KR20030047120A - Cover of ladle - Google Patents

Abstract

PURPOSE: A heat insulation cover for ladle is provided to increase heat insulation effect by improving airtightness between the heat insulation cover and ladle, thereby blocking generation of gap therebetween. CONSTITUTION: In a heat insulation cover(10) the external shape of which is formed of an outer metal case(11), and in which monolithic refractories are constructed on the inner surface of the metal case, and a lug(14) hooked by hook of crane is installed at the center of the outer metal case by means of lug fixing frames(13) so that the heat insulation cover is moved by the crane, the heat insulation cover for ladle comprises a cutoff flap(20) rotationally installed at one side of the heat insulation cover to prevent spout of the ladle(150); and an opening and closing means for opening or closing the cutoff flap, wherein the opening and closing means comprises a guiding hole(23), a lug(14) and a wire(24), and wherein the heat insulation cover further comprises a side sealing means comprising a looped ring(30) and a wire(33) to seal a gap between the heat insulation cover and ladle.

Description

Ladle insulation cover {Cover of ladle}

The present invention relates to ladles in the steelmaking process, and more particularly to a thermal cover of the ladle used to prevent the temperature drop of the molten steel contained in the ladle.

Generally, ladles are used to inject molten steel that has been blown during the steelmaking process into a tundish, and molten steel melted in the steelmaking furnace is taken to the casting ladle, and the ladle containing the molten steel is transferred to the tundish, the next process, by the crane and tundished. Molten steel is injected into the

In this process, in order to prevent the temperature drop of the molten steel contained in the ladle is usually covered with a thermal cover on the upper ladle, Figure 5 is a conventional thermal cover 100 is lifted by the hook of the crane ladle 150 The state put on the top is shown.

That is, since the insulating cover 100 is separated from the ladle 150 and stored separately, when it is not in use, it is left on the ground and when the ladle is contained in the ladle, the crane hook is raised on the lug 110 above the insulating cover. It is then covered on top of the ladle.

However, since the conventional thermal cover has no portion blocking the spout 160 of the ladle, it does not adequately block heat loss and scattering dust leaking through the spout.

That is, the slag removal spout portion formed on the upper ladle is not blocked by the insulating cover, and when the thermal cover is closed, a space with the cover is generated in the spout portion, and heat of molten steel is transferred to the outside through this space. It is going to escape.

This causes a failure to adequately protect the temperature of the molten steel.

In particular, the remaining slag remains in the spout area and is differentiated when the temperature decreases, and when the thermal cover is covered on the upper ladle as described above, the quicklime powder is scattered by the molten steel that escapes to the spout area. Cause to blow out.

In addition, even if the faucet is excluded, the gap between the upper part of the ladle and the insulating cover is not completely in contact with each other, and a slight gap occurs. The conventional insulating cover structure does not properly block the gap, and thus the upper ladle and the airtightness It is not good, there is a problem that the thermal effect is reduced.

Accordingly, the present invention has been made in order to solve the above problems, the object of the present invention is to provide a thermal cover of the ladle to increase the heat insulation effect by blocking the occurrence of gaps by increasing the airtightness between the thermal cover and the ladle. .

1 is a perspective view showing a ladle having a thermal cover according to the present invention,

Figure 2 and Figure 3 is a perspective view of the insulating cover made in accordance with the present invention,

4 is a cross-sectional view showing a coupling state of the thermal cover and the ladle according to the present invention;

Figure 5 is a perspective view showing a ladle with a heat insulating cover according to the prior art.

Explanation of symbols on the main parts of the drawings

10: insulation cover 11: outer shell

12: refractory 13: lug fixing frame

14: lug 20: blocking flap

23: distribution hole 24,33: wire

30: annular ring 31: long hole

32: release prevention pin 34: pulley

In order to achieve the object as described above, the present invention, in the thermal cover for ladle, is installed rotatably on one side of the thermal cover includes a closing flap for opening and closing the flap and the opening and closing means for opening and closing the flap. .

In addition, the present invention further comprises a side sealing means for sealing the gap between the insulating cover and the ladle is installed along the outer surface of the insulating cover and interlocked by the opening and closing means.

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

1 is a perspective view showing a ladle installed with a heat insulating cover according to the present invention, Figures 2 and 3 are perspective views showing a heat insulating cover made in accordance with the present invention, Figure 4 is a combined state of the thermal cover and the ladle according to the present invention It is a cross-sectional view.

According to the above drawings, the heat insulating cover 10 is formed in an annular shape of the outer shell 11 to form an outer shape, the inner surface of the shell 11 is an irregular refractory 12 is constructed and the outer shell 11 in the center The lug 14 to which the hook of a crane is hooked so that the thermal insulation cover 10 can be moved by a crane is structured through the lug fixing frame 13.

Here, the present invention is a ladle insulation cover of the above structure, the outer flap (11) rotatably mounted on one side of the blocking flap 20 to be placed on the spout 160 of the ladle 150, Opening and closing means for selectively opening and closing the spout 160 by rotating the blocking flap 20, and is installed along the outer surface of the insulating cover 10 to close the gap between the insulating cover 10 and the ladle 150 It comprises an annular ring 30 for sealing, and a moving means for moving the annular ring 30 in the gap between the insulating cover 10 and the ladle 150.

The blocking flap 20 is made of a steel bar 21 and formed of the same width as the inner width of the spout 160, the inner surface of the blocking flap 20 to the same height as the inner height of the spout 160 (refractory ( 22) has been constructed.

