KR100581759B1 - Coolling part of continuation type heat treatment equipment - Google Patents

Abstract

The present invention relates to a configuration of a cooling unit of a continuous heat treatment apparatus, which is connected to a heat treatment unit connected to a preheating unit, and has a cooling tube having a heat insulating material provided with an air circulation blower on the upper side, and a ventilation hole is formed on the upper side of the cooling tube. In the cooling unit of the continuous heat treatment apparatus having a cap-shaped guide channel which is spaced apart therein, it is provided on the rotating shaft of the rotating motor constituting the blower, and a horizontal divider is formed in the middle of the axial direction, and the rotating motor The cylindrical sirocco fan of the multi-wing which separates the outside air and the inside of the cooling tube from the upper and lower, respectively, during the rotation of the cooling pipe while forcedly circulating at the same time; An intake pipe inserted into an upper center of the cooling tube located on an upper side of the sirocco fan to supply outside air to the sirocco fan; And an exhaust duct installed through both upper sides of the cooling tube to exhaust the internal air of the cooling tube circulated by the sirocco fan to the outside, and an intake pipe is provided at an upper end of the cooling tube. The partition plate is formed in the sirocco fan, and the outside air and the inside of the cooling tube can be sucked, exhausted and circulated simultaneously.

Atmosphere, high temperature, brower, sirocco, cooling

Description

Cooling part of continuous heat treatment equipment {COOLLING PART OF CONTINUATION TYPE HEAT TREATMENT EQUIPMENT}

1 is a side view showing a typical continuous heat treatment apparatus,

FIG. 2 is a side sectional view schematically showing the cooling unit shown in FIG. 1;

3 is a cross-sectional view taken along the line A-A 'of FIG. 2 showing the configuration of the cooling unit shown in FIG.

4 is a perspective view illustrating a guide channel inside the cooling tube illustrated in FIG. 3;

5 is a front sectional view showing a cooling unit of the continuous heat treatment apparatus according to the present invention;

6 is a front sectional view of the cooling unit conceptually illustrating that air is circulated in the cooling unit illustrated in FIG. 5.

<Explanation of symbols for the main parts of the drawings>

40 cooling part 42 cooling tube

44: insulation material 46: guide channel

46a: vent 420: exhaust duct

500: sirocco fan 510: vertical blade

520: Partition B: Brow

The present invention relates to a cooling unit of a heat treatment apparatus for heat treatment while continuously conveying a metal material to be processed, and relates to a cooling unit of a continuous heat treatment apparatus that can exclude the air supply blower installed in the cooling unit.

The cooling unit of the general continuous heat treatment apparatus serves to slow cooling by air cooling when the material to be treated is heat-treated in the heat treatment unit and converted into a heat treatment material.

As shown in FIG. 1, the continuous heat treatment apparatus includes a preheating unit driven by a tubular preheating unit 20, a heat treatment unit 30, a cooling unit 40, and a driving motor CM that are sequentially connected in series. It is roughly divided into the mesh conveyor C which circulates from 20 to the cooling part 40. FIG.

That is, the material to be treated is introduced from the preheating unit 20, preheated while moving along the mesh conveyor C, and heat treated while passing through the heat treatment unit 30, and then the cooling unit 40 having the blower B is provided. The cooling pipe 42 is cooled and discharged while passing through a plurality of series connected in series as shown.

Here, the cooling unit 40 is as shown in Figures 2 to 4 attached, Figure 2 is a side cross-sectional view schematically showing an enlarged cooling unit shown in Figure 1, Figure 3 is shown in Figure 2 2 is a cross-sectional view taken along line AA ′ of FIG. 2, and FIG. 4 is a perspective view illustrating a guide channel inside the cooling tube illustrated in FIG. 3.

As illustrated, the cooling unit 40 includes a cooling tube 42 having a heat insulating member 44 having an air circulation blower B vertically provided thereon, and an air vent 46a formed thereon, such that the cooling tube 42 has an upper portion. It is installed in the interior, consists of a cap-shaped guide channel 46 is installed spaced apart from the inner peripheral surface of the cooling pipe (42).

At this time, the blower (B) is composed of a multi-cylindrical cylindrical sirocco fan (S) that is connected to the rotating shaft of the rotary motor (M) and the rotary motor (M), the sirocco fan (S) is shown As interposed between the cooling pipe 42 and the guide channel 46.

