JPH05277542A - Method and device for cooling steel strip - Google Patents

Abstract

PURPOSE:To execute cooling of a steel strip so as to coil the steel strip precisely at the coiling temp. set at <500 deg.C. CONSTITUTION:In the cooling method for cooling the steel strip by using a cooling device for front and back surfaces of the steel strip arranged at the upper part of a runout table on the outlet side of a hot finish rolling mill, the steel strip is cooled at the rate of water spray of 50-300l/min.m<2> when the front and back surface temps. of the steel strip have temp. range of <=500 deg.C. By this method, a high strength steel strip having excellent workability can stably be manufactured at a low cost.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel strip cooling device and a cooling method.

[0002]

2. Description of the Related Art Conventionally, a steel strip which has been finish-rolled by a hot finish rolling mill is cooled at a runout table at a temperature of 500 ° C.
Since it is designed to be wound on a coil at the above high temperature, the surface of steel strip (upper surface side) is cooled by pipe laminar flow or flat laminar flow, and the back surface (lower surface side) is sprayed with a high water density. Cooling and fountain cooling have been adopted.

When discussing the cooling of the above-mentioned steel strip, the heat transfer coefficient, which is an index showing the cooling capacity, is the surface temperature of the steel strip, the density of cooling water to the steel strip (the amount of cooling water supplied per unit area / unit time). , There is a correlation with the surface roughness of the steel strip and the temperature of cooling water. In particular, regarding the steel strip surface temperature, when other conditions are kept constant, the heat transfer coefficient tends to increase as the steel strip surface temperature decreases. This is film boiling cooling that produces a vapor film on the surface of the steel strip in the case of cooling at a high cooling start temperature of about 800 ° C, such as steel strip cooling, and this vapor film inhibits heat transfer. Therefore, the heat transfer coefficient is only low, but when the surface temperature of the steel strip decreases, this film becomes thinner,
Since heat can be easily transferred, the heat transfer coefficient is increased. When the temperature of the steel strip further decreases, the vapor film is cut off, and when the cooling water starts to directly contact the surface of the steel strip, nucleate boiling occurs, and the heat transfer coefficient rapidly increases.

FIG. 12 shows the temperature of the steel strip in the conventional cooling equipment.
Degree and heat transfer coefficient (kcal / hr · m ²・ C)
It is a graph showing an example, from the steel strip temperature of about 500 ℃
It can be seen that the heat transfer coefficient is increasing rapidly. And steel
Cooling that can control the zone temperature has a heat transfer coefficient of 2000 kc
al / hr ・ m²・ It may not be easy unless the temperature is below ℃
Inferred.

Conventionally, since the winding temperature of the steel strip is about 500 ° C. or higher, the nucleate boiling phenomenon does not occur. Recently, there has been an increasing demand to reduce the weight of automobiles from the viewpoint of energy saving and prevention of global environmental pollution. Therefore, in the iron and steel industry, it is necessary to establish a manufacturing technique of high-strength steel sheets having excellent workability. As a method for manufacturing such a high-strength steel sheet excellent in workability online at low cost, a steel strip is wound at a low temperature of 450 ° C or lower, and a transformation structure such as martensite or bainite generated at this time is used. Then, it is considered to secure strength and improve workability.

As a cooling method for winding the above-described steel strip at a low temperature, there is a technique disclosed in Japanese Patent Laid-Open No. 2-197312. The cooling method based on this technique is such that for a steel strip wound at 450 ° C., water injection from the upper surface is stopped and cooling is performed only from the lower surface in the transition region where nucleate boiling transitions. The main purpose of this is to prevent uneven cooling due to water on the top surface.
When winding at a lower temperature such as 50 ° C winding is required, the nucleate boiling will be completely done at the water density currently used, and the steel strip will be rapidly cooled and wound with high accuracy. It becomes difficult to control the temperature.

