KR102378019B1 - A self-aligning coating apparatus - Google Patents

Abstract

The present invention relates to a self-aligned plating apparatus and, more particularly, to a self-aligned plating apparatus comprising: a furnace filled with a plating solution; a sink roll; a stabilizing roll; a collecting roll; and arms for supporting both ends of each of the sink roll, the stabilizing roll, and the collecting roll. The stabilizing roll and the collecting roll are coupled to each other by flow coupling parts to be movable with respect to the arms. The flow coupling parts includes: an open first holder fixed and coupled to the arm; a second holder fastened to both ends of the first holder; and a shaft housing located in the inner space formed by the first holder and the second holder. The first holder has a concave portion in which the shaft housing is accommodated. The second holder is detachably fastened to both open ends of the first holder so that combined cross sections of the first holder and the second holder form a closed curve. The shaft housing has a cylindrical shape, has restraint plates formed at both ends thereof in an axial direction to restrain the first holder and the second holder from both sides, and has a curved portion formed between the restrain plates provided at both ends thereof in the axial direction, having an outwardly curved shape, and having a smaller curvature than the periphery. Therefore, the quality of a plated steel sheet, which is a product, can be increased.

Description

Self-aligning plating equipment {A SELF-ALIGNING COATING APPARATUS}

The present invention relates to a surface plating apparatus for a steel sheet (strip), and more particularly, to a self-aligning type plating apparatus in which rolls are automatically aligned in a furnace by the pressure of the strip.

Coated steel sheet has superior corrosion resistance and appearance compared to steel sheet, so it is used in various technological fields such as home appliances, office equipment, and automobiles. In particular, in the case of hot-dip galvanized steel sheet, the adhesion of zinc is excellent, so it is easy to bond to the surface of household appliances, etc., and when the surface is painted, the adhesion of the coating film is good, and the use is high due to excellent corrosion resistance after painting.

Such a hot-dip galvanized steel sheet can be obtained by passing the steel sheet through a zinc furnace. A conventional hot-dip galvanizing apparatus capable of manufacturing such a hot-dip galvanized steel sheet is disclosed in 'Patent Document 1', and FIG. A partial structural diagram of a galvanizing apparatus, that is, a structure in which a steel sheet is passed through a hot-dip galvanizing furnace to galvanize the surface of the steel sheet is shown.

The conventional hot-dip galvanizing apparatus includes a furnace (1) filled with a hot-dip galvanizing solution, a sink roll (3), a stabilizing roll (5), a collecting roll (7), and an arm (9) welded to both ends of each roll. After the strip (S, a long plate-shaped steel plate as shown in FIG. 1) supplied from the outside of the furnace 1 is changed upward along the circumference of the sink roll 3, the stabilizer The tension is maintained while passing between the easing roll 5 and the collecting roll 7 .

As can be seen from FIG. 2, in this conventional hot-dip galvanizing apparatus, a stabilizing roll 5 and a collecting roll 7 are welded to each arm 9 and used by thermal expansion by a high-temperature plating solution. Replace the stabilizing roll (5) and the collecting roll (7) at regular intervals because the roll alignment is disturbed After replacement, the used stabilizing roll 5 and collecting roll 7 must undergo a regeneration process (a kind of cleaning). Therefore, there is a problem in that it takes a lot of time and money to separate the welding portions of the stabilizing roll 5, the collecting roll 7, and the arm 9 and then re-weld them.

And a bigger problem is that the quality of the hot-dip galvanized steel sheet is deteriorated because the stabilizing roll 5 and the collecting roll 7 are not properly aligned. The quality deterioration problem of such a hot-dip galvanized steel sheet is a problem that occurs because the stabilizing roll 5 or the collecting roll 7 is not in constant contact with the strip.

Even if the stabilizing roll 5 and the collecting roll 7 are aligned at room temperature before entering the furnace 1 filled with the plating solution, the When the stabilizing roll 5 and the collecting roll 7 enter the plating solution of the furnace to maintain the furnace temperature), the alignment is disturbed due to thermal expansion, and the stabilizing roll 5 and the collecting roll 7 are aligned with the intended purpose. It may not be able to maintain it and may be placed at an angle. In this case, as can be seen from FIG. 3, periodic patterns (called 'tremor marks' in the industry) occur on the hot-dip galvanized steel sheet, and these defects greatly degrade the quality of the hot-dip galvanized steel sheet ( For example, if a hot-dip galvanized steel sheet is produced for the purpose of being used as an exterior material for a home appliance, the hot-dip galvanized steel sheet with this bond is discarded).

