KR101594706B1 - Uniform cooling apparatus for wire-rod coil - Google Patents

Abstract

According to an embodiment of the present invention, an apparatus for a uniformly cooling wire rod coil comprises: a winding unit which winds and sequentially heaps an introduced wire rod; a transporting unit which has the winding unit on an end part thereof, and transports the wound wire rod coil; and a hot wind supply unit located under the transporting unit which blows a higher quantity of heat generated to a central part than an edge part widthwise direction of the transporting unit in a method such that the wire rod coil heaped on the transporting unit is able to uniformly be more cooled by intensively heating a central part in the widthwise direction than the edge part of the transporting unit.

Description

[0001] The present invention relates to a uniform cooling apparatus for wire-

The present invention relates to a wire-wound coil uniform cooling apparatus, and more particularly, to an invention for heating a widthwise central portion of a feed unit having a low stacking density of wire-wound coils.

Generally, a wire rod is a round bar of a material for manufacturing various kinds of wire. In a heating furnace, a material is heated to approximately 1000 to 1200 ° C., and a hot wire rod which has been subjected to rolling (rough rolling, intermediate rough rolling, intermediate rolling and finish rolling) After cooling in a cold zone, a wire coil formed in the form of a non-concentric circular coil through a laying head is conveyed along the conveying rollers of the conveying unit while performing a heat treatment through air cooling, And is put into the inspection line.

Here, the hot wire method or the DLP method is conventionally used for cooling the wire coil, but recently, a method using a Stelmor cooling facility has been widely used.

In this cooling facility, as shown in FIGS. 1A and 1B, a wire coil 2 'wound in a non-concentric ring shape by a winding unit 10' is continuously connected to a transfer unit 20 'such as a conveyor, And is conveyed through the conveying roller.

However, when the wire coil 2 'is mounted and transported on the transfer unit 20', a non-uniform cooling rate is formed in accordance with the shape and the deposited density ratio of the wire coil 2 ' The central portion 2a 'of the wire coil 2' is cooled faster than the edge portion 2b ', leading to an uneven temperature distribution in which the temperature gap G is large, It causes a problem that uneven end products such as directional material deviations are generated.

In other words, the wire coil 2 'is cooled by air and the temperature is lowered with time. At this time, the edge portion 2b', which is the edge of the wire coil 2 ' The cooling rate is relatively smaller than that of the central portion 2a ', and the temperature difference in the width direction is transferred from the winding unit 10' to be distant from the central portion 2a ' As shown in FIG.

Conventionally, in order to solve such a problem, there was a table roller system which is a method of adjusting the density of winding of the wire coil to fall down at the speed of the roller.

However, this method attempts to solve this problem by dividing the cooling section into several sections and generating a difference in rotation speed between the sections, but there is a limit in not significantly improving the overlap density of the wire coil, As the coil slides, it has another problem such as wear and shape deformation.

Therefore, it is necessary to study a wire-coil uniform cooling apparatus for solving the above-mentioned problems.

Korean Patent Publication No. 2000-0041625 (published on July 15, 2000)

SUMMARY OF THE INVENTION An object of the present invention is to provide a wire-wound coil uniform cooling apparatus capable of uniformly cooling a continuously wound wire-wound coil in the width direction of a transfer unit without any difference according to the stacking density.

A wire-wound uniform coil cooling apparatus according to an embodiment of the present invention includes a winding unit for winding a wire-wound coil wound and sequentially stacking it, a transfer unit for transferring the wire-wound coil provided at one end of the winding unit, Wherein a center portion in the width direction of the unit is heated more than the edge portion so that the wire coil mounted on the transfer unit is cooled uniformly and provided below the transfer unit, And a hot air supply unit for blowing more air into the central portion.

Further, the hot air supply unit of the wire-wound coil uniform cooling apparatus according to the embodiment of the present invention is provided with a heating unit provided below the conveying unit and a heating unit provided below the heating unit to blow air in the direction of the conveying unit And may include a blower portion.

Further, the heating unit of the wire-wound coil uniform cooling apparatus according to an embodiment of the present invention may be arranged at a higher density at a center portion than the widthwise edge portions of the transfer unit.

Further, the hot air supply unit of the wire-wound coil uniform cooling apparatus according to an embodiment of the present invention is provided between the transfer unit and the heating unit and is formed so as to surround the heating unit and the blower unit, And a housing part having a discharge hole formed in a lower part of the central part.

The housing portion of the wire-wound coil uniform cooling apparatus according to an embodiment of the present invention is characterized in that the discharge hole is provided in a tapered shape formed closer to the transfer unit than a lower portion of the widthwise edge portion of the transfer unit .

