KR101322124B1 - Apparatus for prevention of thermal radiation - Google Patents

Abstract

The present invention is installed at the outlet of the hot material in the heating furnace, the device body provided to prevent the heat dissipation to the outside by moving the high temperature material inside and mounted on the opposite side of the outlet of the heating furnace in the device body, One or more heat-resistant door means provided to discharge the high temperature material moved into the body, and a heating member mounted on the upper portion of the heat-resistant door means in the apparatus body and provided to heat the tip of the hot material being discharged. The present invention relates to a device for preventing heat dissipation, and according to the present invention, an effect of reducing heat unit cost by preventing heat from being dissipated to the outside through a door when a high temperature material is extracted from a furnace is expected.

Description

Apparatus for prevention of thermal radiation

The present invention relates to a heat dissipation preventing apparatus, and more particularly, to a heat dissipation preventing apparatus configured to prevent heat inside the furnace from being released to the outside when the door is opened for billet extraction from the furnace. .

Figure 1 schematically shows a rolling process of known wire rods. That is, as shown in Figure 1, by heating the billet (billlet) having a cross-sectional area of 160 × 160 mm to a temperature of 900 ~ 1200 ℃ that can be rolled in a heating furnace, rough rolling, intermediate rough rolling, intermediate finishing rolling, finishing rolling, etc. Carry out a series of rolling processes.

For example, the material 14 '(for example, billet) passed through the heating furnace 10 is a series of rolling processes 1 described above (however, in FIG. Hot rolled).

Next, the rolled wire rod 14 "is water-cooled while passing through the water cooler 3 to secure the target material, and the small-size wire rod 14" b having a diameter of 14 mm or less, depending on the wire rod diameter, The large diameter wire rod 14 " a, which is wound and has a diameter of 14 mm or more, is wound in the reeler 5 to produce a wound wire rod coil.

On the other hand, the heating furnace for heating the rolled material 14, such as billets during the rolling of the wire rod, although not shown in a separate drawing, it is composed of a (charging zone) preheating zone, a heating zone, and a cracking zone.

By the way, since the internal temperature of the crack zone on the material extraction side of the conventional heating furnace is kept uniform throughout the crack zone, the temperature of the material 14 extracted from the crack zone is uniform in the longitudinal direction thereof.

In other words, there is a concern that the rolling failure or other defects may be generated due to the unevenness of the material, so that the temperature of the material in the furnace cracking zone or the internal and external temperature does not occur in the furnace cracking zone.

Here, referring to FIG. 2, in the case of the conventional heating furnace 10, when the door 13 is opened for extraction of the billet 14, heat inside the heating furnace 10 is discharged to the outside (A). This is because the heat corresponding to the heat released must be supplied in the furnace 10 again, the heat unit cost rises, which ultimately increases the production cost.

In addition, the billet 14 extracted from the heating furnace 10 in the actual wire rolling process generates a temperature drop from the tip at the same time as the extraction. This may cause a decrease in rolling quality due to the temperature deviation of the billet when entering and rolling the rolling mill.

Therefore, in the art, when the door is opened to discharge the billet from the furnace, heat inside the furnace can be prevented from being discharged to the outside, and the roll roll blownability due to the drop in billet temperature during discharge is low. There is a need for a device that prevents losing.

In order to achieve the above object, an embodiment of the present invention provides a heat dissipation prevention device as follows.

The heat dissipation preventing device of the present invention is installed on the high temperature material outlet side of the heating facility, provided on the device body and the outlet side of the device body configured to move inside to keep the extracted high temperature material, It may be configured to include a heat-resistant door means provided to prevent dissipation.

Preferably, the heat resistant door means may be provided in a plurality in the apparatus body corresponding to the number of the high temperature material extracted from the heating facility, the high temperature material may be isolated from each other to insulate each other.

More preferably, the device body is provided closed to prevent the heat of the high temperature material to be dissipated to the outside, and may be configured in a shape that gradually narrows in the moving direction of the high temperature material.

And, the heat-resistant door means is connected to the hinge body to the device body and the door plate which is opened and closed by the extraction force of the high temperature material and the material extraction guide member which is mounted on the opposite side of the hinge member in the door plate to facilitate the discharge of high temperature material It may be configured to include.

Preferably, the material extraction guide member is connected by a pair of connection blocks mounted on the door plate and the connection block and the shaft, and includes a roller provided to move by sliding the upper surface of the high temperature material when discharging the high temperature material Can be configured.

In addition, it may be configured to further include a heating member mounted on the upper portion of the heat-resistant door means in the apparatus body and provided to heat or store the temperature of the front end of the high-temperature material being discharged.

One embodiment of the heat dissipation preventing device of the present invention through the above configuration, there is an effect that can prevent the heat of the inside of the furnace is released to the outside during billet extraction in the furnace.