And, as shown in Figure 3, the guide channel 46 is installed spaced apart at regular intervals from the inner peripheral surface of the cooling tube 42 is surrounded by a heat insulating material 44, such as ceramic or heat-resistant cement, the lower end portion As shown in Figure 4 is fixed by a support angle 46b spaced at equal intervals to support.

Of course, the guide channel 46 is spaced at a predetermined interval from the bottom surface of the cooling tube 42 due to the support angle 46b.

On the other hand, the cooling unit 40 is a pair of vertically elongated air intake duct 42a for supplying the outside air into the cooling tube 42 and, on the contrary, for exhausting the inside of the cooling tube 42 to the outside. With the exhaust duct 42b, the bet exhausted by the exhaust duct 42b is exhausted by the blowing pressure of the sirocco fan S operated by the rotary motor M.

As such, the pair of intake / exhaust ducts 42a and 42b formed in a pair are vertically installed while facing each other on both sides of the upper end of the cooling pipe 42, as shown in FIG. It penetrates vertically up to the inner upper end of the guide channel 46.

At this time, at the air inlet side end of the intake duct 42a, an intake blower B 'for forced air blowing into the inside of the cooling pipe 42 is provided.

If this intake blower (B ') is not installed, the sirocco fan (S) operated by the rotary motor (M) should intake the outside air, but the rotational force of the sirocco fan (S) of the cooling pipe 42 It can not be intaked enough to meet the necessary air inside.

Because the diameter of the intake duct 42a is too small, it is difficult to intake a large amount of outside air only by the rotational force of the sirocco fan S, and the distance between the intake duct 42a and the sirocco fan S is shown. Because they are too far together, they cannot inhale a lot of outside air.

Therefore, if the intake air is only provided with the sirocco fan S without providing the intake blower B ', the intake amount is too small to cool the processing material 1 of the cooling unit 42, so that a large amount of air is intaked. An intake blower B 'must be installed in the intake duct 42a.

Of course, the position of the intake duct 42a and the exhaust duct 42b may be installed by changing the positions of the intake ducts 42a so that the intake amount is increased by the sirocco fan S. However, the sirocco fan S is directly connected to the intake duct 42a. Since it is not connected, the intake air amount cannot be greatly improved.

On the other hand, the exhaust duct 42b can smoothly exhaust the internal air by the blowing pressure of the intake blower B 'and the air intake pressure of the sirocco fan S.

In particular, the exhaust duct 42b can exhaust the air by the blowing pressure of the intake blower B '.

Of course, an exhaust blower such as an intake duct 42a may also be provided in the exhaust duct 42b, but the cooling unit 40 acts as a main factor rather than an outside air for cooling the material 1, and therefore, an exhaust blower It is unnecessary to install it.

In addition, when the exhaust blower is installed, since the outside air having cold air is circulated too rapidly in the cooling pipe 42, the exhaust air is exhausted, which may cause a problem that the material 1 is rapidly cooled and the tissue is destroyed.

Therefore, it is preferable that no exhaust blower is provided in the exhaust duct 42b.

On the other hand, reference numeral T described in FIG. 2 is a thermocouple installed in the cooling tube 42 to measure the internal temperature of the cooling tube 42. The temperature of the cooling tube 42 measured by the thermocouple is It is indicated by an analog or digital code on the not shown display unit.

The cooling part 40 of the general continuous heat processing apparatus comprised in this way receives the to-be-processed material 1 heat-processed by the heat processing part 30 provided previously from the mesh conveyor C. As shown in FIG.

That is, the heat treated material 1 is introduced into the guide channel 46 inside the cooling pipe 42 by the mesh conveyor C.

Then, the heat-treated target material 1 is cooled by the outside air intaken in the intake duct 42a by the intake blower B 'and the inside air circulated by the sirocco fan S.

At this time, the outside air taken into the inside of the cooling tube 42 and the bet of the cooling tube 42 are mixed by the operation of the sirocco fan S, and the mixed air is again guide channel (shown in FIG. 3). 46 is introduced into the inside through the lower portion of the material, and the material 1 is recooled by the introduced mixed air.

And the mixed air which cooled the to-be-processed material 1 is exhausted partly by exhaust duct 42b, and the other part is recycled again inside the guide channel 46. As shown in FIG.

