KR101425130B1 - Plating equipment molten zinc to improve production quality - Google Patents

Abstract

The present invention includes a pre-plating bath (110) for storing a plating liquid therein; A main plating bath 130 in which a plating process is performed while storing a plating solution supplied from the preliminary plating bath 110; A rounding unit 120 formed between the preliminary plating bath 110 and the main plating bath 130 so as to supply the plating solution stored in the preliminary plating bath 110 to the main plating bath 130; A level regulating member 140 for measuring a plating liquid level of the round bottom plate 120 or the main plating bath 130 to overflow the plating liquid of the preliminary plating bath 110 to supply the plating liquid to the main plating bath 130, Wow; A warming member 150 installed to surround the upper portion of the preliminary plating bath 110; A dross removing member 160 installed on one side of the upper side of the preliminary plating bath 110 to remove dross; An ingot charging member 170 for charging the ingot A into the interior of the preliminary plating bath 110; And an ingot supply member 180 for supplying the ingot supply member 170 to feed the ingot A into the preliminary plating bath 110. The molten zinc plating apparatus of the present invention comprises: The present invention can improve production quality by smoothly controlling the amount of outflow by supplying an ingot according to the level of the plating solution to be measured or by introducing a level control port of a certain volume into the plating solution to change the volume Effect. Further, the present invention has an effect that the ingot can be smoothly supplied into the interior of the preliminary plating bath to improve working efficiency. Particularly, the present invention has an effect that the dross suspended in the preliminary plating bath can be easily discharged and removed. In addition, the present invention has the effect of minimizing the melting efficiency and the generation environment of dross by keeping the ingot at a predetermined temperature.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a molten zinc plating apparatus,

The present invention relates to a hot-dip galvanizing apparatus for improving production quality, and more particularly, to a hot-dip galvanizing apparatus for improving production quality by controlling the amount of a plating solution discharged smoothly according to a level of a plating solution, The present invention relates to a zinc plating apparatus.

Generally, the amount of the plating solution stored in the main plating bath is reduced due to the amount of the plating solution consumed and the amount of loss collected together with the dross in the course of the plating process of the steel sheet in the main plating bath of the hot dip galvanizing apparatus.

When the ingot (ingot) is injected into the preliminary plating bath to compensate for the reduced plating solution, the plating liquid temporarily stored in the preliminary plating bath overflows by the volume of the ingot, and is supplied to the main plating bath through the rounder.

However, in the conventional hot-dip galvanizing apparatus, the amount of hot water can not be precisely regulated depending on the level of the plating solution, and thus the production quality of the steel sheet is lowered in the plating process.

Particularly, conventionally, since there is no means for sequentially supplying the ingot to the inside of the preliminary plating bath, the working efficiency is lowered.

In addition, in the related art, there is a problem that the structure of the means for removing the dross is complicated and frequent failures occur and the use efficiency is lowered.

In addition, since the ingot can not always be kept at an appropriate temperature, there has been a problem that suddenly, when the ingot is introduced into the preliminary plating bath, the change in physical properties and the cause of the dross are provided.

Patent Document 1: Korean Patent No. 10-0787582 (December 21, 2007) Patent Document 2: Korean Utility Model Utility Model No. 10-2009-0123992 (2009.12.03) Patent Document 3: Korean Patent Laid-Open No. 10-2013-0013791 (Feb. Patent Document 4: Korean Patent Laid-Open No. 10-2013-0031603 (March 31, 2013) Patent Document 5: Korean Patent Laid-Open No. 10-2013-0031601 (March 31, 2013)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The present invention relates to a hot-dip galvanizing apparatus for improving the production quality capable of smoothly controlling the amount of outflow by measuring the level of the plating liquid and supplying the ingot or changing the volume by introducing a constant volume level regulator into the plating liquid The purpose is to provide.

It is another object of the present invention to provide a hot dip galvanizing apparatus for improving production quality that can smoothly supply an ingot into a preliminary plating bath.

