KR100513774B1 - Anode device for preventing strip from anode stick - Google Patents

Abstract

The present invention relates to an anode device for uniform plating thickness to be plated on the strip in the electroplating equipment, to form an inclined edge surface by varying the width of the top and bottom of the anode, each in the center The present invention relates to an anode device which prevents the plating deviation of the strip, which is improved to maintain the plating thickness on the strip surface by aligning the anodes side by side by forming adjacent projections and grooves to which the projections are coupled to each other.

The present invention, in the anode device used for plating the surface of the strip in the electroplating equipment, different widths of the upper and lower parts of the body to form the inclined both sides of the surface, between the adjacent body According to the present invention, an anode device is provided to prevent a plating deviation of a strip, which forms a seam that is inclined with respect to a traveling direction of the strip, thereby preventing a plating thickness deviation on the strip surface caused by the seam.

Description

Anode device to prevent plating deviation of strips {ANODE DEVICE FOR PREVENTING STRIP FROM ANODE STICK}

The present invention relates to an anode device for making the plating thickness uniformly plated on the strip in the electroplating equipment, and more specifically to the inclined edge surface by varying the width of the top and bottom of the anode, The present invention relates to an improved anode device for maintaining a constant plating thickness on the surface of a strip by aligning the anodes side by side to form adjacent grooves to each other by forming grooves in which the projections and the projections are coupled to each other.

In general, in the electroplating equipment 100, in order to plate the strip S to be plated, a plurality of anode devices 120 are provided inside the plating bath 110, and the strip S to be plated therebetween. ) Proceed. As shown in FIG. 1, the strip S passes through the plating liquid 130 contained in the plating bath 110 and passes between the anode devices 120 mounted upright with each other. 2 and 3, as shown in Figures 2 and 3, has a rectangular shape with a constant thickness and width, is built up in close contact with a plurality in the width direction of the plating bath 110, the strip (S) is passed therebetween. To do that.

Such a conventional rectangular anode device 120, in order to be mounted in the plating bath 110, the hook portion 122 is formed on the top side, the anode bridge 124 to cross the plating bath 110 from the upper side The lower end portion is inserted into and supported by the anode guide 126 crossing the lower portion of the plating bath 110.

Accordingly, the anode device 120 is upright in an independent state, and the strip S progresses therebetween, and is affected by the plating solution 130 flowing in the plating bath 110. Modifications are made as shown in FIG.

This deformation is that as the anode device 120 dissolves over time, its thickness becomes thinner, and thus the deformation of the anode device 120 becomes more severe. In particular, as shown in FIG. 5, the anode device 120 generates a more severe deviation in the spacing P between the strips S, and when the spacing P between the strips S is different. In the meantime, a difference in current density with the strip S occurs between the plating thicknesses.

The reason why the distances from the respective anode devices 120 to the strips S is different is that the conventional anode devices 120 are each mounted upright and mounted alone, so that the anode device (the Deformation of the 120 is formed differently to cause a mismatch of the interval (P).

In addition, since the conventional anode device 120 forms a rectangular cross section, it forms a straight seam line 150 parallel to the advancing direction of the strip S between adjacent anode devices 120. The straight seam 150 is spaced apart with time, and any portion of the strip S passing through the gap is moved from the bottom (top) to the top (bottom) of the anode device 120. During the course, the seam 150 passes continuously and continuously.

This is because the seam line 150 is formed parallel to the traveling direction of the strip (S), the strip (S) portion passing through the seam line 150 can not escape from the seam line 150 path, seam line 150 Will follow along.

This portion of the seam 150 is different in current density from the body 120a of the anode device 120, and thus the continuous plating deviation defect in the longitudinal direction of the strip S, a so-called anode stick ( 160 is formed on the surface of the strip (S), as shown in FIG. The portion of the anode stick 160 as described above had a problem of lowering the plating quality of the strip S by causing variation in the plating thickness compared to other portions of the strip S. FIG.

SUMMARY OF THE INVENTION The present invention seeks to solve the above conventional problems, and an object thereof is to prevent the formation of an anode stick on the surface of the strip, thereby preventing the plating deviation of the improved strip to maintain a constant plating thickness on the surface of the strip. It is to provide an anode device.

In order to achieve the above object, the present invention, in the anode device used for plating the surface of the strip in the electroplating equipment, different widths of the upper and lower parts of the body to form inclined both sides of the ground, Forming seam lines which are inclined with respect to the advancing direction of the strip between bodies adjacent to each other; In the edge surface, a protrusion is formed at the center of one side, and a recess is formed at the center of the other side to connect adjacent bodies to each other, thereby preventing plating thickness deviation on the strip surface caused by the seam line, and aligned side by side to each other on the strip surface. By providing an anode device for preventing the plating deviation of the strip, characterized in that the plating thickness is kept constant.

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

As shown in FIG. 8, the anode device 1 according to the present invention forms the inclined both edge surfaces 12 by varying the width W1 and W2 of the upper and lower portions of the body 10, Seams 20 are inclined with respect to the advancing direction of the strip S between the bodies 10 adjacent to each other.

