KR101167621B1 - Multi-injection type cooling system for thick plate or steel plate - Google Patents

Abstract

PURPOSE: A multi-spray cooling system for a thick plate or a steel plate is provided to improve cooling efficiency by enhancing contact between cooling water and an object by removing remaining cooling water. CONSTITUTION: A multi-spray cooling system for a thick plate or a steel plate comprises a transfer unit(110), a plurality of cooling water spray units(120), and a plurality of air spray units. The transfer unit transfers a thick plate or steel plate(S). The plurality of cooling water spray units spray cooling water to the thick plate or steel plate. The air spray units surround the respective cooling water spray units and spray compressed air to remove cooling water remaining in the thick plate or steel plate. The plurality of air spray units are radially installed in a position separated from the periphery of the cooling water spray units.

Description

MULTI-INJECTION TYPE COOLING SYSTEM FOR THICK PLATE OR STEEL PLATE}

The present invention relates to a multi-jet cooling system for thick plates or steel sheets, and more particularly, to a multi-jet cooling system for thick plates or steel sheets that can improve the contact between the thick plate or steel sheet and the cooling water.

In general steel manufacturing process, first, iron ore, sinter ore and coke are injected into the smelting furnace, and then heat is used to melt the iron ore to make molten iron. After charging the scrap metal and the raw materials into the converter, the oxygen is blown to remove impurities from the molten iron and the necessary components are added to make the desired component and the molten steel at the proper temperature. Third, the molten steel produced in the steelmaking process ), Continuous casting process to directly manufacture the desired semi-finished slab by injecting and cooling it continuously. Fourth, the semi-finished product produced in continuous casting is transferred to the thick plate factory for reheating, and then the predetermined shape and dimensions in each hot rolling mill. In other words, the process of producing a product having a shape of a semi-finished product is heated and pressed between two rolls to form a variety of forms. It is divided into a rolling step including creating a material.

In particular, the rolling process is rolled to a desired thickness in the rolling mill, and then is quickly cooled to a cooling temperature suitable for the material of each specification while being transported through the roller table, the cooling process of such a thick plate or steel sheet is recognized as very important.

1 schematically shows an example of a conventional multi-jet cooling system for thick plates or steel sheets.

However, as shown in FIG. 1, in the conventional cooling system 10 for cooling such a thick plate or steel sheet, some of the cooling water sprayed from the nozzle 12 remains on the cooling target S such as the thick plate or steel sheet. Thus, the residual water W is generated, and the residual water W prevents direct contact between the cooling water injected later and the cooling target S. In particular, the residual phenomenon of the coolant occurs on the position corresponding to the region where the nozzle 12 is not provided between the neighboring nozzles 12, and thus the region A corresponding to the region where the surrounding nozzle 12 is provided. Spread out.

That is, the coolant newly sprayed by the remaining water W remaining on the cooling target S is not in direct contact with a part of the cooling target S and is consumed inefficiently, thereby reducing the overall cooling system 10. There was a problem that the cooling performance and cooling efficiency is greatly reduced.

Accordingly, an object of the present invention is to solve such a conventional problem, and to prevent the cooling water stays in the cooling object such as the thick plate or steel plate so that the cooling water directly contacts the cooling object such as the thick plate or steel plate. The present invention provides a multi-jet cooling system for thick plates or steel sheets which can improve performance and cooling efficiency.

The object is, according to the present invention, a cooling system for cooling a thick plate or a steel plate, the transfer unit for transferring the thick plate or the steel sheet; A plurality of coolant spray units for spraying coolant toward the thick plate or the steel sheet; An air injection unit disposed to surround each of the plurality of cooling water injection units, and spraying compressed air to the rear plate or the steel plate to remove the coolant remaining on the rear plate or the steel plate. It is achieved by a multi-jet cooling system for a thick plate or steel plate, characterized in that a plurality of radially provided at a position spaced apart from the outer peripheral surface of the cooling water injection.

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In addition, the air injection unit may be of a slit type.

The apparatus may further include a controller configured to control an injection speed of air connected to the air injection unit for each injection unit.

According to the present invention, there is provided a multi-jet cooling system for thick plates or steel sheets which can prevent the cooling water from remaining on the thick plates or steel sheets to be cooled during cooling.

In addition, by forcibly removing the existing cooling water, the contact between the injected cooling water and the cooling object can be improved.

1 schematically shows an example of a conventional cooling system for thick plates or steel sheets,
2 is a schematic perspective view of a multi-jet cooling system for thick plates or steel sheets according to a first embodiment of the present invention,
3 is a schematic bottom perspective view of the jetting portion of the multi-jet cooling system for thick plate or steel sheet of FIG.
4 is for explaining the principle that the residual water is removed from the cooling target by the operation of the multi-jet cooling system for the thick plate or steel sheet of FIG.
5 is a modification of the jetting portion of the multi-jet cooling system for thick plate or steel sheet of FIG.
6 is a schematic bottom perspective view of an injection part of a multi-jet cooling system for thick plates or steel plates according to a second embodiment of the present invention;
7 is a modification of the jetting part of the multi-jet cooling system for thick plate or steel sheet according to FIG.

