KR101484655B1 - Roller repair method of cutting apparatus - Google Patents

Abstract

The present invention relates to a method for repairing a cutting apparatus roll which is installed in a cutting apparatus for cutting a solar cell ingot, and around which cutting wires are wound. According to the present invention, the method for repairing a cutting apparatus roll comprises: a step of shaving off the outer circumferential surface of the roll by a first preset thickness in the radius direction; a step of attaching a resin film to the outer circumferential surface of the shaved roll along the circumferential direction of the roll; a step of wrapping a carbon fiber reinforced plastic (CFRP) sheet around the resin film as much as a second preset thickness in order to make the diameter of the roll the same as the initial diameter of the roll; a step of heating and fixating the CFRP sheet to the shaved roll; a step of forming a protection layer on the CFRP sheet after fixating the CFRP sheet to the roll; and a step of forming a plurality of grooves on the protection layer made of urethane in order to enable the cutting wires to be mounted on the CFRP sheet and separated from each other along the lengthwise direction of the roll.

Description

[0001] The present invention relates to a roll repair method for a cutting apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roll repair method for a cutting apparatus, and more particularly, to a roll repair method of a cutting apparatus capable of repairing a roll when a roll wound with cutting wires is wound to cut a ingot for a solar cell .

Generally, a wafer for a solar cell is manufactured by cutting a single crystal ingot extending in one direction. An ingot cutting apparatus for cutting a single crystal ingot includes a pair of rolls arranged so as to face each other and spaced apart from each other, a wire wound around a pair of rolls formed in a shape of a closed curve, an ingot holder for supporting the ingot, , And a slurry spraying means for spraying a slurry. The wire is made of any one of iron (Fe), copper (C), and tungsten (W) or an alloy thereof.

Such a wire is wound on a pair of rolls, and when the wire-wound roll is rotated, the wire can be rotated together to cut the ingot. Rolls are fabricated using CFRP (Carbon Fiber Reinforced Plastic) in a filament winding manner, and when rolled together with a wire made of metal, there is a possibility of being damaged by friction with the wire.

To solve this problem, a urethane layer is formed on the roll to prevent direct contact of the wire with the roll, thereby preventing the roll from being damaged due to the friction between the wire and the roll.

However, even if the urethane layer is formed, there is a possibility that the urethane layer may be damaged by the wire in a long-term use, which may lead to damage of the roll. Since the CFRP rolls are made of filament winding, it is not easy to repair the damaged rolls by the filament winding method. Especially, since the filament winding method is difficult to match the uniformity, even if it can be repaired, There is a drawback that it takes.

Korean Patent No. 10-1289658

An object of the present invention is to provide a method of repairing a roll of a cutting apparatus capable of repairing a roll when a roll wound with cutting wires is wound to cut the ingot for a solar cell.

The present invention relates to a method of repairing a roll provided in a cutting apparatus for cutting a solar cell ingot and wound with cutting wires, the method comprising: cutting the outer circumferential surface of the roll by a first predetermined thickness in a radial direction of the roll; Attaching a resin film to an outer circumferential surface of the cut roll along a circumferential direction of the roll; Winding a CFRP (Carbon Fiber Reinforced Plastic) sheet on the resin film by a second predetermined thickness so that the diameter of the roll becomes equal to the initial diameter of the roll; Fixing the CFRP sheet to the heated rolls; Fixing the roll, and then forming a protective layer on the CFRP sheet; And forming a plurality of grooves in the urethane layer such that each of the cutting wires is seated on the CFRP sheet and spaced apart from each other along the longitudinal direction of the roll. do.

The roll repair method of the cutting apparatus according to the present invention has the following effects.

First, since a CFRP (Carbon Fiber Reinforced Plastic) sheet is wound around a set thickness by a predetermined thickness, a urethane layer is formed. Therefore, even if the urethane layer is damaged, the roll can be repaired and reused, It has an effect that can be used semi-permanently.

Second, since the roll is cut by the set thickness and the CFRP sheet is wound to compensate for the thickness, the roll can be restored and repaired even if the roll is damaged in the process of removing the urethane layer formed on the roll in order to repair the roll. .

1 is a perspective view illustrating an ingot cutting apparatus for a solar cell according to an embodiment of the present invention.
2 is a block diagram illustrating a method of repairing a roll of a cutting device in accordance with an embodiment of the present invention.
Figs. 3 to 5 are schematic views showing a roll repair process of the cutting apparatus according to Fig.
Fig. 6 is a block diagram showing a roll repair method of the cutting apparatus according to Fig. 2;

2 to 5 show a method of repairing a roll of a cutting apparatus according to an embodiment of the present invention.

