KR102321212B1 - The cooling tower up pass touch roll apparatus of hot dipped galvanized iron - Google Patents

Abstract

The present invention provides a cooling tower up-pass roll device comprising: a servo motor; a jack screw axially combined with the server motor to rotate; a movement shaft connected to both sides of the jack screw by a speed reducer and moved forward and backward by the rotating motion of the jack screw; a reciprocating rod moved forward and backward by the drive of the movement shaft; a forward and backward touch roll moving unit put on the reciprocating rod and composed of a quick operation part for allowing a touch roll to be in contact with the surface of a steel plate by the drive of the reciprocating rod while supporting the touch roll; a touch roll driving unit composed of a servo motor, which is connected and configured at the other side of the touch roll by a universal joint, to rotate the touch roll, which is in contact with the surface of the steel plate, corresponding to the moving velocity of the steel plate; a cooling water supply unit connected to one side of the touch roll and supplying cooling water into the touch roll. The quick operation part consists of: an air cylinder fixed to the reciprocating rod; and a touch roll support combined with the rod of the air cylinder and supporting the touch roll to be able to rotate. The touch roll support moves the touch roll forward and backward according to the drive of the air cylinder to attenuate a shock on the surface of the steel plate and to release contact with the surface of the steel plate. Therefore, provided is a cooling tower up-pass touch roll device of a hot-dip galvanized steel plate, wherein friction caused by contact between a hot-dip galvanized steel plate and a touch roll can be reduced.

Description

The cooling tower up pass touch roll apparatus of hot dipped galvanized iron

The present invention relates to a cooling tower up-pass touch roll device for hot-dip galvanized steel sheet, and more particularly, by forcibly driving a touch roll in accordance with the speed of a moving hot-dip galvanized steel sheet to contact between the hot-dip galvanized steel sheet and the touch roll. It relates to a cooling tower up-pass touch roll device for hot-dip galvanized steel sheet, which reduces friction and reduces surface damage of hot-dip galvanized steel sheet by grafting cooling means to the inside of the touch roll.

In general, an air knife designed to use the pressure of air to adjust the amount of coating attached to the strip surface that has passed through the Zn Pot to the desired level in the continuous galvanizing line production line. Air Knife) is being used.

And, by installing a touch roll on the directly upper part of the air knife device, the upper stabilizing roll of the pot roll unit in the plating bath and the fixing effect of the steel plate by the touch roll cause the steel plate In the air knife lip part, where air is ejected from the air knife device as the vibration and rebound of the steel plate are minimized, the steel plate passes in the flat state as much as possible to minimize the variation in the plating amount in the width direction, the aspect of product quality after alloying, and the amount of zinc It has a great effect in terms of cost reduction.

As a representative prior art related to the touch roll, the Republic of Korea Intellectual Property Office Registration Utility Model Registration No. 20-0238015 (name: touch roll for supplying a steel plate plating solution) (hereinafter referred to as prior art) can be exemplified.

The prior art has an outer skin surrounding the outer circumferential surface of the hollow roll body disposed in parallel with the conducting roll, and an outer cover sealing the open both ends of the roll body, and supporting the roll body so as to be rotatable at idle A body portion having a roll shaft and moving forward and backward so as to be in contact with the conductive roll in the width direction of the steel sheet through the steel sheet, the outer skin corresponding to both edge portions of the steel sheet, and a plurality of holes in the circumferential direction of the outer circumferential surface of the roll body, respectively and a solution injection control panel arranged in a one-to-one correspondence with the hole is fixed to the roll shaft, a supply line communicating with the solution supply port of the solution injection control panel is formed in the roll shaft, and a roller mounted on both ends of the roll shaft The gist is that the solution supply pipe is connected through the joint and configured as a solution supply unit in which the solution is sprayed through the hole.

However, the conventional touch roll like the prior art is a non-driving method, and while the hot-dip galvanized steel sheet is drawn upward in a state in which the touch roll is in contact with the hot-dip galvanized steel sheet, idle rotates to guide the drawing operation of the hot-dip galvanized steel sheet. However, this method has a problem of inducing excessive friction between the hot-dip galvanized steel sheet and the touch roll, thereby inducing damage to the surface of the hot-dip galvanized steel sheet.

In addition, the touch roll of the prior art does not have a separate cooling means, so when the surface temperature of the touch roll increases due to the heat conducted in the process of guiding the hot-dip galvanized steel sheet, this also melts the surface of the hot-dip galvanized steel sheet in contact with the touch roll. Damage to the surface of the steel plate occurs frequently.

