KR101201399B1 - Chamber device for dewiness occurrence prevention - Google Patents

Abstract

The present invention relates to a condensation prevention chamber device that can effectively remove the fine dust or water vapor generated in the steel sheet when heating to dry the coated steel sheet during the manufacturing process of the cold rolled steel sheet to reduce the defect rate of the steel sheet. The condensation prevention chamber device of the present invention comprises an inlet provided at one end of the main body and an outlet provided at the other end of the main body and connected to the passage so as to be connected to the main body and the passage where the passage is formed along the direction in which the steel sheet is supplied. A chamber provided, a blower fan connected to the inlet of the chamber and provided for supplying air to the inside of the main body, and a heater device provided between the blower fan and the inlet, and suctioned by operation of the blower fan. The compressed air is converted into high temperature air through the heater, passes through the inlet of the chamber, passes through the inside of the body, and is discharged to the outside through the outlet.

Description

Chamber device for preventing dew condensation {CHAMBER DEVICE FOR DEWINESS OCCURRENCE PREVENTION}

The present invention relates to a chamber device for preventing condensation, and more particularly, to effectively remove fine dust or water vapor generated from a steel sheet during heating to dry the coated steel sheet in a process of manufacturing a cold rolled steel sheet, thereby reducing the defect rate of the steel sheet. The present invention relates to a chamber device for preventing condensation.

In general, the cold rolled steel sheet has a beautiful surface and can be pressed, so it is used directly in automobiles, home appliances, furniture, office supplies, vehicles, construction, or as a plating plate for zinc, aluminum, tin, chrome, etc. wide. In the process of manufacturing a cold rolled steel sheet, the steel sheet coated with the fingerprint solution or the color solution is heated to a high temperature to dry it. At this time, the steel sheet heated to a high temperature by the heating device generates a large amount of fine dust and water vapor, and a chamber for supplying hot air (HOT-AIR) to remove the fine dust and water vapor generated in this way and to reduce the defect rate of the steel sheet. Is installed.

1 is a cross-sectional view of a chamber installed in a manufacturing process of a conventional cold rolled steel sheet. The chamber 1 includes a main body 1a in which a passage 1b is formed along a direction in which the steel sheet 2 is supplied, and a main body (1) for removing fine dust and water vapor generated in the steel sheet 2 heated to a high temperature. First and second outlets 1c and 1d provided at both ends of 1a). However, when the steel sheet 2 heated to 150 ° C. in the heating apparatus passes through the chamber 1 having an atmospheric temperature of about 20 ° C., dew condensation occurs inside the main body 1 a of the chamber 1 due to a sudden temperature difference. . Particularly, dew is continuously formed on the inner upper surface of the main body 1a, and the dew drops on the steel sheet 2 passing through the chamber 1 by its own weight, damaging the surface of the steel sheet 2, There is a problem that the defective rate is increased and the productivity is lowered.

The present invention has been made to solve the above problems, an object of the present invention, the condensation that can prevent dew condensation phenomenon by reducing the temperature difference between the heated steel sheet and the inside of the chamber by passing the hot air to the inside of the chamber. It is to provide a chamber device for prevention. Another object of the present invention is to provide a condensation prevention chamber device having a structure which prevents dew from flowing down along the inclined surface of the chamber and falling on the surface of the steel sheet even when dew condensation occurs inside the chamber due to a sudden temperature difference. have. In addition, the hot air supplied is uniformly spread by the diffusion plate installed inside the chamber to provide a chamber device for preventing condensation to prevent the shaking of the steel sheet is introduced to improve the coating quality.

A feature of the present invention for achieving the above object is, the inlet is provided at one end of the main body and the other end of the main body is connected to the passage so as to be connected to the main body and the passage is formed along the direction in which the steel sheet is supplied A chamber having a discharge outlet, and a blower fan connected to the inlet of the chamber and installed to supply air to the inside of the main body, and a heater device provided between the blower fan and the inlet port. By the air sucked by the heater device is converted to high-temperature air through the inlet of the chamber passes through the inside of the main body is discharged to the outside through the discharge port discloses a chamber device for preventing condensation.

According to the present invention, there is an effect of preventing dew condensation occurring inside the chamber by reducing the temperature difference between the heated steel sheet and the inside of the chamber by circulating high temperature air inside the chamber. In addition, the hot air generated by passing through the heater device is evenly and uniformly diffused inside the main body by a diffusion plate installed inside the main body of the chamber, and convective phenomena of the air is generated since the hot air is continuously supplied to and discharged from the chamber. Very excellent. If the temperature difference is large, the dew formed inside the main body of the chamber flows along the inner inclined surface of the main body to prevent falling on the surface of the steel sheet. Therefore, the steel sheet is prevented from being damaged, thereby reducing the defective rate of the steel sheet, thereby improving productivity.