That is, as shown in Figure 8a), one anode body 10 is a structure having a cross-sectional shape of the upper and lower narrow (上 壙 下 狹), the other anode body 10 adjacent thereto is the upper side It is a structure having a cross-sectional shape of underlight. When the angles of inclination of the edge surfaces 12 of these anode bodies 10 are equal to each other and adjacent to each other as shown in FIG. 6, the seam line 20 is exactly coincident.

Then, the body 10 has a hook portion 32 is formed on the upper side, respectively, is hooked to the anode bridge 124 across the plating tank 110 from the upper side, the lower end portion of the plating tank 110 It is inserted into the traversing anode guide 126.

And, the present invention forms a protrusion 40 in the center of one side of the inclined edge surface 12, the other side to form a groove 42 of the size that can be inserted into the protrusion 40 adjacent body ( 10) may be mounted on the anode bridge 124 and the anode guide 126 by aligning them in parallel with each other.

In the present invention configured as described above, as shown in FIG. 6, the hook part 32 is hooked to the anode bridge 124 at the upper end, and the lower part is inserted and inserted into the anode guide 126, and they are installed in the upper and lower subcontracts. It is mounted so that the cross-sectional shape of the upper portion and the cross-sectional shape of the upper and lower light beams are arranged in sequence with each other, and these projections 40 are inserted into the grooves 42 of the adjacent body 10. 7 to form a aligned state as shown in FIG.

When mounted in this way, the anode bodies 10 connected to each other via the protrusion 40 and the recess 42 are constrained with each other, and thus the distance between the strips S and the strips S is constant.

This is because the current density becomes constant due to a constant interval between the strip (S), which is the plated material, and thus there is no variation in plating thickness.

In addition, the present invention does not form the anode stick 160 in the traveling strip S because the seam line 20 formed between the adjacent anode bodies 10 maintains the inclined state. The reason for this is that as shown in FIG. 6, since the seam line 20 is kept inclined with respect to the direction in which the strip S travels, any part of the strip S passing through the seam line 20 is not. The portion of the seam line 20 does not meet again while proceeding from the bottom (top) to the top (bottom) of the node body 10. This is because the seam 20 is inclined in the advancing direction of the strip S, the portion of the strip S passing through this seam 20 portion becomes an instantaneous portion, and then to the seam 20. Is completely out of the way.

Therefore, even if the current density of the seam line 20 is different from the anode body 10, the portion where the strip S passes through the seam line 20 is instantaneous, so that the plating deviation defect is continuous in the longitudinal direction as in the prior art. So-called anode sticks 160 are not formed on the strip S surface. Therefore, the plating quality of the strip S can be ensured favorably.

Therefore, according to the present invention, the inclined edge surface 12 is formed by varying the widths W1 and W2 of the upper and lower portions of the anode body 10, and the protrusions 40 are formed at the centers of the edge surfaces 12, respectively. ) And the grooves 42 to which the protrusions 40 are coupled to each other to connect adjacent anode bodies 10 to each other to align them side by side to maintain a constant distance between the strips S. Thus, an improved effect is obtained to keep the plating thickness on the surface of the strip S constant and to prevent the occurrence of the anode stick 160.

1 is a side view showing a general electroplating equipment;

FIG. 2 is a sectional view taken along the line A-A of FIG. 1, showing a front view of the anode device according to the prior art; FIG.

3 is a side view showing an anode device according to the prior art;

4 is a side view showing a state in which deformation occurs in the anode device according to the prior art;

5 is a cross-sectional view along line B-B of the conventional anode device shown in FIG. 4;

6 is a front view showing an anode device for preventing the plating deviation of the strip according to the present invention;

Figure 7 is a side view of the anode device for preventing plating deviation of the strip according to the present invention;

8 is a detailed view showing an anode device according to the present invention,

       a) is the structure having the cross-sectional shape of the upper and lower straits,

       b) is the structure having the cross-sectional shape of upper and lower light beams.

Explanation of symbols on main parts of drawing

10 ..... anode body 12 ..... ground

20 ..... seam 32 ..... hook

40 ..... turning 42 ..... groove

100 .... electroplating equipment 110 .... plating bath

120 .... Anode device 124 .... Anode bridge

126 .... Anode Guide 130 .... Plating Solution

160 .... Anode Stick

S ...... strip

Claims (2)

In the anode device used for plating the surface of the strip (S) in the electroplating equipment,       The upper and lower widths W1 and W2 of the body 10 are formed to form two inclined edge surfaces 12, and are inclined with respect to the advancing direction of the strip S between the adjacent bodies 10. Each forming a photographic seam 20;       The edge surface 12 has a protrusion 40 formed at one center and a groove 42 is formed at the center of the other side to connect adjacent bodies 10 to each other, thereby generating a strip S generated by the seam 20. Anode device for preventing the plating thickness deviation of the strip to prevent the plating thickness deviation on the surface, and to be aligned side by side to maintain the plating thickness on the surface of the strip (S). delete