The hot air supply unit of the wire-wound coil uniform cooling apparatus according to an embodiment of the present invention further includes a center temperature sensor coupled to a widthwise center portion of the transfer unit and an edge temperature sensor coupled to the edge portion, And a controller for adjusting the operation of the heating unit and the blower unit such that a temperature sensed by the temperature sensor is equal to a temperature sensed by the edge temperature sensor.

In the wire-wound coil uniform cooling apparatus of the present invention, the central portion of the wire-wound coil is further heated to reduce the occurrence of a difference in cooling temperature caused by the density of the wire-wound coils, thereby achieving uniform cooling.

Therefore, it is possible to prevent a material deviation from being generated according to the position of the wire coil, and to produce an excellent quality product.

Further, since uniform cooling can be performed without adjusting the speed of the wire coil, it is not necessary to change the winding speed of the wire coil, and there is an advantage that the wire coil can be prevented from sliding, and the feed roller can be prevented from being worn.

FIGS. 1A and 1B are drawings, photographs, and graphs showing that a conventional wire coil is unevenly cooled.
2 is a side view showing the wire-wound coil uniform cooling apparatus of the present invention.
3A and 3B are front views showing a hot air supply unit in the wire coil uniform cooling apparatus of the present invention.
4 is a front view showing an embodiment in which the hot air supply unit in the wire coil uniform cooling apparatus of the present invention includes a housing portion.
5 and 6 are graphs and simulation results showing the uniform cooling effect by the wire-wound coil uniform cooling apparatus of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The wire coil uniform cooling apparatus (1) of the present invention relates to an invention for heating a widthwise central portion (20a) of a transfer unit (20) having a low stacking density of wire coil (2).

That is, in the wire-wound coil uniform cooling apparatus 1 of the present invention, by further heating the central portion 2a of the wire-wound coil 2, there occurs a difference in cooling temperature caused by the density of the wire-wound coils 2 The cooling can be uniformly performed.

Therefore, it is possible to prevent a material deviation according to the position of the wire rod coil 2, and to produce a product with excellent quality.

Since uniform cooling can be performed without adjusting the speed of the wire coil 2, it is not necessary to change the winding speed of the wire coil 2, and the wire coil 2 slips, Can be prevented.

2 is a side view of a wire coil uniform cooling apparatus 1 according to the present invention. Referring to FIG. 2, the wire coil uniform cooling apparatus 1 according to an embodiment of the present invention includes a wire coil 2, (20) for transferring the wire-wound coil (2), which is provided at one end of the winding unit, and a winding unit Is provided beneath the transfer unit (20) so that the wire coil (2) placed on the transfer unit (20) is uniformly cooled by heating the transfer unit (20a) more than the edge portion (20b) And a hot air supply unit 30 for blowing more air into the central portion 20a than the widthwise edge portion 20b of the transfer unit 20. [

The hot air supply unit 30 of the wire coil uniform cooling apparatus 1 according to the embodiment of the present invention includes the heating unit 31 and the heating unit 31 provided below the transfer unit 20, And a blower unit 32 for blowing air in the direction of the transfer unit 20.

That is, a method using hot air is used to uniformly cool the wire member coil 2 by further heating the central portion 2a of the wire member coil 2 over the edge portion 2b, thereby improving the heat transfer rate It can have an advantage.

The winding unit 10 may serve to support the tip end of the wire rod and to transmit it to the feed unit 20, which will be described later, after forming a ring-shaped coil.

That is, the winding unit 10 is heated by the heating furnace at a high temperature, and after the wire roughed by the rolling mills such as rough rolling, intermediate rough rolling, intermediate rolling and finishing rolling is cooled in the water- Shaped wire rod coil 2 so as to cool the wire rod while moving the wire rod.

The feed unit 20 can serve to air-cool the wire rod coil 2 while continuously feeding the wire rod coil 2 provided in the winding unit 10. To this end, the transfer unit 20 may include a transfer roller, an accumulator, and the like.

The conveying roller serves to support and move the wire coil 2 in a conveying unit 20 for conveying, such as a conveyor, and can cooperate with the conveyor belt.

Here, the conveying roller may be provided with a driving conveying roller for providing a driving force and a supporting conveying roller, but a hot air supplying unit 30 to be described later may be provided below the driving conveying roller and the supporting conveying roller .

On the other hand, there may be a problem that the wire-wound coil 2 conveyed by the conveying roller is subjected to uneven cooling in the width direction of the conveying unit 20 in a direction perpendicular to the conveying direction. The hot air supply unit 30 may be provided below the transfer unit 20. [

That is, when the wire rod coil 2 is continuously placed, the edge portion 2b, which is the edge portion of the wire rod coil 2, The central portion 2a, which is a part of the central portion 2a, is cooled rapidly because of a low density and thus has a high cooling rate, resulting in uneven cooling.

