KR101988746B1 - Plating apparatus - Google Patents

Abstract

The present invention relates to a plating bath, A rotation support disposed inside the plating vessel and supporting a metal material moving while rotating; And a support roll portion disposed to penetrate the inside of the rotation support portion and rotatably supporting an inner circumferential surface of the rotation support portion via a support bearing portion.

Description

[0001] PLATING APPARATUS [0002]

The present invention relates to a plating apparatus with improved productivity.

It should be noted that the contents described in this section merely provide background information on the present invention and do not constitute the prior art.

1, a steel sheet of a cold-rolled coil is heat-treated in a heating furnace (not shown) while continuously passing through a reel (not shown) and a welder (not shown) And is drawn into the plating bath 21 filled in the plating bath 20 in a state where the temperature is maintained at a suitable temperature.

At this time, a slough 30 is connected between the heating furnace and the plating tank 20. Inside the plating tank 20, a sink roll 40, a collecting roll 50 and a stabilizing roll The metal material S enters the plating bath 21 from the Snart 30 and then passes through the sink roll 40, the collecting roll 50 and the stabilizing roll 60 in sequence. Thereafter, the plating amount is adjusted while passing through the gas wiping means 70 after exiting the plating bath 21.

The sink roll 40 is disposed in a state of being precipitated in a high-temperature plating bath 21 in the plating process, and is rotated at a high speed to vertically switch the conveying direction of the metal material S, It is the main equipment to support the added tension to suppress.

Since the sink roll 40 rotates at a high speed in a state of being settled in the plating port at a high temperature, the mechanical roller bearing 40 rotates at a high speed during long-term use, or mechanical ball bearings (Not shown) must be periodically replaced.

Further, as a large force is applied to the rotating shaft 41 of the sink roll 40, the mechanical abrasion speed of the ball bearing (not shown) supporting the rotating shaft 41 is increased, and the maintenance period of the equipment is shortened, There is a problem that it becomes difficult to maintain and manage facilities.

KR 20-1998-0056538 U

In one aspect, the present invention is to provide a plating apparatus capable of reducing the cost by lengthening the maintenance period and improving the service life of the apparatus.

According to an aspect of the present invention, A rotation support disposed inside the plating vessel and supporting a metal material moving while rotating; And a support roll portion disposed to penetrate the inside of the rotation support portion and rotatably supporting an inner circumferential surface of the rotation support portion via a support bearing portion, wherein at least a part of the support bearing portion is formed by an inner circumferential surface And a release preventing member which is arranged to be inserted in the outer circumferential surface of the support roll portion to prevent the rotation support portion from being displaced in the axial direction of the support roll portion, wherein the support roll portion is disposed A cylindrical support roll body; And a separation preventing groove formed in the outer circumferential surface of the support roll body and disposed in a state in which the separation preventing member is inserted.

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Preferably, the release preventing member may be provided with a bearing member which is mounted to the mounting groove of the rotary support portion and which is disposed so as to be inserted into the outer peripheral surface of the support roll portion.

Preferably, the support bearing portion includes: a spherical first support bearing mounted on an inner circumferential surface of the rotation support portion in a circumferential direction; And a cylindrical second support bearing mounted on the outer circumferential surface of the support roll portion so as to be spaced apart in the circumferential direction.

Preferably, the first support bearing may be a release preventing member inserted in the release preventing groove formed in the outer circumferential surface of the support roll portion to prevent the rotation support portion from being released in the axial direction of the support roll portion.

According to another aspect of the present invention, there is provided a plating apparatus comprising: a plating tank; A rotation support disposed inside the plating vessel and supporting a metal material moving while rotating; And a support roll portion disposed to penetrate the inside of the rotation support portion and rotatably supporting an inner circumferential surface of the rotation support portion via a support bearing portion, wherein at least a part of the support bearing portion is formed by an inner circumferential surface And a release preventing member which is arranged to be inserted in the outer circumferential surface of the support roll portion to prevent the rotation support portion from being displaced in the axial direction of the support roll portion, wherein the rotation support portion is rotatably installed on the support roll portion A cylindrical sleeve body for supporting and supporting a metal material; And a first mounting groove internally formed on an inner circumferential surface of the sleeve main body and on which the release preventing member is mounted.

