KR20060074655A - Gas input pipe of blockage annealing furnace - Google Patents

Abstract

The present invention is to provide a gas input pipe of the annealing furnace for preventing clogging, in the mixed atmosphere gas supply device which is fixed welded to the outer wall of the annealing furnace to inject the atmosphere gas into the annealing furnace,

A mixed gas supply pipe communicating with the first mixing chamber and into which the mixed gas is introduced; A heating coil positioned at a front end of the first mixing chamber to heat the mixed gas introduced into the mixed gas supply pipe; A front end portion communicating with the first mixing chamber and fixedly coupled, and a rear end portion communicating with the second mixing chamber and having a fluidity back and forth; A transfer unit positioned and fixedly coupled to upper and lower ends of the second mixing chamber, and configured to allow the variable flexible tube communicating with the second mixing chamber to reciprocate back and forth; A sliding tube having a hollow tube shape of a diameter slightly larger than a rear end of the second mixing chamber, and having a structure in which a rear end of the second mixing chamber is inserted to allow reciprocating back and forth; The front end is connected to the sliding tube, the rear end is connected to the atmosphere gas inlet is composed of an atmosphere gas supply pipe to supply the atmosphere gas.

Description

A gas supply pipe of annealing furnace for preventing to be clogged}

1 is a schematic perspective view showing a conventional annealing furnace and a gas inlet tube.

Figure 2 is a perspective view of the gas inlet pipe of the blockage annealing furnace according to an embodiment of the present invention.

Figure 3 is an enlarged perspective view of the gas inlet pipe of the blockage annealing furnace according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of the variable flexible tube shrinkage of the operation of the clogging prevention gas inlet tube according to an embodiment of the present invention.

Figure 5 is a cross-sectional view of the variable flexible tube when showing the operation of the clogging prevention gas inlet tube according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: fixed base 2: mixed gas supply pipe

4: driving motor 5: cylinder

6: atmosphere gas supply pipe 7: first mixing chamber

8: variable flexible pipe 10: long hole

12: pinion gear 13: rack gear                 

14: sliding tube 15: the second mixing chamber

16: heating coil 20: gas input pipe of the annealing furnace for preventing clogging

The present invention relates to a gas input pipe of the annealing furnace for preventing clogging, and more particularly, when the atmosphere gas for the internal atmosphere of the annealing furnace for annealing materials such as silicon steel sheets used for transformers and various motors at high temperature Gas injection into an annealing furnace for preventing clogging of an annealing furnace to prevent the blockage of the supply pipe due to foreign substances in the input gas and to improve the annealing quality of the material by reducing the temperature deviation between the newly introduced atmosphere gas and the atmosphere gas inside the annealing furnace It's about the coffin.

In general, the annealing furnace is a furnace that performs annealing during a process for producing a steel sheet, and refers to a furnace that appropriately adjusts a temperature rise and a cooling rate. In order to maintain the proper pressure in the furnace, mixed gas should be appropriately applied. For steel, various reactions such as oxidation and reduction carburization occur depending on the component ratio even at the same temperature, so the ratio of mixed gas is adjusted according to the purpose of heat treatment of steel. Should be.

1 is a schematic perspective view showing a conventional annealing furnace and a gas inlet tube.

As shown in the drawing, there is shown a high temperature annealing furnace that mixes hydrogen and nitrogen at a constant ratio and uses it as an atmosphere gas. Such a conventional annealing furnace 100 is a material (S) such as silicon steel sheet hydrogen and nitrogen A heating table 110 that heats the gas at a high heat of about 850 ° C. in a mixed atmosphere; A crack zone 120 in which the tissue is changed into a new tissue during a certain period of time; The cooling zone 130 for cooling the heat-annealed steel sheet is largely divided into three parts.

As shown in FIG. 1, an atmosphere gas injecting unit 140 is disposed in succession to the cooling unit 130. Such an atmosphere gas injecting unit 140 is an atmosphere in the annealing furnace 100, that is, the outside. In order to reduce the temperature deviation between the atmospheric gas and the internal atmosphere gas supplied from the, and to prevent safety accidents due to the temperature deviation, it is continuously installed in the cooling zone 130 of the annealing furnace (100), such atmosphere gas input Atmospheric gas introduced through the base 140 maintains the appropriate internal pressure of the annealing furnace.

Meanwhile, in order to inject the atmosphere gas into the annealing furnace 100, a plurality of atmosphere gas inlet pipes 142 are connected and installed on the atmosphere gas inlet 140, and gas is supplied to the inlet pipe 142. Manual opening and closing valves 144 are provided for adjustment, and the atmosphere gas inlet pipe 142 is connected to the main gas inlet pipe 146.