The accumulator may be provided in the winding unit 10 to provide the wire-wound coil 2 with the wire-wound coil 2 so that the wire-wound coil 2 is finished in the air-cooling process and is provided to the next step .

For this purpose, the accumulator can integrate the wire rod coil 2 inside a cylindrical cylinder and guide the accumulation of the wire rod coil 2 by providing a support rod in the middle part.

The hot air supply unit 30 has a configuration in which the wire rod coil 2 is provided for heating the central portion 2a, and particularly heat is transferred by hot air.

That is, when the wire member coil 2 is mounted on the transfer unit 20 by the winding unit 10, since the edge portion 2b is mounted at a higher density, The central portion 2a of the wire member coil 2 is supercooled as compared with the edge portion 2b to cause uneven cooling. In the present invention, the hot air supply unit 30 is provided below the transfer unit 20, So that the center portion 2a of the wire coil 2 is heated more than the edge portion 2b by convection heat transfer.

For this, the hot air supply unit 30 may provide a heating unit 31 and a blower unit 32.

The heating unit 31 heats the central portion 2a of the wire coil 2 more than the edge portion 2b of the wire coil 2 to prevent the wire coil 2 from being unevenly cooled can do.

6A, the temperature of the edge portion 2b 'of the wire coil 2' is about 800 ° C. and the temperature of the center portion 2a 'of the wire coil 2' is about 800 ° C., 6 (b), the temperature of the edge portion 2b of the wire coil 2 after applying the present invention is about 800 占 폚, as shown in Fig. 6 (b) It can be seen that the temperature of the central portion 2a of the wire rod coil 2 is about 770 캜 and the widthwise temperature deviation G is about 30 캜 and the widthwise temperature deviation G is about 70 캜 or more. This can be easily understood by referring to FIG. 1B by the existing apparatus and FIG. 5 by the present invention.

 That is, by adding the hot air supply unit 30, the temperature variation in the width direction of the wire coil 2 can be reduced.

To this end, the hot air supply unit 30 may be provided at a lower portion of the transfer unit 20, and may perform heat transfer by a convection action by hot air.

The heating unit 31 may be connected to the control unit 34 and the power supply unit PS and may be provided with a heat ray to generate heat. And may be provided with a control section 34 including a central temperature sensor 34a and an edge temperature sensor 34b in order to control the heating temperature. A detailed description thereof will be given later with reference to FIGS. 3A and 3B.

The blower unit 32 may serve to supply air in the direction of the wire rod coil 2. For this purpose, the blower unit 32 may provide the same configuration as a blower for supplying air in the direction in which the wire rod coil 2 is mounted.

Particularly, since the heating unit 31 is provided on the blower unit 32, heat is supplied to the transfer unit 20 by hot air generated by the heating unit 31.

That is, the heat generated by the heating unit 31 is converted into hot air by the air blown by the blower unit 32, and is transferred to the transfer unit 20 provided with the wire coil 2.

The housing part 33 can be provided so that the hot air blown from the blower part 32 can be concentrated in the central part 20a of the conveying unit 20 to induce the uniform cooling of the wire- A detailed description thereof will be given later with reference to FIG.

3A and 3B are front views showing the hot air supply unit 30 in the wire coil uniform cooling apparatus 1 of the present invention. Referring to FIG. 3, the wire coil uniform cooling apparatus 1 according to the embodiment of the present invention The heating unit 31 may be disposed at a greater density at the central portion 20a than the widthwise edge portions 20b of the transfer unit 20. [

The hot air supply unit 30 of the wire coil uniform cooling apparatus 1 according to the embodiment of the present invention includes a central temperature sensor 34a coupled to the widthwise center portion 20a of the transfer unit 20, And an edge temperature sensor 34b coupled to the edge portion 20b so that the temperature detected by the central temperature sensor 34a is equal to the temperature sensed by the edge temperature sensor 34b, And a control unit 34 for adjusting the operation of the blower unit 32. [

That is, the heating unit 31 may be distributed more densely at the central portion 20a than the edge portion 20b of the transfer unit 20, and the central temperature sensor 34a, And the controller 34 including the edge temperature sensor 34b.

In other words, the heating unit 31 can be provided as a means capable of heating, a heating line connected to a power supply unit, and a heating unit connected to a control unit to be described later.

The heating unit 31 is provided at the edge of the feed unit 20 so as to supply heat to the central portion 2a of the wire coil 2 more than the edge portion 2b of the wire coil 2. [ Can be arranged at a greater density in the central portion 20a than in the portion 20b.

