in order to prevent the heat loss is generated by the heat generated from the preheating heater 40 is leaked to the outside. And it is preferable that the housing 49 for covering the side and the back of the loading portion and the preheating heater 40 is further installed.

The housing 49 is formed in a box shape in which both sides in the driving direction of the above-described loading conveyor belt 13 are opened, and the solar cell module M is seated on the loading conveyor belt 13 through the opening. The solar cell module (M) may be introduced into the laminating unit 20, and although not shown, may be coupled to the loading unit 10 by a general screw coupling method.

At this time, the housing 49 is formed of a heat conductive material so that the heat generated from the preheating heater 40 is smoothly transferred to the loading unit 10, and the heat generated toward the loading unit 10 is outside of the loading unit 10. Without being lost, it can be concentrated on the solar cell module (M) side.

The unloading unit 30 includes an unloading frame 31, a seating unloading frame 32, and an unloading elevator 34, similar to the loading unit 10, in a similar configuration to the loading unit 10. Detailed description thereof will be omitted since it is similar to the loading unit 10.

Hereinafter, the operation of the preheating heater of the multi-stage laminating device as described above will be described in detail.

First, the solar cell module (M) is loaded into the loading unit 10. Then, the preheating heater 40 is operated to preheat the solar cell module M seated on the loading conveyor belt 13 of the loading unit 10.

The preheated heater 40 is started to generate heat while power is applied to the planar heating element 41, the planar heating element 41 is a higher power than the conventional cartridge heater, such as a heater rod with a low power, the heat generation temperature is increased Speed is faster than conventional.

In addition, the preheating heater 40 is a planar heating element 41 is formed in a size larger than the solar cell module (M), the heat generated evenly than the conventional heating rods or heating wires, so that any position is preheated evenly so that the fusion member (C) ) Is prepared to melt evenly on either side.

At this time, the heat generated from the planar heating element 41 is conducted to the outside of the planar heating element 41 through the heat conducting member 42, the heat generated by the heat insulating member 43 installed in the lower portion of the planar heating element 41 The upper portion of the planar heating element 41, that is, the solar cell module (M) is transmitted only to the lower portion of the loading portion 10 is seated.

In particular, as the preheat heater 40 is installed inside the housing 49 installed to cover the top, side, and bottom of the loading unit 10, the coupling of the preheating heater 40 and the loading unit 10 is simple, Heat generated in the preheat heater 10 is prevented from being trapped by the housing 49 and lost to the outside.

The solar cell module M preheated by the loading unit 10 by the preheating heater 40 thus formed finds upper and lower chambers 210 and 220 of each of the empty laminating units 20, and the loading unit 10 moves up and down. While forming the same surface as the lower chamber 220 so that the solar cell module (M) loaded in the loading unit 10 is transferred to the upper surface of the lower chamber 220 of the laminating unit 20.

Next, the solar cell module M preheated in each lower chamber 220 is seated while repeating the above-described operation.

Thereafter, the upper chamber 210 is lowered to be seated on the upper side of the lower chamber 220 so that the interior of the upper and lower chambers 210 and 220 is vacuumed, and the solar cell module (through the heater 221) in the vacuum chamber. While heating M), the solar cell module (M) is vacuum pressed to be laminated.

At this time, the fusion member C of the solar cell module M preheated by the preheat heater 40 is stably melted.

Next, the solar cell module M fused in the laminating unit 20 is unloaded from the laminating unit 20 through the unloading unit 30 that operates as the loading unit 10.

1: laminating device
10: loading unit 11: loading frame
20: laminating part
210: upper chamber 220: lower chamber
30: unloading unit
40: preheat heater
41: planar heating element 42: heat conducting member
43: heat insulating member 49: housing

Claims (5)

A laminating unit for fusion of the solar cell module is installed in multiple stages, is formed to be able to move up and down in the preheating heater for preheating the solar cell module is installed in the loading unit is loaded loading the solar cell module is introduced into the laminating unit of the multi-stage In
The preheater is installed in the lower portion of the loading portion, the surface heating element is included so as to reduce the load of the loading portion to facilitate lifting up and down to one side of the laminating portion consisting of a multi-stage,
The preheater is the planar heating element is formed larger than the solar cell module,
A heat conducting member installed on one surface of the planar heating element and installed to be located below the loading unit; And
And a heat insulation member installed on the other surface of the planar heating element to insulate the heat generated from the planar heating element.
delete The method of claim 1,
The preheating heater of the multi-stage laminating device, characterized in that the reinforcing member is further installed in the lower portion of the heat insulating member to prevent deformation of the planar heating element.
The method of claim 1,
The loading unit and the preheating heater is wrapped around the loading unit and the preheating heater, the preheating heater of the multi-stage laminating apparatus, characterized in that the housing surrounding the upper portion of the loading unit is further installed.
5. The method of claim 4,
The housing is preheated heater of the multi-stage laminating device, characterized in that formed of a thermally conductive material.

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