On the other hand, the to-be-processed material 1 cooled by the cooling part 40 is discharged after being conveyed by the mesh conveyor C continuously.

However, since the cooling unit 40 of the general continuous heat treatment apparatus operated as described above, all of the intake and exhaust ducts 42a and 42b as described above, which are formed vertically long, must be installed in the cooling pipe 42. Not only is there a problem in that the manufacturing cost is excessively consumed, and the intake / exhaust ducts 42a and 42b must be installed through the cooling pipe 42 and the guide channel 46, so there is a problem that the manufacturing time is long.

In addition, in order to intake the outside air through the intake duct 42a, the intake blower B 'must be installed in the intake duct 42a. Therefore, the manufacturing cost and the manufacturing time are excessively consumed.

In addition, since the outside air having cold air that is taken in by the intake duct 42a is directly blown to the workpiece 1, the surface structure of the workpiece 1 is rapidly cooled.

In addition, since the driving motor M of the sirocco fan S and the intake blower B 'of the intake duct 42a must be operated at the same time, there is a problem in that power is excessively consumed.

The present invention was created in order to solve the above-described conventional problems, while improving the intake ducts and blower blades of the blower installed in the cooling unit to simultaneously inhale and exhaust the outside air and the inside of the cooling pipe, The purpose is to provide a cooling unit of a continuous heat treatment apparatus that can also circulate air.

Another object is to provide a cooling unit of a continuous heat treatment apparatus in which outside air having cold air is not directly supplied to a material to be processed.

The cooling unit of the continuous heat treatment apparatus according to the present invention for achieving the above object is connected to the heat treatment unit 30 is connected to the preheating unit 20, the insulating material 44 is provided with an air circulation blower (B) at the top Cooling section 42 of the continuous heat treatment apparatus having a cooling tube 42 having a and a cap-shaped guide channel 46 is formed in the upper portion and spaced apart in the cooling tube 42 is formed in the upper portion (40) ), Which is installed on the rotary shaft of the rotary motor M constituting the blower B, and a horizontal divider plate 520 is formed in the middle of the axial direction, so that the cooling tube is rotated when the rotary motor M rotates. A cylindrical cylindrical sirocco fan 500 for dividing the outside air and the inside of the 42 from the upper and lower portions, respectively, to intake and exhaust the air and forcibly circulate it; An intake pipe 420-1 inserted through the upper center of the cooling pipe 42 located at an upper side of the sirocco fan 500 to supply outside air to the sirocco fan 500; An exhaust duct 420-2 installed through both sides of the upper portion of the cooling tube 42 to exhaust the internal air of the cooling tube 42 circulated by the sirocco fan 500 to the outside; It is done.

At this time, the intake pipe 420-1 has a rotary motor (M) is seated while the rotating shaft of the rotary motor (M) is penetrated, and has a plurality of air intake holes (CH), the intake pipe (420-1) An upper cover (C) integral with the upper end of the; And a lower cover C ′ having an outlet hole CH ′ and integrally formed with the lower end of the intake pipe 420-1.

Hereinafter, the cooling unit of the continuous heat treatment apparatus according to the present invention will be described with reference to the accompanying drawings. In the following description, components having the same technical spirit and features as the prior art will be described with the same reference numerals. .

5 is a front sectional view showing a cooling unit of the continuous heat treatment apparatus according to the present invention, and FIG. 6 is a front sectional view conceptually showing that air is circulated in the cooling unit shown in FIG.

As shown, the cooling unit 40 of the continuous heat treatment apparatus according to the present invention includes a cooling tube 42 having an insulating material 44 having an air circulation blower B provided thereon, and an air vent 46a. It is formed on the upper side and has a cap-shaped guide channel 46 spaced apart from the cooling tube 42 in the interior of the cooling tube 42.

At this time, the guide channel 46 is supported by the support angle 46b is installed at equal intervals.

Here, the present invention is installed on the rotary shaft of the rotary motor (M) constituting the blower (B), the internal air of the cooling tube 42 smoothly as the high air volume is released in a short time compared to the rotational force of the rotary motor (M). And a multi-cylindrical cylindrical sirocco fan 500 as shown in FIG.

