KR100723224B1 - The method and apparatus to manage level of zn in cgl zn pot - Google Patents

Abstract

       The present invention relates to an apparatus and method for maintaining and maintaining the hot water level and temperature of the plating bath constantly while detecting the hot water level and temperature of the plating bath in real time regardless of the zinc injecting or plating operation in the continuous hot dip plating process.

In the bath surface level management device of the plating bath, which maintains and manages the bath surface level and temperature of the plating bath constantly,

A laser distance sensor disposed on an upper portion of the plating bath and detecting a distance to an upper surface of the bath surface of the plating bath;

A reflection plate disposed at a point where the beam of the laser rangefinder is irradiated to prevent diffuse reflection of the laser beam;

An immersion rod which is deposited in the plating bath to adjust the plating bath bath surface level;

An input unit for outputting a water level value measured from the laser rangefinder;

A comparator comparing the level of the water level output to the input unit with a preset level;

An instruction unit for instructing driving of the deposition rod when the value measured by the comparison unit is greater than or less than zero; And

And a driving part for driving the immersion rod by the instruction of the instruction part.

In addition, in the method for controlling the water level of the plating bath of maintaining and controlling the water level and temperature of the plating bath of the present invention,

Heating the immersion rod deposited on the plating bath and measuring a bath surface level of the plating bath;

A second step of comparing a difference between the measured level and a reference level with a preset value;

A third step of comparing the difference between the measured level and the reference level with a preset value; and

And a fourth step of driving the dip rod to raise the dip rod if the difference between the measurement level and the reference level is greater than zero in the comparison step, and to lower the dip rod if less than zero. Regarding

Plating bath, plated steel, hot water level, laser distance sensor, immersion rod

Description

Method and Apparatus to manage level of Zn in CGL Zn Pot}

1 illustrates a bath level management state of a conventional plating bath.

2 is a view showing a state in which diffuse reflection occurs by the top dross in a manner using a conventional laser rangefinder.

3 is a complementary view of measuring the bath surface level of the present invention.

4 is a configuration diagram showing a measurement operation relating to the plating bath bath surface level management of the present invention.

5 is a flowchart illustrating a plating bath water level management method according to the present invention.

* Description of the symbols for the main parts of the drawings *

 1: plating bath 2: plating solution

 18: laser distance sensor 12: immersion rod

 13: heating wire configured in the immersion rod 14: drive unit

 20: input unit 30: comparison unit

 40: indicating unit 50: control unit

The present invention maintains and maintains the hot water level and temperature of the plating bath constantly while detecting the hot water level and temperature of the plating bath in real time using a laser rangefinder and immersion rod regardless of the zinc injecting or plating operation in the continuous hot dip plating process. An apparatus and method are provided.

At present, the demand for hot-dip galvanized steel sheet is increasing according to the excellent corrosion resistance and processability. In particular, hot-dip galvanized steel sheet has been widely used as a home appliance or automotive exterior plate material because its surface quality is improved by continuous technology development. The hot-dip galvanized steel sheet in which the demand is increasing as described above is deposited by sinking the plated steel sheet 4 in the plating bath 1 filled with the plating liquid 2 of liquid zinc, as shown in FIG. 1A. It is produced through a hot-dip plating process in which the plated steel sheet 4 is plated between (3) and the correcting roll (Correcting Roll) (5).

However, in such a hot-dip plating process, the hot water surface of the plating bath 1 is formed by a zinc deposit called dross generated by the amount of plating deposition on the plated steel plate, the high temperature liquid zinc in the plating bath, and the air in the atmosphere. The level is lowered, which causes a problem that the deposition length of the plating liquid 2 of the plated steel sheet 4 is changed due to fluctuations in the level of the bath surface of the plating bath 1. Further, in the hot dip plating process, in the case of adjusting the amount of plating escaped from the plating liquid 2 through an air knife provided, the plating amount is changed under different conditions than when the bath surface of the plating bath 1 is constant. There is a problem of adjusting.

Therefore, in the hot-dip plating process, an apparatus and a process for maintaining the bath surface level of the plating bath 1 at all times are essential. Thus, as shown in FIG. 1A or 1B, the zinc ingot 6 is applied to the plating bath 1. The plating solution 2 flowing over the volume of the injected zinc ingot 6 by injecting the zinc ingot 6 into the pre-melting pot 7 connected to the plating bath 1 is maintained. The plating bath 1 is replenished from the pre-melting port 7 so that the level of the surface of the plating bath 1 is kept constant.

