KR20200066450A - Strip coating apparatus - Google Patents

Abstract

Disclosed is a steel strip coating apparatus. According to one embodiment of the present invention, an apparatus for coating a resin solution on the upper and lower surfaces of a plated steel strip comprises: a top coater unit disposed on a main frame to coat the resin solution on the upper surface of the plated steel strip; a bottom coater unit disposed to face the top coater unit to coat the resin solution on the lower surface of the plated steel strip; an elevation unit connected to the lower part of the main frame to elevate the top coater unit; and a forward and backward moving unit connected to the elevation unit to move forward and backward the top coater unit with the elevation unit. The position of the main frame having the top coater unit disposed therein is changed through the elevation unit and the forward and backward moving unit, thereby selectively applying a backload to the lower surface of the plated steel strip.

Description

Steel plate coating device

The present invention relates to a steel sheet coating device, and more particularly, to a steel sheet coating device capable of uniformly coating a coating solution such as a resin solution on the upper and lower surfaces of a plated steel sheet.

Generally, in the electroplating process of plating zinc on a steel sheet (strip) during the steel sheet manufacturing process, as a post-plating treatment according to the characteristics of the product, a resin coating process on the surface of the plated steel sheet, for example, anti-fingerprint resin coating, organic resin coating, metallic resin solution Resin coating process such as resin coating for phosphorus fuel tank is performed.

In order to perform the resin coating operation on the surface of the plated steel sheet, a resin coating operation is performed on the surface of the steel sheet using a coater facility, the resin coated steel sheet coated with the resin solution is dried in an oven, and then water cooled. Cool in. It is known that the coated resin coated steel sheet does not contain a lead component, and has excellent corrosion resistance, and particularly excellent corrosion resistance after processing.

The apparatus for coating the resin solution on the upper and lower surfaces of the plated steel sheet as described above is disclosed in Patent Publication No. 10-2004-0008617.

Referring to the published literature, the top coater device for coating the resin solution on the top surface of the plated steel sheet and the bottom coater device for coating the resin solution on the bottom surface of the plated steel sheet. In addition, a back-up roll and a lift roll for transferring the steel sheet are provided between the top coater device and the bottom coater.

The top coater device and the bottom coater device are each provided with an applicator troll (referred to as a coater roll or a coating roll), a transfer roll, and a pick-up roll sequentially in contact, and a drip pan in which a resin solution is accommodated under the pick-up roll. It is installed. That is, the resin solution is sequentially transferred from the drip pan to the pick-up roll, transfer roll, and applicator troll, and the resin coating solution is coated on the surface of the plated steel sheet in close contact with the applicator troll.

Specifically, the upper surface of the plated steel sheet is coated while passing primarily between the backup roll and the coater roll of the top coater device, and then the plated steel sheet supported as a lift roll is plated while the lower surface contacts the coater roll of the opposite bottom coater device. Resin coating is performed on the upper and lower surfaces of the steel sheet. At this time, 800 to 5000 mg/m 2 of resin solution can be applied to the plated steel sheet by the peripheral speed of the coater roll and the nip (NIP) pressure. When coating the top surface of the plated steel sheet, it is possible to uniformly coat the desired amount of coating by adjusting the main speed ratio and the NIP pressure of the top coater roll with a constant load load of the backup roll. When coating the bottom surface of a plated steel sheet, it is not possible to install a separate device for load loading on the other side of the coater roll because the resin that is not dried is coated on the top surface of the plated steel sheet, so a device that can apply pressure on the resin coated plated steel sheet This is because it cannot be installed. Even if you try to adjust it easily with tension, you have to dry it in the oven after coating the resin. If tension is given too conveniently, it causes cracks in the resin layer and resin peeling occurs. Since the work is performed, in the case of the coating work, there is no facility corresponding to the hunting of the plated steel sheet, and the coating work is performed by the circumferential speed of the bottom coat roll and the NIP pressure under a load loaded by the weight of the plated steel sheet. However, due to frequent dimensional changes due to continuous lines, non-uniform loads cause uneven problems in the amount of resin coating, defective products outside the neck due to poor coating amount, and resin stripes and charting marks due to surface irregularities. There were several problems, such as being generated.

