JP2021091961A - Cathode assembly for plating equipment - Google Patents

Abstract

To provide a cathode assembly for plating equipment improved in axial rigidity.SOLUTION: A cathode assembly 10 for plating equipment comprises: a roll body 100 extended along a central axis; a support shaft module 200 including a flange 210 coupled to the roll body and a shaft 230 extended along the central axis from the flange, wherein the flange has a first rigidity and the shaft has a second rigidity greater than the first rigidity, and can prevent the shaft from being deformed during copper foil manufacturing to cause product defects.SELECTED DRAWING: Figure 2

Description

The present invention relates to a cathode assembly for plating equipment, and more particularly to a cathode assembly for plating equipment with improved axial rigidity.

Roll-to-roll plating equipment includes a plating tank and a cathode to form a plating film on the film. The cathode includes a shaft and a roll body. A plating solution and an anode are arranged in the plating tank. The film can be transported through the cathode. Here, the film is immersed in the plating solution inside the plating tank. When a power source is applied to the anode and cathode, copper is electrodeposited on the film while the plating solution is electrolyzed.

FIG. 1 is a diagram showing a cathode assembly for plating equipment according to a conventional technique.

Referring to FIG. 1, a conventional cathode assembly for plating equipment comprises a roll body 11 and a shaft 12. The shaft 12 is welded to the roll body 11. Here, in the cathode assembly for plating equipment according to the prior art, the shaft is deformed during the production of the copper foil. This has the problem of causing defects in the copper foil product.

An embodiment of the present invention aims to provide a cathode assembly for plating equipment with improved shaft rigidity.

In order to achieve the above object, the cathode assembly for a plating apparatus according to an embodiment of the present invention has a roll body extended along the central axis, a flange bonded to the roll body, and a flange along the central axis. It comprises a support shaft module including an extended shaft, the flange having a first stiffness, and the shaft having a second stiffness greater than the first stiffness.

According to the present invention, the coupling structure of the roll body and the support shaft module improves the shaft rigidity, and shaft deformation does not occur during the production of the copper foil. Therefore, it is possible to prevent the occurrence of product defects.

Further, since the roll body and the support shaft module can be connected and disconnected, only the roll body can be replaced as needed, and the manufacturing cost can be reduced.

It is a figure which showed the cathode assembly for plating equipment by the prior art. It is a figure which showed schematicly the cathode assembly for a plating apparatus which concerns on one Example of this invention. It is a figure which showed the other embodiment of the cathode assembly for plating equipment shown in FIG.

Hereinafter, the cathode assembly 10 for a plating apparatus according to a preferred embodiment of the present invention will be described in detail.

FIG. 2 is a diagram schematically showing a cathode assembly 10 for a plating apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the cathode assembly 10 for a plating apparatus according to an embodiment of the present invention includes a roll body 100 and a support shaft module 200 in order to prevent shaft deformation during copper foil production. The support shaft module 200 includes a flange 210 and a shaft 230. Here, the flange 210 has a first rigidity, and the shaft 230 has a second rigidity larger than the first rigidity. Therefore, the shaft 230 can rotatably support the support shaft module 200 without deformation. Here, a negative power source is applied to the cathode assembly 10 for plating equipment as compared with the anode (not shown). While the cathode assembly 10 for plating equipment rotates, the film for forming the plating film is conveyed so as to pass through the plating tank.

The roll body 100 is extended along the central axis (A). The support shaft module 200 can be arranged at both ends of the roll body 100. The support shaft module 200 includes a flange 210 and a shaft 230. The flange 210 is coupled to the roll body 100. The shaft 230 extends from the flange 210 along the central axis (A). The shaft 230, the flange 210, and the roll body 100 all have the same central axis (A).

The shaft 230 rotatably supports the cathode assembly 10 for plating equipment with reference to the central axis (A). The flange 210 connects the shaft 230 and the roll body 100, and supports the roll body 100. Here, the flange 210 has the first rigidity. Further, the shaft 230 has a second rigidity larger than the first rigidity. Therefore, the shaft 230 can support the flange 210 and the roll body 100 without deformation. This prevents the occurrence of defects during copper foil manufacturing. The shaft 230 and the flange 210 can be joined by welding.

In one embodiment, the flange 210 may be of copper material. Further, the shaft 230 may be made of stainless steel. The cathode assembly 10 for plating equipment rotates to convey the film while applying a negative power source to the film. Therefore, the cathode assembly 10 for plating equipment must have good conductivity and reduce power consumption. Further, the cathode assembly 10 for plating equipment must have good rigidity and prevent deformation. Since the flange 210 according to the present invention is made of copper, it has excellent conductivity. Further, since the shaft 230 is made of stainless steel, it has a property similar to that of copper while having a rigidity larger than that of copper. Therefore, according to the present invention, it is possible to secure conductivity and structural rigidity in order to reduce power consumption and prevent deformation. On the other hand, since the roll body 100 is made of titanium (Ti), it has a high strength property similar to that of carbon steel. According to the present invention, the flange 210, the shaft 230 and the roll body 100 have different materials from each other. As a result, the cathode assembly 10 for plating equipment according to the present invention can have a required strength and excellent electrical conductivity at a low cost in consideration of the price of the material.