Accordingly, there is an effect that can save the heat unit cost consumed to heat the billet in the furnace.

In addition, it is possible to expect the effect of improving the roll roll blowing property by heating the tip of the billet in the extraction atmosphere.

1 is a schematic view showing a wire rod rolling process.
Figure 2 is a schematic diagram showing a conventional billet extraction door.
Figure 3 is a perspective view showing a heat dissipation prevention device of the present invention mounted on the extraction door of the heating furnace.
4 is a view showing the heat resistant door means of the present invention shown in FIG.
5 is a view showing a heating member of the present invention shown in FIG.
6 is a view showing a state in which the heating member of the present invention shown in Figure 4 is heating the tip of the billet.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the heat dissipation prevention apparatus according to an embodiment of the present invention.

Hereinafter, exemplary embodiments will be described based on embodiments best suited for understanding the technical characteristics of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, It is to be understood that the present invention may be implemented as illustrated embodiments.

Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and such modified embodiments fall within the technical scope of the present invention.

In order to facilitate the understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, among the constituent elements that perform the same function in the respective embodiments, the related constituent elements are indicated by the same or an extension line number.

Embodiments related to the present invention basically reduce the heat unit cost by suppressing the release of heat inside the furnace when the hot material is extracted from the furnace to reduce the heat unit cost, to maintain the roll roll blowing of the hot material rolled products Is based on maintaining its quality.

Hereinafter, a specific embodiment of the present invention will be described with reference to the accompanying drawings.

Figure 3 is a perspective view showing a heat dissipation prevention apparatus of the present invention mounted on the extraction door of the heating furnace, Figure 4 is a view showing the heat-resistant door means of the present invention shown in FIG. 5 is a view showing a heating member of the present invention shown in Figure 2, Figure 6 is a view showing a state in which the heating member of the present invention shown in Figure 4 is heating the front end of the billet.

3 to 6, the present invention heat dissipation prevention device 100 is installed in the outlet of the high temperature material in the heating furnace, providing to prevent the heat dissipation to the outside while moving the high temperature material to the inside to keep warm. At least one heat-resistant door means 120 is mounted on the device body 110 and the device body 110 opposite to the outlet of the heating furnace, and provided to discharge the high temperature material moved into the device body 110. It can be configured to include.

The device body 110 is mounted on the hot material outlet side of the heating furnace to heat the hot material in order to improve the roll roll blowing property before being put into the rolling roll. The material of the apparatus body 110 may be made of a steel material having a high melting point to overcome the heating temperature of the heating furnace.

The device body 110 may be provided in a shape that gradually narrows in the moving direction of the high temperature material at the high temperature material outlet side of the heating furnace. First, the part of the apparatus body which is installed on the outlet side of the heating furnace has a size corresponding to the size of the outlet of the heating furnace because the heat dissipation phenomenon should be prevented at the outlet of the heating furnace. That is, the outlet side of the heating furnace is completely sealed.

And it has a shape that gradually narrows in the moving direction of the high temperature material, which is to minimize the heat dissipation when opening the door by reducing the size of the portion where the high temperature material is discharged. The device body 110 is provided to be sealed to prevent heat discharge from the portion mounted to the outlet of the heating furnace to the heat-resistant door means.

In the embodiment of the present invention, the size of the heat-resistant door means 120 mounted on the device body 110 is determined corresponding to the size of the billet which is a high temperature material. And the device body 110 is provided with a plurality of heat-resistant door means 120. Referring to Figure 3 it can be seen that in the embodiment of the present invention is provided with two heat-resistant door means 120. However, the present invention is not limited thereto, and a plurality of heat resistant door means 120 may be provided according to the shape or process of the heating furnace.

Here, the heat-resistant door means 120 is connected to the device body 110 by a hinge member 121 in the door plate 123 and the door plate 123 is configured to correspond to the tip shape of the high temperature material It may be configured to include a material extraction guide member 127 mounted on the opposite side of the hinge member 121 and provided to smoothly discharge the high temperature material and prevent the occurrence of scrap on the surface.

In addition, the material extraction guide member 124 is connected by a pair of connection blocks 125 and the connection block 125 and the shaft 126 mounted on the door plate 123, the high temperature material when discharging the high temperature material It can be configured to include a roller 127 to slide and move the upper surface of the high temperature material surface to prevent the occurrence of scrap.

Specifically, the heat-resistant door means 120 is connected by the hinge member 121 on one side upper end of the device body 110. Accordingly, when the high temperature material is discharged, the high temperature material is discharged to the lower portion of the heat resistant door means 120 while being lifted by the hinge member 121 at one upper end of the apparatus body 110.

