KR101032514B1 - Wire-rod Coil Cooling Apparatus - Google Patents

Abstract

There is provided a wire rod cooling device for cooling the wound wire coil during movement.

The wire coil cooling device is an example of the configuration, the mobile unit is installed on the upper portion of the wire coil transfer facility, and the wire rod coil inner portion to be installed and transported to the mobile unit to be moved up and down to uniformly cool the wire coil through air blowing. And a unit body in which air blowing holes are formed as the wire coil cooling unit is provided to be provided, wherein the air cooling unit is provided in a lower portion of the vertical driving cylinder included in the mobile unit and enters the inner portion of the wire coil. It is configured to include a blowing fan provided inside the body.

According to the present invention, it is possible to uniformly cool the wire rod coil during the movement of the wound wire coil, especially the large diameter wire rod coil, to make the structure (physical properties) of the wire rod product uniform, and of the supercooled part due to severe temperature variation. No trimming is required, resulting in an improved effect of improving wire productivity.

Wire Coil Cooling System, Wire Coil Uniform Cooling, Forced Blowing Unit

Description

Wire-rod Coil Cooling Apparatus}

The present invention relates to a wire coil cooling apparatus for cooling a wound wire coil, and more particularly, to uniformly cool the wire rod coil during the movement of the wound wire coil, in particular, a large diameter wire rod coil, thereby making the structure of the wire product more uniform. In addition, it is necessary to provide a wire coil cooling apparatus which improves the quality of the product by reducing the variation in tensile strength while improving the wire rod productivity by eliminating the need for trimming the supercooled portion of the product.

The wire-rod manufacturing process produces semi-finished products by heating, rolling and cooling processes of cast steel, for example, billets, which are generally 5.5 diameter depending on the diameter of the product. Small diameter wires (mm ~ 17mm) and large diameter wires (17mm ~ 50mm) are cooled through a cooling table to obtain the desired properties of the product.

On the other hand, Figure 1 shows the cooling during the movement of the conventional large diameter wire rod after winding.

That is, as shown in Figure 1, the large diameter wire rod of 17mm ~ 50mm is a wire rod 100 of about 900 ℃ rolled in a straight state is wound in a coil form in the winding machine 110, the wound wire coil (100 ' ) Is cooled through the forced blowing air generated in the blower disposed below the conveying chain conveyor not shown in FIG. 1 while being conveyed through the conveying chain conveyor 120 associated with the winder.

Of course, the wire coil 100 ′ that is conveyed through the transfer chain conveyor 120 in FIG. 1 is naturally cooled in contact with the atmosphere during movement.

However, in general, the wire products rolled and wound at a high temperature state are naturally cooled through air exposure or forced cooling by blowing to obtain proper structure according to the steel grade. In any case, the wound wire coil 100 ' The bottom of the wire rod 100 'in contact with the transport chain conveyor 120 to be seated is rapidly cooled by heat transfer through the transport chain conveyor 120 as compared to the other portions of the wire rod coil, and thus Cooling nonuniformity (deviation) will occur.

At this time, the non-explained reference numeral in FIG. 1 is a roller conveyor 130 associated with the transfer chain conveyor 120.

For example, FIG. 2 shows the temperature distribution of such a wire coil.

That is, as can be seen in Figure 2, it can be seen that the temperature of the lower end portion of the wire coil 100 'in contact with the transfer chain conveyor is significantly lower than the upper portion thereof.

Therefore, the temperature variation is caused by uneven cooling of the wire rod coil during forced air cooling or natural cooling during movement through the transfer chain conveyor 120 during the cooling of the wire rod coil 100 ′, in particular, the large diameter wire rod coil.

On the other hand, the top of the wire coil 100 (top) also has a large area exposed to the atmosphere is cooled faster than the middle of the wire coil through the radiant heat transfer.

In addition, in the case of natural cooling of the wire rod coil, cooling unevenness occurs in the inner coil part (inner side) and the outer coil part (outer side) of the wire rod coil. As a result, the outer circumference becomes cooler faster by radiative and convective heat transfer.