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The apparatus may further include a gas supply unit that supplies gas to the support roll unit to prevent the plating bath from flowing between the support roll unit and the rotation support unit.

Preferably, the gas supply unit includes: a sensing sensor unit for sensing a height of the bath surface of the plating bath; And a pressure control unit for controlling the pressure of the gas supplied from the gas supply unit to the support roll unit based on the data sensed by the sensing sensor.

Preferably, the support roll portion includes: a gas supply pipe through which gas supplied from the gas supply portion flows; A support roll body in which a flow path through which gas supplied through the gas supply pipe moves is formed in an inner space; And a gas injection hole formed on an outer circumferential surface of the support roll body and through which gas supplied along the flow path is injected.

Preferably, the flow path is formed in the inner space of the support roll body in the direction of the outer circumferential surface, is inclined in the direction of the end of the support roll body, and the gas injection holes are formed in the circumferential direction And may be formed spaced apart.

According to the embodiment of the present invention as described above, the maintenance period is lengthened to reduce the cost and the life of the equipment can be improved.

1 is a front view of a conventional plating apparatus.
2 is a front view of a plating apparatus according to an embodiment of the present invention.
3 is a perspective view illustrating the rotation support portion of the plating apparatus in detail according to an embodiment of the present invention.
FIG. 4 is a perspective view showing a supporting roll part of the plating apparatus according to an embodiment of the present invention in detail.
5 is a perspective view illustrating a state in which a rotation support portion and a support roll portion of a plating apparatus according to an embodiment of the present invention are combined.
6A is a cross-sectional view taken along the AA 'line in FIG.
6B is a sectional view in the direction of BB 'of FIG.
6C is a sectional view in the CC 'direction of FIG.
7 is a view showing a plating apparatus according to another embodiment of the present invention.
Fig. 8A is a plan view of Fig. 7. Fig.
8B is a cross-sectional view in the DD 'direction of FIG. 8A.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a plating apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

2 through 8B, a plating apparatus according to an embodiment of the present invention includes a plating bath 100, a rotation support 200, a support bearing 400, and a support roll 300, And a gas supply unit 500.

2, the plating apparatus of the present invention includes a plating vessel 100, a rotation support unit 200 disposed inside the plating vessel 100 and supporting a metal material S moving while rotating, And a support roll part 300 disposed to penetrate the inside of the rotation support part 200 and rotatably supporting an inner circumferential surface of the rotation support part 200 via a support bearing part 400. [

Referring to FIG. 2, a plating bath 110, which is a metal solution for plating the plating bath 100, may be accommodated.

Referring to FIG. 3, the rotation support part 200 is a hollow cylindrical member, and the movement direction of the metal material S changes as the metal material S moves along the outer peripheral surface of the rotation support part 200 .

Various kinds of metals may be applied to the metal material S to be supported by the plating apparatus of the present invention.

For example, the metal material S to be supported by the plating apparatus of the present invention may be made of a steel material such as steel or stainless steel.

The metal material (S) to be supported by the present invention may be composed of a strip of a thin plate material.

At this time, the metal material S may be a strip which is plated on the surface of the molten metal such as molten zinc passing through the plating vessel 100 and is transported vertically.

Referring to FIG. 4, the support roll part 300 is disposed to penetrate the inside of the rotation support part 200, and rotatably supports the rotation support part 200 through the support bearing part 400.

The support roll part 300 is disposed to penetrate the inside of the rotation support part 200 and is connected to the rotation support part 200 via the support bearing part 400 provided between the support roll part 300 and the rotation support part 200. [ It is possible to rotatably support the inner circumferential surface of the rotor.

