KR101533212B1 - Dam levels Maintenance equipment of snout - Google Patents

Abstract

The present invention relates to a snout used in a molten zinc plating process and, more specifically, to dam level maintenance equipment for a snout, which enables an upper surface of a dam not to float from of a bath surface of a plating bath when adjusting a tilt angle of a snout in accordance with change of a tilt angle of a strip. According to the present invention, a hinge axis of a conventional snout can be horizontally transferred to a direction of a withdrawn roller. The present invention provides dam level maintenance equipment for a snout, which comprises: a snout (A) installed to surround an outer surface of a strip (a); a hinge axis (A1) provided on a upper portion of an outer surface of the snout (A); a flexible duct (A3) provided on an upper portion of the hinge axis (A1); a dam (A4) installed in the inside of an exit of the snout (A); an intake pipe (A5) installed between the dam (A4) and a wall of the exit of the snout (A); a lifting device (A2) installed in a lower portion of an outer surface of the snout (A); and a transfer device (10) installed in the hinge axis (A1).

Description

[0001] Dam level maintenance equipment of snout [0002]

The present invention relates to a Snooth used in a hot dip galvanizing process, and more particularly, to a method of adjusting the inclination angle of a Snooth in accordance with a change in the inclination angle of a strip, in which the upper surface of the dam floats from the bath surface of the plating bath, The dam level maintaining device of Snooth.

Generally, in the hot dip galvanizing process, the strip is rolled in a coiled state, and then the cold rolled strip is heat treated in a heating furnace to form a strip having excellent moldability and plating adhesion, Zinc is plated and high pressure air is injected in the air jetting device so that the molten zinc on the surface of the strip is coagulated so as to be uniformly galvanized, and then the plated strip is cooled and tempered.

The Snooth is installed between the heating furnace and the plating tank during the hot dip galvanizing process described above and safely draws the strip coming out of the heating furnace to the plating bath while the temperature of the strip located at the open area between the heating furnace and the plating bath It prevents the strip from being exposed to the atmosphere while maintaining the same pressure and temperature as the heating furnace in order to prevent it from lowering.

1 and 2 show conventional drawings. Referring to FIG. 1, a conventional Snout A is installed between a drawing roller B1 and a drawing roller B2, The outlet of the snout A is submerged in the plating vessel B. The snout A has a hinge axis A1 at an intermediate upper portion of the body, And a stretch duct A3 which is movable at a predetermined distance from the inlet of the snout A is provided at an upper portion of the hinge axis A2.

2 (a), a dam A4 having a rectangular height is installed along the drawing frame of the strip a in the outlet of the snout A, and the upper surface c of the dam Is provided with a suction pipe (A5) which is located at a predetermined interval lower than the bath surface (c) of the plating bath (B) and is located between the dam (A4) and the wall of the outlet, .

The float material removing device described above circulates the plating material below the plating bath surface to the inside of the dam and discharges the plating material inside the dam back to the outside of the outlet so that zinc dust or zinc impurities So that the floating material does not adhere to the strip.

Referring to Figs. 1 and 2 (b), the draw-out rollers installed at the outlet of Snooth are submerged in a plating bath in which hot zinc-plated material is stored, and the draw- The pressure is applied. Therefore, when the hot-dip galvanizing is operated for a long time, the take-up roller wears the shaft and the bearing mounted inside the take-out roller due to the temperature of the plating bath and the take-out pressure, so that the strip gradually moves toward the front of the Snart. Here, since the distance between the drawing roller and the drawing roller is considerably distant, even if the strip is slightly moved forward, the tilting angle to be turned is considerably different. This severely causes the strip to become eccentric in the inner center of the snout, as well as being closed to the dam front wall. At this time, the snout normally operates the lift device at the lower part of the body, and lifts the exit of the snout from the center of the hinge axis to center it.

However, as shown in FIG. 2 (c), when the outlet of the Snart is lifted, the distance between the hinge axis of the Snart and the lower end is considerably distant, It comes to mind. In this case, since the plating material is stagnated inside the dam and the floating material is deposited on the strip, it causes defects and also disables the floating material removing device.

