KR101205033B1 - Apparatus for plating selective width region of rolled coil and the method thereof - Google Patents

Abstract

The present invention relates to a selective plating apparatus for a rolling coil widthwise localized region, the plating liquid storage unit having a slit open in the transverse direction to store the plating liquid therein and partially immerse the rolling coil standing upright in the width direction to traverse ; And a plating liquid outlet intermittent part provided at an outer side of each channel extending from the opened slit to control an external outflow of the plating liquid by using an electromagnetic force. In this way, the plating can be selectively performed only on the plating requesting region where rust prevention is required.

Description

Selective Plating Apparatus for Local Coils in Rolled Coil Width Directions {APPARATUS FOR PLATING SELECTIVE WIDTH REGION OF ROLLED COIL AND THE METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a selective plating apparatus for a rolling coil widthwise localized region, wherein the selective plating for a rolled coil widthwise localized region capable of effectively performing plating on a part that requires a plating treatment, in particular, an automotive part. Description of the device.

In the case of automotive parts to which a plated steel sheet is applied, it is not necessary to perform plating treatment for the entire area of the component, and it is advantageous in terms of cost reduction that the plating treatment is applied only in a limited region where rust prevention is required.

In particular, in the case of automobile doors, a separate plating process is not required for the upper region based on the belt line, and only the lower region based on the belt line causes chipping due to various external factors. Due to this, the coating film may be damaged, and as a result, the corrosion resistance of the steel sheet may be impaired in such a region, and thus it may be considered that the plating film treatment is required.

The necessity for partial application of such a plated film may be equally applicable to a vehicle side outer, and there is a need to solve a problem related to an increase in cost due to a plated film process applied excessively. .

An object of the present invention is to selectively plate only in the rolling coil width direction local area where rust prevention is required during the plating process of the automotive parts, rolling coil width that can solve the problem of increased component manufacturing cost due to unnecessary whole plating A selective plating apparatus for directional local regions is provided.

According to the idea of the present invention, a plating liquid storage unit for storing a plating liquid therein, the plating liquid storage unit having a slit opened in the transverse direction to partially immerse the rolling coil standing upright in the width direction to traverse; And a plating liquid outlet intermittent part provided at an outer side of each channel extending from the opened slit to control an external outflow of the plating liquid using an electromagnetic force. have.

At this time, the plating liquid storage unit, the slit having a width corresponding to the thickness of the rolling coil in the direction in which the rolling coil traverses is preferably formed from a top to a lower predetermined height.

In addition, the plating liquid discharge control unit may be an electromagnetic inducer, and the electromagnetic inductor may leak the plating liquid from each of the channels to prevent the plating liquid stored in the plating liquid storage unit from flowing out through the channel. With respect to the direction to be made, it is possible to adjust the generation of electromagnetic force in the opposite direction.

And it may further include an electromagnetic induction control unit for controlling the on-off (On-off) of the electromagnetic force generated from the electromagnetic inductor and the magnitude, direction of the electromagnetic force.

On the other hand, the present invention stores the plating liquid therein, the plating liquid storage unit having a slit opened in the transverse direction so as to partially immerse the rolling coil standing upright in the width direction to traverse; A plating liquid outflow intermitting part provided at an outer side of the channel extending from the opened slit to control an external outflow of the plating liquid using an electromagnetic force; And an elevating controller configured to adjust the elevating width of the plating liquid to adjust the elevating width of the rolling coil, thereby providing a selective plating apparatus for the rolling coil width direction local region.

In this case, the elevating control unit is provided below the plating liquid storage unit, and receives a real-time elevating control command or a preset elevating control command, and adjusts the plating liquid immersion width of the rolling coil by adjusting the vertical height of the plating liquid storage unit. .

The apparatus may further include an elevating driving controller configured to control on / off control of the elevating operation of the elevating adjusting unit, and a speed and a displacement of the elevating adjusting unit.

According to the selective plating apparatus for the rolling coil width direction local region of the present invention, the rolling coil is vertically erected so that one side of the coil width direction is disposed downward, and then partially immersed in the plating solution to be selectively plated, so as to be required for each automobile part. Partial plating can be performed at a level, which has an advantageous effect of reducing component manufacturing costs due to waste of plating solution.

Further, according to the selective plating apparatus for the rolling coil width direction local region of the present invention, by configuring the plating liquid storage unit to be movable up and down, it is possible to actively cope with the corresponding plating range for each component requiring plating treatment. As a result, there is an advantageous effect to maximize the versatility of the plating apparatus.