In other words, the wire coil which is cooled during the movement through the conventional transfer chain conveyor is not uniformly cooled as a whole, and such cooling variation leads to material deviation of the wire coil product.

In addition, in the correction process, which is a post-cooling process, the top and bottom of the wire coil having severe material deviations are cut and scraped in units of rings, and thus, waste of material and cost are added due to the addition of the wire coil trimming step. Of course, the problem of lowering the final wire rod productivity also occurred.

Accordingly, the applicant of the present invention to force the cooling of the wire rod coil in the inner portion during the movement, while the whole of the wire coil to be uniformly cooled so that the material variation of the wire coil product evenly proposed to improve the product quality It became.

The present invention has been proposed in order to solve the above-mentioned conventional problems, the object of the aspect is to enable uniform cooling of the wire rod coil during movement of the wound wire coil, especially large diameter wire rod coil, to make the structure of the wire rod product even more uniform. Of course, there is no need to trim the supercooled part due to severe temperature variation to improve the wire rod productivity, while providing a wire coil cooling device for improving the quality of the product by reducing the variation in the tensile strength of the product.

As a technical aspect for achieving the above object, the present invention, in the wire coil cooling apparatus which is conveyed through a transfer facility,

A mobile unit installed on the wire coil transfer facility; And,

A wire coil air cooling unit provided to allow uniform cooling of the wire coil through air blowing while entering the inner coil portion of the wire coil which is installed and transported to the mobile unit;

Consists of including
The blowing cooling unit is provided in the lower portion of the vertical drive cylinder included in the mobile unit, the wire rod coil coil unit configured to enter the inner portion of the wire coil and the ventilation holes are formed, and the blowing fan provided inside the unit body Provide a cooling device.

Preferably, the mobile unit is a rail member which is installed on the upper portion of the transfer chain conveyor, which is a transfer facility and forms an endless track, a moving trolley or moving frame moving along the rail member, and the lower of the moving trolley or moving frame It may be configured to include the vertical drive cylinder installed in.

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In addition, the unit body is formed in the shape of a cylindrical concave in the center of the cross-section for uniform cooling of the wire rod, the air vent is the opening length is adjusted corresponding to the top, middle portion, the bottom of the wire coil.

The apparatus further includes a drive motor and a vertical drive cylinder of the moving cart included in the mobile unit, and an apparatus controller associated with a blowing fan included in the air cooling unit.

In this case, at one or both of the wire rod entry position and the transfer section of the transfer equipment, a wire coil detector for detecting the wire coil entry and a temperature sensor for detecting the wire coil temperature are further disposed. It is connected to the control unit.

In addition, the transfer facility is provided to a transfer chain conveyor, the transfer chain conveyor may further include a linear support member in which the wire coil is placed in a line contact state to prevent overcooling of the lower end of the wire coil.

According to the wire coil cooling apparatus of the present invention, it is possible to uniformly cool the wire coil during the movement of the wire rod coil, especially the large diameter wire coil, which has been rolled, to make the structure of the wire product even more uniform, It is to provide an excellent effect of improving product quality by reducing product tensile strength variation.

In addition, the present invention will be able to control the forced air flow and cooling by the wire coil portion (site) to implement a more local and precise cooling according to the wire coil steel grade to enable higher quality wire rod production.

In addition, the trimming treatment of the supercooled part is not necessary, and thus, it is possible to provide excellent effects such as improving the wire rod productivity.

Hereinafter, a preferred embodiment of the present invention according to the accompanying drawings.

First, in FIGS. 3 to 5, the overall configuration of the wire coil cooling device 1 according to the present invention is illustrated in side, front, and plan view, respectively.

That is, as shown in Figures 3 and 4, the wire rod coil cooling apparatus 1 of the present invention for cooling the wire rod 100 (100 ') transferred through the transfer facility, that is, the transfer chain conveyor 120, Wire rod coil transfer chain 10 is installed on the upper part of the conveyor conveyor 120, the wire rod coil 100 'is installed in the movable unit 10 to be moved up and down to enter the inner winding portion of the wire rod through the air blowing coil It may be configured in one embodiment including a wire coil blowing cooling unit 30 provided to enable uniform cooling of the.