However, injecting the zinc ingot 6 shown in FIGS. 1A and 1B causes the volume of the plating solution 2 to increase instantaneously, resulting in an inconsistent surface level as shown in FIG. 1C. That is, the zinc injecting method includes a pattern in which the hot water level of the plating bath 1 is instantaneously increased and the plating liquid 2 is gradually consumed for a predetermined time, and thus it is difficult to constantly manage the hot water level of the plating bath 1. There is a structural problem.

On the other hand, in the hot dip plating process, by applying the method of measuring the surface level of the plating bath 1 using the laser distance sensor 8 as shown in FIG. 2, the laser distance sensor 8 is relatively stable in flow of the surface level. The level of the bath surface is measured by irradiating laser light from the back surface of the plating bath 1. However, the dross generated during the hot dip plating process on the surface of the bath surface of the plating bath 1 has a lot of top dross 9, and thus, from the leisure distance sensor 8 for measuring the water level. If the irradiated laser light hits the surface of the irregular top dross 9 and may be diffusely reflected, this may lead to a false level measurement error. In particular, when such a measurement error occurs at the time when the zinc ingot (6) to be injected into the plating bath (1) can be fatal to the level management of the plating bath.

Therefore, an accurate plating bath surface level measurement technique is premised in the hot dip plating process, and it is urgent to provide a level adjusting device capable of responding to a change in the plating bath surface level quickly from the measured value.

The present invention has been made to overcome such a conventional problem, by using a laser distance sensor and the immersion rod to detect and maintain the bath surface level and temperature of the plating bath in real time to maintain a constant level and temperature of the plating bath The present invention relates to an apparatus and a method, and the apparatus and method for adjusting the level of the bath surface according to the present invention can make the deposition length of the steel sheet constant, thereby achieving uniform quality of the plated steel sheet.

The configuration of the bath surface level management apparatus of the plating bath according to the present invention for achieving the above object,

A laser distance sensor disposed on an upper portion of the plating bath and detecting a distance to an upper surface of the bath surface of the plating bath;

A reflection plate disposed at a point where the beam of the laser rangefinder is irradiated to prevent diffuse reflection of the laser beam;

An immersion rod which is deposited in the plating bath to adjust the plating bath bath surface level;

An input unit for outputting a tap level value measured from the laser distance sensor;

A comparator comparing the level of the water level output to the input unit with a preset level;

An instruction unit for instructing driving of the deposition rod when the value measured by the comparison unit is greater than or less than zero; And

And a driving part for driving the immersion rod according to the instruction of the instruction part.

In addition, in the hot water level management method of the plating bath according to the present invention for achieving the above object,

Heating the immersion rod deposited on the plating bath and measuring a bath surface level of the plating bath;

A second step of comparing a difference between the measured level and a reference level with a preset value;

A third step of comparing the difference between the measured level and the reference level with a preset value; and

And a fourth step of driving the dip rod to raise the dip rod if the difference between the measurement level and the reference level is greater than zero in the comparison step, and to lower the dip rod if less than zero. To provide.

 Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. It should be noted that reference numerals and like elements among the drawings are denoted by the same reference numerals and symbols as much as possible even though they are shown in different drawings. In the following description of the present invention, detailed descriptions of related well-known functions or configurations will be omitted when it is determined that the detailed description may unnecessarily obscure the subject matter of the present invention.

4 is a configuration diagram showing a measurement operation relating to the plating bath bath surface level management of the present invention. Referring to FIG. 4, the apparatus for leveling the bath surface of the plating bath according to the present invention is disposed on an upper portion of the plating bath and scans a laser beam to the upper surface of the bath, so that the distance from the upper surface of the bath to the upper surface of the plating bath is a laser distance sensor. It is measured by 18. At this time, in order to prevent diffuse reflection of the laser beam irradiated from the laser distance sensor 18 to the upper surface of the plating bath surface, a flat reflector 10 is installed in a portion where the laser beam of the upper surface of the plating bath is irradiated as shown in FIG. 3. do. Here, the reflective plate 10 is made of a ceramic material having no affinity with the plating solution in order to prevent surface contamination due to the adhesion of the plating solution, the reflecting plate 10 is fixed to the side of the plating bath to always be located at a constant coordinate. Place the device (11).