Prior to the description, components having the same configuration are denoted by the same reference numerals as those in the first embodiment. In other embodiments, configurations different from those of the first embodiment will be described do.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the multi-jet cooling system for thick plate or steel sheet according to a first embodiment of the present invention.

5 is a schematic bottom perspective view of an injection unit of a multi-jet cooling system for a thick plate or a steel plate according to a second embodiment of the present invention.

2, the multi-jet cooling system for a thick plate or steel sheet according to the first embodiment of the present invention is improved by preventing the cooling water stays on the upper side of the thick plate or steel sheet to be the cooling target (S) during cooling The present invention relates to a cooling system for implementing a cooling efficiency, and includes a transfer unit 110, an injection unit 120, and a control unit 130.

The transfer unit 110 is a transfer module for transferring a cooling target (S), such as a thick plate or steel plate, in the present embodiment is provided in the form of a roller table, but is not limited thereto, and the weight, material, etc. of the cooling target It may be designed in various forms in consideration of comprehensive consideration.

FIG. 3 is a schematic bottom perspective view of the jet of the multi-jet cooling system for thick plate or steel sheet of FIG. 2; FIG.

Referring to FIG. 3, the sprayer 120 simultaneously sprays the cooling water for cooling the cooling target S and the compressed air for preventing the cooling water from remaining on the cooling target S. As a cooling water injection unit 121 and the air injection unit 122 is included.

The cooling water injection unit 121 is provided on the upper side of the transfer unit 110 as described above for injecting the cooling water toward the cooling target (S) being transferred from below, in a form projecting downward from the lower surface of the predetermined casing (C). It is composed.

The casing C is a hexahedral box-shaped member that forms a space for accommodating cooling water therein, and is formed long in the width direction of the cooling target.

On the other hand, the plurality of cooling water injection unit 121 formed on the lower surface of the casing (C) is provided in a circular cross-sectional shape, but is not limited to this, the material of the cooling target (S), the transfer of the cooling target (S) It is preferable to determine the shape of the cross section in consideration of the speed, the surface temperature condition of the heated cooling object S, and the like.

The air injector 122 is a member for injecting compressed air downward in order to prevent the cooling water from remaining on the thick plate or steel sheet to be the cooling target S to form the retained water. It is provided in the form of surrounding the outer circumferential surface.

That is, the air injector 122 has a circular outer wall larger than the coolant injector 121 at the same center as the coolant injector 121 and is disposed to surround the coolant injector 121. The convex structure of the dead part 121 has a structure in which air flows and is injected into a space formed between the coolant injection part 121.

The controller 130 is to control the flow rate and the injection speed of the air or cooling water to be injected for each cooling water injection unit 121 and the air injection unit 122.

The operation of the first embodiment of the multi-jet cooling system for thick plates or steel plates described above will now be described.

4 is a view for explaining the principle that the residual water is removed from the cooling target by the operation of the multi-jet cooling system for the thick plate or steel sheet of FIG.

First, the multi-jet cooling system 100 for the thick plate or steel sheet of the present embodiment is installed in the rear step of the rolling process, if the cooling target (S) in a heated state by passing through the rolling process is continuously transferred by the transfer unit 110 The cooling water nozzle unit 121 operates to cool the cooling target S transferred by spraying the cooling water downward.

At the same time, the controller 130 operates the air injector 122 surrounding the coolant injector 121 in a concentric manner with the coolant injector 121 so that the compressed air is injected toward the cooling object S below. do.

By simultaneous operation of the coolant spray unit 121 and the air spray unit 122, the coolant is discharged in a form surrounded by compressed air to contact the cooling target S and perform a cooling process.

On the other hand, as shown in Figure 4, the coolant is not directly injected to the region of the cooling target (S) corresponding to the space between the cooling water injection unit 121 disposed adjacent to, the neighboring cooling water injection unit 121 It forms the boundary of the cooling water sprayed from the field.

In the region that forms the boundary between the coolants on the cooling target S, mutual flow interference by the cooling water is caused, and even after cooling is completed by the flow interference between the cooling waters, some cooling water is not separated from the upper surface of the cooling target S and continues. Will stay.

However, in the present embodiment, the compressed air injected from the air injector 122 on the interface between the cooling water prevents the cooling water from remaining on the upper surface of the cooling object S, and at the same time, The cooling water which stayed is removed from the cooling target S.