Document 1: Korean Intellectual Property Office Registered Utility Model Gazette Registration No. 20-0238015

Therefore, it is an object of the present invention to solve the above problems by installing a separate driving unit in the touch roll to forcibly drive the touch roll in accordance with the speed of the moving hot-dip galvanized steel sheet to contact between the hot-dip galvanized steel sheet and the touch roll. To provide a cooling tower up-pass touch roll device of hot-dip galvanized steel sheet that can reduce friction caused by

Another object of the present invention is to provide a cooling tower up-pass touch roll device for hot-dip galvanized steel sheet to reduce surface damage of hot-dip galvanized steel sheet by effectively circulating cooling water inside the touch roll.

The present invention for achieving the above objects is a cooling tower up-pass touch roll device of a hot-dip galvanized steel sheet for contacting the touch roll to the surface of the steel sheet that has passed through the plating bath, a servo motor, coupled to the shaft of the servo motor, A rotating jack screw, a moving shaft connected to both sides of the jack screw by a speed reducer and moving forward and backward by the rotation operation of the jack screw, a carriage moving forward and backward by driving the moving shaft, put on the carriage A touch roll front and rear movement unit composed of a quick operation unit for bringing the touch roll into contact with the surface of the steel plate by driving of the carriage in a state in which the touch roll is supported, and a servomotor configured to be connected to the other side of the touch roll by a universal joint A touch roll driving unit configured to rotate the touch roll in contact with the surface of the steel sheet according to the moving speed of the steel sheet, and a cooling water supply unit connected to one side of the touch roll and supplying cooling water to the inside of the touch roll. Including, wherein the quick operation unit consists of an air cylinder fixed to the carriage, a touch roll support coupled to the rod of the air cylinder and rotatably supporting the touch roll, and the touch roll support is the driving of the air cylinder It is characterized in that by moving the touch roll back and forth according to the function, the surface impact of the steel sheet is alleviated and the contact is released from the surface of the steel sheet.

A rocker member is installed on the rod of the air cylinder, and a rocker member guide surrounding the rocker member is installed on the touch roll support, and according to the operation of pushing the touch roll in one direction, the rocker member guide is It is preferable to move on the rocker member and separate the touch roll support from the rod of the air cylinder.

As described above, according to the present invention, a separate driving unit is installed on the touch roll to forcibly drive the touch roll according to the speed of the hot-dip galvanized steel sheet in motion, thereby reducing friction due to contact between the hot-dip galvanized steel sheet and the touch roll, and By effectively circulating cooling water inside the touch roll, it has the effect of reducing damage to the surface of the hot-dip galvanized steel sheet.

1 is a view three-dimensionally showing the overall configuration of the cooling tower up-pass touch roll device of the hot-dip galvanized steel sheet of the present invention.
2 is a view showing a plan view of the cooling tower up-pass touch roll device of the hot-dip galvanized steel sheet shown in FIG.
Fig. 3 is a front view of Fig. 2;
Fig. 4 is a side view of Fig. 2;
FIG. 5 is a plan view showing one touch roll before and after moving unit, a touch roll driving unit, and a touch roll taken from FIG. 2 .
Fig. 6 is a side view of Fig. 5;
7 is a three-dimensional view of extracting the touch roll used in the cooling tower up-pass touch roll device of the hot-dip galvanized steel sheet of the present invention.
Fig. 8 is a cross-sectional view of Fig. 7;
9 is a cross-sectional view taken along line AA of FIG.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the detailed description to be described later, various embodiments of the present invention will be described in order to achieve the above-described technical problems. And other embodiments that can be presented as the present invention is replaced by the description in the configuration of the present invention.

1 is a three-dimensional view showing the overall configuration of the cooling tower up-pass touch roll device of the hot-dip galvanized steel sheet of the present invention, FIG. 2 is a cooling tower up-pass touch of the hot-dip galvanized steel sheet shown in FIG. It is a view showing a plane of the roll device, Figure 3 is a front view of Figure 2, Figure 4 is a side view of Figure 2, Figure 5 is one touch roll before and after moving unit and touch roll driving unit and touch It is a plan view showing an extract of a roll, FIG. 6 is a side view of FIG. 5, and FIG. 7 is a three-dimensional view of extracting a touch roll used in the cooling tower up-pass touch roll device of the hot-dip galvanized steel sheet of the present invention. , FIG. 8 is a cross-sectional view of FIG. 7 , and FIG. 9 is a cross-sectional view taken along line AA of FIG. 8 .