5, the length of the support roll part 300 in the axial direction is longer than the axial length of the rotation support part 200, so that the support roll part 300 is supported by the rotation support part 200 Can be rotatably supported.

Referring to FIG. 6A, the inner circumferential surface of the rotary support part 200 and the outer circumferential surface of the support roll part 300 may be disposed opposite to each other with a predetermined gap.

At this time, the support bearing portion 400 may be disposed over at least a half or more of the length between the inner circumferential surface of the opposed rotary support portion 200 and the outer circumferential surface of the support roll portion 300.

More preferably, the support bearing portion 400 may be disposed over a length of at least two-thirds of the length between the inner circumferential surface of the opposed rotary support portion 200 and the outer circumferential surface of the support roll portion 300.

The support bearing portion 400 may have a length of at least a distance between the inner circumferential surface of the opposed rotary support portion 200 and the outer circumferential surface of the support roll portion 300. In this case, 2/3 to 3/4.

In the embodiment where the gas supply unit 500 is installed in the plating apparatus of the present invention, the gas injection holes 313 and the like should be disposed on the outer peripheral surface of the support roll body 310, (312).

5 and 6A, the support bearing part 400 is mounted on at least one of the support roll part 300 and the rotation support part 200, and the support roll part 300 and the rotation support part 200 In the present invention.

The support bearing part 400 may be made of a ceramic material so that it can be used even in a high temperature environment.

The support roll portion 300 is configured to support the inner circumferential surface of the rotary support portion 200 via the support bearing portion 400 so that the tension applied to the rotary support portion 200 by the metal material S is transmitted to the support bearing portion 400, The speed of the abrasion due to the friction of the support bearing part 400 is reduced so that the maintenance period of the equipment can be lengthened and the maintenance cost can be reduced .

The present invention is configured such that the support roll part 300 is configured to support the inner circumferential surface of the rotary support part 200 via the support bearing part 400 so that unlike the conventional plating device in which the frictional force is concentrated on the rotary shaft having a narrow area, , It is possible to improve the quality of the plating of the metal material (S) by reducing the vibration while dispersing the frictional force over a relatively large area.

6A and 6B, at least a part of the support bearing part 400 is arranged to be inserted into the inner circumferential surface of the rotary support part 200 and the outer circumferential surface of the support roll part 300, Preventing member T from being detached in the axial direction of the support roll unit 300. [0050] As shown in FIG.

The release preventing member T is installed in the inner circumferential surface of the rotary support portion 200 and the outer circumferential surface of the support roll portion 300 so that the rotary support portion 200 is released in the axial direction of the support roll portion 300 .

6A and 6B, the release preventing member T includes a bearing member 230 mounted on the first mounting groove 230 of the rotary support portion 200 and arranged to be inserted into the outer peripheral surface of the support roll portion 300, As shown in FIG.

The release preventing member T may be a spherical shape that is disposed in the first attachment groove 230 of the rotation support portion 200 and is inserted into the release prevention groove 330 formed inwardly from the outer circumferential surface of the support roll portion 300 And may be provided with a bearing member.

As another example, a cylindrical bearing member may be applied to the release preventing member T.

However, when a cylindrical bearing member is applied to the release preventing member T, the cylindrical edge may come into contact with the release preventing groove 330, and the possibility of breakage of the equipment may be increased.

Therefore, it is more preferable that the bearing member to be applied to the separation preventing member T is applied with a cylindrical bearing member which can stably contact the separation preventing groove 330.

3 to 5, the support bearing part 400 includes a spherical first support bearing 410 mounted on the inner circumferential surface of the rotation support part 200 in the circumferential direction, And a second support bearing 430 having a cylindrical shape and mounted on the outer circumferential surface of the first support bearing 430 in a circumferential direction.

Referring to FIG. 3, the first support bearing 410 may be rotatably mounted on the first mounting groove 230 formed in the inner circumferential surface of the sleeve body 210 of the rotary support 200.