It is another object of the present invention to provide a hot dip galvanizing apparatus for improving the production quality capable of removing dross suspended in a preliminary plating bath.

It is another object of the present invention to provide a hot-dip galvanizing apparatus for improving the quality of production which can keep the ingot at a predetermined temperature.

To achieve the above object, a hot dip galvanizing apparatus (100) for improving production quality of the present invention comprises:

A preliminary plating bath 110 for storing a plating solution therein; A main plating bath 130 in which a plating process is performed while storing a plating solution supplied from the preliminary plating bath 110; A rounding unit 120 formed between the preliminary plating bath 110 and the main plating bath 130 so as to supply the plating solution stored in the preliminary plating bath 110 to the main plating bath 130; A level regulating member 140 for measuring a plating liquid level of the round bottom plate 120 or the main plating bath 130 to overflow the plating liquid of the preliminary plating bath 110 to supply the plating liquid to the main plating bath 130, Wow; A warming member 150 installed to surround the upper portion of the preliminary plating bath 110; A dross removing member 160 installed on one side of the upper side of the preliminary plating bath 110 to remove dross; An ingot charging member 170 for charging the ingot A into the interior of the preliminary plating bath 110; And an ingot supply member 180 for supplying the ingot supply member 170 to feed the ingot A into the interior of the preliminary plating bath 110.

A receiving space 121 is formed at the entrance of the rounder 120 and a dam 122 is installed in the receiving space 121.

At this time, a rotation axis 123 is provided in the middle of the dam 122 and is rotated inward of the pre-plating bath 110.

On the other hand, the level regulating member 140 includes a sensor 141 for measuring the level of the plating liquid in the round bath 120 or the main plating bath 130; A controller (142) for calculating and processing data measured through the sensor (141); Up / down means (143) for communicating with the control unit (142); And a level adjuster (144) provided below the elevating and lowering means (143).

A shutoff door 151 is provided at one side of the heat insulating member 150 and a temperature holding member 152 is provided at the other side of the heat insulating member 150.

In addition, the dross removing member 160 includes a moving body 161 installed to be movable in the vertical direction when viewed in a plan view along the upper surface of the pre-plating bath 110; An auxiliary body (162) installed to be movable in a lateral direction when viewed in a planar state along the moving body (161); And a dross removing tool (163) provided at a lower portion of the auxiliary body (163).

The ingot supply member 170 includes a rail 171 that forms the pre-plating bath 110 and the upper portion of the main plating bath 130 across it; A moving body 172 installed to move along the rail 171; A lift 173 installed at a lower portion of the moving body 172; And a clamp 174 for fixing the ingot A to the lower portion of the lift 173.

Meanwhile, the ingot supply member 180 includes a conveyor 181 for moving the ingot A; A support 182 installed on one side of the conveyor 181; A support hole 183 provided at the middle lower portion of the conveyor 181; And a driving member 184 for rotating the support hole 183 in the vertical direction.

A support shaft 182a is installed on the lower portion of the support 182 and a rotary shaft 182b is provided between the support 182 and the support shaft 182a. And a fixing clip 185 for fixing the ingot A is provided on one side of the receiving hole 183. The spring 182c is provided between the base 182a and the base 182b.

The present invention has the effect of improving the quality of production by smoothly controlling the amount of outflow by changing the volume by supplying the ingot according to the level of the plating solution to be measured or by introducing a level control valve of a certain volume into the plating liquid.

Further, the present invention has an effect that the ingot can be smoothly supplied into the interior of the preliminary plating bath to improve working efficiency.

Particularly, the present invention has an effect that the dross suspended in the preliminary plating bath can be easily discharged and removed.