[0007]

When the steel strip after finish rolling is cooled by the cooling equipment installed in the conventional runout table in an attempt to manufacture the above-mentioned high strength steel sheet having excellent workability, the temperature of the steel strip is lowered. Is no problem up to about 500 ° C, but at the water density used at present, nucleate boiling cooling occurs when it falls below 500 ° C, so the heat transfer coefficient increases sharply and cools below the target 350-450 ° C. There is a problem that it does. Therefore, even if the winding temperature is measured and the feedback control is performed so as to reduce the cooling water amount of the cooling device as in the conventional case, the flow rate control cannot follow the temperature change of the steel strip, and the winding temperature with respect to the target temperature. There is a problem that the accuracy becomes poor.

Further, in the case of cooling by a pipe laminar flow or a flat laminar flow system, if the amount of cooling water is reduced, the laminar flow becomes unstable and uniform cooling cannot be performed. However, there is a problem in that it is impossible to cool, and the above-mentioned cooling water amount density of 1/7 to 1/8 of the conventional equipment must be installed together.

Further, in cooling the lower part of the steel strip, if the current amount of water in the spray nozzle is reduced, the spray becomes unstable and uniform cooling cannot be performed.
There is a problem that it is impossible to cool only with the technology disclosed in Japanese Patent No. 312 and the current cooling equipment, and the above-mentioned cooling water amount density of 1/7 to 1/8 of that of the conventional equipment must also be installed. is there.

The present invention has been made in order to solve the above-mentioned problems of the prior art. Even when the winding temperature of the steel strip is 450 ° C. or less, the cooling of the steel strip with less variation in the winding temperature is possible. It is intended to provide a facility and a cooling method.

[0011]

A method for cooling a steel strip according to the present invention is a method for cooling a steel strip by using a cooling device for the front and back surfaces of the steel strip provided on a runout table on the delivery side of a hot finish rolling mill. In the method, the steel strip is cooled at a water amount density of 50 to 300 l / min · m ² in a temperature range of 500 ° C or lower.

A first steel strip cooling device according to the present invention is a cooling device for a steel strip upper surface provided above a runout table on the delivery side of a hot finish rolling mill, wherein the laminar nozzle cools the upper surface of the steel strip. A plurality of cooling water headers that are provided in the width direction and the length direction of the steel strip, and a cooling water header that also has a spray nozzle that cools the upper surface of the steel strip in the width direction and the length direction of the steel strip. Applicable cooling water that is provided and determines which of the two types of thermometer that detects the temperature of the steel strip and the cooling water header that supplies cooling water based on the temperature signal sent from the thermometer The header determining means and the applicable cooling water header selecting means for selecting the applicable cooling water header based on a command from the applicable cooling water header determining means are provided.

A second steel strip cooling apparatus according to the present invention is a steel strip lower surface cooling apparatus provided below a runout table on the delivery side of a hot finish rolling mill, wherein a spray nozzle for cooling the lower surface of the steel strip is used. A first cooling water header provided with a plurality of in the width direction and the length direction of the steel strip, and a spray nozzle different from the first cooling water header in which the injection amount per constant time for cooling the lower surface of the steel strip is different. A plurality of second cooling water headers that are provided in the width and length directions of the steel strip are provided so as to be wrapped, and cooling is performed based on a thermometer that detects the temperature of the steel strip and the temperature signal sent from the thermometer. Applicable cooling water header determination means for determining which of the two types of cooling water headers to supply water to be applied, and application cooling water header selection based on a command from the applied cooling water header determination means. It is provided with a 却水 header selection unit.

A third steel strip cooling apparatus according to the present invention is a steel strip lower surface cooling apparatus provided under a runout table on the delivery side of a hot finish rolling mill, which cools the lower surface of the steel strip. Cooling water header having a plurality of water two-fluid mist nozzles in the width and length directions of the steel strip, and cooling water having a plurality of spray nozzles for cooling the lower surface of the steel strip in the width and length directions of the steel strip. Which of the above two types is to be used, the header being wrapped and the thermometer for detecting the temperature of the steel strip and the cooling water header for supplying the cooling water based on the temperature signal sent from the thermometer? And an applicable cooling water header selection means for selecting an applicable cooling water header based on a command from the applied cooling water header determination means.