KR Publication No. 10-2004-0008617 (2004.01.31)

In the steel sheet coating apparatus according to an embodiment of the present invention, the position of the top coater equipment and the backup roll, which are not greatly affected by katanari tension, are varied together in the front-rear direction and the vertical direction to selectively apply a white load to the lower surface of the plated steel sheet. It is possible to improve product quality by preventing resin stripe marks due to coating irregularity.

According to an aspect of the present invention, an apparatus for coating a resin solution on the upper and lower surfaces of a plated steel sheet, provided on a main frame, a top coater unit coating a resin solution on the upper surface of the plated steel sheet; A bottom coater unit provided to face the top coater unit and coating a resin solution on the lower surface of the plated steel sheet; An elevating unit connected to a lower portion of the main frame to elevate the top coater unit; And a forward and backward unit connected to the lifting and descending unit to move the top and bottom unit together with the lifting and lowering unit, and the position of the main frame where the top coater unit is provided through the lifting and descending unit. It is possible to provide a steel plate coating device that provides a white load on the lower surface of the plated steel plate by varying it.

In addition, the main frame may be provided with a backup roll that provides a back load when coating a resin solution on the upper surface of the plated steel sheet, and a through hole so that the plated steel sheet passes through the main frame and passes between the backup roll and the top coater unit. have.

In addition, the top coater unit may be provided to be able to move forward and backward on the main frame.

In addition, the elevating unit, the first elevating means for elevating and descending the first platform installed to be able to elevate along the guide member installed on both sides on the sliding plate of the forward and backward unit; And it is installed on the first platform, the second lifting means for lifting and lowering the second platform fixed to the main frame on the first platform; may include.

In addition, first side guides may be provided on both sides of the first platform to be inserted into and supported by the rail grooves formed in the guide member.

In addition, the first lifting means may be provided as a vertical cylinder that is vertically installed on the sliding plate and the vertical rod is connected to the center of the first platform.

In addition, the second lifting means, the stepping motor installed in the lower portion of the first platform; And a stepping shaft connected to the gearbox connected to the stepping motor to which power is transmitted but connected to the lower part of the second platform through the first platform to include a variable height when driving the stepping motor. Can be configured.

In addition, on both sides of the main frame may be provided with a second lifting guide is inserted and supported by the rail groove formed in the guide member to move.

In addition, the front-rear unit, a sliding plate is provided to be movable on a support plate fixed to the bottom frame; First moving means for moving the first moving table which is installed to be able to move back and forth along a guide member installed on both sides of a fixed frame fixed on the floor frame; And second moving means installed on the first moving table and moving the second moving table forward and backward coupled to the sliding plate on the first moving table.

In addition, first sides of the first moving table may be provided with a first moving guide inserted and supported by the rail groove formed in the guide member.

In addition, the first moving means may be provided as a horizontal cylinder that is horizontally installed on the fixed frame and the horizontal rod is connected to the center side of the first moving table.

In addition, the second moving platform, the second moving means installed in the first moving platform is connected, the second moving guide is inserted and supported by the rail groove formed in the guide member is installed on both sides, the other side of the sliding plate It can be combined with.

In addition, the second moving means, a stepping motor installed on one side of the first moving table; And a stepping shaft connected to a gearbox to which power is transmitted in connection with the stepping motor, but connected to one side of the second mobile station through the first mobile station; including minute movement distances when the stepping motor is driven. It can be configured to be variable.

In addition, a lift roll movable in a vertical direction may be provided between the top coater unit and the bottom coater unit.

The steel sheet coating apparatus according to an embodiment of the present invention can freely change the positions of the top coater equipment and the backup roll together, which are not affected by canary tension, in the front-rear direction and the vertical direction, thereby selectively applying a white load to the lower surface of the plated steel sheet. It is possible to prevent the resin streak marks and the like due to coating non-uniformity, thereby improving the product quality.