That is, the distance between the heating units 31 may be adjusted or the number of the heating units 31 may be adjusted to provide the density adjusted.

To this end, the heating unit 31 may be provided only at the central portion of the conveyance roller, or may provide more heat lines at the central portion of the conveyance roller.

Furthermore, the heating unit 31 may be provided in a plurality of independent serial structures in order to adjust the heating temperature according to the intervals of the conveying rollers on which the heating unit 31 is disposed.

The control unit 34 may control the temperature of the heating unit 31 and may include a central temperature sensor 34a, an edge temperature sensor 34b, and a controller.

The central temperature sensor 34a and the edge temperature sensor 34b may be provided to the transfer unit 20 to measure the temperature of the wire coil 2 mounted on the transfer unit 20. [ have.

Particularly, the control unit 34 can measure the temperatures of the central portion 2a and the edge portion 2b of the wire rod coil 2, and the center portion 2a and the edge portion 2b of the wire rod coil 2, The heating unit 31 can be connected to the heating unit 31 so that the temperature of the heating unit 31 is set at the same temperature.

More specifically, the central portion 2a of the wire-wound coil 2 is controlled to be heated more than the edge portion 2b of the wire-wound coil 2 in addition to controlling the central portion 2a of the wire- It can be controlled so as not to be heated.

4 is a front view showing an embodiment in which the hot air supply unit 30 in the wire coil uniform cooling apparatus 1 of the present invention includes the housing portion 33. Referring to this, The hot air supply unit 30 of the wire coil uniform cooling apparatus 1 is provided between the transfer unit 20 and the heating unit 31 and covers the heating unit 31 and the blower unit 32 And a housing portion 33 having a discharge hole 33a formed in a lower portion of the widthwise center portion 20a of the transfer unit 20. [

The housing portion 33 of the wire coil uniform cooling apparatus 1 according to the embodiment of the present invention is configured such that the discharge hole 33a is located below the widthwise edge portion 20b of the transfer unit 20 And is provided in a tapered shape which is formed closer to the transfer unit (20) than the transfer unit (20).

That is, the housing part 33 is provided by the housing part 33 so that hot air blown from the blower part 32 can be concentrated on the central part 20a of the conveying unit 20 to induce uniform cooling of the wire- It can be.

In other words, the housing part 33 is configured to allow the hot air generated by the blower part 32 and the heating part 31 to be concentrated to the central part 20a of the transfer unit 20 The heating unit 31 and the blower unit 32 may be enclosed.

In addition, a discharge hole 33a may be formed at a position below the central portion 20a of the transfer unit 20 so that the hot air can be supplied only through the discharge hole 33a.

Particularly, the housing part 33 is formed in the housing part 33 so that the hot air generated by the blower part 32 and the heating part 31 can flow into the central part 20a of the transfer unit 20, The discharge hole 33a adjacent to the central portion 20a of the discharge port 20 may be provided in an inclined shape.

That is, the housing 33 may be formed in a tapered shape such that the discharge hole 33a is formed closer to the transfer unit 20 than a lower portion of the widthwise edge portion 20b of the transfer unit 20 You can.

1: wire coil uniform cooling device 2: wire coil
10: retracting unit 20: conveying unit
30: Hot air supply unit 31: Heating unit
32: blower part 33: housing part
34:

Claims (6)

A winding unit that winds the loaded wire coils and sequentially stacks them;
A feeding unit provided at one end of the winding unit, for feeding the wound wire coil; And
Further comprising a heating unit which is provided below the conveying unit so that the widthwise center portion of the conveying unit is heated more than the edge portion so that the coil of wire wound on the conveying unit is uniformly cooled, A hot air supply unit for blowing more air into the central portion than the hot air supply unit;
/ RTI >
The hot air supply unit,
A heating unit provided below the conveying unit and disposed at a greater density at a center portion than a widthwise edge portion of the conveying unit;
A blower unit provided below the heating unit and blowing air in the direction of the transfer unit;
A housing part provided between the transfer unit and the heating part, the housing part being formed to surround the heating part and the blower part and having a discharge hole formed at a lower part of a widthwise center part of the transfer unit; And
A center temperature sensor coupled to a center of the transfer unit in the width direction and an edge temperature sensor coupled to the edge unit, wherein the heating unit senses the temperature sensed by the center temperature sensor, A control unit for adjusting an operation of the blower unit;
Lt; / RTI >
Wherein the housing portion is provided in a tapered shape in which the discharge hole is formed closer to the transfer unit than a lower portion of a widthwise edge portion of the transfer unit. delete delete delete delete delete

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