In this case, as shown in FIG. 5, the sirocco fan 500 is formed to cross the horizontal partition plate 520 in the middle of the vertical blade 510 in the axial direction, so that the air circulated is upper and lower respectively. Configured to be split.

That is, the sirocco fan 500 has a structure divided into upper and lower portions by the partition plate 520.

In addition, the present invention is inserted through the upper center of the cooling pipe 42 located on the upper side of the sirocco fan 500, the intake pipe 420-1 as shown to supply the outside air to the sirocco fan 500 Include.

Here, the inner diameter of the intake pipe 420-1 is preferably formed to be the same as the outer diameter of the sirocco fan 500 or to be slightly larger than that of the sirocco fan 500 to facilitate air suction.

In addition, the rotary motor M is seated on the intake pipe 420-1 while the rotary shaft of the rotary motor M passes therethrough, and has a plurality of air intake holes CH, and the intake pipe 420-1. It is preferable to provide an upper cover (C) integral with the upper end of the.

Then, the rotary motor (M) can be seated on the upper cover (C), it is possible to stably fix the rotary motor (M) on the upper cover (C).

However, when the upper cover (C) is not provided, a rod (not shown) for fixing the rotating motor (M) fixed to the cooling pipe 42 across the upper portion of the intake pipe 420-1 is provided. After that, the rotation motor M may be fixed to the rod.

On the other hand, the lower end of the intake pipe 420-1 has a discharge hole (CH ') in the center, it is more preferable to provide a lower cover (C') integral with the lower end of the intake pipe (420-1).

At this time, the discharge hole (CH ') of the lower cover (C') is formed to be the same or slightly larger than the outer diameter of the sirocco fan 500, it is preferable to install so as to have a gap with the top of the sirocco fan 500, As described above, it is preferable to form a lower protruding rim that induces outside air around the discharge hole CH '.

Then, outside air that is taken in by the intake pipe 420-1 may be supplied while being concentrated inside the sirocco fan 500.

Subsequently, the present invention includes at least one exhaust duct 420-2 provided through both upper sides of the cooling tube 42 to exhaust the internal air of the cooling tube 42 circulated by the sirocco fan 500 to the outside. )

The exhaust duct 420-2 penetrates the cooling pipe 42 vertically as shown, but does not penetrate the guide channel 46 as in the prior art.

That is, in the exhaust duct 420-2, the discharge side end portion is positioned between the inner surface of the cooling tube 42 and the outer surface of the guide channel 46.

The cooling unit 40 of the continuous heat treatment apparatus according to the present invention configured as described above circulates the internal air of the cooling tube 42 as shown in FIG. 6 during operation.

Here, the operation of the cooling unit 40 according to the present invention with reference to Figure 6 in more detail, when the rotary motor (M) of the brower (B) is rotated in conjunction with the sirocco fan (500).

Then, the outside air of the cooling pipe 42 is introduced into the intake hole CH formed in the upper cover C of the intake pipe 420-1 by the rotation of the sirocco fan 500, and the outside air is provided in the lower cover c. Passed through the exhaust hole (CH ') of the') is supplied into the upper inside of the sirocco fan 500.

The air is not discharged to the side of the sirocco fan 500 by the divider plate 520 of the sirocco fan 500 but is discharged to the side.

Therefore, the discharged air proceeds downward along the outer surface of the guide channel 46, flows into the lower portion of the guide channel 46, and then rises again by the wind pressure of the sirocco fan 500. ) Is discharged into the vent hole 46b, and the discharge air is continuously supplied to the lower inner side of the sirocco fan 500.

Subsequently, the air supplied to the lower inner side of the sirocco fan 500 is discharged to the side by not going to the upper side by the divider plate 520 of the sirocco fan 500, and after being discharged, the mixing zone indicated by MX in the drawing ( After mixing with the low temperature outside air in the mixing zone, some are exhausted to the exhaust duct 420-2, and the other is circulated to the lower portion of the guide channel 46 again.

That is, the low temperature outside air and the high temperature bet are bisected at the upper and lower sides of the sirocco fan 500 by the partition plate 520 of the sirocco fan 500, and then supplied and circulated into the cooling tube 42.

Of course, the material to be processed 1 located inside the guide channel 46 is cooled by air cooling by air supplied and circulated.