Therefore, the wire rod coil cooling apparatus 1 of the present invention enters the inner portion of the wire rod coil 100 'to which the blowing cooling unit 30 moving to the mobile unit 10 is transferred, and the wire rod coil 100' through the blowing. It is possible to cool uniformly as a whole.

That is, conventionally simply placed on the transfer chain conveyor 120 when the natural cooling during the movement or forced cooling through the blowing in the lower portion of the transfer chain conveyor 120, between the upper portion and the middle portion and the lower portion of the wire coil 100 ' Cooling deviations do not occur in the device of the present invention.

On the other hand, the moving unit 10, as shown in Figures 4 and 5, it is preferable to be installed corresponding to the wire rod transfer path to the upper side of the transfer chain conveyor 120 for transferring the wire coil (100 ').

For example, the moving unit 10, along the rail member 12 and the rail member 12 which is installed in a caterpillar form as shown in FIG. It may be configured to include a moving frame 14 or a moving frame provided with a moving wheel moving to a chain not shown in the figure, and a vertical drive cylinder 16 installed below the moving cart.

On the other hand, as shown in Figures 4 and 5, the rail member 12 is formed in a form in which the plate is open at the lower center, the moving cart 14 is disposed in the inner side can move along the rail member.

For example, as shown in FIG. 4, when the driving motor M provided in the moving trolley 14 is driven, the driving shaft S is driven through a power transmission gear (unsigned), and thus the rail member ( The driving wheel 14a of the moving trolley placed on 12 is driven.

Therefore, the moving trolley 14 moves along the rail member 12. The rail member 12 as shown in FIG. 5 has a centerline of the inner winding portion of the wire rod 100 'transferred from the transfer chain conveyor 120 as shown in FIG. Therefore, it is preferable that the entire track having a straight section has an elliptical shape of the caterpillar.

At this time, the rail member 12 may be horizontally mounted on the lower portion of the vertical holder (12a) connected to a separate fixed frame (not shown).

On the other hand, the moving trolley 14 of the mobile unit 10 needs to be adjusted to move in accordance with the moving speed of the wire coil 100 'moving along the transfer chain conveyor 120.

Next, as illustrated in FIGS. 3 to 5, the air blowing cooling unit 30 that substantially cools the wire coil in the wire coil cooling device 1 of the present invention is a vertical drive cylinder of the mobile unit 10. Unit body 34 mounted to the lower portion of the 16 and enters the inner winding portion of the wire coil (100 ') and the air vent 32 for forced air blowing, and a blowing fan provided inside the unit body (34) And 36.

At this time, the unit body 34 is formed in a cylindrical shape, for example, an hourglass shape in which the center portion is concave in cross section as shown in FIG. 4 in order to uniformly cool the wire coil 100 ', and the upper and lower portions 30a and 30c thereof. Is wide and the center 30b is concave.

And, as shown in Figure 5, the unit body 34 is the upper portion (34a) bolted and connected to the rod 18 of the drive cylinder 16, the central portion (34b) assembled thereto and the bottom portion assembled to the lower end of the central portion 34c.

In addition, holes (h) through which outside air flows may be formed in the upper portion of the unit body 34a, and the blower holes 32 are spaced at regular intervals in the circumferential direction at regular intervals in the vertical direction at the center portion 34b. Can be formed.

Accordingly, as shown in FIGS. 3 and 4, when the blower fan 36 including the fan motor and the fan (unsigned) is driven, external air flows through the hole h of the upper portion 34a of the unit body and is forced. The blown and blown cooling air (A) is cooled evenly to the entire wire coil in the longitudinal direction in the longitudinal direction of the wire coil through the unit body blower 32 to implement the cooling of the wire coil (100 ').