Referring to FIG. 4, the second support bearing 430 may be rotatably mounted in the second attachment groove 350 formed in the outer peripheral surface of the support roll body 310 of the support roll 300.

The first support bearing 410 is mounted on a central region of the inner circumferential surface of the rotary support 200 and the second support bearing 430 is mounted on the outer circumferential surface of the support roll 300 and does not interfere with the first support bearing 410 The first support bearing 410 can be installed in an area outside the installation area of the first support bearing 410.

5, the first support bearing 410 is disposed in a central region and the second support bearing 430 is disposed in the center region in a state where the rotation support portion 200 and the support roll portion 300 are engaged with each other, A pair of first support bearings 410 may be interposed.

The first support bearing 410 is inserted into the release preventing groove 330 formed in the outer peripheral surface of the support roll part 300 so that the rotation support part 200 is inserted into the support roll part 300 Preventing member T from being detached in the axial direction of the torsion bar.

6A, the release preventing member T may be disposed over the first attachment groove 230 of the rotation support part 200 and the release prevention groove 330 of the support roll part 300. As shown in FIG.

The first support bearing 410 protrudes from the inner circumferential surface of the rotary support 200 at least partially in a state where the first support bearing 410 is mounted on the first attachment groove 230 formed on the inner circumferential surface of the rotary support 200, 300 in the outer circumferential surface thereof.

5, the rotation support part 200 includes a cylindrical sleeve body 210 rotatably installed in the support roll part 300 and contacting and supporting the metal material S, And a first mounting groove 230 which is internally formed at the inner circumferential surface of the main body 210 and on which the release preventing member T is mounted.

The release preventing member T is at least partially protruded from the inner circumferential surface of the sleeve main body 210 in a state of being mounted on the first mounting groove 230 and the protruding portion is protruded from the outer circumferential surface of the support roll portion 300, By being inserted into the groove 330, it is possible to prevent the rotation support part 200 from being displaced in the axial direction of the support roll part 300.

Although not shown, the support rollers 300 may be formed in a split configuration with respect to the center and may be assembled in a state of being inserted through both sides of the rotation support portion 200.

For example, the support roll part 300 may be composed of two split support roll parts 300, and the engagement shaft of the split support roll part 300 of one side may be connected to the engagement groove of the split support roll part 300 of the other side And can be fixed while being screwed.

Of course, it is needless to say that the rotation support part 200 may be a split type member based on the center, and may be assembled in a state of being inserted through both sides of the support roll part 300.

4 and 5, the support roll 300 includes a cylindrical support roll body 310 disposed to extend through the inside of the rotation support portion 200, and a cylindrical support roll body 310 extending from the outer peripheral surface of the support roll body 310 And a release preventing groove 330 in which the release preventing member T is internally formed and in which the release preventing member T is inserted.

The support roll body 310 is disposed to penetrate the inside of the sleeve body 210 and a predetermined gap may be formed between the support roll body 310 and the sleeve body 210.

The cylindrical support roll body 310 may have a large diameter portion having a relatively large diameter as compared with the gas supply pipe 370 serving also as a support for supporting the support roll body 310.

The support roll body 310 may have a release preventing groove 330 disposed on the outer circumferential surface thereof to prevent the release preventing member T from being inserted therein.

At this time, the release preventing member T may be disposed such that one side of the release preventing member T is mounted in the first mounting groove 230 of the sleeve main body 210 and the other side thereof is inserted into the release preventing groove 330.

7 to 8B, a gas supply unit 500 (see FIG. 7) for supplying gas to the support roll unit 300 and preventing the plating bath 110 from flowing between the support roll unit 300 and the rotation support unit 200, ).

If the plating bath 110 is infiltrated between the rotary support part 200 and the support roll part 300, a drawback may occur.