1 to 9, the cooling tower up-pass touch roll device 100 of the hot-dip galvanized steel sheet of the present invention is largely a touch roll 200, a touch roll driving unit 50, and a moving unit before and after the touch roll ( 10) is composed.

The touch roll 200 is generally used in a continuous galvanizing line in a vertical direction to adjust the plating amount attached to a strip surface that has passed through a plating bath (Zn Pot) to a desired level. It is in contact with the front and rear surfaces of the steel plate being transported, and inducing vibration and reversal of the steel plate being transported to be minimized so that the steel plate passes in the flat state as much as possible from the air knife lip part where air is ejected. Rolls are provided.

The touch roll 200 of the present invention forcibly drives the touch roll 200 according to the speed of the moving steel plate to reduce friction due to contact between the steel plate 1 and the touch roll 200, and also It has a feature to reduce surface damage of hot-dip galvanized steel sheet by grafting cooling means inside.

The touch roll 200 has the same structure and is disposed on the front and rear surfaces of the steel plate 1 with a space for the steel plate 1 to pass therebetween. Hereinafter, with respect to the structure of one touch roll 200 to represent and describe.

7 to 9, the touch roll 200 of the present invention is coupled to a cylindrical body portion 60 and both sides of the body portion 60, and includes a cooling water supply unit 90 and a touch roll. It is configured to include a cooling water supply unit fastening part 70 and a touch roll driving unit fastening part 80 for connecting the driving unit 50 to the main body part 60 .

The body portion 60 is a member in direct contact with the surface of the steel plate 1, and has a cylindrical shape and a center circulation hole 62 is formed through the inner center thereof, and at least one along the periphery of the center circulation hole 62 is formed. The above side circulation hole 64 is formed through.

The cooling water supplied from the cooling water supply unit 90 circulates in the center circulation hole 62 and the side circulation hole 64, where the cooling water is the touch roll 200 in contact with the surface of the steel plate 1 By cooling the surface of the body part 60 , it is possible to prevent damage to the surface of the steel plate 1 due to the temperature rise of the touch roll 200 .

A coating layer 68 is formed on the surface of the body part 60 . The coating layer 68 is provided to prevent damage to the surface of the steel sheet 1 due to a decrease in the surface smoothness of the body portion 60 when the body portion 60 and the steel sheet 1 are in contact.

The cooling water supply unit fastener is coupled to one side of the main body 60 and connects the cooling water supply unit for circulating the cooling water to the center circulation hole 62 and the side circulation hole 64 of the main body 60. is provided

The cooling water supply unit fastener 70 is integrally extended from the insertion part 74 and the insertion part 72 which are fastened while being inserted into one end of the center circulation hole 62 of the body part 60, and the main body In a state in which one side of the part 60 is exposed to the outside, it is divided into a connection part 72 connected to the cooling water supply unit 90 .

A main connection flow path 76 is formed inside the connection part 72 and the insertion part 74, and one end of at least one branch connection flow path 78 is connected radially along the outside of the main connection flow path 76. and the other end of each branch connection passage 78 is connected to the side circulation hole 64 formed through the outer side of the main body portion 60, respectively.

After the cooling water supply unit 90 is connected to the connection part 72 , the cooling water is injected into the main connection passage 76 from the inlet 92 provided in the cooling water supply unit 90 . The cooling water injected into the main connection passage 76 passes through the branch connection passage 78 and passes through the side circulation hole 64 of the body part 60, and in this process, the surface of the body part 60 is cooled and touched. Damage to the surface of the steel sheet 1 due to the temperature rise of the roll 200 is prevented.

In addition, the cooling water circulated through the side circulation hole 64 is supplied to the center circulation hole 62 of the body unit 60 again through the branch connection passage 82 formed in the touch roll driving unit fastening unit 80 . , is discharged to the outlet 94 of the cooling water supply unit 90 through the main connection passage 76 of the cooling water supply unit fastener 70 to circulate the cooling water.

The cooling water supply unit 90 has a universal joint structure having an inlet 92 and an outlet 94 having a structure that does not interfere with each other, and a touch roll 200 through the inlet 92 through the pumping operation of the pump. The cooling water is supplied to the furnace, and the supplied cooling water is discharged to the outside through the outlet 94 to continuously circulate and supply the cooling water. will be omitted from

The touch roll driving unit fastener 80 is coupled to the other side of the main body 60 and connects the touch roll driving unit 50 and the main body 60 to the driving unit fastener 80 . The touch roll 200 receives power from the touch roll driving unit 50 in accordance with the moving speed of the vertically moving steel plate 1 and forcibly rotates, and friction caused by the contact between the steel plate 1 and the touch roll 200 . can reduce

Inside the touch roll driving unit fastener 80, one end is connected to the side circulation hole 64 of the main body 60, and the other end is connected to the center circulation hole 62 of the main body 60. At least one branch connection passage 82 is formed, and the branch connection passage 82 passes the cooling water circulated through the side circulation hole 64 of the main body 60 to the center circulation hole 62 .