The cooling unit 40 according to the present invention constructed and operated as described above circulates and circulates the internal and external air of the cooling tube 42 having a temperature difference. Therefore, the intake duct installed vertically long as in the prior art is not provided. The high temperature to-be-processed material 1 can be cooled, without having to.

In addition, it is not necessary to provide a separate intake blower as in the prior art for supplying air.

In particular, since the outside air having cold air is not directly supplied to the material 1 to be treated, but is supplied after being mixed with warmth in the mixing zone MX, it is possible to prevent surface tissue destruction by rapid cooling of the material 1 to be processed. Can be.

On the other hand, the above-described intake pipe (420-1) or the intake hole (CH) formed in the intake pipe (420-1) can be provided with a plate-shaped damper that can adjust the ventilation amount, in this case The cooling temperature of the cooling unit 40 can be easily adjusted.

In other words, when the internal air of the cooling pipe 42 is too high, the damper may be opened, and if the air is too low, the damper may be closed to improve the internal temperature of the cooling unit 40.

Of course, such a damper should be installed to enable the opening and closing adjustment on the outside of the cooling tube 42, and the thermocouple to measure the internal temperature should be provided in the cooling tube 42 so as to check the opening and closing adjustment time.

Therefore, by providing such a damper, the cooling temperature of the to-be-processed material 1 can be cooled at desired temperature.

The above embodiment is merely a description of the preferred embodiment of the present invention, the scope of application of the present invention is not limited to such, and can be changed as appropriate within the scope of the same idea.

Accordingly, the shape and structure of each component shown in the embodiments of the present invention can be modified and carried out, and such modifications are naturally belonging to the appended claims.

 The cooling unit of the continuous heat treatment apparatus according to the present invention as described above has a variety of effects, but look at some of them, first the intake pipe is provided in close proximity to the sirocco fan at the top of the cooling tube, the partition plate is formed in the middle of the sirocco fan, Since the outside air and the inside of the cooling pipe can be intaken, exhausted and circulated at the same time, as a single blower can exhibit various functions, the cooling unit can be simply configured to reduce the manufacturing cost and manufacturing time of the cooling unit. It works.

In addition, unlike the prior art, only one brower needs to be installed and operated, so that power can be saved, thereby preventing excessive operating expenses.

In addition, since the exhaust duct does not penetrate the guide channel of the cooling pipe, there is an effect that the exhaust duct can be easily and simply installed.

In addition, since the outside air having cold air is not directly supplied to the material to be processed, there is an effect of producing a material to be processed having a good surface structure.

Claims (4)

Cooling pipe 42 having a heat insulating material 44 is connected to the heat treatment unit 30 connected to the preheating unit 20 and provided with an air circulation blower B provided with a sirocco fan 500 thereon, and a vent hole ( 46a) is formed in the upper portion of the cap-shaped guide channel 46 is installed in the cooling tube 42 in a spaced apart state, and inserted through the upper center of the cooling tube 42, the outside air to the sirocco fan 500 Exhaust ducts 420-2 provided through the intake pipe 420-1 for supplying and upper sides of the cooling pipe 42 to exhaust the internal air of the cooling pipe circulated by the sirocco fan 500 to the outside. In the heat treatment apparatus consisting of, In the sirocco fan 500 installed on the rotary shaft of the rotary motor M constituting the blower B, a partition plate 520 is formed horizontally in the middle of the axial direction, and the cooling tube is rotated by the rotation of the rotary motor M. The outside air and bet of (42) are divided into upper and lower parts, respectively, to intake and exhaust air and to circulate forcibly, The intake pipe 420-1 is a continuous type, characterized in that the rotary motor (M) is seated so that the rotating shaft is penetrated integrally with the upper cover (C) provided with a plurality of air intake holes (CH) Cooling part of heat treatment device The method of claim 1, The inner diameter of the intake pipe 420-1 provided in the cooling pipe 42 is formed to be the same as or larger than the outer diameter of the sirocco fan 500, so that the cooling tube 42 when the sirocco fan 500 rotates. Cooling unit of the continuous heat treatment apparatus, characterized in that the outside air is configured to be smoothly supplied to the sirocco fan (500). delete The method according to claim 1 or 2, The intake pipe (420-1) has a discharge hole (CH '), the lower cover (C') integral with the lower end of the intake pipe (420-1); continuous heat treatment apparatus further comprises a Cooling section.

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