KR101023110B1 - Water cooling apparatus of hot coil - Google Patents

Abstract

The present invention relates to a water cooling device for a hot rolled coil, comprising a rotating roller 10 which is rotationally driven by a drive motor 50, a fixed roller 20 arranged to be parallel to the rotating roller 10 at a predetermined interval, Hollow pipe-shaped idle drums 30 fitted to both sides of the fixed roller 20 so as to allow idle rotation in the axial direction, and both sides of the hot rolled coil supported by the rotary roller 10 and the idle drum 30. An edge nozzle 80 installed to inject coolant toward the edge portion, and a central nozzle 70 disposed at a central portion of the fixed roller 20 to inject coolant toward the hot rolled coil. In this case, by spraying the cooling water to the center portion and the edge portion of the hot rolled coil has an excellent effect that can suppress the occurrence of the cooling deviation of the center portion and the edge portion.

Hot rolled coil, cooling, rotation, temperature sensor, drive motor

Description

Water cooling apparatus of hot rolled coil

1 is a perspective view showing a working situation of cooling a hot rolled coil using a water cooling device according to the prior art;

2 is a schematic diagram showing an operation situation of cooling a hot rolled coil using a water cooling device according to the present invention;

3 is a perspective view showing a water cooling device of a hot rolled coil according to the present invention;

Figure 4 is an exploded perspective view showing a rotating roller configuration of the present invention;

5 is an exploded perspective view showing the structure of the fixing roller of the present invention.

[Description of Reference Numerals]

C: hot rolled coil 10: rotary roller

12A, 12B: protrusion 20: fixed roller

30: idle drum 40: slider

50: drive motor 60: cylinder

70: center nozzle 90: temperature sensor

The present invention relates to a water cooling device of a hot rolled coil, and more particularly, by performing water cooling for each hot rolled coil separately, water cooling suitable for the specifications and temperature of the hot rolled coil is possible, and a center portion and an edge portion of the hot rolled coil are provided. The present invention relates to a water cooling device for a hot rolled coil, which is capable of suppressing the occurrence of cooling deviations in the center portion and the edge portion by injecting cooling water into the respective portions.

In general, a hot rolled steel sheet wound by a coil is moved to a cooling place by a conveying device, placed on a skid, and cooled by spraying of coolant.

The prior art for the water cooling device of such a hot rolled coil is as shown schematically in Figure 1, which is a long length of the cooling water supply pipe 120A (120B) as disclosed in Korean Patent Publication No. 2003-9664 Installed side by side, the pair of skids 110 between the cooling water supply pipe (120A) (120B) is arranged in several places apart from the predetermined distance along the longitudinal direction of the cooling water supply pipe (120A, 120B), The cooling water supply pipes 120A and 120B have a configuration in which the cooling water injection nozzle 122 is mounted to spray the cooling water toward the edge portion of the coil C loaded on the skid 110.

That is, after placing a plurality of hot rolled coils (C) to be cooled in pairs of skids (110), and opening the valve (not shown), the cooling water injection nozzles (122) are sprayed to the edge of the coil (C). Cooling of the coil C is performed by the cooling water.

However, in the above-described conventional technique, a plurality of coils C located between the coolant supply pipes 120A and 120B are bundled into one cooling group, and the cooling and cooling termination for the cooling group If the coils (C) belonging to the same cooling group all have the same specification and temperature, it is effective, but if each of the coils (C) belonging to the same cooling group has different specification and temperature Some coils C are overcooled, while some coils C are not sufficiently cooled.

In addition, since the cooling method according to the related art described above injects coolant only to the edge portion of the coil C, a cooling deviation occurs in which the degree of cooling at the edge portion and the central portion of the coil C is different. This was to have a fatal problem causing a variation in quality with respect to the width direction of the steel sheet.

The present invention is to solve the above-mentioned problems, to provide a water-cooling device of the hot-rolled coil is to perform the water cooling for each hot-rolled coil separately to enable the water cooling suitable for the specifications and temperature of the hot-rolled coil. There is a purpose.

In addition, another object of the present invention is to provide a water cooling apparatus for a hot rolled coil, which is capable of suppressing the occurrence of cooling deviations in the central portion and the edge portion by spraying cooling water to the center portion and the edge portion of the hot rolled coil, respectively.

As a technical configuration for achieving the above object, the present invention is a water cooling device of a hot rolled coil configured to cool the coil by discharging a hot rolled coil and then sprayed with a coolant, the rotation being driven by a drive motor. Supported by a roller, a fixed roller provided to be parallel to the rotary roller at a predetermined interval, a hollow pipe-shaped idle drum provided on both sides of the fixed roller to allow axial idle rotation, and the rotary roller and the idle drum An edge nozzle provided to spray coolant toward both edge portions of the hot rolled coil, and a central nozzle disposed at a central portion of the fixed roller and sprayed to coolant toward the hot rolled coil. By providing a water cooling device.