The touch roll driving unit 50 is connected to the other side of the main body 60 of the touch roll 200 by a driving unit fastener 80 and forcing the touch roll 200 to match the moving speed of the steel plate 1 . It is a rotating unit.

The touch roll driving unit 50 is connected to the servo motor 52 and the shaft of the servo motor 52 by a speed reducer 54 , and a touch roll driving unit fastening part 80 provided on the other side of the touch roll 200 . ) is composed of a universal joint 54 that is connected to.

In the touch roll driving unit 50 , when the servo motor 52 is driven, the driving unit fastener 80 is rotated through the universal joint 54 , and the touch roll 200 is adjusted to the moving speed of the steel plate 1 . forced to rotate.

The moving unit 10 before and after the touch roll moves the touch roll 200 forward, respectively, after the steel sheet 1 passes through the plating bath (Zn Pot) so as to contact the front and rear surfaces of the steel sheet 1 . is a unit that

The touch roll before and after moving units 10 are respectively connected to a servo motor 12, a jack screw 14 rotating by the power of the servo motor 12, and a speed reducer on both sides of the jack screw 14, and the A plurality of moving shafts 16 that move forward and backward by the rotational operation of the jack screw 14, a carriage 18 coupled to the moving shaft 16, and the touch roll supported by the carriage 18 ( 200) is composed of a quick operation unit 26 supporting the. An LM block 24 is installed on the carriage 18, and the LM block 24 is mounted on the LM guide rail 22 installed on the base, and moves on the LM guide rail 22 to reciprocate. Guide the movement of the stand (18).

In the touch roll before and after moving unit 10, after the steel plate 1 passes through the plating bath, the servo motor 12 is driven to rotate the jack screw 14, and accordingly, the moving shaft 16 moves forward. and push the carriage 18 to push the quick operation part 26 supporting the touch roll 200 forward to bring the touch roll 200 into contact with the surface of the steel plate 1 .

The quick operation unit 26 individually moves the touch roll 200 by driving the air cylinder 28 so that the touch roll 200 comes into contact with the steel plate 1 by the operation of the moving unit 10 before and after the touch roll. Before, when an unexpected situation occurs in the workplace together with a buffer function to alleviate the impact of the steel plate 1, when the touch roll 200 needs to be urgently returned, it is provided for the purpose of use.

The quick operation unit 26 is installed on the air cylinder 28 installed on the carriage 18, the rod 30 of the air cylinder 28, and rotatably supports the touch roll 200. It consists of a roll support 32 , an LM block 36 installed at the lower end of the touch roll support 32 , and an LM guide rail 34 guiding the movement of the LM block 36 .

When the air cylinder 28 is driven in the quick operation unit 26, the touch roll support 32 supporting the touch roll 200 moves forward and backward on the LM guide rail 34 and moves the touch roll 200. Before the touch roll 200 comes into contact with the steel plate 1 by moving the , it is possible to quickly reverse the touch roll 200 without having to drive the servo motor 12 of the moving unit 10 before and after the touch roll, and then drop it off the surface of the steel plate 1 to return to the initial state.

A locking part is provided between the touch roll support 32 constituting the quick operation 26 and the rod 30 of the air cylinder 28. At this time, when the locking part needs to replace the touch roll 200 with another, It is provided for the purpose of allowing the touch roll 200 to be easily separated from the quick operation unit 26 .

The locking part is installed at the rear of the rocker member 38 coupled to the rod 30 of the air cylinder 28 and the touch roll support 34 and is covered with the rocker member 38 in a surrounding state. It consists of (40). In other words. When replacing the touch roll, if the touch roll 200 is pushed backward, the guide rail 40 of the rocker member of the touch roll support 34 rides the rocker member 38 and comes out to the rear, and the touch roll 200 for replacement ) can be withdrawn.

Hereinafter, the operation of the cooling tower up-pass touch roll device for hot-dip galvanized steel sheet according to the present invention will be described with reference to FIGS. 1 to 9 .

When the steel sheet is pulled out vertically while the galvanized layer is applied to the strip surface that has passed through the plating bath (Zn Pot), the moving unit 10 before and after the touch roll operates, and the touch roll 200 moves the steel sheet ( 1), the touch roll driving unit 50 is operated at the same time as the front and rear surfaces are brought into contact, and the touch roll 200 is rotated according to the drawing speed of the steel plate 1 .

