JPH04210431A - Heating furnace of vertical annealing furnace - Google Patents

Abstract

PURPOSE:To uniformly heat and anneal a steel strip by making it possible to disassemble the heating furnace of a vertical annealing furnace for the steel strip consisting of heating furnace, quenching room and cooling room and providing a muffle in the heating furnace and together with dividing the heater into plural parts which are enable to be controlled separately. CONSTITUTION:In the case of annealing the steel strip A in the reverse U-shaped vertical annealing furnace 1, which consists of heating furnace 2, quenching room 13 where the steel strip is vertically rising, and horizontal induction part 16 and vertically descending cooling room 17, the cylindrical muffle 4 is provided in the heating furnace 2 in which muffle the steel strip is rising and the heating furnace 2 itself consists of combination of half-divided bodies 3a, 3b and enable to be disassembled if needed. The heater provided in inner wall part of the heating furnace 2 is divided into plural parts 25a-25f and calorific value is controlled separately. The steel strip A is heated uniformly in the heating furnace 2 and the steel strip does not cause snooping action which invites bending of the steel strip in the transverse direction, and also replacing and repairing of muffle are easily carried out by disassembling of the heating furnace.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an annealing furnace for slips of stainless steel, etc., and more particularly to a heating furnace for heating a strip progressing upward from the bottom, and Regarding the structure of the heating furnace in a vertical annealing furnace having a quenching chamber that rapidly cools the strip above the furnace, and a cooling chamber that inverts the strip at the upper end and cools the strip progressing downward from the upper end. It is.

Conventional technology When manufacturing stainless steel strips, etc., annealing is performed to suit the required characteristics. The annealing furnaces include the above-mentioned vertical type and horizontal type, and the present invention relates to the vertical type annealing furnace.

This vertical annealing furnace has a heating furnace that heats the strip as it advances upward, a quenching chamber provided above the heating furnace, and a cooling chamber that cools the strip as it advances downward. The strip, which has been placed and heated in the heating furnace, is quenched in a quenching chamber, then turned over at the upper end of the quenching chamber and led to a cooling chamber. The heating furnace, quenching chamber, and cooling chamber are filled with hydrogen gas, and the strip is annealed in a reducing atmosphere.

Conventionally, in this vertical annealing furnace, the heating furnace is
It consists of a furnace body equipped with a heater and a Matsufuru provided inside the furnace body, the Matsufuru is filled with atmosphere scum and a strip is passed through it, and the Matsufuru is heated by a heater installed inside the furnace body. The strip is then heated through the matsufuru.

Generally, the Matsufuru has a cylindrical shape, and the furnace body also has a cylindrical shape that is concentric with the Matsufuru, and a heater is provided around the entire inner circumference of the furnace body.

Problems to be Solved by the Invention Generally speaking, in the above-mentioned vertical annealing furnace, the strip is supported by rollers or the like only at the lower and upper ends of the heating furnace, and the part between them is free. As a result, a so-called canoeing phenomenon occurs in which the strokes 9 and I are curved in the width direction.

Once canoe ink is formed, the aforementioned heating furnace generates heat differently between the inside and outside of the curve, making it difficult to uniformly heat the strip and further promoting canoe ink. This results in

In addition, since the heating furnace Matsufuru heats the strip to high temperature in a reducing atmosphere as described above, the usage conditions are severe and it is subject to severe wear and tear. Therefore, it is necessary to replace the Matsufuru after long-term use, but since the Matsufuru in the heating furnace is large, it is not possible to replace the Matsufuru without dismantling the furnace body.

The present invention has been made in view of the above circumstances, and is a novel product which is compact overall, allows easy replacement of matsufuru, and can easily correct canoeing when it occurs in the strip. The object of the present invention is to provide a heating furnace for a vertical annealing furnace.