Japanese Patent Application Laid-Open No. 10-1008100, Japanese Patent Application Laid-Open No. 10-2014-008575.

The object of the present invention is to solve the problem of preventing the top surface of the dam from rising from the bath surface of the plating bath when adjusting the inclination angle of the Snooth in accordance with the change of the inclination angle of the strip as in the prior art.

As a means for solving the above problems, the present invention aims to achieve the above object by constituting the hinge axis of a conventional Snooth so as to be horizontally fed in the direction of a drawing roller.

Alternatively, the above-described object may be achieved by deleting the lift device of the conventional Snooth, constructing a hinge shaft in place thereof, and then horizontally moving the upper and lower hinge shafts in the direction of the take-out roller.

According to the above means, when adjusting the inclination angle of the slant in accordance with the change of the inclination angle of the strip, if the exit of the slant is lifted by the landing gear, and then the hinge axis of the slant is horizontally conveyed in the direction of the drawing roller, The upper surface of the dam can be made to coincide with the bath surface of the plating bath.

Alternatively, if the upper and lower hinge shafts are simultaneously horizontally moved in the direction of the drawing roller, the upper surface of the dam is horizontally moved along the bath surface of the plating bath as it is, and the upper surface of the dam is moved from the bath surface of the plating bath It does not change.

Therefore, when the inclination angle of the slant is adjusted in accordance with the change of the inclination angle of the strip, the upper surface of the dam is prevented from flooding from the bath surface of the plating bath. Thus, as the upper surface of the dam floats from the bath surface of the plating bath, There is an effect that it is possible to prevent the removal device from being rendered inoperable or the floating matter to be buried on the strip to cause defects.

1 shows an example of a conventional Snart structure
Figure 2 is an operational view of Figure 2;
3 is an exemplary view showing a dam level maintaining apparatus of Snooth according to the present invention.
Figure 4 is an operational view of Figure 3;
Figure 5 is a detailed view of the transfer device of Figure 2;
Figure 6 is another example of Figure 3
Figure 7 is an operational view of Figure 6;

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. It is to be noted, however, that the appended drawings are exaggerated and may be exaggerated, omitted, or schematically illustrated for convenience of explanation. The terms and names used in the following description are not limited to the dictionary meaning, but can be defined implicitly by the shape, function, and role of the structure. In the following description of the present invention with reference to the drawings, the description of the position will be made based on the drawings unless otherwise specified. And specific descriptions of well-known and commonly-used technologies may be omitted to avoid obscuring the subject matter of the present invention and replaced with omissions or simple codes or names.

1 and 2, the present invention is directed to a conventional Snooth (A), and a conventional Snooth (A) has at least a draw roller (B1) of a plating tank (B) and a draw roller And the outlet of the drawing roller B2 and the slouch A are submerged in the plating bath B and the slouch A is disposed in the middle of the body a, A hinge axis A1 is provided at an upper portion of the body and an elevator A2 is installed at a lower portion of the body to lift the outlet of the snout A. A snout A is provided on the upper portion of the hinge axis A1, A dam A4 having a rectangular height is installed along the outgoing rim of the strip inside the outlet, and the upper surface of the dam A4 is connected to the plating vessel B), and the plating material is placed between the dam A4 and the wall of the outlet by a pump to the outside The suction pipe (A5) is provided apparatus for removing suspended matter that can was composed.