Therefore, the atmosphere gas is supplied to the atmosphere gas inlet 140 through the atmosphere inlet pipe 142 to maintain the internal pressure in the annealing furnace 100 at an appropriate pressure.

However, since the temperature deviation between the new atmosphere gas introduced into the annealing furnace 100 and the atmosphere gas inside the annealing furnace through the atmosphere gas charging unit 140 is excessively generated at about 150-200 ° C., the silicon steel sheet and The surface of the same material (S) causes oxide defects in the form of black spots, or foreign substances present in the mixed gas when the mixed gas is added. There were problems such as lowering the annealing quality.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, an object of the present invention by installing a heating coil having a gas heating function in the mixed gas inlet pipe installed in the atmosphere gas input unit of the annealing furnace, The temperature deviation between the existing atmosphere gas and the newly introduced atmosphere gas in the annealing furnace can be reduced to a minimum to prevent the surface defects of the annealing material due to the excessive temperature deviation, and to improve the annealing quality of the material. Provides a flexible flexible atmosphere gas supply device to prevent clogging of the atmosphere gas supply line due to contaminants and foreign substances in the mixed gas such as hydrogen and nitrogen gas supplied into the gas inlet pipe, thereby annealing with stable supply through prevention of clogging. To provide a gas input pipe to the blockage annealing furnace that can ensure the safety of the furnace operation. All.

Hereinafter, the present invention as described above, the gas injection pipe of the plugging annealing furnace,

In the mixed atmosphere gas supply device fixedly welded to the outer wall of the annealing furnace to inject the atmosphere gas into the annealing furnace,

A mixed gas supply pipe communicating with the first mixing chamber and into which the mixed gas is introduced; A heating coil positioned at a front end of the first mixing chamber to heat the mixed gas introduced into the mixed gas supply pipe; A front end portion communicating with the first mixing chamber and fixedly coupled, and a rear end portion communicating with the second mixing chamber and having a fluidity back and forth; A transfer unit positioned and fixedly coupled to upper and lower ends of the second mixing chamber, and configured to allow the variable flexible tube communicating with the second mixing chamber to reciprocate back and forth; A sliding tube having a hollow tube shape of a diameter slightly larger than a rear end of the second mixing chamber, and having a structure in which a rear end of the second mixing chamber is inserted to allow reciprocating back and forth; The front end is connected to the sliding tube, the rear end is connected to the atmosphere gas inlet is composed of an atmosphere gas supply pipe to supply the atmosphere gas.

The transfer unit includes a pinion gear connected to the drive motor and the rotation shaft; A rack gear engaged with the pinion gear and moved forward and backward by rotation of a drive motor, the rack gear being fastened to one side of a lower end of the second mixing chamber by a fastening part; The rack gear may be configured to be parallel to the extension line of the rack gear and the opposite side of the extension line is fastened through the fastening portion to be forward and backward cylinder.

In addition, the mixed gas supply pipe may be formed to be inclined at a predetermined angle with a horizontal plane.

Hereinafter, with reference to the drawings for the gas input pipe of the blockage annealing furnace according to an embodiment of the present invention in detail as follows.

Figure 2 is a perspective view of the gas inlet pipe of the blockage annealing furnace according to an embodiment of the present invention, Figure 3 is an enlarged perspective view of the gas inlet pipe of the blockage annealing furnace according to an embodiment of the present invention, Figures 4 and 5 Is a cross-sectional view showing the operation of the gas input pipe of the blockage-annealing annealing furnace when the variable flexible pipe contracts and expands.

As shown in the drawing, the sectional gas supply pipe 6 connected to the wall of the annealing furnace is welded in the form of a branch pipe so as to introduce the atmosphere gas into the annealing furnace 100, and the front surface of the mixed gas inlet pipe 142 having a cylindrical shape The primary mixing chamber 7 and one side of the front surface communicate with each other and fixedly coupled, and the other side is equipped with a flexible flexible tube 8 communicating with the secondary mixing chamber 15. In addition, the fastening part 11 is positioned at the upper and lower ends of the second mixing chamber 15. The rack gear 13 that is engaged with the pinion gear 12 rotated by the drive motor 4 and is retracted is fastened to the fastening part 11 positioned at the lower end of the fastening part. And the cylinder (5) which is moved forward and backward horizontally on the extension line of the rack gear 13 is fixed.

In addition, the cylinder 5, such as the cylinder 5, is located at the lower end of the secondary mixing chamber 15 in the fastening portion 11 located at the upper end of the secondary mixing chamber 15. Fixed position parallel to.

