KR100900635B1 - Resin coat roll scattering solution collection device - Google Patents

Abstract

The present invention relates to an apparatus for collecting a solution scattering off a resin coater roll used to resin coat a surface of a steel sheet.

Such a resin coater roll scattering solution collecting device of the present invention, the outer shell formed to have a shape surrounding the upper portion of the resin coater roll, the absorbent cloth disposed between the outer shell and the resin coater roll, disposed between the outer shell and the absorbent cloth And movable magnets installed to be movable along the outer skin and having opposite directions and magnetic poles formed thereon, and rotatable magnets rotatably mounted between the movable magnets and having an N pole and an S pole in opposite directions; A driving motor connected to rotate the rotating magnet, a spring installed to move the moving magnet toward the rotating magnet, and a support for guiding the solution adsorbed by the absorbing cloth toward the drip pan, wherein the absorbing cloth is provided on one side. An end is fixed to the support and the other end is characterized in that the configuration is fixed to the moving magnet.

Coating, solution, scattering, magnet, adsorption, spring

Description

Apparatus for capturing coating liquid scattered from resin coater roll}

The present invention relates to a resin coating roll scattering solution collecting device, to collect the solution scattering from the surface of the resin coating roll when coating the resin solution at high speed to improve the productivity to prevent the steel sheet from being contaminated by the solution A resin coater roll scattering solution collection device.

In general, a resin coated steel sheet is manufactured by coating a coating solution on a Zn-Ni electroplated steel sheet and applying a metallic resin to the upper layer after drying, and is used as a substitute for a conventional Pb-Sn alloy plated steel sheet.

Such a resin coated steel sheet is known as a steel sheet which is excellent in corrosion resistance without containing a lead component and particularly excellent in corrosion resistance after processing.

The steel plate manufacturing process in the installation used to coat | cover resin on the surface of a steel plate is as follows.

After the primary resin solution is applied to the surface of the steel sheet, it is passed through an oven, a water cooling stand and a drying rack, and then the resin solution is applied again while passing through a resin coat roll, followed by drying by indirect heating. Is complete.

Resin coater rolls are usually composed of one set of three coater rolls, this configuration will be described with reference to FIG.

The drip pan 125 is filled with a resin solution, and three coater rolls 130, 140, 150 are disposed on the top of the drip pan 125 to rotate in contact with each other.

In general, the three coater rolls 130, 140 and 150 are installed at positions where the height is sequentially changed so that the lower coater 150 is disposed at the lowest position in the resin solution of the drip pan 125. And the cotter roll 130 disposed at the highest position is installed to contact the surface of the steel sheet (100). In this case, reference numeral 120 in FIGS. 1 to 3 is a backup roll for transferring while supporting the steel plate to be plated.

Therefore, when the steel sheet 100 proceeds, the resin solution is buried on the surface of the coater roll 150 immersed in the resin solution of the drip pan 125, and the resin solution adheres closely to the steel plate 100 through the neighboring coater roll 140. The resin solution may be coated on the surface of the steel sheet 100 by being transferred toward the rotating coater roll 130.

At this time, a resin solution of about 5000 mg / m 2 is applied to the surface of the steel sheet by the rotational speed ratio of the coater rolls and the nip pressure. In the conventional production line, the rotational speed ratio of the coater rolls linked to the line speed is low. The phenomenon that the resin solution on the surface of the rolls was scattered by centrifugal force or the like did not occur.

However, in recent years, the speed of the steel sheet is gradually increasing to improve the productivity. When the speed of the steel sheet increases, the rotational speed ratio of the coater rolls for coating the resin solution on the surface of the steel sheet needs to be high. When the rotation speed of the rolls gradually increases, the resin solution buried on the surface of the coater rolls scatters from the surface of the coater rolls by centrifugal force or the like.

For example, when the advancing speed of the steel sheet rises and the rotation speed of the coater rolls is increased to about 200 to 500 rpm, the resin solution on the surface of the coater rolls is scattered, and the coating quality is poor while splashing on the surface of the steel sheet. In addition, the resin solution was splashed to solidify and adhered to the peripheral facilities for supporting the cotter rolls, so that the cotter roll nip pressure adjustment was not performed or the resin coating amount was uneven.

Therefore, the present invention is to solve the above-mentioned conventional problems, the object is that, when the rotation speed of the coater rolls the resin solution is scattered, the scattered resin solution is collected and returned to the drip pan, especially the scattered resin solution is a steel sheet It is to provide a resin coater roll scattering solution collecting device that can block the splash of the surface to improve the quality of the resin coated steel sheet.

In addition, another object of the present invention is to provide a resin coater roll scattering solution collection device that can prevent the occurrence of abnormalities by preventing the resin solution scattered from the coater rolls splashing on the peripheral equipment or device parts.