The present invention will be specifically described by the following drawings, but these drawings represent preferred embodiments of the present invention and should not be construed as limiting the technical idea of the present invention only to the drawings.
1 is a view showing a state in which a steel sheet coating apparatus according to an embodiment of the present invention is provided in a resin coating facility.
2 is a view specifically showing a steel sheet coating apparatus according to an embodiment of the present invention.
Figure 3 is a front view showing the lifting unit provided in the steel sheet coating apparatus according to an embodiment of the present invention.
4 is a side view of FIG. 3.
5 is a view showing the thickening operation state of the plated steel sheet using a steel sheet coating apparatus according to an embodiment of the present invention.
6 is a view showing the state of thinning of the plated steel sheet using a steel sheet coating apparatus according to an embodiment of the present invention.
7 is a view showing an ultra-thin working state of a plated steel sheet using a steel sheet coating apparatus according to an embodiment of the present invention.
8 is a view showing a resin uncoated working state of the steel sheet coating apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are presented to sufficiently convey the spirit of the present invention to those of ordinary skill in the art. The present invention is not limited only to the embodiments presented herein, but may be embodied in other forms. In order to clarify the present invention, the drawings may omit the illustration of parts irrelevant to the description, and the size of components may be exaggerated to help understanding.

1 is a view showing a state in which a steel sheet coating apparatus according to an embodiment of the present invention is provided in a resin coating facility.

Referring to FIG. 1, the steel sheet coating apparatus 10 according to an aspect of the present invention includes a top coater unit 100 for coating a resin solution on a top surface of a plated steel sheet S, and a plated steel sheet S. The bottom coater unit 100' for coating the resin solution on the bottom surface, the lift roll 110 provided between the top corner unit 100 and the bottom coater unit 100', and the top coater unit 100 It includes a lifting unit 300 for moving up and down the main frame 200 to support the forward and backward unit 400 for moving forward and backward of the lifting unit 300.

The top coater unit 100 and the bottom coater unit 100' are disposed symmetrically facing each other. The top coater unit 100 and the bottom coater unit 100' are respectively provided on the outer circumferential surfaces of the pick-up rolls 102, 102', and the pick-up rolls 102, 102' where the drip pans 101, 101' are partially submerged. And transfer rolls 103 and 103' rotating in contact and applicators 104 and 104' rotating in contact with the outer circumferential surfaces of the transfer rolls 103 and 103'. The resin solution accommodated in each drip pan (101, 101') is delivered sequentially along the respective pickup rolls (102, 102'), transfer rolls (103, 103') and applicator (104, 104'). And, the resin solution is transferred to the surface of the plated steel sheet S in close contact with the applicator 104, 104', and the resin solution is coated on the surface of the plated steel sheet S.

In addition, the top coater unit 100 and the bottom coater unit 100' include frames 105 and 105' supporting drip pans 101 and 101', and a cart supporting frames 105 and 105', respectively. 106, 106'). Wheels 107 and 107' are provided on the lower surface of the trucks 106 and 106', and the top coater unit 100 and the bottom coater unit 100' are provided to be movable along the rotational directions of the wheels 107 and 107'. Can be.

Since the top coater unit 100 and the bottom coater unit 100' are generally well-known technologies, detailed descriptions thereof will be omitted.

On the other hand, an unshown reference numeral '120' is a catenary sensor provided between the bottom coater unit 120 and the oven.

The plated steel sheet (S) may be introduced into the oven after the upper and lower surfaces are coated through the top coater unit 100 and the bottom coater unit 100'. According to an aspect of the present invention, a means for generating a white load when coating a resin solution on the upper and lower surfaces of the plated steel sheet S is provided, which will be described in detail.

2 is a view specifically showing a steel sheet coating apparatus according to an embodiment of the present invention, Figure 3 is a front view showing a lifting unit provided in the steel sheet coating apparatus according to an embodiment of the present invention, Figure 4 is a It is a side view of 3.

2 to 3, the main frame 200 is provided under the top coater unit 100 to support the top coater unit 100. The main frame 200 has a backup roll 210 that gives a back load when coating a resin solution on the upper surface of the plated steel sheet S, and the plated steel sheet S passes through the main frame 200 to back up the roll ( 210) and the top coater unit 100, that is, the through-hole 201 may be provided to pass between the backup roll 210 and the applicator 104.