In addition, the present invention has the effect of minimizing the melting efficiency and the generation environment of dross by keeping the ingot at a predetermined temperature.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram showing a structure of a hot dip galvanizing apparatus for improving production quality of the present invention. FIG.
FIG. 2 is a perspective view for showing a structure of a rounder and a receiving space in the present invention. FIG.
3 is a conceptual diagram showing an operation state of a hot dip galvanizing apparatus for improving the production quality of the present invention.

As described above, the construction of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual view for showing a structure of a hot dip galvanizing apparatus for improving the production quality of the present invention, FIG. 2 is a reference perspective view showing a structure of a rounder and a receiving space in the present invention, FIG. 3 is a conceptual diagram showing an operation state of a hot dip galvanizing apparatus for improving quality.

The present invention includes a pre-plating bath (110) for storing a plating liquid therein; A main plating bath 130 in which a plating process is performed while storing a plating solution supplied from the preliminary plating bath 110; A rounding unit 120 formed between the preliminary plating bath 110 and the main plating bath 130 so as to supply the plating solution stored in the preliminary plating bath 110 to the main plating bath 130; A level regulating member 140 for measuring a plating liquid level of the round bottom plate 120 or the main plating bath 130 to overflow the plating liquid of the preliminary plating bath 110 to supply the plating liquid to the main plating bath 130, Wow; A warming member 150 installed to surround the upper portion of the preliminary plating bath 110; A dross removing member 160 installed on one side of the upper side of the preliminary plating bath 110 to remove dross; An ingot charging member 170 for charging the ingot A into the interior of the preliminary plating bath 110; And an ingot supply member 180 for supplying the ingot supply member 170 to feed the ingot A into the preliminary plating bath 110.

Particularly, the preliminary plating bath 110 plays a role of storing a certain amount of plating liquid in the main plating bath 130 so that the plating liquid can be replenished in a state where the plating liquid is temporarily stored.

2, a storage space 121 may be formed at the entrance of the rounder 120, and a dam 122 may be provided in the storage space 121, So that the dam 122 blocks the phenomenon that the overflow phenomenon is prevented and the dross flows into the main plating bath 130.

At this time, it is preferable that the accommodation space 121 is formed to have a certain space so that the dam 122 can be installed without interference.

In addition, a rotation axis 123 is provided in the middle of the dam 122 to rotate inward of the preliminary plating bath 110, thereby preventing the droplets from flowing into the main plating bath 130.

At this time, various means for driving the dam 122 such as a motor or an actuator can be installed on one side of the dam 122.

Particularly, the dam 122 is preferably made of a material having excellent heat resistance and abrasion resistance because it is in contact with a high temperature plating solution.

Meanwhile, the level regulating member 140 is a very important constituent for adjusting the amount of the plating solution discharged by measuring the plating solution level of the round bath 120 or the main plating bath 130.

The level regulating member 140 includes a sensor 141 for measuring the plating liquid level of the round plating 120 or the main plating bath 130; A controller (142) for calculating and processing data measured through the sensor (141); Up / down means (143) for communicating with the control unit (142); And a level adjuster 144 provided below the elevating and lowering means 143.

Here, the sensor 141 has heat resistance and is capable of measuring the level (liquid level) of the liquid. The controller 142 calculates the level measured through the sensor 141 to operate the up-down means 143 The level adjuster 144 is moved upward and downward into the preliminary plating bath 110 to cause a change in volume of the plating liquid to adjust the amount of the plating liquid discharged, thereby adjusting the level of the plating liquid.

In particular, the elevating and lowering means 143 can move the level adjusting member 144 in the vertical direction by using a cylinder, a motor, a screw shaft, or the like.

At this time, since the level adjuster 144 is in contact with the high-temperature plating liquid, it is preferable that the level adjustor 144 has excellent heat resistance and wear resistance and is made of a material having a specific gravity larger than that of the plating liquid.