A fourth steel strip cooling device according to the present invention is a steel strip lower surface cooling device provided below a runout table on the delivery side of a hot finish rolling mill, wherein a gas for cooling the lower surface of the steel strip is used. Cooling water header equipped with multiple water two-fluid mist nozzles in the width and length directions of the steel strip, a thermometer for detecting the temperature of the steel strip, and corresponding to that temperature based on the temperature signal sent from the thermometer The cooling water amount calculating means for calculating the amount of cooling water and the cooling water amount controlling means for controlling the amount of cooling water supplied to the cooling water header according to a command from the cooling water amount calculating means.

[0016]

In the method for cooling a steel strip according to the present invention, when the front and back temperature of the steel strip is 500 ° C. or less, the temperature is 50 to 50 ° C.
It is designed to cool at a low water density of 300 l / min · m ² . This was done at 50-300 l / min · m ²
Cooling at a low water density of 2000 kcal / hr enables temperature control of the heat transfer coefficient below 500 ° C.
Since it can be suppressed to m ² · ° C or less, the winding temperature can be accurately controlled to the target temperature even when the winding temperature of the steel strip is 500 ° C or less.

The first steel strip cooling device according to the present invention is a cooling water header provided with a laminar nozzle, which cools a steel strip having a surface temperature exceeding 500 ° C., and a cooling water header provided with a spray nozzle. Since the steel strip having a surface temperature of 500 ° C. or less can be cooled, the low temperature winding of the steel strip can be stably realized without significantly increasing the cooling equipment.

In the second steel strip cooling device according to the present invention, the spray nozzle of the first cooling water header is a nozzle capable of achieving a large water density, and the spray nozzle of the second cooling water header is a small water quantity. With a nozzle that can achieve density,
The first cooling water header cools the steel strip whose surface temperature exceeds 500 ° C, and the second cooling water header cools the surface temperature to 500 ° C.
Since the steel strip having a temperature of ℃ or less can be cooled, the low temperature winding of the steel strip can be stably realized without significantly increasing the cooling equipment.

A third steel strip cooling device according to the present invention is a cooling water header provided with a gas-water two-fluid mist nozzle for cooling a steel strip having a surface temperature of 500 ° C. or less and provided with a spray nozzle. Cooling water header with surface temperature of 500 ℃
Since it is possible to cool the steel strip exceeding the above range, it is possible to stably realize the low-temperature winding of the steel strip without significantly increasing the cooling equipment.

Since the fourth steel strip cooling device according to the present invention uses the cooling water header provided with the gas-water two-fluid mist nozzle, by changing the ratio of gas to water, that is, The cooling water can be cooled by increasing the amount of cooling water when performing rapid cooling, and by decreasing the cooling water when performing slow cooling. Therefore, the low-temperature winding of the steel strip can be stably realized without significantly increasing the cooling equipment.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the steel strip cooling method of the present invention will be described with reference to FIG. Fig. 1 shows the steel strip temperature as a parameter.
It is a graph which shows the relationship between the water amount density (l / min * m < ² >) and the heat transfer coefficient (kcal / hr * m < ² > * degreeC) from a steel strip to cooling water. 200, 300, 350, 400 and 450
It is 50, 100, 140, 180 and 300 l / min · m ² that the heat transfer coefficient becomes 2000 kcal / hr · m ² · ° C at each temperature of 50 ° C to 300 l / min. If and cooling in water density of m ^2, when winding the strip at a coiling temperature of 200 to 450 ° C., it is than taken up by coiling temperature of accurately target, thereby while ensuring the strength of the steel strip Workability can be improved.

Next, the first steel strip cooling apparatus of the present invention will be described with reference to FIG. FIG. 2 is a block diagram showing the configuration and operating method of the first steel strip cooling device of the present invention. The first steel strip cooling device of the present invention has two types, which are provided by wrapping a thermometer 1 for measuring the surface temperature of the steel strip and a cooling water header for supplying cooling water according to a temperature signal from the thermometer 1. Cooling water header determination means 2 for determining which of the cooling water headers to use, and applied cooling water header selection means 3 for selecting an applicable cooling water header based on a command from the applied cooling water header determination means 2. , A cooling water header 4 having a laminar nozzle provided by wrapping, and a cooling water header 5 having a spray nozzle.