In addition, the present invention is characterized in that it further comprises a cylinder installed to move the idle drum along the longitudinal direction of the fixing roller.

In addition, the rotary roller of the present invention is characterized in that it has a strip-shaped protrusion continuously protruding along the outer circumferential surface so as to be located on both left and right sides with respect to the central portion of the hot rolled coil.

In addition, the present invention is characterized in that it further comprises a temperature sensor for generating an electrical signal for controlling the flow rate of the cooling water injected from the nozzle by measuring the outer surface temperature of the hot rolled coil.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic view showing a working situation of cooling a hot rolled coil using a water cooling device according to the present invention, and FIG. 3 is a perspective view showing a water cooling device of a hot rolled coil according to the present invention. The center line is placed horizontally with respect to the ground so as to be perpendicular to the direction of gravity, and then the hot rolled coil C is cooled by cooling water injection.                     

The rotary roller 10 and the fixed roller 20 are installed on the bottom or the upper portion of the flat base B provided on the bottom, and the rotary roller 10 and the fixed roller 20 are spaced apart from each other by a predetermined distance. Are parallel to each other.

The rotary roller 10 is mounted to the base (B) to enable the rotation in the axial direction, as shown in more detail in Figure 4 several gears 51, 52 (one side of the rotary roller 10) ( When the driving motor 50 is driven to rotate by being connected to the driving motor 50 through the 53 and 54, the rotation of the driving motor 50 is appropriately decelerated to be transmitted to rotate the rotating roller 10. .

In addition, the outer surface of the rotary roller 10 is formed with a strip-shaped protrusion 12A, 12B protruding continuously along the outer circumferential surface, the protrusion 12A, 12B is the center of the hot rolled coil (C) Protruding from the outer surface of the rotary roller 10 so as to have a size slightly larger than the thickness of the band 130 in order to prevent the band 130 mounted on the site is in direct contact with the outer surface of the rotary roller 10. These protrusions 12A and 12B are left and right sides with respect to the center portion of the hot rolled coil C when the hot rolled coil C is mounted to the apparatus of the present invention, that is, left and right with respect to the band 130. The formation position is set to be located at both right sides.

The fixing roller 20 is fixedly installed on the base B. As shown in more detail in FIG. 5, both ends of the fixing roller 20 are fixedly supported on the base B via the support 22. The outer diameter of the rotary roller 10 and the fixed roller 20 and the distance between each other are the lower ends of the hot rolled coils C mounted on the rotary roller 10 and the fixed roller 20 at the base B. It should be set so that it can be prevented from contacting the upper surface of the.                     

Hollow drums 30 having a hollow pipe shape are fitted to both sides of the fixed roller 20, and the idle drum 30 can be idled while being fitted to the fixed roller 20 and at the same time the length of the fixed roller 20. It has a structure movable in the direction.

In more detail, on both outer surfaces of the fixing roller 20, one or more sliding support protrusions 26 protruding in a continuous form along the longitudinal direction are integrally formed at least one along the circumferential direction. On both sides of the roller 20, a hollow pipe-shaped slider 40 having a groove 40a for receiving the sliding support protrusion 26 formed therein is fitted on each inner surface thereof, so that the slider 40 is fixed without being rotated. It has a structure capable of sliding along the longitudinal direction of the roller 20.

In addition, the idler drum 30 is fitted to the outside of the slider 40 so that the idler can be idling, the slider 40 can be idled while sliding along the longitudinal direction of the fixed roller 20.

In addition, the slider 40 is moved along the longitudinal direction of the fixed roller 20 by the cylinder 60 mounted on the support 22.

In addition, the apparatus of the present invention has a center nozzle 70 and an edge nozzle 80 for injecting cooling water to the hot rolled coil C, the center nozzle 70 is disposed in the central portion of the fixing roller 20 And sprayed cooling water toward the hot rolled coil (C), wherein the edge nozzle (80) faces toward both edge portions of the hot rolled coil (C) supported by the rotating roller (10) and the idle drum (30). It is installed to spray coolant.

The installation configuration of the central nozzle 70 will be described in more detail with reference to FIG. 5, and a cooling water supply hose 88 for supplying cooling water is provided at one end of the fixed roller 20, and the cooling water supply hose is provided. Cooling water of the 90 is supplied to the cooling water supply hole 28 extending from one end of the fixing roller 20 to the center portion, the cooling water supply hole 28 is radial to the central portion of the fixing roller 20 It is installed so as to supply the cooling water to the central nozzle 70 is installed to spray the cooling water to the hot rolled coil (C).

