KR100972260B1 - a plating guide - Google Patents

Abstract

According to the present invention, the guide body for guiding the workpiece can be made of glass to reduce the occurrence of scratches on the workpiece even if the workpiece is rubbed with the guide. Therefore, the gap between the guides can be narrowed, thereby improving plating quality. The guide body which guides the to-be-processed object in the plating tank which can be improved.

There are plating baths 30 for plating on both surfaces of the surface treatment product 10, and there are electrode plates 1 and 2 that are arranged to face each other in the plating bath 30 to which power is applied. Between the electrode plates 1 and 2, there is a nozzle 3 for injecting a processing liquid such as a plating liquid, and in the center portion between the two electrode plates 1 and 2, two electrodes for which the object 10 is to be processed. The first and second guides 41 and 42 are horizontally installed in the moving direction of the object 10 so as to be guided to the center portion between the plates 1 and 2. In particular, in this guide body, the first and second guides 41 and 42 are each formed of glass.

The guide body of the present invention forms the guide body with glass having a higher surface roughness than that of the synthetic resin material, thereby reducing the defective rate compared to the conventional one, despite the friction with the workpiece.

Object to be processed, plating bath, guide body, glass

Description

Guide body for guiding a target object in a plating bath {a plating guide}

The present invention relates to a guide body for guiding a target object in a plating bath. In particular, the guide body for guiding the target object is made of glass to reduce the occurrence of scratches even when the workpiece is rubbed with the guide body. The present invention relates to a guide body for guiding a workpiece in a plating bath capable of narrowly spaced therebetween, thereby improving plating quality.

For example, substrates or printed circuit boards employed in display units such as LCDs and PDPs are surface treated through a pretreatment step, a plating step and a post-treatment step.

1 and 2 show a surface treatment apparatus according to a continuous method, in which a workpiece 10 is supported on a hanger while a surface treatment liquid is accommodated in a surface treatment tank 30 elongated in the longitudinal direction. Surface treatment is performed while moving along the rail 20.

In the case of the plating process, the two electrode plates 1 and 2 are disposed in the surface treatment tank 30 so as to face each other, and the plating is performed while the workpiece 10 is held for a predetermined time and moved therebetween. Reference numeral 3 denotes a nozzle for injecting the treatment liquid toward the object 10.

However, such a surface treatment apparatus has a thin to-be-processed object due to the injection pressure of the treatment liquid from the nozzle 3 in the case of the tendency that the to-be-processed object 10 such as a substrate also becomes thin with the miniaturization and thinning of electronic products. 10 is deformed so that the distance between the two electrode plates 1 and 2 is different, the plating is made non-uniformly.

In addition, since the object 10 is deformed due to the resistance with the treatment liquid when the object 10 moves in the surface treatment tank 30, the object 10 is deformed. As a result, the speed of surface treatment cannot be expected.

In addition, since the target object 10 should be positioned at the center portion between the two electrode plates 1 and 2, uniform plating is performed, and the target object 10 may be subjected to resistance to the treatment liquid and injection pressure of the treatment liquid. ) Is not possible because of the flow.

Accordingly, the guide bodies 41 and 42 for guiding the object 10 in the surface treatment tank 30 are accommodated, so that the object to be processed 10 is positioned at the center between the two electrode plates 1 and 2. And to prevent deformation.

Moreover, generally, the space | interval between two guide bodies 41 and 42 is narrowed and installed so that the to-be-processed object 10 may be located in the center of the two electrode plates 1 and 2.

However, in this case, when the workpiece 10 is moved, friction with the guide bodies 41 and 42 occurs, which causes a problem of scratches on the surface of the workpiece 10.

Particularly, the guide bodies 41 and 42 are not generally used because they affect the object to be processed 10 due to corrosion problems and plating reactions when they are formed of metal, and are generally guide bodies 41 and 42. Is formed of a synthetic resin material, in this case, the scratches are generated by friction with the surface of the object 10 of the thin plate (薄板) to be plated poor.

An object of the present invention is to provide a guide body for guiding a workpiece in a plating tank so as to reduce scratches even when the workpiece is rubbed with the guide body in the plating tank.