FIG. 3 (a) is a partial longitudinal sectional view of a cooling water header of a first steel strip cooling device of the present invention, and FIG. 3 (b) is a first steel strip cooling device cooling water of the present invention. It is a top view which shows arrangement | positioning of the spray nozzle of a header. The cooling water header of the first steel strip cooling device of the present invention is adjacent to the traveling direction of the pipe laminar nozzle 6 that is above the steel strip 41 and is connected to the cooling water header 4 that has been used conventionally. A spray nozzle 7 connected to the cooling water header 5 is arranged at the same interval (l ₁ ) as the pipe laminar nozzle 6 so as to be located in the central portion between the nozzles 6 (l ₁ ). Further, in the width direction, six spray nozzles 7 are arranged with respect to the maximum cooling width.

FIG. 4 shows a cooling apparatus consisting of 15 banks of the runout table after the final stand 51 of the finishing rolling mill. It is explanatory drawing which shows the example which cools the steel strip 41 by applying the 1st cooling device of invention.

FIG. 5 is a graph showing the temperature history when the steel strip 41 is cooled by the cooling equipment shown in FIG. 4 and is wound at 350 to 450 ° C. Up to point C in the figure is cooling by a conventional cooling device, and from point C to winding, the coiling temperature is 350 to 450 ° C. using the first steel strip cooling device of the present invention.
So that the water content density is 140 to 300 l / min · m ² .

Within such a coiling temperature, there is little variation in the coiling temperature with respect to the target coiling temperature in any of the cases, and the above-described high-strength steel plate with excellent workability for automobiles can be stably manufactured. I found out. The accuracy of the winding temperature is, for example, 400 ° C., when the first steel strip cooling device of the present invention is used to cool the wound material, and when the conventional device is used, 400 ± 80 ° C. ± 20
℃.

Next, a second steel strip cooling device of the present invention will be described with reference to FIG. FIG. 6 is a block diagram showing the configuration and operating method of the second steel strip cooling device of the present invention. The second steel strip cooling device of the present invention includes two types of thermometers 11 for measuring the surface temperature of the steel strip and a cooling water header for supplying cooling water according to a temperature signal from the thermometer 11 in a wrapped manner. Cooling water header determination means 12 for determining which of the cooling water headers to use, and applied cooling water header selection means 13 for selecting an applicable cooling water header based on a command from the applied cooling water header determination means 12. , A first cooling water header 14 in which a spray nozzle provided by wrapping is a nozzle capable of achieving a large water amount density, and a second cooling water header 15 in which a spray nozzle is a nozzle capable of achieving a small water amount density. It

FIG. 7 is a vertical sectional view showing a cooling water header of a second steel strip cooling device of the present invention. The cooling water header of the second steel strip cooling device of the present invention comprises a large water density spray nozzle 16 for cooling from the lower surface side of the steel strip 41 when the surface temperature of the steel strip exceeds 500 ° C. The first cooling water header 14 and the surface temperature of the steel strip are 500 ° C.
The first cooling water header 15 provided with the spray nozzle 17 having a small water amount density, which is also cooled from the lower surface side of the steel strip in the following state, is alternately arranged in parallel and the respective cooling headers 14 and 15 are provided. , A plurality of spray nozzles 16 and 17 are arranged in the width direction.

The cooling water header of the cooling device for the second steel strip according to the present invention is also arranged as shown in FIG. 4, like the cooling water header for the cooling device for the first steel strip according to the present invention. Cooling can be provided for cold winding as described.

Next, a third steel strip cooling device of the present invention will be described with reference to FIG. FIG. 8 is a block diagram showing the configuration and operating method of the third steel strip cooling device of the present invention. The third steel strip cooling device according to the present invention has two types, which are provided by wrapping a thermometer 21 for measuring the surface temperature of the steel strip and a cooling water header for supplying cooling water by a temperature signal from the thermometer 21. Cooling water header determination means 22 for determining which of the cooling water headers to use, and applied cooling water header selection means 23 for selecting an applicable cooling water header based on a command from the applied cooling water header determination means 22. The wrapping spray nozzle is composed of a first cooling water header 24 having a gas-water two-fluid nozzle and a second cooling water header 25 having a spray nozzle.