The backup roll 210 is rotatably installed at both ends of the bearing block 212, and the bearing block 212 is supported by a pair of block frames 211 fixed on the main frame 200.

The through hole 201 and the backup roll 210 so as to avoid interference with peripheral parts when the plated steel sheet S passes through the main frame 200 and passes between the backup roll 210 and the applicator 104. It is preferably formed in a position corresponding to between the applicator 104.

The top coater unit 100 provided on the main frame 200 may be moved on the main frame 200. For example, the top coater unit 100 may move forward or backward in the right direction where the backup roll 210 is provided. Thus, the main frame 200 is provided with a wheel limit 202 to limit the movement distance of the top coater unit 100.

On the other hand, when coating the top surface of the plated steel sheet (S), the backup roll 210 disposed on one side of the applicator 104 presses the plated steel sheet (S) under a constant load, so that the resin coating liquid is applied to the top surface of the plated steel sheet (S). It can be coated uniformly. On the other hand, when the resin solution is coated on the lower surface of the plated steel sheet S, the coating amount is controlled only by the weight of the plated steel sheet S, and a separate load-loading device such as the backup roll 210 is not provided. Accordingly, the steel sheet coating apparatus 10 according to an aspect of the present invention moves the positions of the top coater unit 100 and the backup roll 210 provided in the main frame 200 as a whole, so that it is through the bottom coater unit 100'. When coating the lower surface of the plated steel sheet S, a white load can be applied. At this time, even if the thickness of the plated steel sheet S is thin, the coating on the lower surface of the plated steel sheet S is made smooth and uniform.

For example, the position of the main frame 200 may be selectively varied according to the thickness of the plated steel sheet S. The thickness of the plated steel sheet (S) is divided into 0.4 ~ 0.59t, 0.6 ~ 0.79t, 0.8 ~ 1.19t, 1.2 ~ 2.0t as follows, and the top coater provided in the mainframe 200 corresponding to each range The location of the unit 100 and the backup roll 210 can be entirely shifted. The thinner the plated steel sheet S, the less the height of the main frame 200, thereby giving a load load between the steel sheets, thereby making the contact between the bottom surface of the bottom applicator 104' and the plated steel sheet S constant, and accordingly the plated steel sheet (S) The coating is to be made stably.

On the other hand, if the thickness of the plated steel sheet (S) is 0.4 to 0.59t, it is called an ultra-thin, and if it is 0.6t to 0.79t, it is called a thin, and if it is 0.8 to 1.19t, it is called a heavy, and if it is 1.2 to 2.0t, it is a thick It is called.

The elevating unit 300 is connected to the lower portion of the main frame 200 to elevate the top coater unit 100. Accordingly, the top coater unit 100 and the backup roll 210 provided on the main frame 200 may be moved together when the main frame 200 is elevated or lowered through the elevating unit 300.

More specifically, the elevating and descending unit 300 is provided to elevate the first elevating platform 312 installed to be elevating along the guide member 301 installed on both sides on the sliding plate 450 of the forward and backward unit 400. The first lifting means 310 and the second lifting means 320 which is installed on the first lifting platform 312 and moves the main frame 200 and the fixed second lifting platform 324 on the first lifting platform 312. ).

The first lifting platform 312 is inserted and supported by the rail groove portion 303 formed in the guide member 301 vertically fixed to have a predetermined thickness on both sides of the sliding plate 450 to move first lifting guide 313 Are installed on both sides.

In addition, the first hoisting means 310 associated with the first hoist 312 is vertically installed on the sliding plate 450, and a vertical cylinder connected to the vertical rod 311 on the central side of the first hoist 312. It can be provided as.

Therefore, as the vertical rod 311 of the first lifting means 310, which is a vertical cylinder, moves up or down according to the operation of the cylinder, the first lifting guides 313 of both sides have a guide member 301. In the state of being inserted and supported in the rail groove portion 303 of the rise or fall.

At this time, since the vertical cylinder of the first lifting means 310 needs to move the top coater unit 100, the main cylinder 200, and the backup roll 210, it is preferable to use a hydraulic cylinder with high power.