1 is a view for schematically explaining a general roll roll-based rolling coil plating apparatus,
2 is a view for schematically illustrating a typical sink roll less (SRL) rolled coil plating apparatus,
3 is a view schematically illustrating a selective plating apparatus for a rolling coil width direction local area according to an embodiment of the present invention;
4 is a planar structure diagram illustrating a selective plating apparatus for a rolling coil width direction local region according to an exemplary embodiment of the present invention.

Hereinafter, the selective plating apparatus for the rolling coil width direction local region which is this invention which concerns on a preferable embodiment of this invention is demonstrated.

Advantages and features of the present invention, and methods of achieving the same will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

.

FIG. 1 is a diagram schematically illustrating a general sink roll based rolling coil plating apparatus. Referring to FIG.

First, referring to FIG. 1, a rolling coil plating apparatus based on a deposition roll will be described. The illustrated rolling coil plating apparatus includes a deposition roll 1 inside a plating liquid storage tank 10 storing a plating liquid P. Referring to FIG. Is made of.

The rolling coil C, which is conveyed in the horizontal direction, is deposited obliquely into the plating liquid storage tank 10 through the inlet-side transfer roll 3, and the transport path is passed through the deposition roll 1 provided in the plating liquid storage tank 10. Bypassing upward, it is drawn out of the plating liquid storage tank 10 through the exit-side transfer roll (5).

Here, the rolling coil (C) on the basis of the immersion roll (1) is made of a rolling coil (C ') plated with a sufficient plating solution. In this manner, the plated film treatment is performed through the entire area of the rolling coil C.

According to this method, however, a dross may be mixed between the deposition roll 1 and the rolling coil C, resulting in deterioration of plating quality or surface defects, and the surface contacting the deposition roll 1. Plating differences between other faces may appear.

FIG. 2 is a diagram schematically illustrating a typical sink roll less (SRL) rolled coil plating apparatus.

Referring to FIG. 2, as one method for solving some problems of the general deposition roll-based rolling coil plating apparatus described above with reference to FIG. 1, a zinc coil plating apparatus using a sink roll less (SRL) method is disclosed. do.

The illustrated SRL rolling coil plating apparatus includes a plating liquid storage tank 20 in which a plating liquid P is stored and a slit 21 is formed on a bottom surface thereof, a channel 22 extending downward from the slit 21, and It comprises a configuration comprising an electromagnetic inductor (24) to provide an electromagnetic buoyancy in the channel (22) to prevent the fall and leakage of the plating liquid (P).

The rolling coil C is transferred upward through the inlet-side supply roll 26 to sequentially pass through the channel 22 and the slit 21 provided at the lower side of the plating liquid storage tank 20 to form a plating liquid ( P) is fed into the stored plating liquid storage tank 20.

At this time, the plating liquid P stored in the plating liquid storage tank 20 does not flow to the outside through the lower slit 21 and the channel 22, which is an electromagnetic inductor 230 provided outside the channel 22. Due to electromagnetic force.

That is, since the electromagnetic force generated in the electromagnetic inductor 230 acts in a direction opposite to gravity, the plating liquid P in the channel 22 is continuously raised to prevent the plating liquid P from falling and spilling.

In the case of this method, unlike the method of FIG. 1, the plating of the plating liquid storage tank 20, without having a separate deposition roll (1 in Fig. 1), the effective plating for the entire area according to the supply of the rolling coil (C) Processing becomes possible. In addition, unlike in the case of Figure 1, due to the plating difference does not occur due to the contact with the deposition roll (1 in Figure 1) it can be expected better plating quality.

However, also in this case of FIG. 2, although the plating process for the whole area | region of the rolling coil C can be enabled, the selective plating about the local area | region aimed by this invention cannot be performed.

Therefore, in the present invention, as in the case of Figure 2, the deposition roll-excluded method, that is, the SRL (sink roll less) method is used, but further it is possible to perform a selective plating on the local region in the width direction of the rolling coil The device was created.

3 is a view schematically illustrating a selective plating apparatus for a rolling coil width direction local area according to an embodiment of the present invention, and FIG. 4 is a rolling coil width direction local area according to an embodiment of the present invention. It is a planar structural diagram shown to illustrate the selective plating apparatus for the.

3 and 4 clearly illustrate only the main features in order to conceptually clearly understand the present invention. As a result, various modifications of the drawings are expected, and the scope of the present invention is limited by the specific shapes shown in the drawings. There is no need to be limited.