The flange 210 includes a flange body 211 and a flange inserter 213. The flange body 211 is connected to the shaft 230 and is arranged at the end of the roll body 100. The flange inserter 213 extends from the flange body 211 along the central axis (A) and is inserted into the roll body 100. This can increase the coupling force and bearing capacity of the flange 210 and the roll body 100.

Further, the flange main body 211 has a flange inclined surface (D1). The flange inclined surface (D1) is inclined from the inner peripheral surface of the roll body 100 toward the outer peripheral surface toward the shaft 230 of the flange insertion body 213. The roll body 100 has a roll inclined surface (D2) corresponding to the flange inclined surface (D1). The flange inclined surface (D1) and the roll inclined surface (D2) are tightly bonded by a thermocompression bonding method. As a result, airtightness can be maintained between the flange 210 and the roll body 100, and excellent roundness can be ensured.

On the other hand, the roll body 100 has a first screw fastening portion 110. The flange inserter 213 has a second screw fastening portion 214. As a result, the roll body 100 and the flange 210 can be connected by a screw fastening method. Therefore, the roll body 100 and the support shaft module 200 can be connected or disconnected. That is, it is easy to assemble and separate. Moreover, since only the roll body 100 can be replaced, the manufacturing cost can be reduced.

The cathode assembly 10 for a plating apparatus according to an embodiment of the present invention further includes a sealing member 300. The sealing member 300 is arranged between the roll body 100 and the flange 210. The sealing member 300 can maintain the airtightness between the roll body 100 and the flange 210. In particular, the roll body 100 can have a containment platform for accommodating the sealing member 300. As a result, the sealing member 300 can be prevented from coming off even when the roll body 100 and the flange 210 are separated or joined.

FIG. 3 is a diagram showing another embodiment of the cathode assembly 10 for plating equipment shown in FIG.

Referring to FIG. 3, the support shaft module 200 further includes a protrusion 250. Further, the roll body 100 further includes an insertion home 130 corresponding to the protrusion 250. The protrusion 250 is arranged on the flange body 211 of the flange 210. Specifically, the protrusion 250 projects from the flange body 211 toward the roll inclined surface (D2). As an embodiment, the straight line along the protruding direction of the protrusion 250 may be perpendicular to the flange inclined surface (D1) and the roll inclined surface (D2). The insertion home 130 is arranged on the roll inclined surface (D2). The protrusion 250 is inserted into the insertion home 130. The protrusion 250 and the insertion platform 130 can be extended in the circumferential direction. As a result, when the support shaft module 200 is coupled to the roll body 100, it is guided to the coupling position so as not to be displaced. A sealing member (not shown) can be additionally arranged on the insertion home 130. When the flange body 211 and the roll body 100 are combined, the protrusion 250 comes into close contact with the sealing member. As a result, confidentiality can be ensured.

Although the invention made by the present inventor has been specifically described above based on Examples, the present invention is not limited to the above Examples and can be variously modified without departing from the gist thereof. Of course.

10: Cathode assembly for plating equipment 100: Roll body 110: First screw fastening part 200: Support shaft module 210: Flange 211: Flange body 213: Flange insert body 214: Second screw fastening part 230: Shaft 300: Sealing member D1 : Flange inclined surface D2: Roll inclined surface

Claims (8)

With the roll body extended along the central axis,
Includes a support shaft module that includes a flange coupled to the roll body and a shaft extending from the flange along the central axis.
The flange has a first stiffness and
The shaft is a cathode assembly for plating equipment that has a second rigidity that is greater than the first rigidity. The cathode assembly for plating equipment according to claim 1, wherein the flange is made of copper and the shaft is made of stainless steel. The flange is
Includes a flange body that is connected to the shaft and located at the end of the roll body, and a flange insert that extends from the flange body along the central axis and is inserted inside the roll body.
The cathode assembly for plating equipment according to claim 1, wherein the flange body has a flange inclined surface that is inclined from the inner peripheral surface to the outer peripheral surface of the roll body toward the shaft from the flange insert. The roll body has a roll slope corresponding to the flange slope and
The cathode assembly for plating equipment according to claim 3, wherein the flange inclined surface and the roll inclined surface are bonded by thermocompression bonding. The roll body has a first screw fastening portion arranged on its inner peripheral surface, and has a first screw fastening portion.
The cathode assembly for plating equipment according to claim 1, wherein the flange insert has a second screw fastening portion corresponding to the first screw fastening portion. The cathode assembly for plating equipment according to claim 1, further comprising a sealing member disposed between the roll body and the flange. The flange body has protrusions protruding from the flange inclined surface toward the roll inclined surface.
The cathode assembly for plating equipment according to claim 4, wherein the roll body has an insertion platform arranged on a roll inclined surface corresponding to a protrusion. The cathode assembly for plating equipment according to claim 7, further comprising a sealing member disposed on the insertion platform.

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