As a means for solving the problems, the present invention provides a heating furnace for heating the strip while progressing the strip from the bottom upward, a quenching chamber for rapidly cooling the heated strip, and a cooling chamber for rapidly cooling the heated strip, and a cooling chamber for rapidly cooling the heated strip while advancing the strip from the bottom upward. In a vertical annealing furnace having a cooling chamber for cooling the advancing strip, the heating furnace has a furnace body that can be divided in the thickness direction of the strip, and a flat cylinder that is wide in the width direction of the strip is installed in the furnace body. A shaped Matsufuru was provided, heaters were provided on both sides of the inner surface of the furnace body facing the flat part of the Matsufuru, and the heater was divided into a plurality of parts in the vertical direction, and each of the divided heaters could be controlled separately. It is characterized by this.

The drawing shows a vertical annealing furnace 1 of the present invention.

In FIG. 1, reference numeral 2 denotes a heating furnace, which is vertically arranged in a long manner. Reference numeral 3 denotes a furnace body of the heating furnace 2, and a cylindrical Matsufuru 4 is provided inside the furnace body.
The strike 9y7'A advances inside from the bottom upwards. The heating furnace 2 has a frame 5 at its upper part.
A bellows 6 is provided at the bottom to absorb expansion and contraction due to the heat of the heating furnace 2.

A substantially I-shaped inlet member 7 is connected to the lower part of the bellows 6, and a deflector roller 8 is provided at the bent portion of the inlet member 7. changed from horizontal to vertical. A viewing window 9 is provided below the bend.

An introduction sealing device 10 is connected to the side of the inlet member 7. The introduction sealing device 10 has a pair of substantially square-shaped felts 12 hung on a pair of felt pressers 11, and the strip A passes through a small gap between the felts 12, thereby making the inside of the heating furnace 2 airtight. The strip A is introduced while holding it at .

A quenching chamber 13 is provided in the upper part of the heating furnace 2, and the strip A is quenched by spraying atmospheric gas onto both sides of the strip A. In the drawing, 14 is a nozzle that sprays atmospheric scum. , 15 is a blower that cools the atmospheric gas and sends it to the nozzle 14 6 The upper end of the quenching chamber 1B, 7 is connected to the upper end of the cooling chamber 17 via a guideway 16, and the guideway 16, heating furnace 2 and cooling A reversing roller 18 is provided at the connection with the chamber 17. The strip A rising from the heating furnace 2 through the quenching chamber 13 is guided to the cooling chamber 17 via the guide path 16.

Further, one viewing window is attached to the upper part of both ends of the guideway 16.

The cooling chamber 17 is a vertically long tubular chamber, and its lower end is at the same height as the lower end of the heating furnace 2.
An abbreviated outlet member 20 is connected, and a deflector roller 21 is attached to the bent portion of the exit member 20 to deflect the strip A descending from above into a horizontal direction.

A drawer sealing device 22 is connected to the side of the outlet member 20. The three drawer seal devices 22 have the same structure as the introduction seal device 10, and are capable of drawing out the storage group A while keeping the inside of the cooling chamber 17 airtight. Further, a viewing window 23 is attached to the lower part of the exit member 20.

The main function of the cooling chamber 17 is to eliminate the difference in height between the outlet and the inlet of the strip A in the vertical annealing furnace 1, and to prevent atmospheric gas from leaking due to the difference in specific gravity with air. However, it is not necessary to have an active cooling effect, and it is sufficient to be able to hold the rapidly cooled strip A.

This vertical annealing P1 has a substantially inverted U shape as a whole, passing through the heating furnace 2, the guide path 16, and the cooling chamber 17, and the inside thereof is kept airtight, and both ends are connected to the introduction sealing device 10 and the withdrawal sealing device 22. It is sealed with. This airtight space is filled with atmospheric scum.

In the heating furnace of the present invention, as shown in FIG. 2, the matsufuru 4 has a flat cylindrical shape wide in the width direction of the strip A.