In addition, the door plate 123 corresponding to the shape is provided at a portion where the high temperature material is discharged from the apparatus body 110. The door plate 123 is to close the heat-resistant door means of the device body 110 before the high temperature material is discharged, to prevent the heat dissipation through this portion. In the embodiment of the present invention is a rectangular shape, but is not necessarily limited thereto.

The material extraction guide member 124 is mounted on the opposite side of the side on which the hinge member 121 is installed, that is, a portion where the high temperature material contacts the door plate 123. The material extraction guide member 124 is provided with a pair of connecting blocks 125 at both sides of the door plate 123. The roller 127 is rotatably coupled to the hole formed at the center of the pair of connection blocks 125 by the shaft 126.

Here, when the high temperature material is discharged through the lower end of the heat resistant door means 120, the upper end of the high temperature material slides smoothly by the roller 127. Accordingly, the strap which may be generated in the billet which is a high temperature material by the door plate 123 is blocked.

Next, the heat dissipation preventing apparatus 100 of the present invention further includes a heating member 130 mounted on the upper portion of the heat resistant door means 120 in the apparatus body 110 and provided to heat the front end of the high-temperature material being discharged. It can be configured to include.

And, in one embodiment, the heating member 130 may be provided with an E-shape having three burners to heat the upper end surface and both sides of the high temperature material. In addition, it may be provided as a hot gas supply nozzle for supplying a hot gas to the tip of the high temperature material in addition to the burner to maintain the temperature at the time of extraction in the heating furnace.

When the billet, which is a hot material, is exposed to the outside after extraction from the heating furnace, the temperature of the hot material is drastically decreased. This causes a decrease in the roll roll blowing property of the high temperature material. Of course, since the temperature is lower than that of the heating furnace on the device body 110 which is sealed to the outside, the temperature drop cannot be prevented even while the device body 110 is in the discharge waiting state.

Therefore, the heating member 130 is added to the heat-resistant door means 120 side in the apparatus body 110 to maintain the temperature at the time of extraction of the heating of the billet, which is a high-temperature material that is waiting for extraction in the apparatus body 110. It can be mounted as.

The heating member 130 maintains the roll roll blowing property by heating the tip of the high-temperature material that is waiting to be extracted from the heat resistant door means 120. At this time, the heating member 130 may be provided with three burners or hot gas supply nozzles (131, 133, 135) to the top and both sides of the heat-resistant door means 120. Each burner or hot gas supply nozzle 131, 133, 135 is connected to a gas supply line or a hot gas supply line 132, 134, 136, and in the case of a burner, an ignition device (not shown) is provided at the tip.

By the burner or the hot gas supply nozzles (131, 133, 135), the tip of the high temperature material is continuously heated or stored in the temperature during the extraction atmosphere to maintain the temperature at the time of extraction by the heating, and is discharged from the apparatus body (110) after rolling roll It is blown into and the rest of the wire rod rolling process is performed.

Through the above configuration, it is possible to reduce the heat unit cost by preventing heat dissipation at the outlet side of the furnace when extracting the high temperature material from the furnace, and to expect the effect of continuously heating the hot material in the extraction atmosphere to maintain the roll roll penetration. Can be.

The above is only a specific embodiment of the heat dissipation prevention device.

Therefore, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. do.

110.Device body 120 ... Heat-resistant door means
121 Hinge member 123 Door plate
124 Material extraction guide member 125 Connection block
126 ... shaft 127 ... roller
130 Heating element 131,133,135 Burner / hot gas supply nozzle

Claims (6)

Is installed on the hot material outlet side of the heating facility, the device body configured to move the high temperature material to the inside to keep the hot material extracted; And
And a heat resistant door means provided at an outlet side of the apparatus body and provided to prevent heat from being dissipated when the high temperature material is discharged.
The heat-resistant door means, the door plate is connected to the device body by a hinge member and opened and closed by the extraction force of the high temperature material; And a material extraction guide member mounted on an opposite side of the hinge member from the door plate and provided to easily discharge the high temperature material.
The material extraction guide member includes a pair of connection blocks mounted on the door plate; And a roller connected to the connection block and the shaft, the roller being provided so that the upper surface of the hot material slides and is extracted when the hot material is discharged.
Heat dissipation prevention device comprising a.
The method of claim 1,
The heat-resistant door means is provided with a plurality of the body body corresponding to the number of the high temperature material extracted from the heating facility, the heat dissipation preventing device, characterized in that provided to be isolated from each other to keep the high temperature material, respectively.
The method of claim 1,
The apparatus body is provided to be sealed to prevent the heat of the high temperature material to be dissipated to the outside, characterized in that the heat dissipation prevention device characterized in that it has a shape that gradually narrows in the moving direction of the high temperature material.
delete delete 4. The method according to any one of claims 1 to 3,
And a heating member mounted on an upper portion of the heat-resistant door means in the apparatus body and provided to heat or warm the tip of the high-temperature material being discharged.

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