On the other hand, the lifting of the first platform 312 by the first lifting means 310 is for a large increase and decrease, and the fine height adjustment is performed by the following second lifting means 320 and the second lifting platform 324. Can be implemented.

The second platform 324 is connected to the second platform 320 installed in the first platform 312, and the main frame 200 is seated on the upper portion and fixed. Accordingly, when the second lifting platform 324 is elevated by the second lifting means 320, the second lifting guides 203 formed on both sides of the main frame 200 are provided to the rail groove part 303 formed on the guide member 301. It is inserted and supported so that it can be stably moved.

The second lifting means 320 is connected to the stepping motor 321 and the stepping motor 321 installed in the lower portion of the first platform 312, and is connected to the gearbox 322 through which power is transmitted. It includes a stepping shaft 323 which penetrates through the 1 platform 312 and is connected to the lower part of the 2nd platform 324.

In addition, the stepping motor 321 is mounted together with the gear box 322 by a fixing plate 325 bent at the lower portion of the first platform 312, the upper locking end 323a of the stepping shaft 323 It is fixed by a bracket 326 that is bolted to the bottom of the second platform 324.

Therefore, when the stepping motor 321 is driven, the second platform 324 is finely adjusted according to the rise or fall of the stepping shaft 323 vertically connected through the gear box 322. That is, the height can be finely adjusted at the pitch interval of the spiral groove formed in the stepping shaft 323.

As described above, the fine height adjustment is performed so that the coating is stably made on the lower surface of the plated steel sheet S while being finely adjusted according to the thickness of the plated steel sheet S.

The lifting unit 300 as described above may be provided in plural on the sliding plate 450, and the plurality of lifting units 300 may be controlled to be driven together by a control unit (not shown).

The forward and backward units 400 are connected to the elevation units 300 and serve to move the elevation units 300 in the forward and backward directions. That is, when moving the elevating unit 300 fixed on the sliding plate 450 through the forward and backward unit 400, on the main frame 200 and the main frame 200 connected to the elevating unit 300. It is possible to move the provided top coater unit 100 and the backup roll 210 together. The forward and backward unit 400 may be provided on the floor frame 430, and the sliding plate 450 is provided to be movable on the support plate 440 fixed to the floor frame 430.

More specifically, the front-rear unit 400 is a first that is installed to be able to move forward and backward along the sliding plate 450 on which the elevating unit 300 is installed and the guide member 401 installed on both sides of the fixed frame 460. The second moving table 424 is installed on the first moving means 410 and the first moving table 412 for moving the moving table 412, and is coupled to the sliding plate 450 on the first moving table 412. It may include a second moving means 420 to move forward and backward.

The first moving table 412 is inserted and supported by a rail groove (not shown) formed in two guide members 401 horizontally installed on a fixed frame 460 fixed to the other side of the bottom frame 430 to move. Guides (not shown) may be installed on both sides. In addition, the first moving means 410 associated with the first moving table 412 is horizontally installed on the fixed frame 460, and a horizontal rod (not shown) is connected to the central side of the first moving table 412. It can be provided as a horizontal cylinder. Accordingly, according to the operation of the first moving means 410, which is a horizontal cylinder, the first moving table 412 moves forward or backward in the longitudinal direction of the guide member 401.

The second movable platform 424 is connected to the second movable means 420 installed on the first movable platform 412, and is moved by being inserted into and supported by a rail groove (not shown) formed in the guide member 401. Guides (not shown) are installed on both sides, and the other side can be combined with the sliding plate 450.

In addition, the second moving means 420 is connected to the stepping motor 421 and the stepping motor 421 installed on one side of the first moving table 412, and is connected to a gearbox 422 through which power is transmitted. And a stepping shaft 423 penetrating through the first movable platform 412 and connected to one side of the second movable platform 424.

In addition, the stepping motor 421 is mounted together with the gear box 422 by a fixed fixture (not shown) of the first moving platform 412, and the upper end of the stepping shaft 423 is second. It is fixed by a bracket 426 that is bolted to the mobile table 424.