At this time, the reason that the unit body 34 is concave in the center in the form of an hourglass as a whole, as described above, the upper and lower portions of the wire coil (100 ') is in contact with the transfer chain conveyor 120 and the atmosphere, the wire rod Since the central portion of the coil has the least cooling, the unit body 34 of the blowing cooling unit 30 of the present invention is concave in the center, and at this portion, the air flow rate is increased while the air receives the highest blowing pressure, and thus the blowing ability. Is the highest.

Therefore, the wire coil blowing cooling unit 30 of the present invention makes it possible to evenly cool the upper end, the middle and the lower end of the wire coil.

That is, although the blower 32 is schematically illustrated in the drawing, it is preferable to adjust the air blowing amount of the cooling air by adjusting the opening length corresponding to the top, middle, and bottom of the wire rod coil.

Meanwhile, as shown in FIG. 4, a bellows pipe 20 is installed between the lower portion of the body of the driving cylinder 16 and the upper portion 34a of the air cooling unit 30 to provide a blower fan 36 power cable therein. It is preferable that the cable connected to the device control unit (C) for other control operations to block the heat transferred from the high temperature wire rod coil.

However, as described above, although the air vent 32 may be formed on the bottom portion 34c of the unit body 34, the lower portion of the wire coil that is in contact with the transfer chain conveyor 120 as described above is a part that is supercooled. Therefore, it is not necessary to necessarily form.

In addition, the unit body 34 of the blower cooling unit 30, although the wire coil (100 ') is cooled through the cooling stand from the front, it will be possible to produce a material that withstands high temperature because it is still high temperature.

For example, the unit body 34 of the blowing cooling unit 30 may be a heat-resistant body, for example, a ceramic or a molded body including a ceramic material. Alternatively, it may be made of a fireproof body.

At this time, as shown in Figure 4, the drive motor (M) and the vertical drive cylinder 16 of the moving cart 14 included in the mobile unit 10, and the blowing fan 36 included in the blower cooling unit (30). ) May be associated with the device control unit (C).

Of course, the vertical drive cylinder 16 is actually controlled in conjunction with the pneumatic or hydraulic drive unit (U).

Therefore, the moving speed of the blower cooling unit 30 integrally with the moving cart 14 is controlled by the movement speed of the wire rod coil in accordance with the driving of the moving cart driving motor M which is controlled and operated in connection with the device control unit C. Correspondence can be adjusted.

Then, the entry or exit of the unit body 34 of the blower cooling unit 30 through the vertical drive cylinder 16 into or exit from the inner coil portion of the wire rod may be adjusted, and by adjusting the blowing amount by driving control of the blower fan 36. Cooling of the wire coil can be controlled.

At this time, preferably, as shown in Fig. 3 and 4, the wire coil detector 50 and the wire coil temperature for detecting the wire coil entry in the wire rod entry position or the wire coil transfer section of the transfer chain conveyor 120 that is the transfer facility. It is to install a temperature sensor 70 to detect.

Such a wire coil detector 50 is provided with known sensors for detecting, for example, a CD (CCD) camera or wire coil to enter the transfer facility associated with the device of the present invention, that is, the transfer chain conveyor 120. The wire coil temperature sensor 70 may be provided as an infrared camera that can extract the temperature distribution as shown in FIG. 2.

In addition, the wire coil detector 50 and the temperature sensor 70 are signal-processed in electrical connection with the device control unit (C).

For example, in FIG. 3 and FIG. 4, when the wire coil 100 ′ enters the transfer chain conveyor 120 through the transfer roller conveyor 120 ′, it is detected by the wire coil detector 50 such as a CD camera. The blower cooling unit 30 waits at least at a position higher than the wire rod to be conveyed, and when the wire rod enters and moves, the moving cart 14 of the mobile unit 10 is operated according to the feeding speed, and the vertical driving cylinder ( 16) is activated, the unit body 34 of the blowing cooling unit 30 enters the inner coil portion of the wire rod coil, and the air forcedly generated by the operation of the blowing fan 36 is evenly distributed in the inner coil portion of the wire coil 100 '. As it is ejected, uniform cooling of the wire coil is realized.