The installation configuration of the edge nozzle 80 is similar to a conventional installation configuration, which will be described with reference to FIG. 3, and the header for supplying cooling water to the base B at a position deviating from both edge portions of the hot rolled coil C, respectively. 82 are provided, and the edge nozzles 80 are provided at two locations so that the coolant can be sprayed at various locations of the header 82, preferably at the left and right sides of the edge of the hot rolled coil C. Is mounted.

In addition, the apparatus of the present invention has a temperature sensor 90 for measuring the outer surface temperature of the hot rolled coil (C), the temperature sensor 90 is installed on top of the base (B) hot rolled coil (C) By measuring the temperature of the electric signal generated by the temperature sensor 90, it is preferable to adjust the flow rate of the cooling water injected from the central nozzle 70 by the signal. More preferably, the temperature sensor 90 is installed so as to measure the temperature at several places in the longitudinal direction of the hot rolled coil C, so that the temperature information of the coil C measured from these temperature sensors 90 is measured. By controlling the flow rate of the cooling water injected from the center nozzle 70 and the edge nozzle 80 together.

The operation of the present invention having the above configuration will be described.                     

The hot rolled coil C in the wound high temperature state is placed in the apparatus of the present invention. First, before the deposition of the hot rolled coil C is performed, the cylinder 60 is made to correspond to the width standard of the hot rolled coil C. The idling drum 30 is positioned so that the idling drum 30 can support both end portions of the hot rolled coil C by moving back and forth.

Then, when the hot rolled coil (C) is placed between the rotary roller 10 and the fixed roller 20, the hot rolled coil (C) is rotated while maintaining the horizontal state by the rotary roller 10 and the idle drum (30) Possibly supported.

At this time, the temperature sensor 90 measures the temperature of the outer surface of the central portion of the hot rolled coil (C) at a predetermined time period and transmits the temperature to the facility control computer (not shown), and transmits the signal of the temperature sensor (90). The received facility control computer cools the hot rolled coil C by spraying the coolant through the central nozzle 70 and / or the edge nozzle 80 based on a control program input in advance. In this case, the driving motor 50 is driven. To rotate the hot rolled coil C at an appropriate speed.

In particular, the hot rolled coil (C) is uniformly cooled by adjusting the flow rate of the coolant sprayed from the central nozzle 70 and the edge nozzle 80 according to the temperature variation of the hot rolled coil (C) to produce a good quality product. Will be.

Of course, when the temperature of the hot-rolled coil (C) measured by the temperature sensor 90 is less than a predetermined value, the supply of cooling water through the nozzle is cut off, and also stops the rotational drive of the drive motor 50, the transfer provided separately The hot rolled coil C is transferred to a later process by the apparatus.

As described above, according to the water cooling device of the hot rolled coil according to the present invention, the cooling water is sprayed to the center portion and the edge portion of the hot rolled coil to achieve uniform cooling, thereby preventing the quality degradation due to the cooling deviation. .

In addition, since cooling is performed while the hot rolled coil is rotated, the cooling time of the hot rolled coil is shortened and productivity is improved.

In particular, by managing and cooling each of the hot rolled coils separately, the hot rolled coils can be cooled to an optimum state in comparison to the method of cooling the hot rolled coils set as a group as in the prior art to produce products of excellent quality.

Claims (4)

In the water cooling device of a hot rolled coil arranged to cool the coil by spraying coolant after the hot rolled coil is deposited, A rotary roller 10 which is rotationally driven by the drive motor 50, A fixed roller 20 installed to be parallel to the rotary roller 10 at a predetermined interval apart from the rotary roller 10; A hollow pipe-shaped idle drum 30 fitted to both sides of the fixing roller 20 so as to allow idle rotation in an axial direction; An edge nozzle 80 installed to spray cooling water toward both edge portions of the hot rolled coil supported by the rotary roller 10 and the idle drum 30; It is disposed in the central portion of the fixed roller 20 includes a central nozzle 70 is installed to spray the cooling water toward the hot rolled coil, The rotary roller 10 has a strip-shaped protrusion 12A, 12B continuously protruding along the outer circumferential surface so as to be located at both left and right sides with respect to the center portion of the hot rolled coil C. Can cooling device. 2. The apparatus of claim 1, further comprising a cylinder (60) installed to move the idle drum (30) along the longitudinal direction of the fixed roller (20). delete According to claim 1 or 2, further comprising a temperature sensor (90) for measuring the outer surface temperature of the hot rolled coil (C) to generate an electrical signal for adjusting the flow rate of cooling water injected from the nozzle The water cooling device of the hot rolled coil, characterized in that.

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