That is, when the servo motor 12, which is the moving unit 10 before and after the touch roll, is driven, the jack screw 14 rotates and the moving shaft 16 moves forward through the reducer, and accordingly, the moving shaft 16 The carriage 18 coupled thereto moves forward and brings the touch roll 200 supported by the quick operation unit 26 into contact with the front and rear surfaces of the steel plate 1 . At this time, the air cylinder 28 of the quick operation unit 26 relieves the forward movement of the touch roll 200 so as not to strongly contact the front and rear surfaces of the steel plate 1 before the touch roll 200 comes into contact with the steel plate 1 . ) to relieve the impact of the touch roll 200 transmitted to.

Next, when the servo motor 52, which is the touch roll driving unit 50, is driven, the touch roll driving unit fastening part 80 coupled to the other side of the body part 60 of the touch roll 200 through the universal joint 54. is rotated and the body part 60 of the touch roll 200, which is in contact with the surface of the steel plate 1, is rotated according to the moving speed of the steel plate 1 to catch the vibration and rebound of the steel plate 1 The friction between (1) and the touch roll 200 is reduced to minimize damage to the surface of the steel plate.

On the other hand, while the touch roll 200 is in contact with the front and rear surfaces of the steel sheet 1, the surface temperature of the touch roll 200 is rapidly increased by the temperature of the molten zinc plating of the steel sheet 1, in this case, the main body When cooling water is injected from the inlet 92 of the cooling water supply unit 90 connected to one side of the part 60 through the cooling water supply unit fastener 70 , the cooling water is the main connection passage of the cooling water supply unit fastener 70 . The touch roll ( 200) to prevent damage to the surface of the steel plate 1 by suppressing the temperature rise.

Cooling water circulating through the side circulation hole 64 of the main body 60 flows into the center circulation hole 62 of the main body 60 through the branch connection passage 82 of the touch roll drive unit fastener 80 . Then, it is again discharged to the outside through the outlet 94 of the cooling water supply unit 90 through the main connection passage 76 of the cooling water supply unit fastener 70, and this circulation method touches the movement of the steel plate 1 While the roll 200 guides, it continuously repeats.

1: Steel plate 10: Moving unit before and after touch roll
12: servo motor 14: jack screw
16: moving axis 18: carriage
26: quick operation unit 28: air cylinder
30: rod 32: touch roll support
50: touch roll driving unit 52: servo motor
60: body part 62: center circulation hole
64: side circulation hole 70: cooling water supply unit fastener
76: main connecting channel 78: branch connecting channel
80: touch roll drive unit fastener 90: cooling water supply unit
200: touch roll

Claims (2)

In the cooling tower up-pass touch roll device of hot-dip galvanized steel sheet for contacting the touch roll 200 to the surface of the steel sheet 1 that has passed through the plating bath,
servo motor 12;
a jack screw 14 coupled to the shaft of the servo motor 12 to rotate;
a moving shaft 16 connected to both sides of the jack screw 14 by a speed reducer and moving forward and backward by the rotation operation of the jack screw 14;
a carriage 18 that moves forward and backward by driving the moving shaft 16;
A quick operation part ( 26), the front and rear moving unit 10 of the touch roll;
A servomotor 52 connected to the other side of the touch roll 200 by a universal joint 54 moves the touch roll 200 in contact with the surface of the steel plate 1 to move the steel plate 1 . a touch roll driving unit 50 that rotates according to the speed;
a cooling water supply unit 90 connected to one side of the touch roll 200 and supplying cooling water to the inside of the touch roll 200;
The quick operation unit 26 is;
an air cylinder (28) fixed to the carriage (18);
It is coupled to the rod 30 of the air cylinder 28 and consists of a touch roll support 32 that rotatably supports the touch roll 200, and the touch roll support 32 is the air cylinder 28. Cooling tower up-pass touch roll of hot-dip galvanized steel sheet, characterized in that by moving the touch roll back and forth according to the driving of Device.
The method of claim 1,
A rocker member 38 is installed on the rod of the air cylinder 28, and a rocker member guide 40 that surrounds the rocker member 38 is installed on the touch roll support 32, the touch According to the operation of pushing the roll 20 in one direction, the rocker member guide 40 rides the rocker member 38 and moves the touch roll support 32 from the rod 30 of the air cylinder 28. Cooling tower up-pass touch roll device of hot-dip galvanized steel sheet, characterized in that it is separated.

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