1 is a cross-sectional view of a chamber installed in a manufacturing process of a conventional cold rolled steel sheet.
Figure 2 is a schematic process diagram showing a cold rolled steel sheet manufacturing process equipped with a condensation prevention chamber device according to the present invention.
3 is a front view showing the chamber configuration of the condensation prevention chamber device according to the present invention.
4 is a longitudinal cross-sectional view of the chamber shown in FIG. 3.
FIG. 5 is a perspective view of the extension plate shown in FIG. 4. FIG.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

Hereinafter, a preferred embodiment of the condensation prevention chamber device according to the present invention will be described in detail with reference to the accompanying drawings.

First, Figure 1 is a schematic process diagram showing a cold rolled steel sheet manufacturing process is installed chamber device for preventing condensation according to the present invention. The air supply device 20 is provided with a main body in which a through hole is formed along a direction in which the steel sheet 10 is supplied, and a plurality of nozzles through which hot air is injected into the main body. Accordingly, the steel sheet 10 coated with the anti-fingerprint solution or the color solution is supplied to the inlet side of the through hole of the air supply device 20, and the supplied steel sheet 10 is preheated by hot air injected through a plurality of nozzles. do. The preheated steel sheet 10 is discharged to the outlet side of the through hole and supplied to the heating apparatus 30.

The heating device 30 is for heating the preheated steel sheet 10 to a high temperature of 150 ° C., and is disposed at a position adjacent to the air supply device 20. The heating device 30 includes a main body in which through holes are formed along a direction in which the steel sheet 10 is supplied, and a coil insulator disposed in the through holes of the main body and in which a passage is formed to pass through the steel sheet 10. Is installed. The coils are wrapped at regular intervals on the outer circumferential surface of the coil insulator. The heating device 30 having such a structure is referred to as an induction heating device, and the principle of operation thereof will be described in that the high frequency current flows through the coil wound around the outer circumferential surface of the coil insulator in which the passage is formed. Heat is generated. Due to this heat, the anti-fingerprint solution or the color solution applied to the surface of the steel sheet 10 which is continuously supplied produces a high quality steel sheet. The heating device 30 is provided in plurality at regular intervals.

2 to 4, the condensation prevention chamber device is composed of a first chamber 40, a heater device 60, and a blowing fan 71. The first chamber 40 is disposed between the heating device 30 and the heating device 30 which are provided in plural at regular intervals. As such, the first chamber 40 disposed between the heating devices 30 removes fine dust or water vapor generated from the steel plate 10 heated by the heating device 30, thereby damaging the surface of the steel plate 10. This is to prevent it.

The first chamber 40 is provided on the main body 41 in which the passage 42 is formed along the direction in which the steel plate 10 is supplied, and on the outer peripheral surfaces of both ends of the main body 41 so as to be connected to the passage 42. It includes an inlet 44 and an outlet 45. In addition, the inclined surface 43 is formed in the inner upper portion of the main body 41, and the diffusion plate 46 in which a plurality of through holes 46a are formed at regular intervals inside the main body 41 adjacent to the inlet 44. ) Is installed. The first chamber 40 is fixed to the upper portion of the support frame 47 disposed on the ground so that it can be installed stably. In the first chamber 40, it is preferable to manufacture the main body 41 using the thermal insulation material to maintain the internal temperature.

The second chamber 50 is installed in the last process of the heating device 30, and because the temperature of the steel plate 10 is low, the difference between the inner temperature of the main body is small and the chamber having the same structure as the conventional chamber is used. However, the present invention is not limited thereto, and the first chamber 40 according to the present invention may be installed.

The heater device 60 is connected to the discharge port 44 of the first chamber 40 and one end of the supply pipe 72, and blower fan 71 at the other end of the supply pipe 72 passing through the heater device 60 in the center thereof. ) Is installed. Therefore, by operating the blower fan 71, the outside air is sucked and transferred to the supply pipe 72, and the outside air at room temperature is heated by the hot air while passing through the heater device 60, and then is supplied to the discharge port 44. The heater device 60 according to the present invention heats the air transferred to the supply pipe 72 by using steam, but is not limited thereto, and any configuration may be used to heat external air at room temperature transferred to the supply pipe 72. It is possible.

As shown in FIG. 2, the supply pipe 72 includes a plurality of nozzles of the air supply device 20, and an inlet 44 of each first chamber 40 disposed between the heating device 30 and the heating device 30. ) Therefore, the hot air supplied to the air supply device 20 is injected in the direction in which the steel plate 10 of the air supply device 20 is supplied and discharged to the atmosphere, and the high temperature air supplied to each of the first chambers 40 is supplied. The air passes through the inside of the main body 41 and is discharged to the discharge pipe 73 through the respective discharge ports 45. One end of the discharge pipe 70 is connected to the heating device 30 and the discharge port 45 of the first chamber 40, and effectively removes fine dust and water vapor inside the main body 41 of the first chamber 40. It is preferable that the exhaust fan 74 is provided at the other end of the discharge pipe 73 so that it can be provided.

The wet damping device 80 is installed between the discharge pipe 73 and the exhaust fan 74, and serves to clean and absorb the fine dust contained in the air discharged through the discharge pipe 73 in water. Clean air is discharged to the atmosphere through the stack (90).