The water level value measured by the laser distance sensor 18 is output to the input unit 20 in the controller 50. At this time, the value output to the input unit 20 is transmitted to the comparator 30 to subtract the reference level of the water level value and compare with the preset value, when the value is greater than or less than 0, the deposition rod ( 12 is sent to the driver 14 for driving. More specifically, after subtracting the reference level value from the bath surface measurement level value, if the value is greater than 0, the immersion rod 12 is raised, and if it is less than 0, the immersion rod 12 is lowered into the plating bath. The dip rod 12 is deposited. Then, when the plating bath bath surface enters within the preset management range, the descent of the immersion rod 12 is stopped. In addition, when a zinc ingot is added to the plating bath to replenish zinc, or when the plating solution is replenished at the pre-melting port, the bath surface of the plating bath is rapidly increased by the addition of the plating solution. Maintain and manage the level of bathing surface of the plating bath by driving the immersion rod as a standard. The driving pattern of the immersion rod will be reversed to the plating bath surface level variation pattern of FIG. 1C. This action is repeatedly performed during the plating operation to reduce the plating liquid capacity and to inject zinc to replenish it.

Fig. 5 shows a flowchart of the plating bath bath surface level management functioning above.

When the plating operation is started to heat the heating wire of the immersion rod installed on the plating bath (S100) to maintain the temperature of the immersion rod similar to the temperature of the plating bath. The level of the bath surface of the plating bath during the plating operation is disposed above the plating bath to measure the distance to the top of the bath surface (S120), and compares the difference between the measured bath surface level and the reference bath surface level with a preset value. If a value larger than the value is measured (S140), if the difference between the measurement level and the reference level is greater than zero in the step (S140), the rod is raised (S180), if it is less than 0, the rod is lowered (S200). Then, when the plating bath bath surface enters within the preset management range, the rising or falling of the immersion rod 12 is stopped (S220) and ends.

The detailed description and contents of the drawings described above are limited to the preferred embodiments of the present invention, and the present invention is not limited thereto. It will be possible to substitute, change or delete the components according to the present invention within the scope of the technical idea of the present invention.

Therefore, the scope of the present invention should be determined by the appended claims rather than by the foregoing description and drawings.

The present invention not only makes the deposition length of the plated steel sheet constant by managing the level and temperature of the bath surface of the plating bath uniformly, but also the plating conditions by maintaining a constant distance to the air knife after the steel sheet leaves the plating bath. And it is effective to make plating adhesion conditions constant. This can reduce the cause of poor plating quality and contribute to the improvement in plating quality, such as alloying degree and coating weight.

Claims (4)

In the bath surface level management device of the plating bath, which maintains and manages the bath surface level and temperature of the plating bath constantly, A laser distance sensor disposed on an upper portion of the plating bath and detecting a distance to an upper surface of the bath surface of the plating bath; A reflection plate disposed at a point where the beam of the laser rangefinder is irradiated to prevent diffuse reflection of the laser beam; An immersion rod which is deposited in the plating bath to adjust the plating bath bath surface level; An input unit for outputting a water level value measured from the laser rangefinder; A comparator comparing the level of the water level output to the input unit with a preset level; An instruction unit for instructing driving of the deposition rod when the value measured by the comparison unit is greater than or less than zero; And The driving surface level management apparatus of the plating bath comprising a; drive unit for driving the immersion rod in accordance with the instruction of the indicating unit What is claimed is: 1. A method of managing a water level level of a plating bath, wherein the water level and temperature of a plating bath are constantly maintained and managed. Heating the immersion rod deposited on the plating bath and measuring a bath surface level of the plating bath; A second step of comparing a difference between the measured level and a reference level with a preset value; A third step of comparing the difference between the measured level and the reference level with a preset value; and And a fourth step of driving the dip rod to raise the dip rod if the difference between the measurement level and the reference level is greater than zero in the comparison step, and to lower the dip rod if less than zero. . The method of claim 1, The reflector is a plate level management device of the plating bath, characterized in that the ceramic material does not have affinity with the plating solution The method of claim 1, Plating bath hot water level management device characterized in that the immersion rod has a heating wire

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