As a technical configuration for achieving the above object, the present invention is a device for collecting a solution scattered apart from the resin coater roll used to resin coating the surface of the steel sheet, the shape surrounding the top of the resin coater roll The outer shell is formed to have,
An adsorption cloth disposed between the shell and the resin coater roll;
A movable magnet disposed between the outer shell and the absorbent fabric to be movable along the outer shell, the movable magnets having directions and magnetic poles facing each other;
A rotating magnet rotatably mounted between the movable magnets and having an N pole and an S pole formed in opposite directions;
A drive motor connected to rotate the rotating magnet, a spring installed to move the moving magnet toward the rotating magnet;
It is configured to include a support for guiding to move the solution adsorbed on the adsorption towards the drip pan,
The adsorption cloth provides a resin coater roll scattering solution collecting device is fixed to the support one end and the other end is fixed to the moving magnet.

The sprocket is installed in the rotating magnet and the drive motor, respectively, and these sprockets are connected through a chain.

In addition, the chain is provided with a striker formed a predetermined length apart, the sensor is provided for providing an electrical signal to change the rotational direction of the drive motor by detecting that the striker moves to a predetermined position.

Preferably, the rotor magnet is formed to have a circular cross section, and the movable magnets are formed such that the end of the rotor magnet has an arcuate cross section.
In addition, the support may be formed in a hollow shape so that the solution passes, and the support may be formed to have a shape in which an end portion in which the solution is introduced is opened.

As such, by collecting the resin solution scattering from the surface of the coater rolls installed to coat the resin solution on the steel sheet, it does not splash on the steel sheet and surrounding equipment or device parts, thereby preventing the quality of the steel sheet and preventing the occurrence of abnormalities of the equipment. Has an excellent effect.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view schematically showing a resin coater roll equipped with the apparatus of the present invention, and FIG. 3 is a plan view of FIG.

When the rotation speed of the coater rolls 130, 140, 150 increases, and the resin solution is scattered away from the surface of the coater rolls 130, 140, 150, the scattering occurs at both ends of each of the coater rolls. It is known to occur mainly.

Thus, the device of the present invention is shown to be arranged to adsorb a solution that is scattered at each end of the cotterols, but is not limited thereto, and is installed to adsorb a solution that is scattered over the entire length of the other portions of the coater rolls or the cotterols. Can be.

The apparatus of the present invention has a support (4) fixedly mounted to a frame or drip pan (125) constituting an installation, and the support (4) is respectively disposed at the bottom between coaters. In addition, the support 4 is formed in a hollow shape is configured to function to guide the solution adsorbed in the scattering blocking cover 2 to be described later toward the drip pan (125).

Preferably, the upper end of the support 4 is configured to be easy to receive the solution adsorbed in the scattering blocking cover 2 by having a wide upper portion, the lower end of the support 5 is the drip pan 125 A drain port 8 is formed to guide the solution toward.

In addition, the support 4 is fixed to the scattering blocking cover portion 2 formed to have a shape surrounding the upper portion of the coater roll, respectively, the configuration of the scattering blocking cover portion 2 will be described with reference to FIGS. 4 and 5. do.

Figure 4 is a view showing the device of the present invention in more detail, Figure 5 (a) and (b) is an explanatory view of the operation of the present invention, the scattering blocking cover portion 2, the outer surface of the coater roll A shell 10 having an arc shape that surrounds the upper portion of the coater roll at a predetermined distance from each other, and an inner pole of the outer shell 10, that is, an upper pole of the coater roll in which the N pole and the S pole are rotated in opposite directions. The magnet 22 is rotatably installed, and the rotating magnet 22 has a cylindrical shape in which the rotation center thereof is formed substantially parallel to the rotation center of the coater roll.

In addition, at least one end of the rotating magnet 22 is formed with a sprocket is connected to the chain 24, the chain 24 is engaged with the sprocket rotated by the drive motor 14 is coupled. Therefore, the rotating magnet 22 is rotated by the rotational drive of the drive motor 14, and the rotational direction of the drive motor 14 is installed on the chain 24, and two strikers 25 spaced apart from each other by a predetermined distance. And a sensor 28 which is fixed at a predetermined position and can detect an adjacent striker 25 to generate an electrical signal.

That is, when one of the strikers 25 is detected by the sensor 28, the drive motor 14 rotates in the preset direction, and when the other is sensed by the sensor 28, the drive motor 14 is opposite to the preset direction. The rotational direction of the drive motor 14 is controlled to rotate in the direction.

In addition, the rotating magnets 22 are disposed opposite to each other with the rotating magnets 22 in the center, and have movable magnets 20 and 20a installed to be movable along the sheath 10, and these movable magnets 20 and 20a are provided. The end of the side adjacent to the rotating magnet 22 is processed to have an arc shape.

In addition, each of the moving magnets 20 and 20a is provided with a force to be moved toward the rotor magnets 22 by the spring 16, respectively.