Referring to a specific operating state of the condensation prevention chamber device according to the present invention, by operating the blowing fan 71 to transfer the outside air to the supply pipe (72). The conveyed air is converted into hot air while passing through the heater device 60. The converted hot air is transferred through the supply pipe 72 and is supplied to the air supply device 20 with the inlet of each of the first chambers 40. The hot air supplied to the air supply device 20 preheats the steel plate 10 coated with the antifouling solution or the color coating solution.

4 to 5, the hot air introduced into the inlet 44 of the first chamber 40 is introduced into the main body 41. At this time, the steel sheet 10 heated by the heating device 30 is supplied along the passage 42 of the first chamber 40. The first chamber 40 is supplied with hot air heated by the heater device 60 through the inlet 44, and the hot air is uniformly diffused inside the main body 41 to be supplied through the passage 42. Passed through the steel plate 10 is discharged to the outlet 45. The diffusion plate 36 is provided inside the main body 41 adjacent to the inlet 44 so as to evenly distribute and disperse hot air supplied through the inlet 44. The diffusion plate 36 is a thin plate, and a plurality of through holes 36a are formed along rows and columns at regular intervals.

The hot air supplied through the inlet 44 flows evenly and uniformly through the through-hole 36a of the diffuser plate 36 to the entire top, bottom, left and right inside the main body 41. Therefore, since the inside temperature of the main body 41 can be kept uniform, even if the heated steel plate 10 is supplied, the temperature difference is small and there is little generation | occurrence | production of fine dust and water vapor. In addition, since the diffusion plate 36 is uniformly spread, the shaking of the steel sheet 10 to be introduced is prevented, thereby improving the coating quality of the steel sheet 10. The fine dust and water vapor generated while the heated steel sheet 10 passes through the passage 42 of the main body 41 are mixed with the hot air supplied through the inlet 44 to the discharge port 45 of the main body 41. Discharged. Since the air heated to a high temperature through the heater device 60 is continuously supplied to the inside of the main body 41, the temperature difference with the heated steel sheet 10 can be reduced to reduce the generation of water vapor.

As described above, even when hot air is supplied through the inlet 44, a large amount of water vapor is generated when the temperature difference between the steel plate 10 supplied along the passage 42 and the inside of the main body 41 is large. Dew is formed on the inner upper surface. In order to improve this, the inner upper surface of the main body 41 is provided with an inclined surface 43 having a predetermined angle (d) along the direction of the discharge port 45 in the inlet 44. Even if dew is formed on the inner upper surface of the main body 41, dew formed along the inclined surface 43 flows down. Therefore, since the dew does not fall on the surface of the steel sheet 10, it is possible to produce a high quality steel sheet 10, there is an effect of increasing the productivity by reducing the defective rate when manufacturing the steel sheet 10.

Air mixed with the fine dust and water vapor discharged to the discharge port 45 of the first chamber 40 is transferred along the discharge pipe 73, the fine dust is removed from the wet damping device 80 and then the stack 90 Through the outside. The exhaust fan 74 installed in the discharge pipe 73 quickly removes air mixed with fine dust and water vapor generated from the steel sheet 10 heated inside the main body 41 to damage the steel sheet 10. It is prevented, and the hot air heated by the heater device 60 is to be introduced into the main body 41 of the first chamber 40 quickly and smoothly.

The condensation prevention chamber device according to the present invention effectively prevents dew condensation caused by a temperature difference inside the main body by circulating high temperature air in the chamber. In addition, even if dew is formed, dew formed along the inclined surface provided on the inner upper surface of the main body does not fall and falls on the surface of the steel sheet, thereby preventing the steel sheet from being damaged, thereby reducing the defective rate of the steel sheet, thereby improving productivity. In addition, the hot air supplied is uniformly spread by the diffusion plate installed inside the chamber, thereby preventing the shaking of the steel sheet to be introduced, thereby improving the coating quality.

Embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

10: steel sheet 20: air supply device
30 heating device 40 first chamber
41: main body 42: passage
43: slope 44: inlet
45 outlet 46 diffusion plate
47: support frame 50: second chamber
60: heater device 71: blowing fan
72 supply pipe 73 discharge pipe
74: exhaust fan 80: wet damping device
90: stack

Claims (3)

A main body having a passage formed along a direction in which the steel sheet is supplied, an inlet provided at one end of the main body to be connected to the passage in a cross direction, and a second end of the main body and connected to the passage in a cross direction A chamber having an outlet,
A blowing fan connected to the inlet of the chamber and installed to supply air to the inside of the main body;
A heater device installed between the blower fan and the inlet;
The air sucked by the operation of the blower fan is converted into high temperature air through the heater device, and passes through the inlet of the chamber in the direction intersecting with the steel sheet supplied through the passage and passes through the inside of the main body. Condensation prevention chamber device, characterized in that discharged to the outside through the discharge port. The method of claim 1,
Condensation prevention chamber device, characterized in that the inner upper surface of the main body has an inclined surface so that the dew formed from the inlet toward the outlet flows down. The method according to claim 1 or 2,
And a diffusion plate having a plurality of through holes formed inside the main body adjacent to the inlet.

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