KR100805706B1 - Furnace body rotation dissolution type electric furnace - Google Patents

Abstract

It is an object of the present invention to provide a furnace-rotary melting furnace for quickly and completely dissolving scrap metal introduced into an electric furnace to improve the quality of steel products, to reduce scrap dissolution time, and to maintain an internal content of the furnace at 100%. The purpose is to provide.

In order to achieve the above object, the present invention provides three electrodes (3) at the top of the furnace body by the arm (4) so as to inject the scrap (S) into the furnace body (1) and dissolve the scrap. In the electric furnace installed to descend, the support ring 11 is attached to the outer circumferential surface of the furnace body, the driven gear 12 is installed at the lower portion of the support ring, the driven gear is driven by the rotational force of the drive motor 14 A drive unit 13 gear-coupled to the air gear and a support plate 15a supporting the drive motor at a lower portion of the drive motor, the rotating unit 10 being supported by the support 15; Tilting gear 21 is installed on one side of the bottom surface of the support plate installed on the rotating part, the driving cylinder 22 is connected to the other side, and the rack gear 23 installed on the upper surface of the support member 24 is geared to the tilting gear The upper portion of the upper rail and the lower portion of the rotary unit 10, the upper rail 16 is attached to the upper surface of the support ring and the lower rail 18 is installed on the lower portion of the furnace body to which the support ring is attached. The rail is configured to contact the upper guide roll 17 and the lower guide roll 19 fixed to the support.

Electric Furnace, Electrode, Rotary Melting, Scrap, Tilting

Description

 Furnace body rotation dissolution type electric furnace}

1 is a perspective view showing a conventional electric furnace.

Figure 2 is a cross-sectional view showing a state of melting scrap in a conventional electric furnace.

3 is a perspective view showing an electric furnace according to the present invention.

4 is an exploded perspective view of main parts of an electric furnace according to the present invention;

Figure 5 is a cross-sectional view showing a scrap melting state of the electric furnace according to the present invention.

※ Explanation of symbols about main part of drawing ※

S: Scrap 1: Nobody

3: electrode 4: arm

10: rotating portion 11: support ring

12: driven gear 13: drive gear

14: drive motor 15: support

15a: support plate 16: upper rail

17: upper guide roll 18: lower rail

19: lower guide roll 20: tilting part

21: tilting gear 22: drive cylinder                 

23: rack gear 24: support member

The present invention relates to a furnace rotation melting type electric furnace, and more particularly, to dissolving the scrap placed between the electrodes while rotating the furnace body when dissolving the scrap introduced into the interior of the furnace using the electrode. The present invention relates to a furnace rotation melting electric furnace that can shorten time.

In general, an electric furnace uses electricity to heat and dissolve a metal or alloy. When a high current is applied to three electrode rods 6 installed in a vertical direction in a loop that opens and closes an upper portion of an electric furnace, high heat arc heat is generated. It is to dissolve the scrap metal and ferroalloy inside.

As shown in FIG. 1, a loop 2 is provided on the upper side of the furnace body 1 so as to be openable and close, and three electrode bars 3 are inserted into the loop 2. The arm 4 which raises / lowers the electrode bar 3 is coupled to the upper end.

On the other hand, one side of the loop 2 is provided with a discharge duct 5 for discharging dust generated in the furnace body 1 to the outside.

And the inside of the furnace (1) is composed of an outer lead 6 and the built-in lead 7 is configured to hold the molten water.

Therefore, the loop 2 is removed from the upper part of the furnace body 1, and the scrap S is introduced while the furnace body 1 is opened, and then the electrode rod inserted into the loop 2 and covering the loop 2 ( The strap S inserted into the furnace 1 is dissolved while raising and lowering 3) and repeating the tilting operation of the furnace 1.

When dissolving the scrap S, since the scrap S in the furnace is dissolved only by the lifting / lowering operation of the electrode rod 3 fixed to the arm 4 and the tilting operation of the furnace body 1, In order to melt the scrap (S) remaining undissolved between the gap and the furnace wall, the molten water is infiltrated into the remaining scrap (S) through repeated tilting operation in the form of shaking the entire electric furnace back and forth to induce melting. have.