1, a cutting apparatus 200 for cutting an ingot for a solar cell (not shown) is provided with a roll 210 wound with wires W cutting the ingot for a solar cell `). As the roll 210 'is rotated, the wires W wound on the roll 210' rotate together. The ingot 10 for a solar cell is cut into a plurality of wafers by the wires W rotating when the solar cell ingot 10 passes through the rotating wires W. [

As shown in FIG. 1, at least two rolls 210 'are provided, and the rolls 210' are spaced apart from one another and the wires W wrap around the rolls 210 ' . The plurality of wires W are spaced apart from each other by a predetermined interval along the longitudinal direction of the roll 210 '. The distance between adjacent wires W is the thickness of the wafer formed by cutting the ingot 10 by the cutting device 200.

The roll 210 'is made of CFRP (Carbon Fiber Reinforced Plastic), and is manufactured by a filament winding method. The roll 210 'is generally formed in the shape of a cylinder having a hollow shape. In order to repair the roll 210' through a repair method described later, the roll 210 'is inserted into the mandrel M and is repaired.

A protective layer 211 is formed on the roll 210 and a plurality of grooves G for preventing the wires W from slipping are formed in the urethane layer. And the wires W are spaced apart from each other along the longitudinal direction of the roll 210 '. When the cutting device is used for a long time, the protective layer 211 and the grooves G formed in the protective layer 211 are damaged by the wires W, And the grooves G are damaged, the wires W and the roll 210 'are rubbed to damage the wire W or the roll 210'.

When the protective layer 211 is damaged, the roll 210 'can be repaired through the roll repair method of the cutting apparatus according to an embodiment of the present invention. 1 to 5, a method of repairing a roll of a cutting apparatus according to an exemplary embodiment of the present invention includes a step of cutting a roll 210 '(step S105), a step of attaching a resin film 230 Step S110) of winding the CFRP sheet 250 (S115), and fixing the CFRP sheet 250 (S120).

Since the protective layer 211 is formed on the roll 210 'as described above, the protective layer 211 is formed on the roll 210' before the step of cutting off the roll 210 ' Is removed. The protective layer 211 is formed on the roll 210 and the protective layer 211 is damaged due to the long use of the cutting device 200. Therefore, The protective layer 211 must be removed first. The protective layer 211 may be removed using a separate removal device (not shown) or may be removed using a removal tool.

 After the protective layer 211 is removed, the step of cutting off the roll 210 '(S105) proceeds. More specifically, the step (S105) of cutting the roll 210 'is carried out by cutting the outer circumferential surface of the roll 210' uniformly in the direction toward the center of the roll 210 'by the first set thickness t1 will be.

As described above, when the protective layer 211 on the roll 210 'is removed in the step of removing the protective layer 211, portions of the roll 210' are removed together to form the roll 210 '. ) Is not uniform. Accordingly, the outer circumferential surface of the roll 210 'is cut by the first set thickness t1 so that the outer circumferential surface of the roll 210' becomes uniform. However, removing the protective layer 211 and carving out the roll 210 'may be performed in a single process.

After cutting the outer circumferential surface of the roll 210 'by the first predetermined thickness t1, a step S110 of attaching the resin film 230 proceeds. The resin film 230 is attached to the outer circumferential surface of the roll 210. An adhesive layer is formed on both sides of the resin film 230 so that the resin film 230 can be attached to the roll 210 and the CFRP sheet 250 to be described later is attached to the resin film 230 . The resin film 230 is wound and attached in a spiral shape along the longitudinal direction of the roll 210.

The resin film 230 serves to fix the CFRP sheet 250, which will be described later, to the roll 210. The roll 210 is formed of the same CFRP (Carbon Fiber Reinforced Plastic) as the CFRP sheet 250, as described above. Therefore, if the CFRP sheet 250 is wound on the roll 210 without the resin film 230, the CFRP sheet 250 is not easily fixed. Accordingly, the resin film 230 is attached so that the CFRP sheet 250 can be fixed to the roll 210.

After the step of attaching the resin film 230, the step of winding the CFRP sheet 250 (S115) is performed. The CFRP sheet 250 is wound on the resin film 230. The CFRP sheet 250 is wound on the resin film 230 such that the diameter of the roll 250 is the same as the diameter of the roll 210 '. Therefore, the CFRP sheet 250 is laminated on the resin film 230 one or more times by the second predetermined thickness t2. The CFRP sheet 250 is wound on the resin film 230 in a sheet winding manner. The tip end of the CFRP sheet 250 laminated by the second set thickness t2 can be temporarily fixed by an adhesive member (not shown).

