KR20110027276A - Cooling panel of electric furnace - Google Patents

Abstract

PURPOSE: A cooling panel for an electric furnace is provided to extend the lifespan of upper and lower pipe units since the upper and lower pipe units are separated and thus the cooling water independently circulates. CONSTITUTION: A cooling panel(10) for an electric furnace(1) comprises one cooling panel unit(11). Upper and lower pipe units(21,31) are mounted on a back plate to form one cooling panel unit. Refractory members(5) are stacked in a steel shell(3). A plurality of cooling panel units are arranged on the tops of the refractory members to be close to each other. The cooling water independently circulates through each cooling panel unit.

Description

Cooling panel for electric furnace {COOLING PANEL OF ELECTRIC FURNACE}

The present invention relates to a cooling panel for an electric furnace, and more particularly, an upper conduit unit and a lower conduit unit are mounted on a back plate to form one cooling panel unit, and a plurality of cooling panel units are laminated on an inner surface of the shell. The cooling panel for an electric furnace is arranged adjacent to each other on the refractory, and the cooling water is circulated independently for each cooling panel unit.

Korean Patent Application Publication No. 10-2009-0093001 (September 2, 2009, published application) "electric furnace cooling panel structure" is introduced.

The electric furnace cooling panel structure includes a plurality of rows of cooling water circulation pipe members in which cooling water is circulated, and a burner cover covering an end portion of the burner member in the electric furnace body member on one side of the cooling panel member surrounding the inner wall of the electric furnace body member. Is provided.

However, the electric cooling panel structure of the electric furnace sees a plurality of cooling water circulation pipe members arranged on the upper edge member as the cooling panel, the cooling water circulation pipe members are arranged up and down, and the upper and lower ends of the cooling water circulation pipe members are connected to the pipe. The cooling water circulation pipe member is connected by the member or the cooling water circulation pipe member is arranged in the upper and lower zigzag, so that the cooling water is circulated in the upper and lower zigzag direction along the cooling water circulation pipe member so that the cooling water circulation pipe member is not only pressurized when the cooling water flows from the lower part to the upper part, The flow rate of the coolant is poor and the temperature of the circulating pipe member where the coolant is discharged is much higher than that of the coolant circulating pipe member to which the coolant is first supplied. Compared with the relatively short lifespan.

Accordingly, an object of the present invention is that the upper conduit unit and the lower conduit unit are mounted on the back plate to form one cooling panel unit, and the plurality of cooling panel units are arranged next to each other on the upper side of the refractory stacked on the inner surface of the shell. Therefore, the cooling water is circulated independently for each cooling panel unit, thereby not only loading the cooling water, but also providing a cooling panel for an electric furnace that has high cooling efficiency and high durability, thereby extending its service life.

In order to achieve the above object, an electric furnace cooling panel according to the present invention includes an upper conduit unit and a lower conduit unit mounted on a back plate to constitute one cooling panel unit, and a plurality of cooling panel units are provided on an inner surface of the steel shell. It is arranged adjacent to each other on top of the stacked refractory, characterized in that the cooling water is circulated independently for each cooling panel unit.

The cooling panel unit is characterized in that it is formed to be curved with the same curvature of the iron shell to be in close contact with the inner surface of the iron shell.

The upper pipe unit is a plurality of horizontal pipes are arranged in a zigzag left and right, and the horizontal pipes arranged at the bottom and the horizontal pipes arranged at the top row are connected by vertical pipes, so that the overall shape is formed in a curved rectangular panel shape , The cooling water inlet pipe and the cooling water discharge pipe are arranged in the middle of the horizontal pipes.

The lower pipe unit is made of an extruded copper pipe, a plurality of horizontal pipes are arranged in a zigzag left and right, connected to both ends of the horizontal pipe by a connecting member, the coolant of the horizontal pipe and horizontal pipes disposed at the bottom of the inlet and One end of the discharged horizontal tube is connected by a first vertical tube, the other end of the horizontal tube is connected by a second vertical tube, characterized in that the carbon injection means is disposed between the two short horizontal tube .

As a result, in the cooling panel for an electric furnace according to the present invention, the cooling water is circulated independently for each cooling panel unit, and in particular, the upper and lower pipe units are separated and the cooling water is circulated independently, so that the cooling water is circulated. No load in process, high cooling circulation speed, high cooling efficiency, long service life of upper pipe unit and lower pipe unit, reducing loss due to operation interruption, any one cooling panel unit is damaged Even if the cooling water circulation of the other cooling panel unit does not interfere, it is possible to prevent a large accident from occurring and also to replace only the damaged cooling panel unit quickly.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, in general, an electric furnace 1 forms an inner wall by stacking a refractory 5 on an inner surface of an iron shell 3 forming an outer wall, and a cooling panel 10 on an upper portion of the refractory 5. ) Is placed to protect the shell (3).