Therefore, when dissolving the scrap (S) in a conventional electric furnace, the dissolution time is excessively excessive, and even if the melting by shaking the furnace body 1 in the forward and backward direction, the remaining scrap (S) accumulated on the inner left / right side of the furnace body (1) ) Remains in an incomplete state of dissolution so that the scrap (S) remains attached to the furnace wall, which not only reduces the volume inside the furnace body but also provides impurities to the waste water, resulting in deterioration of product quality. have.

The present invention has been invented to solve the above problems, the object is to quickly and completely dissolve the scrap metal injected into the furnace body to improve the quality of steel products and to reduce the scrap melting time and to maintain the internal volume of the furnace body to 100% It is an object of the present invention to provide a furnace rotary melting furnace for achieving an increase in yield.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

In the furnace rotary melting furnace of the present invention, in the electric furnace installed so that the three electrode rods on the upper part of the furnace to be lifted / lowered by the arm so as to put the scrap into the interior of the furnace and to dissolve the scrap, the outer peripheral surface of the furnace body The support ring is attached to the lower portion of the support ring, the driven gear is installed, the drive gear is coupled to the driven gear for transmitting the rotational force of the drive motor to the driven gear and the lower portion of the drive motor to support the drive motor A rotating part on which the support plate is supported by the support; A tilting gear is installed on one side of the bottom surface of the support plate installed on the rotating part, and a driving cylinder is connected to the other side, and the tilting gear includes a tilting part in which a rack gear installed on an upper surface of the support member is geared, and the rotating part is an upper surface of the support ring. When the upper rail is attached to the lower part of the furnace body is attached to the support ring and the lower rail is installed, the upper guide roll and the lower guide roll fixed to the support contact the upper rail and the lower rail.

Referring to the present invention having such characteristics in detail as follows.

Figure 3 is a perspective view showing an electric furnace according to the present invention, Figure 4 is an exploded perspective view of the main part of the electric furnace according to the present invention, Figure 5 is a cross-sectional view showing a melt state of the scrap according to the present invention.

As referred to herein, in the present invention, a loop 2 is installed on the upper side of the furnace body 1 so as to be openable and close, and three electrode rods 3 are inserted into the loop 2, and an upper end of the electrode rods 3 is provided. The arm 4 which raises / lowers the electrode bar 3 is couple | attached to it.                     

In addition, the inside of the furnace 1 is composed of an outer lead 6 and an inner lead 7 so as to contain molten molten water, and on one side of the loop 2 dust generated inside the furnace 1. A discharge duct 5 for discharging to the outside is provided.

On the outer circumferential surface of the furnace body 1, a rotating part 10 for rotating the furnace body 1 is provided, and a tilting part 20 for tilting the furnace body 1 is provided below the rotating part 10. .

The rotating part 10 has a support ring 11 attached to an outer circumferential surface of the furnace body 1, and a driven gear 12 is installed below the support ring, and the driving force of the drive motor 14 is provided on the driven gear. Drive gear 13 for transmitting the gear to the driven gear 12 is coupled.

On the other hand, a circular support 15 is installed on the circumferential surface of the furnace body 1 so that the furnace body 1 is enclosed, and a support plate on which the driving motor 14 is installed on the lower side of the support body 15 ( 15a) is installed.

In addition, the upper rail 16 is installed on the upper surface of the support ring 11 in which the furnace body 1 is installed on the circumferential surface, and the inclination angle formed in the furnace body 1 is formed in the lower part of the furnace body 1 in which the support ring 11 is installed. The lower rail 18 is provided so as to maintain a predetermined inclination angle.

And the upper guide roll 17 is fixed to the inner upper portion of the support 15 by the fixing plate 17a, the upper guide roll 17 is in contact with the upper side of the upper rail 16 and the A lower guide roll 19 having a predetermined inclination angle is fixed to the inner lower portion by another fixing plate 19a, and the lower guide roll 19 is a surface of the lower rail 18 provided below the furnace body 1. It keeps in contact with.

The tilting unit 20 has an arc-shaped tilting gear 21 at one side of the bottom of the support plate 15a for supporting the driving motor 14, and a rod of the driving cylinder 22 on the other side of the bottom of the support plate 15a. (22a) is connected to.