FIG. 9 is a longitudinal sectional view showing a cooling water header of a third steel strip cooling device of the present invention. The cooling water header of the third steel strip cooling device of the present invention includes a gas-water two-fluid nozzle 26 that cools from the lower surface side of the steel strip 41 when the surface temperature of the steel strip is 500 ° C. or lower. And a second cooling water header 25 including a first cooling water header 24 and a spray nozzle 27 that cools from the lower surface side of the steel strip 41 when the surface temperature of the steel strip exceeds 500 ° C.
Are alternately arranged in parallel, and each cooling header 24 and 25 has a gas-water two-fluid nozzle 2 in the width direction.
6 and a plurality of spray nozzles 27 are arranged.

The cooling water header of the cooling device for the third steel strip according to the present invention is arranged as shown in FIG. 4 as in the cooling water header for the cooling device for the first steel strip according to the present invention. Cooling can be provided for cold winding as described.

Next, a fourth steel strip cooling device of the present invention will be described with reference to FIG. FIG. 10 is a block diagram showing the configuration and operating method of the fourth steel strip cooling device of the present invention. A fourth steel strip cooling device of the present invention comprises a thermometer 31 for measuring the surface temperature of the steel strip, and a cooling water amount calculating means 32 for calculating the amount of cooling water supplied by a temperature signal from the thermometer 31.
And a cooling water amount control means 3 for controlling the amount of cooling water supplied to the cooling water header according to a command from the cooling water amount calculation means 32.
3 and a cooling water header 34 having a gas-water two-fluid nozzle capable of adjusting the amount of cooling water supplied.

FIG. 11 is a vertical sectional view showing a cooling water header of the fourth steel strip cooling device of the present invention. The cooling water header of the fourth steel strip cooling device of the present invention includes a cooling water header 34 having a gas-water two-fluid nozzle 35 for supplying cooling water from the lower surface side of the steel strip 41, and this cooling water header 34.
And an air pipe 36 for supplying air to the gas-water two-fluid nozzle 35. Since it is a gas-water two-fluid nozzle, it is possible to perform stable cooling from rapid cooling to slow cooling by increasing or decreasing the amount of cooling water supplied.

The cooling water header of the cooling device for the fourth steel strip according to the present invention is arranged as shown in FIG. 4 as in the cooling water header for the cooling device for the first steel strip according to the present invention. Cooling can be provided for cold winding as described.

[0036]

According to the present invention, a high-strength steel sheet having excellent workability can be stably manufactured at low cost.

[Brief description of drawings]

FIG. 1 is a graph showing a relationship between a water amount density and a heat transfer coefficient, which is a basis of a steel strip cooling method according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a first cooling device of the present invention.

FIG. 3 shows a cooling water header of a first cooling device of the present invention, (a) is a partial vertical cross-sectional view, and (b) is a plan view showing a nozzle arrangement.

FIG. 4 is an explanatory diagram showing an example in which the first cooling device of the present invention is applied to cooling a steel strip.

FIG. 5 is a graph showing a temperature history of a steel strip.

FIG. 6 is a block diagram showing a configuration of a second cooling device of the present invention.

FIG. 7 is a vertical cross-sectional view showing a cooling water header of the second cooling device of the present invention.

FIG. 8 is a block diagram showing a configuration of a third cooling device of the present invention.

FIG. 9 is a vertical cross-sectional view showing a cooling water header of a third cooling device of the present invention.

FIG. 10 is a block diagram showing a configuration of a fourth cooling device of the present invention.

FIG. 11 is a vertical sectional view showing a cooling water header of a fourth cooling device of the present invention.

FIG. 12 is a graph showing an example of the relationship between the temperature of the steel strip and the heat transfer coefficient in the conventional cooling equipment.