The present invention for achieving the above object is a guide body for guiding the object to be processed in the plating tank for guiding the object to be processed in the plate-like thin plate in the plating tank containing the plating liquid,

The guide body is opposite to each side of the workpiece to be installed in parallel with the direction of movement of the workpiece, and is formed of a hollow hollow and formed of a glass material, characterized in that the filler is filled in the hollow.

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The guide body of the present invention forms the guide body with glass having a higher surface roughness than that of the synthetic resin material, thereby reducing the defective rate compared to the conventional one, despite the friction with the workpiece.

In addition, it is possible to reduce the occurrence of scratches in spite of the friction of the glass material (glass material) with the guide body, so that the gap between the first and second guide bodies can be narrowed, and the object to be processed is placed in the center of the two electrode plates. It enables close guiding to ensure uniformity of plating and to improve plating quality.

In addition, by forming the glass guide body in a hollow shape, it is possible to increase the moment of inertia higher than that of the filling guide body.

In addition, by filling a filler such as synthetic resin in the hollow guide body to prevent fine vibration of the guide body by external vibration to improve the plating quality.

The present invention relates to a guide body for guiding a workpiece in a plating bath in which plating is performed on the surface of the workpiece by electroplating.

Referring to FIG. 3, the device shown shows a plating bath, and has a plating bath 30 for performing plating on both surfaces of the surface treatment product 10, so that the plating bath 30 faces each other. There is an electrode plate (1) (2) arranged and applied to the power, there is a nozzle (3) for injecting a processing liquid such as a plating liquid between the two electrode plate (1) (2), and also two electrode plate (1) In the center portion between the first and second guide bodies 41 and 42, the target object 10 is guided to the center portion between the two electrode plates 1 and 2 as much as possible. It is installed horizontally in the direction of movement.

In particular, the first and second guide bodies 41 and 42 are each made of glass.

Glass (glass) generally has a higher surface roughness than the synthetic resin material used as the guide body, thereby minimizing scratches upon friction with the object 10 of the synthetic resin material.

In addition, the guide body 41, 42 of the present invention, as shown in Figure 4, by forming a hollow to increase the weight and the moment of inertia, it is possible to reduce the risk of shear failure than the guide guide of the filling type .

In addition, as shown in Figure 5, by filling a filler, such as synthetic resin in the hollow of the guide body 41, 42, it is possible to prevent fine vibration of the guide body by external vibration to improve the plating quality.

Since the guide bodies 41 and 42 are formed of glass, the gap between the two guides 41 and 42 can be narrowed to reduce the occurrence of scratches even when friction with the workpiece 10 occurs.

Therefore, since the distance between the two guide bodies 41 and 42 can be narrowed more, the uniformity of the plating can be secured by guiding the workpiece 10 closer to the center of the two electrode plates 1 and 2. To be.

Conventionally, two guide bodies 41 and 42 formed of a synthetic resin material are installed to have an interval of about 50 to 100 mm so as to be safe from frictional contact with the object 10. In this case, the object 10 to be treated is Deformation such as bending occurs due to the injection pressure of the processing liquid through the nozzle 3 and resistance between the guide bodies 41 and 42 and the resistance of the processing liquid during movement, resulting in uneven plating.

However, in the present invention, the distance between the two guide bodies (41, 42) can be installed in the range of 5 to 10mm, so that the deformation width of the workpiece 10 can be greatly reduced than before, and the plating quality can be improved. .

1 and 2 are schematic diagrams for explaining a conventional surface treatment state;

3 is a cross-sectional view showing a plating bath provided with a guide body of the glass material of the present invention,

4 is a sectional view of an essential part of a guide body showing a hollow guide;

Figure 5 shows a cross section of the main part of the guide body filled with a filler as another example of the present invention.

Claims (3)

In the guide body for guiding the object to be processed in the plating tank for guiding the object to be processed in the plate-like thin plate in the plating tank containing the plating liquid, The guide bodies 41 and 42 are opposed to both side surfaces of the workpiece 10 and are installed in parallel with the moving direction of the workpiece 10 and are formed of hollow hollows and formed of glass. Guide to guide the object in the plating bath characterized in that the filler is filled in the hollow. delete delete

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