In addition, a rack gear 23 is gear-coupled to the tilting gear 21, and the rack gear 23 is installed on the upper surface of the support member 24.

The process of melting the scrap using the electric furnace of the present invention configured as described above is as follows.

First, the loop 2 is removed from the upper part of the furnace body 1, and the scrap S is introduced while the furnace body 1 is opened. Then, the electrode rod inserted into the loop 2 and covering the loop 2 ( Operate arm (4) so that 3) moves up and down.

When the scrap S around the electrode 3 is dissolved through the above process, the driving motor 14 is driven to rotate the driving gear 13 installed in the driving motor 14.

When the drive gear 13 is rotated, the driven gear 12 geared to the drive gear 13 rotates together, and the driven gear 12 is a support ring 11 installed on the outer circumferential surface of the furnace body 1. Since the furnace body 1 is rotated.

Thus, when the furnace body 1 is rotated, the electrode rod 3 inserted into the furnace body 1 is kept in a fixed state, so that the undissolved scrap S is positioned around the electrode rod 3 so that the scrap ( S) is dissolved.

Meanwhile, when the furnace body 1 is rotated, the upper guide roll 17 and the lower guide roll 19 are in contact with the upper rail 16 and the lower rail 18 installed outside thereof, so that they do not flow smoothly. Will rotate.

In addition, when the scrap S around the electrode 3 is dissolved as described above, the driving cylinder 22 installed in the tilting unit 20 is repeatedly operated in the forward / reverse direction so that the rod 22a of the driving cylinder 22 is rotated. ) Is connected to the support plate (15a) is rotated at this time, the tilting gear 21 is installed on the bottom surface of the support plate (15a) is geared to the rack gear 23 so as not to be moved away while being guided by the rack gear (23) do.

When the tilting gear 21 is moved, the movement force is transmitted to the furnace body 1 through the rotating part 10 installed on the upper side. That is, since the furnace body 1 is inclined, the molten metal dissolved in the furnace body 1 flows in between the scraps S, thereby dissolving the scraps S.

On the other hand, when the furnace body 1 is inclined, the upper guide roll 17 and the lower guide roll 19 are in contact with the upper rail 16 and the lower rail 18 installed on the outer side thereof, respectively, so that they do not detach smoothly. Will rotate.

Therefore, the scrap S injected into the furnace body 1 of the electric furnace is completely dissolved by the electrode 3 and the waste water inside the furnace body 1.

Such a furnace furnace rotational melting furnace according to the present invention dissolves the scrap injected into the furnace since the electrode is positioned on the entire inner surface of the furnace because the electrode is slowly rotated when the electrode rod dissolves the scrap while the electrode rod is moved up / down inside the furnace body. .                     

In addition, since the molten metal dissolved in the furnace body is introduced into the scrap by tilting the furnace body, the incomplete scrap and slag, which are stuck to the wall surface of the furnace, are completely dissolved to maintain 100% of the volume of the furnace body, thereby increasing the amount of dissolution per unit time. Has a unique effect.

Claims (2)

In the electric furnace installed so that the three electrode rods 3 in the upper part of the furnace body by the arm (4) to put the scrap (S) in the furnace body 1 and to dissolve the scrap, A support ring 11 is attached to the outer circumferential surface of the furnace body, and a driven gear 12 is installed below the support ring, and a driven gear for transmitting the rotational force of the drive motor 14 to the driven gear ( A rotating part 10 having a gear 13 coupled thereto and a support plate 15a supporting the drive motor at a lower portion of the drive motor, supported by the support 15; Tilting gear 21 is installed on one side of the bottom surface of the support plate installed on the rotating part, the driving cylinder 22 is connected to the other side, and the rack gear 23 installed on the upper surface of the support member 24 is geared to the tilting gear Including a portion 20, The rotary unit 10 is attached to the upper rail 16 on the upper surface of the support ring, and the lower rail 18 is installed on the lower part of the furnace body to which the support ring is attached, the upper guide fixed to the support on the upper rail and the lower rail. Furnace rotary melting furnace, characterized in that the roll 17 and the lower guide roll 19 is in contact. delete

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