Therefore, according to the multi-jet cooling system 100 for the thick plate or steel sheet of the present embodiment, the compressed air is injected in the form of wrapping the outer surface of the cooling water during the cooling process so that the cooling water is quickly released from the cooling target S immediately after cooling. It is possible to prevent the generation of water at the source and to improve the overall cooling efficiency.

In addition, the cooling water sprayed in advance in the cooling process is not removed after reaching the cooling target (S) is forcibly removed from the residual water generated by forced removal, the direct contact between the cooling water and the cooling target (S) sprayed after To improve the overall cooling efficiency.

FIG. 5 is a modification of the jetting part of the multi-jet cooling system for thick plate or steel sheet of FIG. 2.

Meanwhile, in the present exemplary embodiment, the cooling water injection unit 121 and the air injection unit 122 are described to protrude downward from the casing C. However, in the modified example shown in FIG. 5, each cooling water injection unit 121 ′ is used. ) And the air injector 122 ′ form a flow path inside the casing C, and a through-type spray surface is formed on the lower surface of the casing C so that the injector 120 ′ is the casing C. It may be formed integrally with).

Next, a multi-jet cooling system for thick plates or steel sheets according to a second embodiment of the present invention will be described.

The multi-jet cooling system for thick plates or steel sheets 200 according to the second embodiment of the present invention prevents the cooling water from remaining on the upper side of the thick plates or steel sheets to be the cooling target S during cooling, thereby realizing improved cooling efficiency. The present invention relates to a system including a conveying unit (110), a spraying unit (220) and a control unit (130).

However, the transfer unit 110 and the control unit 130 of the present embodiment is the same as the above-described configuration in the first embodiment, and the duplicate description is omitted.

Figure 6 is a schematic bottom perspective view of the jetting portion of the multi-jet cooling system for a thick plate or steel plate according to a second embodiment of the present invention.

As shown in FIG. 6, the spray unit 220 includes a coolant spray unit 221 and an air spray unit 222, and the coolant spray unit 221 has the same structure as in the first embodiment. .

In the present embodiment, the air injector 222 is not provided to completely surround the outer circumferential surface of the coolant injector 221, but surrounds the coolant injector 221 and is provided in a separate nozzle form to provide a coolant injector ( 221 is spaced apart from the form.

The air jetting unit 222 has a slit-shaped rectangular cross section, and a total of four air jetting units 222 are allocated to any cooling water jetting unit 221, and each air jetting unit 222 is a coolant. It is disposed on a virtual concentric circle formed around the injection unit 221.

That is, the arrangement structure of the coolant injection unit 221 and the air injection unit 222 will be described again. The casing C has a circular cross section and a plurality of coolant injection units 221 spaced at equal intervals protrude downward. Slit-type air injection holes 222 having a rectangular cross section are respectively disposed on the upper side, the lower side, and both sides of the cooling water injection unit 221 arbitrarily selected.

Therefore, according to the present embodiment, a plurality of air injectors 222 are allocated to each cooling water injector 221, and the controller 130 controls the injection speed and the flow rate of the compressed air for each air injector 222. Since it is possible to maintain the water remaining in the cooling target S, it is possible to control more easily.

7 is a modification of the jetting part of the multi-jet cooling system for thick plate or steel sheet according to FIG.

Meanwhile, in the present exemplary embodiment, the cooling water injection unit 221 and the air injection unit 222 are formed to protrude downward from the casing C. However, in the modification illustrated in FIG. 7, each cooling water injection unit 221 ′ is used. ) And the air injector 222 ′ form a flow path inside the casing C, and a through-type spray surface is formed on the lower surface of the casing C so that the injector 220 ′ is the casing C. It may be formed integrally with).

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person skilled in the art to which the present invention pertains falls within the scope of the claims described in the present invention to various extents which can be modified.

100: multi-jet cooling system for thick plate or steel sheet according to the first embodiment of the present invention
110: transfer unit 120: injection unit
121: coolant injection unit 122: air injection unit
130: control unit

Claims (5)

In a cooling system for cooling a thick plate or steel sheet,
A transfer unit for transferring the thick plate or the steel sheet;
A plurality of coolant spray units for spraying coolant toward the thick plate or the steel sheet;
And an air injection unit disposed to surround each of the plurality of cooling water injection units, and spraying compressed air to the rear plate or the steel plate to remove the coolant remaining on the rear plate or the steel plate.
The air injection unit is a multi-jet cooling system for a thick plate or steel plate, characterized in that a plurality of radially provided in a position spaced from the outer peripheral surface of the cooling water injection unit. The method of claim 1,
The air injection unit is a multi-stage cooling system for a thick plate or steel sheet, characterized in that the slit (slit) type. The method according to claim 1 or 2,
And a control unit for controlling the injection speed of the air injected in connection with the air injection unit for each of the air injections. delete delete

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