In addition, when the stabilizing roll 5 and the collecting roll 7 do not maintain the intended alignment, as can be seen in FIG. 4 , the stabilizing roll 5 and the collecting roll 7 are not aligned. Since the surface is worn, there is also a problem in that the cost and time required for replacement or repair of the stabilizing roll 5 and the collecting roll 7 are increased.

KR 10-2014-0066856 A (2014. 6 .3.)

The present invention was derived to solve the above problems, and it is easy to combine and separate from the arm, and the stabilizing roll and the collecting roll are self-aligning type that can maintain the intended alignment state in the furnace filled with the plating solution. An object of the present invention is to provide a plating apparatus.

The present invention for solving the above problems relates to a self-aligning plating apparatus, and more particularly, to a furnace filled with a plating solution; sink roll; stabilizing roll; A plating apparatus comprising a collecting roll and an arm supporting both ends of each of the sink roll, the stabilizing roll, and the collecting roll, wherein the stabilizing roll and the collecting roll are positioned with respect to the arms. It is coupled by a flow coupling part to be movable, and the flow coupling part is an open first holder fixedly coupled to the arm, a second holder coupled to both ends of the first holder, and the first holder and the second holder. It consists of a shaft housing located in an internal space formed by A combined cross section of the first holder and the second holder forms a closed curve, the shaft housing has a cylindrical shape, and restraint plates are formed at both ends in the axial direction to constrain the first holder and the second holder from both sides, , characterized in that a curved portion having a smaller curvature than the periphery is formed outwardly between the restraining plates at both ends in the axial direction.

In the self-aligning plating apparatus according to the present invention, since the stabilizing roll and the collecting roll are automatically aligned by the strip in the furnace by the flow coupling portion, the quality of the resulting plated steel sheet is improved. In particular, there is an effect that the stabilizing roll and the collecting roll can be automatically aligned more smoothly and quickly without being rigid in the furnace because the fluidity of the shaft housing is higher than that of the conventional technology that introduces an elastic body into the shaft housing.

In addition, in the self-aligning plating apparatus according to the present invention, the alignment of the stabilizing roll and the collecting roll can be maintained for a long time, and the replacement cycle of the stabilizing roll and the collecting roll is increased compared to the prior art, so maintenance is easy Do.

1 is a partial structural diagram of a conventional hot-dip galvanizing apparatus;
2 is a photograph of a welding part in which a stabilizing roll or a collecting roll is coupled to an arm;
3 is a photograph of a hot-dip galvanized steel sheet having periodic patterns;
Figure 4 is a photograph of the surface of the stabilizing roll or the collecting roll is worn;
5 is a partial perspective view of a self-aligning plating apparatus according to the present invention;
6 is a perspective view of a flow coupling unit according to the present invention;
7 is a cross-sectional view taken along line AA′ of FIG.
8 is an exploded perspective view of a flow coupling unit according to the present invention;
9 is a perspective view of a shaft housing according to the present invention;
Fig. 10 is a side cross-sectional view of the shaft housing of Fig. 9;
11 is a side cross-sectional view of a flow coupling unit according to another embodiment of the present invention;
12 is a perspective view of a shaft housing according to another embodiment of the present invention;
Fig. 13 is a side cross-sectional view of the shaft housing of Fig. 12;

Hereinafter, a self-aligning plating apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a partial perspective view of the self-aligning plating apparatus according to the present invention. The self-aligning plating apparatus according to the present invention includes a furnace (10) filled with a plating solution, a sink roll (20), a stabilizing roll (30), a collecting roll (40) and a sink roll (20), a stabilizing roll ( 30), the collecting roll 40 is configured to include an arm 50 supporting both ends of each, and the stabilizing roll 30 and the collecting roll 40 flow with respect to the arm 50 so that they can flow. It is coupled by a coupling portion (60).

A structure in which the stabilizing roll 30 and the collecting roll 40 are fluidly coupled to the arm 50 , that is, the specific configuration of the flow coupling part 60 is as follows.

6 is a perspective view of the flow coupling part, FIG. 7 is a cross-sectional view taken along line A-A' of FIG. 6 , and FIG. 8 is an exploded perspective view of the flow coupling part.

The fluid coupling unit 60 includes an open first holder 61 fixedly coupled to the arm 50 , a second holder 62 coupled to both ends of the first holder 61 , and the first holder 61 , 2 It consists of a shaft housing (63) located in the inner space formed by the holder (62).