The temperature holding member 152 is installed to surround the upper part of the preliminary plating bath 110 to prevent heat loss of the plating liquid and to prevent the heat loss of the ingot A before the preliminary plating bath 110 is introduced into the preliminary plating bath 110. [ If the ingot (A) lower than the temperature of the plating solution is suddenly supplied into the preliminary plating bath while the temperature is kept constant, changes in physical properties and dross may occur, which is a means for preventing this in advance.

A shutoff door 151 is provided at one side of the heat insulating member 150 to open or close the door for maintenance or input of the ingot A. A temperature holding member 152 is provided at the other side of the heat insulating member 150 can do.

At this time, the temperature holding member 152 uses a heater, a hot air fan, or the like capable of controlling the temperature of the user.

Therefore, by operating the temperature holding member 152, the temperature of the ingot A can be kept constant to improve the melting efficiency.

In addition, the dross removing member 160 includes a moving body 161 installed to be movable in the vertical direction when viewed in a plan view along the upper surface of the pre-plating bath 110; An auxiliary body (162) installed to be movable in a lateral direction when viewed in a planar state along the moving body (161); And a dross removing tool 163 provided at a lower portion of the auxiliary body 163.

Therefore, the floating dross of the preliminary plating bath 110 can be removed while the dross removing tool 163 is moved in the horizontal and vertical directions when viewed in plan view.

At this time, the moving body 161 and the auxiliary body 162 can move at a constant speed using a motor and a speed reducer.

Particularly, the dross removing tool 163 can be made of a ceramic or castable material having excellent heat resistance.

Meanwhile, the ingot supply member 170 serves to sequentially inject the ingot A into the preliminary plating bath 110.

The ingot charging member 170 includes a rail 171 that forms the preliminary plating bath 110 and the upper portion of the main plating bath 130 across it; A moving body 172 installed to move along the rail 171; A lift 173 installed at a lower portion of the moving body 172; And a clamp 174 for fixing the ingot A to the lower portion of the lift 173.

At this time, the moving body 172 is provided with rollers on both sides so as to move smoothly along the rails 171, and a driving motor is installed on one side to generate a driving force.

Particularly, the lift 173 adjusts its vertical position so that the clamp 174 adjusts the elevation so that the ingot A can be fixed.

Here, the detailed structure and operation principle of the lift 173 are widely used in the art, so that detailed description thereof will be omitted in the present invention.

In addition, the clamp 174 presses both side surfaces of the ingot A and presses them.

In the present invention, the ingot supply member 180 serves to sequentially supply the ingot A to the ingot input member 170.

The ingot supply member 180 includes a conveyor 181 for moving the ingot A; A support 182 installed on one side of the conveyor 181; A support hole 183 provided at the middle lower portion of the conveyor 181; And a driving member 184 for rotating the support hole 183 in the vertical direction.

Therefore, in the state where the support 183 is in contact with the lower surface of the ingot A while the support 182 is in contact with one side of the ingot A moved through the conveyor 181, The ingot A can be fixed and moved by the clamp 174 of the ingot introducing member 170 by rotating the ingot A in the vertical direction by the operation of the driving member 184.

At this time, the driving member 184 may rotate the receiving hole 183 using a cylinder or an actuator.

A support shaft 182a is installed on the lower portion of the support 182 and a rotary shaft 182b is provided between the support 182 and the support shaft 182a. And a fixing clip 185 for fixing the ingot A may be provided on one side of the receiving hole 183. The spring 182c may be provided between the receiving holes 182a and 182b.

Particularly, the rotation axis 182b can serve as a central axis for rotating the support 182 when the ingot A rotates in the vertical direction, The vibration of the ingot A is minimized, and the fixing clip 185 can prevent the ingot phenomenon that may occur during the vertical rotation of the ingot A.

3, the level adjusting member 140 measures the level of the plating liquid in the round bottom plate 120 or the main plating bath 130. When the plating liquid is consumed, The level of the plating solution is adjusted to a constant level by overflowing the plating solution of the preliminary plating bath 110 by the operation of the level adjusting member 140 or by inputting the ingot A into the preliminary plating bath 110 by the operation of the preliminary plating bath 110, .