[Explanation of symbols]

 1 Thermometer 2 Cooling Water Header Judging Means 3 Applicable Cooling Water Header Selecting Means 4 Cooling Water Header 5 Cooling Water Header 6 Pipe Laminar Nozzle 7 Spray Nozzle 11 Thermometer 12 Cooling Water Header Judging Means 13 Applied Cooling Water Header Selecting Means 14 First Cooling water header 15 Second cooling water header 16 Large water volume density spray nozzle 17 Small water volume density spray nozzle 21 Thermometer 22 Cooling water header determining means 23 Applied cooling water header selecting means 23 24 First cooling water header 25 Second cooling water header 26 Gas-water two-fluid nozzle 27 Spray nozzle 31 Thermometer 32 Cooling water amount calculation means 33 Cooling water amount control means 34 Cooling water header 35 Gas-water two-fluid nozzle 36 Air piping

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tsuneo Kazama 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Nihon Kokan Co., Ltd. (72) Yoshitaka Hayashi 1-2-1 Marunouchi, Chiyoda-ku, Tokyo Inside the Steel Pipe Co., Ltd. (72) Inventor Tomoyuki Kato 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Japan Steel Pipe Inside Co., Ltd. (72) Politics Toyama, 1-2-1 Marunouchi, Chiyoda-ku, Tokyo Within the corporation

Claims (5)

[Claims] 1. A cooling method for cooling a steel strip by using a cooling device for the front and back surfaces of the steel strip provided on a runout table on the delivery side of a hot finish rolling mill, wherein the temperature range of the steel strip front and back surfaces is 500 ° C. or lower. The method for cooling a steel strip is characterized in that the cooling is performed at a water amount density of 50 to 300 l / min · m ² . 2. A cooling device for the upper surface of a steel strip provided above a runout table on the delivery side of a hot finish rolling mill, wherein a plurality of laminar nozzles for cooling the upper surface of the steel strip are provided in the width direction and the length direction of the steel strip. A cooling water header and a spray nozzle for cooling the upper surface of the steel strip are also provided by wrapping a cooling water header provided in the width direction and the length direction of the steel strip, and a thermometer for detecting the temperature of the steel strip, Based on the temperature signal sent from the thermometer, the applicable cooling water header determining means for determining which of the two types of cooling water header to supply the cooling water, and the command from the applicable cooling water header determining means A cooling device for a steel strip, comprising: an applicable cooling water header selecting means for selecting an applicable cooling water header based on the above. 3. A cooling device for the lower surface of the steel strip provided below the runout table on the delivery side of the hot finish rolling mill, wherein a plurality of spray nozzles for cooling the lower surface of the steel strip are provided in the width direction and the length direction of the steel strip. A first cooling water header and a plurality of spray nozzles for cooling the lower surface of the steel strip which are different from those of the first cooling water header in the same time for cooling the lower surface of the steel strip in the width direction and the length direction of the steel strip. A cooling water header for wrapping the second cooling water header, a thermometer for detecting the temperature of the steel strip, and a cooling water header for supplying the cooling water based on the temperature signal sent from the thermometer, out of the two types. It is characterized in that an applied cooling water header determination means for determining which to use and an applied cooling water header selection means for selecting an applied cooling water header based on a command from the applied cooling water header determination means are provided. Steel strip cooling system. 4. In a cooling device for the lower surface of a steel strip provided below a runout table on the delivery side of a hot finish rolling mill, a gas-water two-fluid mist nozzle for cooling the lower surface of the steel strip is provided in the width direction and length of the steel strip. Direction, multiple cooling water headers and spray nozzles for cooling the bottom surface of the steel strip are also provided by wrapping multiple cooling water headers in the width and length directions of the steel strip. A thermometer to detect
Based on the temperature signal sent from the thermometer, the applicable cooling water header determining means for determining which of the two types of cooling water header to supply the cooling water, and the command from the applicable cooling water header determining means A cooling device for a steel strip, comprising: an applicable cooling water header selecting means for selecting an applicable cooling water header based on the above. 5. In a cooling device for the lower surface of a steel strip provided below a runout table on the delivery side of a hot finish rolling mill, a gas-water two-fluid mist nozzle for cooling the lower surface of the steel strip is provided in the width direction and length of the steel strip. A plurality of cooling water headers provided in each direction, a thermometer that detects the temperature of the steel strip, cooling water amount calculation means that calculates the cooling water amount corresponding to that temperature based on the temperature signal sent from the thermometer, and the cooling water amount A cooling device for a steel strip, comprising: a cooling water amount control device for controlling an amount of cooling water supplied to the cooling water header in accordance with a command from a computing device.