As shown in FIG. 3, the dam level holding device of Snooth according to the present invention is provided with a transfer device 10 capable of horizontally moving the hinge axis A1 of the snout A forward.
Therefore, the overall configuration of the Snooth dam level holding apparatus according to the present invention is provided so as to enclose the outer surface of the strip a which is inclined between the drawing roller B 1 and the drawing roller B 2 of the plating tank B , The outlet is a Snout (A) installed so as to be immersed in the plating bath (B); A hinge axis A1 provided on the outer surface of the snout A; A stretch duct A3 provided at an upper portion of the hinge axis A1 and capable of moving the hinge axis A1 and the lower portion of the snout A from an inlet of the snout A; A dam A4 installed inside the outlet of the snout A and installed so as to have a rectangular height from the outlet along the drawing frame of the strip a and having an upper surface parallel to the bath surface of the plating vessel B; A suction pipe A5 is installed between the dam A4 and the wall of the outlet of the snout A and sucks the plating material of the plating bath B drawn into between the dam A4 and the wall of the outlet of the snout A, ; The slope angle of the strip a between the drawing roller B1 and the drawing roller B2 is changed by abrasion of the bearing of the drawing roller B2 so that the strip a is inserted into the dam A2 that can rotate the exit of the snout A about the hinge axis A1 and lift it up to position the strip a in the middle of the dam A4 when the tip of the snare A approaches the tip of the dam A4 ); The hinge axis A1 is provided so as to horizontally feed the hinge axis A1 forward and the elevation device A2 rotates the outlet from the hinge axis A1 so that the bath surface of the plating bath B A transfer device 10 capable of adjusting the upper surface of the dam A4 in parallel with the bath surface of the plating bath B by lowering the outlet by forwarding the upper surface of the dam A4 that is inclined from the lower surface of the dam A4; .

As shown in FIG. 4, the Snooth A of the present invention, to which the above-described conveying device 10 is attached from the conventional Snooth A, The lifting device A2 is operated around the hinge axis A1 as shown in FIG. 4 (c) so that the outlet of the Snout A is moved toward the take- When the hinge axis A1 of the snout A is horizontally moved forward again as shown in FIG. 4 (d), the exit raised by the elevating device A2 is lowered again, so that the dam A4 Can be lowered to coincide with the bath surface (b) of the plating bath (B) or below the bath surface.

Therefore, in the present invention including the transfer device 10, when the inclination angle of the slant A is adjusted in accordance with the change of the inclination angle of the strip, the upper surface of the dam A4 is not floated from the bath surface of the plating bath B Therefore, there is an effect that the floating material of the plating bath B does not adhere to the strip or the floating material removal means is not neutralized as in the prior art.

5, the conveying apparatus 10 according to the present invention includes a bearing unit 11 mounted on a hinge axis A1, a fixed frame 12 mounted on a lower portion of the bearing unit 11, A guide rail 13 is mounted on the upper surface of the fixed frame 12 so that the bearing unit 11 can slide horizontally from the fixed frame 12 and a slide block 14 is mounted on the bottom surface of the bearing unit 11 and a speed reducer 16 including a ball screw 15 is provided at one end of the fixed frame 12 and the ball screw 15 of the reducer 16 is mounted on the bearing Unit 11 and the speed reducer 16 is provided with a handle 17 or a drive motor for rotating the ball screw 15. [

The driving unit may include the above-described outside cylinder, motor, or handle. The driving unit may include the above-described outside cylinder, the motor, or the handle. Gears, chains, and belts.

The conveying device 10 can easily transfer the hinge axis A1 of the snout A forward and also has an effect of smoothly implementing the operation.

6, as another embodiment of the present invention, the lifting device A2 installed on the Snooth A is removed, and a towing bracket is mounted on the lifting device A2. Then, It is also possible to configure the above-described transfer device 10 on the hinge axis A11.
Therefore, the overall configuration of the Snooth dam level holding apparatus according to another embodiment of the present invention is such that the outer surface of the strip a that is inclined between the drawing roller B 1 of the plating bath B and the drawing roller B 2 (A) which is installed so as to be enclosed in the plating bath (B); A hinge axis A1 provided on the outer surface of the snout A; A stretch duct A3 provided at an upper portion of the hinge axis A1 and capable of moving the hinge axis A1 and the lower portion of the snout A from an inlet of the snout A; A dam A4 installed inside the outlet of the snout A and installed so as to have a rectangular height from the outlet along the drawing frame of the strip a and having an upper surface parallel to the bath surface of the plating vessel B; A suction pipe A5 is installed between the dam A4 and the wall of the outlet of the snout A and sucks the plating material of the plating bath B drawn into between the dam A4 and the wall of the outlet of the snout A, ; A hinge axis A11 provided on one side of the lower outer surface of the snout A; The upper and lower hinge shafts A1 and A11 are installed on the upper and lower hinge shafts A1 and A11 so as to horizontally transfer the upper and lower hinge shafts A1 and A11 forward, The upper and lower hinge shafts A1 and A11 are horizontally fed forward when the strip a is inclined at an angle between the drawing roller B1 and the drawing roller B2 and the strip a approaches the tip of the dam A4 And a transfer device 10 capable of positioning the upper surface of the dam A4 in the middle of the dam A4 in parallel with the bath surface of the plating bath B.