Particularly, the ingot A is kept at a constant temperature through the heat retaining member 150 to be introduced into the plating liquid to increase the melting efficiency. The dross floating in the plating liquid by the operation of the dross removing member 160 is effectively Can be removed.

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 thereto and that the scope of the present invention covers the scope of the present invention, Of course.

100: A hot-dip galvanizing apparatus for improving the production quality of the present invention
110: pre-plating bathtub
120: rounder 121: accommodation space
122: dam 123:
130: Main plating bath
140: level regulating member 141: sensor
142: control unit 143:
144: Level controller
150: insulating member 151: blocking door
152: Temperature holding member
160: Dross removing member 161: Movable body
162: auxiliary body 163:
170: Ingot insertion member 171: Rail
172: Moving body 173: Lift
174: Clamp
180: Ingot supply member 181: Conveyor
182: support region 182a: support
182b: Pivot shaft 182c: spring
183: Supporting hole 184: Driving member
185: Retaining clip
A: Ingot

Claims (9)

A preliminary plating bath 110 for storing a plating solution therein; A main plating bath 130 in which a plating process is performed while storing a plating solution supplied from the preliminary plating bath 110; A rounding unit 120 formed between the preliminary plating bath 110 and the main plating bath 130 so as to supply the plating solution stored in the preliminary plating bath 110 to the main plating bath 130; A level regulating member 140 for measuring a plating liquid level of the round bottom plate 120 or the main plating bath 130 to overflow the plating liquid of the preliminary plating bath 110 to supply the plating liquid to the main plating bath 130, Wow; A warming member 150 installed to surround the upper portion of the preliminary plating bath 110; A dross removing member 160 installed on one side of the upper side of the preliminary plating bath 110 to remove dross; An ingot charging member 170 for charging the ingot A into the interior of the preliminary plating bath 110; And an ingot supply member 180 for supplying the ingot supply member 170 to feed the ingot A into the interior of the preliminary plating bath 110, A rail 171 formed across the top of the plating bath 110 and the main plating bath 130; A moving body 172 installed to move along the rail 171; A lift 173 installed at a lower portion of the moving body 172; And a clamp 174 provided below the lift 173 for fixing the ingot A. The ingot supply member 180 includes a conveyor 181 for moving the ingot A; A support 182 installed on one side of the conveyor 181; A support hole 183 provided at the middle lower portion of the conveyor 181; And a driving member 184 for vertically rotating the receiving hole 183. A support 182a is provided below the support 182 and a support 182a is provided between the support 182a and the support 182a. A spring 182c is provided between the support base 182a and the rotary shaft 182b and an ingot A is fixed to one side of the support hole 183, Wherein a fixing clip (185) is provided for the hot dip galvanizing process. The method according to claim 1, wherein a receiving space (121) is formed at an entrance of the rounder (120), and a dam (122) is provided in the receiving space (121) Zinc plating equipment. delete The apparatus of claim 1, wherein the level regulating member (140) comprises: a sensor (141) for measuring a plating liquid level of the round bath (120) or the main plating bath; A controller (142) for calculating and processing data measured through the sensor (141); Up / down means (143) for communicating with the control unit (142); And a level adjuster (144) provided below the elevating and lowering means (143). The apparatus according to claim 1, wherein a blocking door (151) is provided at one side of the heat insulating member (150) and a temperature holding member (152) is provided at the other side of the heat insulating member The hot dip galvanizing apparatus comprising: The plating apparatus according to claim 1, wherein the dross removing member (160) comprises: a moving body (161) installed so as to be movable in a longitudinal direction when viewed in a planar state along an upper surface of the preliminary plating bath (110); An auxiliary body (162) installed to be movable in a lateral direction when viewed in a planar state along the moving body (161); And a dross removing tool (163) provided at a lower portion of the auxiliary body (162). delete delete delete

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