And the opening and closing means is formed in the longitudinal direction in the lug fixing frame 13, the upper end of the guide hole 23, the lug 14, which is installed to be movable along the guide hole 23 downwardly bent a predetermined length, lug 14 The wire 24 is connected to both front ends and the blocking flap 20.

Accordingly, when the lug 14 moves upward along the guide hole 23, the wire 24 is pulled and the blocking flap 20, which is placed on the spout 160 of the ladle 150, is rotated upward and spout ( 160) to open.

The guide hole 23 has a structure in which the upper end is bent toward the lower side to face the lower side. When the lug 14 is moved to the upper end, the guide hole 23 is caught by its own weight so as not to be returned again unless intended.

On the other hand, the annular ring 30 is placed along the outer periphery of the outer shell 11 of the insulating cover 10, with a predetermined interval along the annular ring 30 in order to prevent separation of the annular ring (30). A long hole 31 is formed in the vertical direction of the ladle 150, and is attached to the outer surface of the outer shell (11) includes a departure prevention pin 32 protruding into the long hole (31).

Therefore, the annular ring 30 is located on the outer side of the insulating cover 10, and ascends itself by the flow range of the long hole 31 formed on the side, so that the gap between the top of the ladle 150 and the insulating cover 10, if necessary It will be blocked.

In addition, according to an embodiment of the present invention, the moving means for raising and lowering the annular ring 30 has a structure using the opening and closing means.

That is, the moving means is composed of a lug 14 movable along the guide hole 23 as mentioned above, a wire 33 connected to both ends of the lug 14 and the top of the annular ring 30.

Therefore, when the hook is detached from the lug 14 which is hooked to the hook, the lug 14 is lowered and the annular ring 30 connected by the wire 33 is lowered by its own weight to keep the heat cover 10 and the ladle ( 150) will be located in the gap between.

Unexplained reference numeral 34 is installed on the outer shell 11 on the moving line of the wire 33 connecting the lug 14 and the annular ring 30, the pulley for changing the direction of the wire 33 to be.

Hereinafter will be described the operation of the present invention.

When the thermal cover 10 is placed in the standby position, the lug 14 caught by the hook of the crane is moved to the top of the guide hole 23 formed in the lug fixing frame 13 and placed on the upper end facing downward.

When the lug 14 is located at the bent upper end of the guide hole 23 as described above, the wires 24 and 33 installed at both ends of the lug 14 are not pulled down. do.

As the wires 24 and 33 are pulled, the blocking flap 20 which is axially coupled to the outer shell 11 is pivoted upward and lifted up, and the annular ring 30 is raised upward of the outer shell 11. This prevents friction with the ground.

In this state, in order to insulate the molten steel of the ladle 150, the hook of the crane is hooked on the lug 14 to move the thermal cover 10 to the upper ladle 150, and then the spout 160 of the ladle 150. Position the insulation cover 10 on the ladle 150 by matching the position with the position of the blocking flap 20 of the insulation cover 10.

And, if the insulating cover 10 is correctly laid down on the ladle 150 in the state where the spout 160 position and the blocking flap 20 is matched to remove the hook hanging on the lug 14 In this process, the lug 14 can be positioned below the lug fixing frame 13.

That is, while the lug 14 is positioned at the lower end of the guide hole 23 formed in the lug fixing frame 13, the hook is removed.

As the lug 14 is lowered to the lower end of the guide hole 23 as described above, the pulling force of the wires 24 and 33 pulled up when the lug 14 is raised is released, and the blocking flap is connected to the wires 24 and 33. 20 and the annular ring 30 is rotated to move down or down respectively.

The blocking flap 20 is rotated downward in accordance with the release of the wire 24 is inserted into the spout 160, thereby blocking the space between the insulating cover 10 and the spout 160. .

Then, the annular ring 30 is lowered by its own weight as the wire 33 is loosened, and the heat retaining cover is immediately lowered until the release preventing pin 32 is caught on the top of the long hole 31 formed on the side. 10 is to cover the gap between the outer shell 11 and the top of the ladle 150.

As such, all gaps formed between the insulating cover 10 and the ladle 150 are blocked by the blocking flap 20 and the annular ring 30, thereby preventing the heat of the molten steel from being lost to the outside.

According to the thermal insulation cover of the ladle according to the present invention as described above, it is possible to prevent the temperature loss of the molten steel.

In addition, it is possible to reduce the environmental pollution by preventing the quicklime of the spout to be scattered to the outside as the heat of the high temperature comes out.

Claims (3)

The outer shell is made of outer shell, irregularly refractory is constructed on the inner surface of the shell, and the lug that is hooked by the crane hook is moved to the thermal cover of the structure installed through the lug fixing frame so that the outer cover can be moved by the crane. In A blocking flap installed rotatably on one side of the insulating cover to prevent the faucet of the ladle; Opening and closing means for opening and closing the blocking flap Thermal insulation cover of the ladle comprising a. According to claim 1, wherein the opening and closing means is formed in the longitudinal direction on the lug fixing frame and the upper end is a guide hole bent down a predetermined length, the lug is installed to be movable along the guide hole, the lug both ends and the blocking flap upper connection Thermal insulation cover of the ladle, characterized in that it comprises a wire. According to claim 1 or claim 2, wherein the annular ring is installed along the outer surface of the insulating cover, and between the both ends of the lug and the upper end of the annular ring to move the annular ring in the gap between the insulating cover and the ladle Insulating cover of the ladle comprising a wire to be connected, further comprising a side sealing means for closing the gap between the insulating cover and the ladle.