Accordingly, when the stepping motor 421 is driven, the second moving table 424 is finely adjusted according to the forward or backward movement of the stepping shaft 423 horizontally connected through the gearbox 422. That is, the moving distance can be finely adjusted at the pitch interval of the spiral groove formed in the stepping shaft 423.

The structures of the first moving means 410 and the second moving means 420 of the forward-backward moving unit 400 as described above are the first lifting means 310 and the second lifting means of the elevating unit 300 described above. It may be formed to have the same structure as 320. That is, the elevation unit 300 may be understood to be provided in the horizontal direction, compared to the vertical direction provided in the vertical direction.

On the other hand, when the second movable platform 424 is moved together with the sliding plate 450, the front and rear of the support plate 440 are moved by the stopper 442 protruding upward. You can limit the distance.

Then, the state of operation according to the thickness of the plated steel sheet S when processing the resin coating operation on the surface of the plated steel sheet S through the steel sheet coating apparatus 10 as described above will be described.

First, Figure 5 is a view showing the thickening operation state of the plated steel sheet using a steel sheet coating apparatus according to an embodiment of the present invention.

Referring to FIG. 5, when performing a resin coating process on the surface of the plated steel sheet S having a thickness of 1.2 to 2.0t, the top coater unit 100 is up through the elevating and descending unit 300, and before and after. Reverse through the unit 400. That is, the upper and lower coater units 100 and backup rolls 210 provided on the main frame 200 are vertically lifted, and the sliding plate 450 is retracted by moving the sliding plate 450 through the forward and backward units 400. ) And the main frame 200 connected to the reverse. Along with this, the lift roll 110 is up.

As described above, while the steel sheet coating apparatus 10 is operated, the plated steel sheet S is in contact with the bottom applicator 104' of the bottom coater unit 100', and resin coating proceeds. That is, the top surface of the plated steel sheet S can be provided with a constant load load by the backup roll 210, and the bottom surface of the plated steel sheet S is provided with a back load according to the movement of the position of the main frame 200. The resin solution may be coated.

Next, FIG. 6 is a view showing the state of thinning of a plated steel sheet using a steel sheet coating apparatus according to an embodiment of the present invention.

Referring to Figure 6, when performing a resin coating process on the surface of the plated steel sheet (S) having a thickness of 0.6t ~ 0.79t, the main frame 200 through the elevating unit 300 and the forward and backward unit 400 The down and forward positions are adjusted, and the lift roll 110 is brought down. According to this operation, many back loads are applied to the rear surface of the plated steel sheet S, so that it is possible to perform the coating operation of the resin solution constantly.

Subsequently, FIG. 7 is a view showing an ultra-thin working state of a plated steel sheet using a steel sheet coating apparatus according to an embodiment of the present invention.

Referring to FIG. 7, when performing a resin coating process on the surface of the plated steel sheet S having a thickness of 0.4 to 0.59 t, the main frame 200 is pulled through the elevating and descending unit 300 and the forward and backward unit 400. (full) down and full forward positions are adjusted, and the lift roll 100 is brought down. According to this operation, many back loads are applied to the rear surface of the plated steel sheet S, so that it is possible to perform the coating operation of the resin solution constantly.

That is, according to the thickness of the plated steel sheet (S) as described above by operating the elevating unit 300 and the forward and backward unit 400, the top coater unit 100 and the backup roll 210 provided on the main frame 200 By adjusting the position together, it is possible to smoothly proceed with resin coating on the back of the plated steel sheet (S).

On the other hand, Figure 8 is a view showing a resin uncoated working state of the steel sheet coating apparatus according to an embodiment of the present invention.

8 shows a case where the replacement of the applicators 104 and 104' of the top coater unit 100 and the bottom coater unit 100' is necessary. That is, the main frame 200 is full reversing through the forward and backward unit 400, and the lift roll 110 is full up. At this time, the top coater unit 100 is reversed on the main frame 200, and the bottom coater unit 100' is positioned with the bottom frame 105' downward. Accordingly, the top coater unit 100 and the applicators 104 and 104' of the bottom coater unit 100' may be replaced without being interfered with by peripheral parts. Although not shown, the bottom coater unit 100' is moved in the width direction of the plated steel sheet S, and then the applicator 104' is replaced.