Further, the furnace body 3 is made up of a combination of half bodies 3 a and 3 b that can be divided in the thickness direction of the strip A, and a heat insulating material 24 is pasted on the inside of the half bodies 3 a and 3 b. Heaters 25 are provided on both sides facing the flat portion. The heater 25 is divided into multiple stages in the vertical direction of the furnace body 3, and the heaters 25a, 25b, . . . , 25f on both sides of each stage can individually control the amount of heat generated. There is.

Operation In the present invention, strip A is connected to the introduction seal device 210.
The air passes through the inlet member 7, is turned vertically by a deflector roller 8, rises in the heating furnace 2, is heated, and is rapidly cooled by the atmospheric gas blown in the quenching chamber 13.

Then, it is reversed by the reversing roller 18 through the guide 816, and is lowered in the cooling chamber 17 to be cooled and annealed. At the lower end of the cooling chamber 17, the traveling direction is changed horizontally by the deflector roller 21, and the sheet is pulled out from the drawer sealing device 22.

In the heating furnace 2, since the slip A is supported only by the child flutter roller 8 at the lower end and the reversing roller 18 at the upper end, canoeing may occur. In this case, as shown by the chain line in FIG. 2, the outer part of the curvature approaches the wall surface of the Matsufuru 4 and is heated more strongly, causing thermal expansion on the outer side of the curvature and making the curvature more severe.

In the present invention, by increasing the temperature of the heater 25 facing the inside of the curve to compensate for the difference in heat quantity, the inner part of the curve is heated more strongly, and canoeing is prevented from becoming more intense. It is possible to prevent uneven heating in the strip A.

Furthermore, deflector roller 8 and roller conveyor 18
If the distance from Therefore, the heaters 25 on both sides of each stage can be controlled to the most suitable state depending on the direction and degree of canoe ink.

In addition, in the present invention, the furnace body 3 can be divided and the muffle 4 has a flat shape, so when the manfuru 4 is worn out and needs to be replaced or repaired, the furnace body 3 can be divided and slightly opened, and from the The flat Matsufuru 4 can be pulled out and repaired or replaced.

Effects of the Invention According to the present invention, the stream 7' passing through the heating furnace 2
Even if canoeing occurs on strip A, by adjusting the amount of heat of the levers on both sides according to the degree and direction of the canoeing, both sides of strip A can be heated evenly, and uneven heating can be avoided. Strip A can be heated and annealed evenly throughout without the force nooding becoming more severe.

Furthermore, when the manifold 4 becomes worn out and needs to be repaired or replaced, the manifold 4 can be easily repaired or replaced by dividing the furnace body 3 without disassembling it.

[Brief explanation of the drawing]

FIG. 1 is a vertical cross-sectional view of the vertical annealing furnace according to the present invention, and FIG. 2 is a cross-sectional view of the heating furnace. A... Strip 1... Vertical annealing furnace 2... Heating furnace 3... Furnace body 4... Matsufuru 13... ...Quick cooling chamber 17...Cooling room 25...Heater applicant Sun Furnace Co., Ltd. agent Patent attorney Hideo Takeyasu

Claims (1)

[Claims] 1 A heating furnace (2) that heats the strip (A) while advancing the strip (A) upward from the bottom and a quenching chamber (13) that rapidly cools the heated strip (A).
) and a strip (A) that progresses from the top downwards.
A vertical annealing furnace (1) having a cooling chamber (17) for cooling the
In the heating furnace (2), the heating furnace (2) has a furnace body (3) that can be divided in the thickness direction of the strip (A), and the furnace body (3) has a wide flat plate in the width direction of the strip (A). A cylindrical Matsufuru (4) is provided, and heaters (25) are installed on both sides of the inner surface of the furnace body (3) facing the flat part of the Matsufuru (4).
At the same time, the heater (25) is divided into a plurality of parts in the vertical direction, and each divided heater (25a, 25b...
A heating furnace for a vertical annealing furnace, characterized in that each of the above can be controlled separately.