1 to 3, in the electric furnace configured as described above, the electric furnace cooling panel 10 according to the present invention includes an upper conduit unit 21 and a lower conduit unit 31 mounted on the back plate 41. One cooling panel unit 11 is constituted, and a plurality of cooling panel units 11 are arranged next to each other on the upper side of the refractory material 3 laminated on the inner surface of the shell 3, so that each cooling panel unit ( 11) Each coolant is circulated independently. For example, the electric furnace cooling panel 10 according to the present invention is equipped with 16 to 18 cooling panel units 11 on the inner surface of the shell 3 and arranged on the refractory 3.

The cooling panel unit 11 is formed to be curved at the same curvature as the curvature of the shell 3 so as to be in close contact with the inner surface of the shell 3.

The upper pipe line unit 21 has a plurality of horizontal pipes (P1, P2, P3, ....., Pn) are arranged in a left and right zig-zag, the horizontal pipe (Pn) arranged at the bottom and the top row By connecting the horizontal pipe (P1) by the vertical pipe 23, the overall shape is formed into a curved rectangular panel shape, the coolant flows in the middle of the horizontal pipe (P1, P2, P3, ....., Pn) A pipe 25 and a coolant discharge pipe 27 are arranged.

In addition, the upper pipe unit 21 may be filled with a refractory (not shown) between the horizontal pipe (P1, P2, P3, ....., Pn).

Reference numerals 28 and 29 which are not described in FIG. 3 are supply pipes for supplying coolant to the upper pipeline unit and discharge pipes for discharging the coolant from the upper pipeline unit.

The lower conduit unit 31 is composed of an extruded copper tube, a plurality of horizontal tubes (Q1, Q2, Q3, ...., Qn) is arranged in a zigzag left and right, horizontal tubes (Q1, Q2, Q3, ... .., Qn) is connected to both ends by the connecting member (C), the first of the horizontal tube (Q1) disposed at the bottom and one end of the horizontal tube (Qb) in which the coolant is introduced and discharged Connected by a straight pipe 33, the other end of the horizontal pipe Qb is connected by a second vertical pipe 35, and a carbon injection means 37 between two short horizontal pipes Qc and Qd; Or burners).

In FIG. 3, reference numerals 38 and 39 denote inlet pipes for supplying coolant to the lower pipe unit and discharge pipes for discharging the coolant from the lower pipe unit.

In addition, the lower conduit unit 21 may be filled with a refractory (not shown) between the horizontal tubes (Q1, Q2, Q3, ...., Qn).

In the cooling panel for an electric furnace according to the present invention configured as described above, the cooling water is supplied to each cooling panel unit 11, and the cooling water is circulated for each cooling panel unit 11, and in particular, the upper conduit unit 21 and The lower conduit unit 31 is separated and the cooling water is circulated independently, so that no load is applied in the process of circulating the cooling water, the cooling circulation speed can be increased, and the cooling efficiency is high, and the upper conduit unit 21 and the lower conduit The long service life of the unit 31 can reduce the loss due to interruption of operation, and even if one cooling panel unit is damaged, the circulation of the cooling water of the other cooling panel unit does not interfere, preventing large accidents from occurring. Rather, only the damaged cooling panel unit can be replaced quickly.

1 is a perspective view schematically showing an electric furnace according to the present invention

Figure 2 is a front perspective view showing a cooling panel for an electric furnace according to the present invention

3 is a rear perspective view showing the cooling panel for the electric furnace of FIG.

Claims (4)

The upper conduit unit 21 and the lower conduit unit 31 are mounted on the back plate 41 to constitute one cooling panel unit 11, and a plurality of cooling panel units 11 are formed on the inner surface of the shell 3. Arranged next to each other on the upper side of the refractory (3) stacked on the cooling panel for electric furnace, characterized in that the cooling water is circulated independently for each cooling panel unit (11). The method of claim 1, The cooling panel unit (11) is an electric furnace cooling panel, characterized in that formed to be curved with the same curvature of the iron shell (3) to be in close contact with the inner surface of the iron shell (3). The method of claim 1, The upper pipe line unit 21 has a plurality of horizontal pipes (P1, P2, P3, ....., Pn) are arranged in a left and right zig-zag, the horizontal pipe (Pn) arranged at the bottom and the top row By connecting the horizontal pipe (P1) by the vertical pipe 23, the overall shape is formed into a curved rectangular panel shape, the coolant flows in the middle of the horizontal pipe (P1, P2, P3, ....., Pn) Cooling panel for an electric furnace, characterized in that the pipe 25 and the cooling water discharge pipe 27 is arranged. The method of claim 1, The lower conduit unit 31 is composed of an extruded copper tube, a plurality of horizontal tubes (Q1, Q2, Q3, ...., Qn) is arranged in a zigzag left and right, horizontal tubes (Q1, Q2, Q3, ... .., Qn) is connected to both ends by the connecting member (C), the first of the horizontal tube (Q1) disposed at the bottom and one end of the horizontal tube (Qb) in which the coolant is introduced and discharged Connected by a straight pipe 33, the other end of the horizontal pipe Qb is connected by a second vertical pipe 35, and a carbon injection means 37 between two short horizontal pipes Qc and Qd; Or) is disposed, the cooling panel for the electric furnace.

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