The first holder 61 is fixed to the arm 50 and is a component capable of accommodating the shaft housing 63, and the end of the arm 50 may be formed in the form of a holder. The cross-sectional shape of the first holder 61 is preferably an alphabet 'J' or 'G' shape as shown in FIG. 7 , because if the first holder 61 has a concave portion, the shaft housing 63 ) is placed in the concave portion and it is easy to engage the second holder 62 .

The second holder 62 is detachably fastened to both ends of the first holder 61 so that the combined cross section of the first holder 61 and the second holder 62 forms a closed curve. In this detachable fastening structure, bolt holes 65 are formed at both ends of the first holder 61 and both ends of the second holder 62 , and both ends of the first holder 61 and the second holder 62 are bolted to each other. It can be implemented by fastening with the nut (66) and the nut (67). In the present invention, since the shaft housing 63 can be separated and coupled between the first holder 61 and the second holder 62 using the bolt 66 and the nut 67, the roll is conventionally welded by welding. Compared to the configuration coupled to the arm 50 , detachment of the roll from the arm is easy.

9 is a perspective view of the shaft housing, and FIG. 10 is a cross-sectional view taken along line B-B′ of FIG. 9 .

The shaft housing 63 is a component supporting the shaft at both ends of the stabilizing roll 30 or the collecting roll 40 so that the stabilizing roll 30 or the collecting roll 40 can rotate freely. The outer shape of the shaft housing is determined to correspond to the first holder 61 and the second holder 62, and in order to increase the stability of the coupling, the outer shape of the shaft housing 63 partially cuts the middle of the cylinder and has a relatively smaller curvature. It is preferable to have the same shape as the one cut into the curved surface. That is, as shown in FIGS. 7 and 9 , both ends in the axial direction of the shaft housing (the upper and lower surfaces of the cylinder) protrude, and the restraining plate 63 constraining the first holder 61 and the second holder 62 from both sides. -1), it is preferable that a curved portion 63-2 having an outwardly curved shape but having a smaller curvature than the periphery is formed between the restraining plates 63-1. The shaft housing 63 of the present invention has a curved surface portion 63-2 formed between the restraining plates 63-1 as described above, so that the alignment of the stabilizing roll 30 or the collecting roll 40 is difficult. Even if the shaft housing 63 is disturbed and comes into contact with the facing surfaces of the first holder 61 and the second holder 62, line contact is made and the contact area can be minimized. High fluidity of the shaft housing 63 can be ensured, and as a result, the stabilizing roll and the collecting roll can be smoothly and quickly automatically aligned by the strip in the furnace. In particular, in the case of a technique for automatically aligning the stabilizing roll and the collecting roll by introducing an elastic body into a part of the shaft housing among the prior art, some degree of fluidity can be imparted to the shaft housing, but the elastic body itself is the shaft housing. It occupies a space between the and the first holder or the second holder, and as a result, the shaft housing is somewhat rigid compared to the present invention, and there is a problem in that fluidity is lowered. However, in the present invention, since there is no elastic body occupying the space between the shaft housing and the first holder or the second holder in the shaft housing, and the curved surface portion is formed, the shaft housing is not rigid and can have higher fluidity. There are advantages.

A shaft accommodating space V into which the shaft end of the stabilizing roll 30 or collecting roll 40 is inserted is formed inside the shaft housing 63, and the bushing 63- is formed in the shaft accommodating space V 3) is inserted so that the stabilizing roll 30 or the collecting roll 40 can rotate easily.

On the opposite side to which the shaft end of the stabilizing roll 30 or the collecting roll 40 of the shaft housing 63 is inserted, the shaft of the stabilizing roll 30 or the collecting roll 40 is prevented from escaping. A stopper 63-4 is formed. However, the stopper 63-4 should not block all of the shaft accommodating space V, because the impurity of the plating solution enters the shaft housing 63, and if there is no passage through which it can escape to the outside, it is stabilized. This is because the life of the roll 30 or the collecting roll 40 is shortened. Therefore, it is preferable that the stopper 63-4 be coupled to be spaced apart from the shaft accommodating space V in a 'C' shape, or to be coupled in a rod shape having a width smaller than the diameter of the shaft accommodating space V.

The shortest distance between the first holder 61 or the second holder 62 and the curved portion 63-2 formed on the shaft housing 63 is preferably 0.5 to 0.8 mm. In general, if the length (4 to 6 m) of the stabilizing roll 30 and the collecting roll 40 used in industry is 0.5 to 0.8 mm at both ends of the stabilizing roll 30 and the collecting roll 40, respectively This is because it is sufficient if it can absorb a certain amount of movement.