Referring to FIGS. 3 and 4 in parallel, the selective plating apparatus for the illustrated rolling coil width direction local region stores the plating liquid P therein and partially immerses the rolling coil C standing upright in the width direction to traverse. A plating liquid storage unit 110 having a slit 112 opened in a transverse direction so as to be provided on the periphery of the channel 114 which extends from the opened slit 112, respectively, and the plating liquid P using an electromagnetic force. It consists of a configuration including a plating liquid outflow intermittent portion 120 to control the outflow of the.

The plating liquid storage unit 110 is formed in a container shape for storing the plating liquid P, stores the plating liquid P therein, and corresponds to the thickness of the rolling coil C in a direction in which the rolling coil C crosses. A slit 112 having a width to be formed is formed from a top of the plating liquid storage unit 110 to a lower predetermined height.

As illustrated, the shape of the plating liquid storage unit 110 may be in the shape of a rectangular parallelepiped container, but this is merely illustrative, and the plating liquid storage unit 110 according to the present invention need not be limited to this specific shape.

Therefore, through various embodiments, it may be made of a cylindrical shape or any other type of container shape.

However, the plating liquid storage unit 110 has to be formed in a form that the lower portion of the width of the rolling coil (C) that is upright in the width direction to traverse from the upper end to a predetermined height, and at the same time, the rolling coil ( When passing through the C), it is preferable to be formed in a form that can be partially immersed in the plating liquid stored in the plating liquid storage unit 110.

To this end, an opposite slit 112 having a width corresponding to the thickness of the rolling coil C may be provided in the lateral direction of the plating liquid storage unit 110, and further, to the outside of the slit 112. A channel 114 may be provided to guide the conveying direction of the rolling coil C extending to enter the plating liquid storage 110.

The plating liquid outlet intermittent part 120 is formed at the periphery of the channel 114 extending from the opened slit 112 of the plating liquid storage unit 110, respectively.

The plating liquid outflow intermittent part 120 prevents external leakage of the plating liquid P stored in the plating liquid storage part 110 to prevent loss of the plating liquid P during the plating process of the rolling coil C. At the same time, the height of the fluid volume of the plating liquid P can be maintained continuously, thereby increasing the plating efficiency.

In particular, according to the present invention, the plating liquid outflow intermittent portion 120 is provided in each channel 114 formed to extend from the slit 112 of the plating storage unit 110, thereby rolling through both side slits 112 Effective plating treatment can be performed on the widthwise local region of the coil C, and the plating liquid P does not flow out even during this plating process, thereby improving the maintenance characteristics of the plating apparatus.

The plating liquid discharge intermittent part 120 may be an electromagnetic inducer, which is to prevent the plating liquid P stored in the plating liquid storage part 110 from flowing out through the channel 114. By generating electromagnetic force in the opposite direction with respect to the direction in which the plating liquid P flows out from each of the channels 114, the loss of the plating liquid P is prevented.

In addition, the plating liquid outflow control unit 120, the on-off control of the electromagnetic force generated from the electromagnetic inductor, and effectively controls the magnitude and direction of the electromagnetic force, the flow rate, density, outflow of the possible plating liquid (P) It may have a form that further includes an electromagnetic induction control unit 154 to actively prevent leakage for the directionality.

On the other hand, the selective plating apparatus for the rolling coil width direction local region according to the present invention, in addition to the above-described configuration of the plating liquid storage unit 110 and the plating liquid outflow intermittent unit 120, the lifting and lowering of the plating liquid storage unit 110 By adjusting, it may have another embodiment further comprising a lifting control unit 130 that can adjust the immersion width of the plating liquid (P) of the rolling coil (C).

The lifting control unit 130 is provided below the plating liquid storage unit 110 and receives a real-time lifting control command or a predetermined lifting control command and adjusts the vertical height of the plating liquid storage unit 110.

In accordance with the height adjustment role of the elevating adjustment unit 130, the plating liquid storage unit 110 is movable up and down, as a result, the plating liquid (P) immersion width of the rolling coil (C) from the lowest level to the maximum level Can be changed and adjusted.

Here, the lowest level refers to a case where the area to be plated in the width direction of the rolling coil C is very small. In contrast, the maximum level refers to a case in which the plating process is possible to the entire width direction area of the rolling coil C. Say.

In an embodiment having the lifting control unit 130, the lifting driving control unit 152 capable of controlling on / off control of the lifting operation of the lifting control unit 130 and the speed and displacement of the lifting control unit 130 is controlled. It is preferable to have a form that further includes.