The top coater unit 100 and the backup roll 210 and the main frame through the elevating and descending unit 300 and the forward and backward unit 400 according to the thickness of the plated steel sheet S through the steel plate coating device 10 as described above. (200) By adjusting the position together, it is possible to perform a uniform coating operation by applying a load load to the lower surface of the plated steel sheet S.

As described above, although the present invention has been described by a limited number of embodiments and drawings, the present invention is not limited by this, and the technical idea of the present invention and the following will be described by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the equivalent scope of the claims to be described.

10: steel plate coating device 100: top coater unit
100': Bottom coater unit 200: Main frame
210: backup roll 300: lifting unit
310: first lifting means 320: second lifting means
400: forward and backward unit 410: first moving means
420: second moving means 450: sliding plate

Claims (14)

Apparatus for coating resin solution on upper and lower surfaces of plated steel sheet,
A top coater unit provided on the main frame to coat a resin solution on the top surface of the plated steel sheet;
A bottom coater unit provided to face the top coater unit and coating a resin solution on the lower surface of the plated steel sheet;
An elevating unit connected to a lower portion of the main frame to elevate the top coater unit; And
Includes a forward and backward unit connected to the lifting unit to move the top and bottom unit together with the lifting unit;
A steel plate coating device that selectively applies a back load to the lower surface of a plated steel sheet by varying the position of the main frame provided with the top coater unit through the elevating unit and the forward/reverse unit. According to claim 1,
The main frame has a back-up roll that provides a back load when coating a resin solution on the top surface of a plated steel sheet, and a steel plate coating device in which a through hole is provided so that the plated steel sheet passes through the main frame and passes between the backup roll and the top coater unit. . According to claim 1,
The top coater unit is a steel plate coating device provided to be able to move back and forth on the main frame. According to claim 1,
The elevating unit,
A first elevating means for elevating and descending a first platform which is installed to be able to elevate along a guide member installed on both sides of the sliding plate of the forward and backward unit; And
A steel plate coating device comprising; a second lifting means installed on the first platform, and lifting and lowering a second platform fixed to the main frame on the first platform. The method of claim 4,
A steel plate coating device on which both sides of the first hoisting platform are provided with a first hoisting guide inserted and supported in a rail groove formed in the guide member. The method of claim 4,
The first lifting means is vertically installed on the sliding plate and the steel plate coating device provided as a vertical cylinder to which a vertical rod is connected to the center side of the first lifting platform. The method of claim 4,
The second lifting means,
A stepping motor installed under the first platform; And
Including a stepping shaft connected to the stepping motor and connected to a gearbox to which power is transmitted but connected to the lower part of the second platform through the first platform; Steel plate coating device. The method of claim 4,
A steel plate coating device having second lifting guides inserted and supported on rail grooves formed in the guide member on both sides of the main frame. According to claim 1,
The forward and backward unit,
A sliding plate movably provided on a support plate fixed to the floor frame;
First moving means for moving a first moving table which is installed to be able to move back and forth along a guide member installed on both sides of a fixed frame fixed on the floor frame; And
A steel plate coating apparatus comprising; a second moving means installed on the first moving table and moving the second moving table forward and backward coupled to the sliding plate on the first moving table. The method of claim 9,
A steel plate coating device provided with first moving guides inserted and supported on rail grooves formed in the guide member on both sides of the first moving table. The method of claim 9,
The first moving means is horizontally installed on the fixed frame and provided with a horizontal cylinder to which a horizontal rod is connected to the center side of the first moving platform. The method of claim 9,
In the second movable platform, a second movable means installed in the first movable platform is connected, and a second movable guide inserted and supported by the rail groove formed in the guide member is installed on both sides and coupled to the sliding plate on the other side. Steel plate coating device. The method of claim 9,
The second moving means,
A stepping motor installed on one side of the first mobile station; And
Including a stepping shaft connected to the stepping motor and connected to a gearbox to which power is transmitted but connected to one side of the second moving platform through the first moving table; Steel plate coating device that is configured to be. According to claim 1,
A steel plate coating device provided with a lift roll movable in a vertical direction between the top coater unit and the bottom coater unit.

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