After winding the CFRP sheet 250 by the second predetermined thickness t2, the step of fixing the CFRP sheet 250 (S120) proceeds. The CFRP sheet 250 laminated by the second preset thickness t2 is temporarily fixed by an adhesive member (not shown) as described above, but since the CFRP sheet 250 is not completely fixed There is a possibility that the CFRP sheet 250 wound around the CFRP sheet 250 is loosened. Therefore, it is necessary to completely fix the CFRP sheet 250 laminated and wound. The number of windings of the CFRP sheet 250 wound on the roll 210 by the second predetermined thickness t2 depends on the thickness of the CFRP sheet 250. [

Alternatively, the CFRP sheet 250 may be fixed by using a separate fixing member. However, in the present embodiment, the roll 210 wound with the CFPR sheet 250 may be fixed to the sealing member (S125) of wrapping the CFRP sheet 250 on the roll 210 and vacuuming the inside of the sealing member, and fixing the CFRP sheet 250 to the roll 210 by baking the roll 210 in an oven ).

More specifically, the CFRP sheet 250 is laminated, and the entire roll 210 is wound with the sealing member. A vacuum pump (not shown) is connected to one side of the sealing member, and the inside of the sealing member is contracted when the vacuum pump (not shown) sucks the vacuum. Since the suction force of the vacuum pump is strong, the CFRP sheet 250 and the resin film 230 are also compressed and contracted together. When the CFRP sheet 250 and the resin film 230 are contracted, the sealing member is removed, and the roll 210 is bent into an oven. The CFRP sheet 230 is impregnated into the CFRP sheet 250 while the resin film 230 melts while the roll 210 is baked in the oven and the CFRP sheet 230 is sandwiched between the rolls 210 As shown in Fig.

The CFRP sheet 250 is fixed by the resin film 230. However, the present invention is not limited to this. For example, The CFRP sheet 250 may be fixed.

After the CFRP sheet 250 is adhered to the roll 210, the protective layer 211 is formed on the CFRP sheet 250. As described above, in order to wind the wires W to the roll 210 and to rotate the rolls 210 together with the roll 210, a protective layer 210 is formed to prevent friction between the roll 210 and the wires W. [ (211) should be formed. The protective layer 211 is formed of a urethane layer. Accordingly, when the CFRP sheet 250 is fixed to the roll 210, urethane is coated on the CFRP sheet 250 to form the protective layer 211. [ Urethane, which is highly urethane, is used to prevent friction caused by direct contact between the wires W and the roll 210, but is not easily worn by the wires W that are rotated.

After the protective layer 211 is formed, the protective layer 211 is formed to prevent the wires W wound on the roll 210 and rotating together with the roll 210 from slipping when rotating. Thereby forming a plurality of grooves (G). The groove G formed in the passivation layer 211 may be formed through a technique such as that disclosed in Japanese Patent Application No. 10-0725227 (main roller groove forming apparatus for a silicon ingot cutting apparatus). In addition, the grooves G may be formed in the protective layer 211 by using a variety of methods for forming grooves that have been disclosed previously.

After the grooves G are formed, the wires W are placed on the grooves G so that the wires W are spaced apart from each other along the longitudinal direction of the rolls 210.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

200: Cutting device
210, 210`: Roll
230: Resin film
250: CFRP sheet
G: Groove
W: Wire

Claims (7)

A method of repairing a roll provided on a cutting apparatus for cutting a solar cell ingot, in which cutting wires are wound,
Cutting the outer circumferential surface of the roll in a radial direction of the roll by a first predetermined thickness;
Attaching a resin film to an outer circumferential surface of the cut roll along a circumferential direction of the roll;
Winding a CFRP (Carbon Fiber Reinforced Plastic) sheet on the resin film by a second predetermined thickness so that the diameter of the roll becomes equal to the initial diameter of the roll;
Fixing the CFRP sheet to the heated rolls;
Forming a protective layer on the CFRP sheet after being fixed to the roll; And
And forming a plurality of grooves in the protective layer such that each of the cutting wires is seated on the CFRP sheet and is spaced apart from one another along a longitudinal direction of the roll. The method according to claim 1,
Before the shaving step is performed,
And removing the pre-formed protective layer on the roll. The method according to claim 1,
In the step of winding the CFRP sheet,
Wherein the CFRP sheet is wound on the resin film in a sheet winding manner, and the CFRP sheet is laminated by the second predetermined thickness. The method according to claim 1,
The step of securing the CFRP sheet comprises:
Wrapping the roll in which the CFRP sheet is wound with a sealing member, and vacuum-sucking the inside of the sealing member; And
And heating the roll with the CFRP sheet wound thereon in a heating device. The method of claim 4,
In the heating step,
Wherein the CFRP sheet is adhered to the roll while the resin film is melted and impregnated in the CFRP sheet. The method according to claim 1,
Wherein the protective layer is a urethane layer. The method of claim 3,
Wherein the number of times of laminating the CFRP sheet by the second predetermined thickness is adjusted according to the thickness of the CFRP sheet.

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