In addition, the device controller C controls the driving of the blower fan 36 of the blower cooling unit 30 based on the data output from the wire rod temperature sensor 70 to more appropriately control cooling by considering the steel type of the wire rod coil. Will make it possible.

On the other hand, as shown in Figure 6, the conveying chain conveyor 120 is a transfer facility more preferably comprises a coil line contact type support member for the wire coil (100 ') is seated in a line contact state.

That is, as shown in FIG. 6, the coil line contact supporting member is a plurality of spaced support bars 90 ′ provided in the unit conveying block 122 of the conveying chain conveyor 120 or the unit conveying block 122. It may be provided as a curved support bar 90 is mounted along the coil seat plate 124 connected between the bent and curved.

Therefore, the wire rod is conventionally placed in the surface contact state of the unit transfer block 122 or the seating plate 124 of the transfer chain conveyor 120, in the case of the present invention as shown in FIG. Due to the coil line contact supporting member provided on the conveying chain conveyor, the contact area of the conveying chain conveyor at the lower end of the wire coil will be reduced by that amount to suppress supercooling.

Accordingly, according to the wire coil cooling apparatus of the present invention described so far, using a blowing cooling unit entering the inner winding portion of the wire coil, evenly considering the heat transfer of each part (part) from the upper part to the lower part of the wire rod coil. It can be cooled, which makes it possible to produce more uniform tissue products.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be modified and modified in various ways without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a schematic diagram showing a wire coil cooled during movement through a transfer chain conveyor after the conventional winding.

2 is a temperature distribution diagram illustrating a temperature distribution of a wire coil of FIG.

Figure 3 is a side configuration view showing a wire coil cooling apparatus according to the present invention

4 is a front configuration diagram showing the present invention wire coil cooling device of FIG.

FIG. 5 is a plan view illustrating the wire rod cooling apparatus of the present invention of FIG. 3. FIG.

Figure 6 is a perspective view showing a coil line contact type supporting member provided in the transport chain conveyor in the present invention

Explanation of symbols on the main parts of the drawings

1 .... wire coil cooling system 10 ... mobile unit

12 .... rail member 14 .... trolley

16 .... Vertical Drive Cylinder 30 .... Blower Cooling Unit

32 .... vent 34 .... unit body

36 .... Blower fan 50 .... Wire rod detector

70 .... Temperature sensor 90 .... Coil precontact

Claims (7)

In the cooling device of the wire rod conveyed through the transfer facility, A mobile unit installed on the wire coil transfer facility; And, A wire coil air cooling unit provided to allow uniform cooling of the wire coil through air blowing while entering the inner coil portion of the wire coil which is installed and transported to the mobile unit; Consists of including The blowing cooling unit is provided in the lower portion of the vertical drive cylinder included in the mobile unit, the wire rod coil coil unit configured to enter the inner portion of the wire coil and the ventilation holes are formed, and the blowing fan provided inside the unit body Chiller. The method of claim 1, The moving unit includes: a rail member installed on an upper portion of a transfer chain conveyor, which is a transfer facility, to form a caterpillar; A moving trolley or moving frame moving along the rail member; The vertical driving cylinder installed under the moving cart or the moving frame; Wire coil cooling device configured to include. delete The method of claim 1, The unit body is formed in the shape of a cylindrical concave in the center cross section for uniform cooling of the wire rod, The tuyere is a wire coil cooling device, characterized in that the opening length or width is adjusted corresponding to the top, middle, and bottom of the wire coil. The method according to any one of claims 1, 2 and 4, And a device control unit connected to a driving motor and a vertical driving cylinder of the moving cart included in the moving unit and a blowing fan included in the blowing cooling unit. The method of claim 5, In one or both of the wire rod entry position and the transfer section of the transfer facility, a wire coil detector for detecting the wire coil entry and a temperature sensor for detecting the wire coil temperature are further disposed. And the detectors are connected to the device control unit. The method of claim 1, The transfer facility is provided to a transfer chain conveyor, The transfer chain conveyor further comprises a linear support member in which the wire coil is placed in a line contact state to prevent overcooling of the lower end of the wire coil.

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