At this time, the above-described electromagnetic induction control unit 154 and the lift drive control unit 152 is composed of one control unit 150 module, it is preferable to take integrated control management for the plating apparatus of the present invention, in addition, separately By providing the operation panel 140, it may be configured in such a form that the real-time device control of the operator can be possible.

According to the selective plating apparatus for the rolling coil width direction local region of the present invention, the rolling coil is vertically erected so that one side of the coil width direction is disposed downward, and then partially immersed in the plating liquid to selectively perform plating. Reasonable selective plating can be performed for each required level, thereby reducing the cost of manufacturing parts due to waste of plating solution.

In addition, the height of the plating liquid storage part can be adjusted to increase and decrease, so that an area in which the plating process is required can be actively coped with during the plating operation for each component.

In the case of the automobile door, the present invention can effectively process plating only on the belt line lower region without plating the upper region based on the belt line. Also in the case of the plating can be effectively performed in the same manner.

The selective plating apparatus for the rolling coil width direction local area | region of this invention which concerns on this invention was demonstrated above.

It is to be understood that the above-described embodiments are illustrative in all aspects and should not be construed as limiting, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

C: rolling coil
C ′: plated rolling coil
110: plating liquid storage unit
120: plating liquid outflow control part
130: lifting control unit

Claims (12)

A plating liquid storage unit for storing the plating liquid therein and having a slit opened in the transverse direction so as to partially immerse the rolling coil which is erected in the width direction and traversed;
A plating liquid outflow intermitting part provided at an outer side of the channel extending from the opened slit to control an external outflow of the plating liquid using an electromagnetic force; And
The plating apparatus for the rolling coil width direction localized region provided below the plating liquid storage part and including a lifting control part for elevating the plating liquid storage part.
The method of claim 1,
The plating liquid storage unit,
And a slit forming a passage having an upper opening so that the rolling coil traverses is formed from a top to a lower predetermined height so as to selectively roll the rolling coil in a widthwise localized region.
The method of claim 1,
The plating liquid outflow control unit,
An optional plating apparatus for the rolling coil widthwise localized region, characterized in that it is an electromagnetic inducer.
The method of claim 3, wherein
The electromagnetic induction machine,
Rolling coil width direction local region, characterized in that the electromagnetic force in the opposite direction is generated with respect to the direction in which the plating liquid flows out from each of the channels to prevent the plating liquid stored in the plating liquid storage unit from flowing out through the channel. Selective plating device for.
The method of claim 4, wherein
And on-off control of electromagnetic force generated from the electromagnetic inductor, and an electromagnetic induction control unit for controlling the magnitude and direction of the electromagnetic force.
A plating liquid storage unit for storing the plating liquid therein and having a slit opened in the transverse direction so as to partially immerse the rolling coil which is erected in the width direction and traversed;
A plating liquid outflow intermitting part provided at an outer side of the channel extending from the opened slit to control an external outflow of the plating liquid using an electromagnetic force; And
And an elevating controller configured to adjust the elevating width of the plating coil to adjust the elevating width of the plating liquid storage unit.
The method according to claim 6,
The lifting control unit,
Rolling coil width direction is provided on the lower side of the plating liquid storage unit, and receives a real-time lifting control command or a predetermined lifting control command, and adjusts the plating liquid immersion width of the rolling coil by adjusting the vertical height of the plating liquid storage unit. Selective plating device for localized areas.
The method of claim 7, wherein
And an elevating drive control unit configured to control on / off control of the elevating operation of the elevating control unit, and a speed and a displacement of the elevating control unit.
The method according to claim 6,
The plating liquid storage unit,
And a slit forming a passage having an upper opening so that the rolling coil traverses is formed from a top to a lower predetermined height so as to selectively roll the rolling coil in a widthwise localized region.
The method according to claim 6,
The plating liquid outflow control unit,
An optional plating apparatus for the rolling coil widthwise localized region, characterized in that it is an electromagnetic inducer.
The method according to claim 6,
The electromagnetic induction machine,
Rolling coil width direction local region, characterized in that the electromagnetic force in the opposite direction is generated with respect to the direction in which the plating liquid flows out from each of the channels to prevent the plating liquid stored in the plating liquid storage unit from flowing out through the channel. Selective plating device for.
The method of claim 11,
And on-off control of electromagnetic force generated from the electromagnetic inductor, and an electromagnetic induction control unit for controlling the magnitude and direction of the electromagnetic force.

Images