A sliding tube 14 is formed at the rear end of the second mixing chamber 15 in communication with the rear end of the flexible flexible tube 8. The sliding tube 14 has a hollow tube shape slightly larger than the diameter of the rear end of the second mixing chamber 15, and the rear end of the second mixing chamber 15 is inserted into the sliding tube 14. to be. Therefore, the rear end of the second mixing chamber 15 is inserted into the sliding tube 14 to be reciprocated back and forth.

The mixed gas supplied through the mixed gas supply pipe 2 has a predetermined angle with a horizontal plane at an outlet of the mixed gas supply pipe 2 so that the mixed gas can be swirled and mixed with the existing atmosphere gas existing in the first mixing chamber 7. Arranged obliquely, the heating coil 56 is located on the front surface of the primary mixing chamber (7).

Hereinafter, the operation of the gas input pipe 20 of the blockage annealing furnace according to one embodiment of the present invention will be described.

The mixed gas introduced through the mixed gas supply pipe 2 forms a vortex in the first mixing chamber 7 and is mixed with the existing gas, and in contact with the heating coil 56 located at the front side. The temperature is raised, and the mixed atmospheric gas is then supplied into the annealing furnace 100 through the variable flexible pipe 8 and through the atmospheric gas supply pipe 6.

In order to smoothly supply the atmosphere gas passing through the variable flexible pipe 8 without clogging, the pinion gear 12 is periodically rotated in the forward and reverse directions to rotate by the rack gear 13 engaged with the pinion gear 12. The movement is converted to a reciprocating motion before and after the variable flexible tube 8 is contracted and expanded to prevent clogging due to foreign matter in the atmosphere gas to supply a constant atmosphere gas.

The cylinder 5 and the long hole 10 fixed to the upper surface of the fixed base 1 serve to enable horizontal movement of the variable flexible tube 8.

The front end portion of the variable flexible tube 8 is fixedly communicated with the primary mixing chamber 7, and the rear end portion is communicated with the closed secondary mixing chamber 15, and the second mixing chamber 15 is connected thereto. The rear end is provided with a sliding tube 14 in communication with the atmosphere gas supply pipe 6, and shields the long hole 10, it is possible to move forward and backward in the closed space.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the gas inlet pipe of the blockage annealing furnace according to the present invention by installing a heating coil in the annealing furnace, it is possible to minimize the temperature deviation between the newly introduced atmosphere gas and the existing atmosphere gas to the temperature deviation It provides an excellent effect of improving the annealing quality by preventing the surface defects of the material to be annealed accordingly.

In addition, by forming a variable flexible pipe, it is possible to prevent the blockage of the supply line that may be generated due to the foreign matter in the atmosphere gas in advance to give the effect that the smooth atmosphere gas supply is possible.

Claims (3)

In the mixed atmosphere gas supply device fixedly welded to the outer wall of the annealing furnace to inject the atmosphere gas into the annealing furnace, A mixed gas supply pipe communicating with the first mixing chamber and into which the mixed gas is introduced; A heating coil positioned at a front end of the first mixing chamber to heat the mixed gas introduced into the mixed gas supply pipe; A front end portion communicating with the first mixing chamber and fixedly coupled, and a rear end portion communicating with the second mixing chamber and having a fluidity back and forth; A transfer unit positioned and fixedly coupled to upper and lower ends of the second mixing chamber, and configured to allow the variable flexible tube communicating with the second mixing chamber to reciprocate back and forth; A sliding tube having a hollow tube shape of a diameter slightly larger than a rear end of the second mixing chamber, and having a structure in which a rear end of the second mixing chamber is inserted to allow reciprocating back and forth; The front end is connected to the sliding tube, the rear end is connected to the atmosphere gas inlet gas atmosphere of the blockage annealing furnace gas input pipe, characterized in that consisting of an atmosphere gas supply pipe is supplied. The method of claim 1, wherein the transfer unit A pinion gear connected to the drive motor and the rotating shaft; A rack gear engaged with the pinion gear and moved forward and backward by rotation of a drive motor, the rack gear being fastened to one side of a lower end of the second mixing chamber by a fastening part; Gas inlet pipe of the blockage-annealed annealing furnace, characterized in that consisting of a cylinder which is located in parallel to the extension line of the rack gear and the opposite side on the extension line is fastened through the fastening portion, and the reverse. The method of claim 1 or 2, wherein the mixed gas supply pipe, Gas inlet pipe of the blockage annealing furnace, characterized in that formed inclined at a predetermined angle with the horizontal plane.

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