The inflow pressure of the plating bath 110 is applied to the space between the rotary support 200 and the support roll 300 in order to prevent the plating bath 110 from penetrating between the rotary support 200 and the support roll 300, Of the total pressure.

Therefore, the plating apparatus of the present invention can prevent the inflow of the plating bath 110 between the outer circumferential surface of the support roll 300 and the inner circumferential surface of the rotary support 200 by gas injection through the gas injection port formed on the outer circumferential surface of the support roll 300, It is possible to prevent the plating bath 110 from flowing between the support roll part 300 and the rotary support part 200 by forming a pressure equal to or higher than the pressure.

7, the gas supply unit 500 includes a sensing sensor unit 510 for sensing the height of the bath surface of the plating bath 100 and a gas sensor 500 for sensing the height of the bath surface of the plating tank 100, And a pressure control unit 530 for controlling the pressure of the gas supplied to the support roll unit 300.

The height of the bath surface of the plating bath 110 of the plating bath 100 varies from time to time depending on the operating conditions. The inflow pressure of the bath 110 also fluctuates from time to time.

It is therefore necessary to adjust the pressure of the gas supplied from the gas supply part 500 in order to solve problems such as generation of dross when the plating bath 110 penetrates between the rotary support part 200 and the support roll part 300 .

The sensing sensor unit is installed on the upper side of the plating tank 100 to sense the height of the bath surface of the plating tank 100.

The detection sensor unit 510 can transmit data on the measured height of the bath surface of the plating bath 100 to the pressure controller 530 by wire or wire.

The pressure controller 530 controls the pressure of the plating bath 110 between the rotary support 200 and the support roll 300 based on the data of the height of the bath surface of the plating bath 100 sensed by the sensor, .

Next, the pressure of the gas supplied from the gas supply part 500 is controlled by a pressure equal to or higher than the inflow pressure of the calculated plating bath 110, and the gas is supplied to the support roll part 300, It is possible to prevent the plating bath 110 from flowing into the space between the support roll part 300 and the support roll part 300.

8A and 8B, the support roll unit 300 includes a gas supply pipe 370 into which the gas supplied from the gas supply unit 500 flows, and a gas supply pipe 370 in the internal space 311 The support roll body 310 is formed on the outer circumferential surface of the support roll body 310 and the gas supplied along the flow path 312 is injected A gas injection hole 313 may be provided.

Referring to FIG. 7, the gas supply pipe 370 is a portion into which the gas supplied from the gas supply unit 500 flows.

The gas supply pipe 370 is installed at both ends of the support roll body 310 to form a path through which the gas flows into the internal space 311 of the support roll body 310.

The gas supply pipe 370 can also serve to support the support roll body 310 while forming a path through which the gas flows.

The gas supply pipe 370 connected to the gas supply unit 500 may be provided in parallel with the bath surface of the plating bath 210 or may be installed in a vertical direction on the bath surface of the plating bath 210, 100 so that there is no interference with the metal material S moving in the vertical direction.

Referring to FIGS. 8A and 8B, the support roll body 310 may be provided with a flow path 312 as a path through which gas supplied from the gas supply pipe 370 moves.

8A and 8B, the flow path 312 may be formed to be inclined in the direction of the end of the support roll body 310 in the inner space 311 of the support roll body 310.

Referring to FIG. 8B, a flow path 312 inclined in the direction of the end of the support roll body 310 may be disposed in a radial direction.

A plurality of gas injection holes 313 may be formed on the outer circumferential surface of the support roll body 310 so as to be spaced apart in the circumferential direction.

8A, the flow path 312 is formed in the inner space 311 of the support roll body 310 in the direction of the outer circumferential surface, and is inclined in the end direction of the support roll body 310, The holes 313 may be formed at both side end regions of the support roll body 310 in the circumferential direction.