In this way, when adjusting the inclination angle of the snout A in accordance with the change of the inclination angle of the strip, the upper and lower hinge axes A1 and A11 are simultaneously fed forward in parallel, so that the adjustment step can be reduced as compared with FIG. This has the effect of making it more convenient.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention. Changes will be possible.

A: Snout
A1, A11: Hinge axis
A2: Lifting device
A3: Flexible duct
A4: Dam
A5: Suction pipe
B: Plating tank
B1: Feed roller
B2: drawing roller
a: strip
b:
c: Top surface
10: Feeding device
11: Bearing unit
12: Fixed frame
13: guide rail
14: Slide block
15: Ball Screw
16: Reducer
17: Handle

Claims (2)

And is provided so as to surround the outer surface of the strip a which is inclined between the drawing roller B 1 and the drawing roller B 2 of the plating tank B and the outlet is formed by Snooth A installed so as to be submerged in the plating tank B, ;
A hinge axis A1 provided on the outer surface of the snout A;
A stretch duct A3 provided at an upper portion of the hinge axis A1 and capable of moving the hinge axis A1 and the lower portion of the snout A from an inlet of the snout A;
A dam A4 installed inside the outlet of the snout A and installed so as to have a rectangular height from the outlet along the drawing frame of the strip a and having an upper surface parallel to the bath surface of the plating vessel B;
A suction pipe A5 is installed between the dam A4 and the wall of the outlet of the snout A and sucks the plating material of the plating bath B drawn into between the dam A4 and the wall of the outlet of the snout A, ;
The slope angle of the strip a between the drawing roller B1 and the drawing roller B2 is changed by abrasion of the bearing of the drawing roller B2 so that the strip a is inserted into the dam A2 that can rotate the exit of the snout A about the hinge axis A1 and lift it up to position the strip a in the middle of the dam A4 when the tip of the snare A approaches the tip of the dam A4 );
The hinge axis A1 is provided so as to horizontally feed the hinge axis A1 forward and the elevation device A2 rotates the outlet from the hinge axis A1 so that the bath surface of the plating bath B A transfer device 10 capable of adjusting the upper surface of the dam A4 in parallel with the bath surface of the plating bath B by lowering the outlet by forwarding the upper surface of the dam A4 that is inclined from the lower surface of the dam A4; Wherein the dam level holding device comprises:
And is provided so as to surround the outer surface of the strip a which is inclined between the drawing roller B 1 and the drawing roller B 2 of the plating tank B and the outlet is formed by Snooth A installed so as to be submerged in the plating tank B, ;
A hinge axis A1 provided on the outer surface of the snout A;
A stretch duct A3 provided at an upper portion of the hinge axis A1 and capable of moving the hinge axis A1 and the lower portion of the snout A from an inlet of the snout A;
A dam A4 installed inside the outlet of the snout A and installed so as to have a rectangular height from the outlet along the drawing frame of the strip a and having an upper surface parallel to the bath surface of the plating vessel B;
A suction pipe A5 is installed between the dam A4 and the wall of the outlet of the snout A and sucks the plating material of the plating bath B drawn into between the dam A4 and the wall of the outlet of the snout A, ;
A hinge axis A11 provided on one side of the lower outer surface of the snout A;
The upper and lower hinge shafts A1 and A11 are installed on the upper and lower hinge shafts A1 and A11 so as to horizontally transfer the upper and lower hinge shafts A1 and A11 forward, The upper and lower hinge shafts A1 and A11 are horizontally fed forward when the strip a is inclined at an angle between the drawing roller B1 and the drawing roller B2 and the strip a approaches the tip of the dam A4 And a transfer device (10) capable of placing the strip (a) in the middle of the dam (A4) with the upper surface of the dam (A4) in parallel with the bath surface of the plating bath (B) Of the dam level.

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