As described above, according to the configurations of the rotating magnets 22, the moving magnets 20, 20a, and the springs 16, the rotating magnets 22 rotate to change the positions of the N poles and the S poles. 20a moves in a direction away from or close to the rotating magnet 22, and the spring 16 moves the moving magnets 20 and 20a away from the rotating magnet 22 toward the rotating magnet 22.

Adsorption cloth 12 is installed between the outer shell 10 and the coater roll, one end of each of the adsorption cloth 12 is fixed to the upper end of the support (4) and the other end is the movable magnet 20 (20a) It is installed to be fixed to each. The adsorption cloth 12 is formed of a material capable of adsorbing a predetermined amount of the resin solution, it is also preferably formed of a material capable of shrinking / expanding to an appropriate degree. Preferably, the absorbent fabric 12 is configured to be maintained at a predetermined distance from the surface of the coater roll, for example, a guide groove (not shown) having a predetermined path is formed in the outer shell 10, and the absorbent fabric 12 Several sliders (not shown) may be formed to move along the guide grooves.

The device of such a configuration can operate as follows (see FIG. 5).

When the rotational speed of the coater rolls 130, 140 and 150 is set fast, the resin solution may be scattered and scattered from the surface of each coater roll. The resin solution thus scattered may be wrapped around the upper edge of the coater roll. It is blocked by the scattering blocking cover portion 2 is installed.

In addition, the scattering resin solution is adsorbed by the adsorption cloth 12, and when a predetermined amount of the resin solution is adsorbed by the adsorption cloth 12, the driving motor 14 is operated, and the rotating magnet 22 is operated by the operation of the driving motor 14. ), The N and S poles of the rotating magnet 22 move the moving magnets 20 and 20a in a direction away from the rotating magnet 22 and again by the elastic restoring force of the spring 16. 20 and 20a are moved in a direction closer to the rotating magnet 22.

That is, the resin solution adsorbed by the movement of the moving magnets 20 and 20a away from the rotating magnet 22 and moving closer to the rotating magnet 22 toward the drip pan 125 through the hollow portion of the support 4. To gather.

When the solution scattered from the cotter roll is blocked, the resin solution does not splash on the steel sheet and the surrounding equipment or device parts, thereby preventing the quality of the steel sheet from being deteriorated and preventing the problem of the equipment from occurring.

1 is a view schematically showing a conventional resin coater facility;

Figure 2 schematically shows a resin coater roll equipment equipped with the device of the present invention;

3 is a top view of FIG. 2;

4 is a schematic structural diagram showing an apparatus of the present invention;

5 (a) and 5 (b) are explanatory diagrams of the operation of the present invention.

※ Explanation of code about main part of drawing ※

4: support 10: sheath

12: adsorption cloth 16: spring

20, 20a: moving magnet 22: rotating magnet

24: Chain 25: Striker

28: sensor 130, 140, 150: cotterol

Claims (6)

Claims [1] An apparatus for collecting a solution scattering off a resin coat roll used to resin coat a surface of a steel sheet, the apparatus comprising: an outer shell 10 formed to have a shape surrounding an upper portion of the resin coat roll; Adsorption cloth 12 disposed between the outer shell 10 and the resin coater roll; Mobile magnets 20 and 20a disposed between the sheath 10 and the adsorption cloth 12 so as to be movable along the sheath 10 and having directions and magnetic poles facing each other; A rotating magnet 22 rotatably mounted between the movable magnets 20 and 20a and having an N pole and an S pole formed in opposite directions; A drive motor 14 connected to rotate the rotor magnet 22; A spring 16 installed to move the movable magnets 20 and 20a toward the rotating magnets 22; And, And a support (4) for guiding the solution adsorbed by the adsorption cloth (12) to move toward the drip pan. The adsorption cloth 12 is a resin coater roll scattering solution collecting device, characterized in that one end is fixed to the support (4) and the other end is fixed to the movable magnet (20) (20a). The method of claim 1, The rotor magnets 22 and the drive motor 14 are sprockets are respectively installed, and the sputter is connected to the resin chain, characterized in that the sprocket is connected via a chain (24). The method of claim 2, The chain 24 is provided with a striker 25 formed a predetermined length apart, to detect the movement of the striker 25 to a predetermined position to provide an electrical signal to change the rotational direction of the drive motor 14 Resin coater roll scattering solution collection device, characterized in that the sensor 28 is installed. The method of claim 1, The rotating magnet 22 is formed to have a circular cross section, the movable magnet (20) (20a) is a resin coater roll scattering solution collecting device, characterized in that the end of the rotating magnet 22 is formed to have an arc-shaped cross section. delete The method of claim 1, The support (4) is formed in a hollow shape so that the solution passes, the support (4) is characterized in that the resin coating roll scattering solution collecting device, characterized in that formed so as to have a shape that is open.

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