The flow path 312 is formed in the direction of the outer circumferential surface of the support roll body 310 in the inner space 311 associated with the gas supply pipe 370 and formed to be inclined in the end direction of the support roll body 310, It is possible to prevent the plating bath 110 from flowing into the space between the roll part 300 and the rotary support part 200. [

Although the embodiments of the present invention have been described in detail, it is to be understood that the scope of the present invention is not limited to the above embodiments and various changes and modifications may be made without departing from the scope of the present invention. It will be obvious to those of ordinary skill in the art.

20: Plating tank 21: Plating bath
100: plating bath 110: plating bath
200: rotation support part 210: sleeve body
230: first mounting groove 300: supporting roll section
310: Support roll body 311: Inner space
312: flow 313: gas injection hole
330: Disengagement prevention groove 350: Second mounting groove
370: gas supply pipe 400: support bearing part
410: first support bearing 430: second support bearing
500: gas supply unit 510: detection sensor unit
530: Pressure control section S: Metal material
T:

Claims (11)

Plating bath;
A rotation support disposed inside the plating vessel and supporting a metal material moving while rotating; And
And a support roll portion disposed to penetrate the inside of the rotation support portion and rotatably supporting an inner circumferential surface of the rotation support portion via a support bearing portion,
At least a portion of the support bearing portion
And a separation preventing member arranged to be inserted in the inner peripheral surface of the rotary support portion and the outer peripheral surface of the support roll portion to prevent the rotation support portion from being displaced in the axial direction of the support roll portion,
The support roll portion
A cylindrical support roll body disposed through the inside of the rotation support portion; And
And a release preventing groove formed in the outer circumferential surface of the support roll body so as to be in a state in which the release preventing member is inserted.
delete [2] The apparatus according to claim 1,
And a bearing member which is mounted on a mounting groove of the rotary support portion and which is arranged to be inserted into the outer peripheral surface of the support roll portion.
The bearing device according to claim 1,
A spherical first support bearing mounted on an inner circumferential surface of the rotary support portion in a circumferential direction; And
And a cylindrical second support bearing mounted on an outer circumferential surface of the support roll portion so as to be spaced apart in the circumferential direction.
5. The method of claim 4,
Wherein the first support bearing is inserted into a release preventing groove formed in the outer circumferential surface of the support roll portion to prevent the rotation support portion from being displaced in the axial direction of the support roll portion.
Plating bath;
A rotation support disposed inside the plating vessel and supporting a metal material moving while rotating; And
And a support roll portion disposed to penetrate the inside of the rotation support portion and rotatably supporting an inner circumferential surface of the rotation support portion via a support bearing portion,
At least a portion of the support bearing portion
And a separation preventing member arranged to be inserted in the inner peripheral surface of the rotary support portion and the outer peripheral surface of the support roll portion to prevent the rotation support portion from being displaced in the axial direction of the support roll portion,
The rotation support portion
A cylindrical sleeve body rotatably installed on the support roll portion and contacting and supporting a metal material; And
And a first mounting groove formed in the inner circumferential surface of the sleeve main body and on which the release preventing member is mounted.
delete The method according to claim 1,
And a gas supply unit for supplying gas to the support roll unit to prevent the plating bath from flowing between the support roll unit and the rotation support unit.
9. The fuel cell system according to claim 8,
A sensing sensor unit for sensing a height of the bath surface of the plating bath; And
And a pressure control unit for controlling the pressure of the gas supplied from the gas supply unit to the support roll unit based on the data sensed by the sensing sensor.
9. The apparatus of claim 8,
A gas supply pipe through which the gas supplied from the gas supply unit flows;
A support roll body in which a flow path through which gas supplied through the gas supply pipe moves is formed in an inner space; And
And a gas injection hole formed on an outer circumferential surface of the support roll body and through which gas supplied along the flow path is injected.
11. The apparatus according to claim 10,
Wherein the support roll body is formed in an inner space of the support roll body in an outer circumferential direction and is inclined in an end direction of the support roll body,
The gas injection hole
Wherein the support roll body is formed at both side end regions of the support roll body in the circumferential direction.

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