11 is a side cross-sectional view of a flow coupling part according to another embodiment of the present invention, FIG. 12 is a perspective view of a shaft housing according to another embodiment of the present invention, and FIG. 13 is a side cross-sectional view of the shaft housing of FIG. will be. According to another embodiment of the present invention shown in FIGS. 11 to 13 , it is characterized in that a plurality of intaglio emboss patterns 64 are formed on the curved surface portion 63-2 of the shaft housing 63 . In another embodiment of the present invention, a plurality of intaglio emboss patterns 64 are formed on the curved portion 63-2 of the shaft housing 63, so that the plating solution flowing around the curved portion 63-2 is applied. By forming a vortex, it is possible to further increase the fluidity of the shaft housing 63 within the flow coupling part 60, whereby the stabilizing roll and the collecting roll are automatically and more quickly and smoothly by the strip in the furnace. It can be aligned, and furthermore, it is possible to significantly reduce the accumulation of impurities formed by mixing the zinc molten solution accommodated in the furnace, aluminum, and other additives necessary for plating on the curved portion 63-2 of the shaft housing 63. This has the advantage of extending the life of the shaft housing.

Furthermore, the present invention further increases the fluidity of the shaft housing 63 so that the stabilizing roll 30 and the collecting roll 40 are more automatically aligned. It may be more preferable that a protrusion (not shown) is formed in one area of the surfaces facing the side portions of the first holder 61 and/or the second holder 62 of (63-1).

The detailed configuration of the self-aligning plating apparatus according to the present invention has been described above, and the operation of the self-aligning plating apparatus according to the present invention will be briefly described below.

When the strip S is supplied while the sink roll 20, the stabilizing roll 30 and the collecting roll 40 are dipped in the plating solution of the furnace 10, the sink roll 20 The direction of progress is upwards. The strip (S) is held taut between the stabilizing roll 30 and the collecting roll 40. If the alignment of the stabilizing roll 30 or the collecting roll 40 is disturbed, the strip (S) ), the roll out of alignment is flowed by the pressure of the strip (S), and the state of excessively pressing the strip (S) is resolved.

In the self-aligning plating apparatus according to the present invention, since the stabilizing roll and the collecting roll are automatically aligned by the strip in the furnace by the flow coupling portion, the quality of the resulting plated steel sheet is improved. In addition, since the alignment of the stabilizing roll and the collecting roll can be maintained for a long period of time, the replacement cycle between the stabilizing roll and the collecting roll is increased compared to the related art, so that maintenance is easy.

10: furnace 20: sink roll
30: stabilizing roll 40: collecting roll
50: arm 60: floating coupling part
61: first holder 62: second holder
63: shaft housing 63-1: restraint plate
63-2: curved part 63-3: bushing
63-4: stopper 64: engraved emboss pattern
65: bolt hole 66: bolt
67: nut

Claims (2)

a furnace 10 filled with plating solution;
sink roll (20);
stabilizing roll 30;
a collecting roll (40) and
In the plating apparatus comprising an arm (50) supporting both ends of each of the sink roll (20), the stabilizing roll (30), and the collecting roll (40),
The stabilizing roll 30 and the collecting roll 40 are coupled to each other by a flow coupling unit 60 to be able to flow with respect to the arm 50,
The floating coupling part 60 includes an open first holder 61 fixedly coupled to the arm 50, a second holder 62 coupled to both ends of the first holder 61, and the first holder ( 61) and a shaft housing 63 located in the inner space formed by the second holder 62,
The first holder 61 has a concave portion in which the shaft housing 63 is accommodated,
The second holder 62 is detachably fastened to both open ends of the first holder 61 so that the combined cross-section of the first holder 61 and the second holder 62 forms a closed curve,
The shaft housing 63 has a cylindrical shape, and at both ends in the axial direction, restraining plates 63-1 for restraining the first holder 61 and the second holder 62 are formed from both sides, and the shaft A curved portion 63-2 having an outwardly curved shape but having a smaller curvature than the periphery is formed between the respective restraining plates 63-1 at both ends in the direction,
The curved portion 63-2 is formed with a plurality of intaglio embossed patterns 64 that form a vortex in the plating solution flowing around it,
Self-aligning plating in which a projection is formed in one of the surfaces facing the side surfaces of the first holder 61 and/or the second holder 62 of the restraining plate 63-1 of the shaft housing 63 Device. delete

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