KR20140064557A - Apparatus for exchanging of electric furnace tap hole - Google Patents

Abstract

The present invention relates to an apparatus for exchanging a tube brick of a furnace tapping hole including a multi-step elevation instrument installed on a device frame, to exchange the tapping hole of the furnace while moving up and down toward the device frame and a molten steel discharging hole of a furnace arranged on the bottom of the molten steel discharging hole of the furnace. According to the present invention, through a first elevation, a worker can be moved to a position for commencing the work, and, through a second elevation, the tapping hole for the exchange can be moved to a position where a worker can conveniently conduct work. Thereby, the replacement work can be easily done, and safety accidents including a falling of the tapping hole in the midst of the replacement work can be prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for exchanging electric furnace taps,

TECHNICAL FIELD The present invention relates to a lounger slot changer, and more particularly, to a louver slot changer of a furnace capable of easily changing louvers of an electric furnace.

In a mill mill of a steel mill in general, molten steel is melted in an electric furnace to produce molten steel. The produced molten steel is taken to a ladle through a ladle and transferred to a subsequent process.

At this time, the ladle of the electric furnace is filled with sand to prevent the molten steel from flowing out, and when the melting operation is completed, the sand is removed to open the molten steel.

An example of such an electric furnace is shown in Fig. Referring to Fig. 1, an electric furnace 5 includes a furnace body 6 made of a refractory to contain molten steel therein, and a roof 6a, which is a cover which is openably and closably connected to the top of the furnace body 6. Fig.

The electrode rod 7a penetrates through the loop 6a and is inserted into the furnace body 6 and the lower electrode 7b is attached to the lower portion of the furnace body 6. [

An incising portion 8 called EBT (Eccentric Bottom Tap) is protruded from one side of the furnace body 6 and an opening 8a is formed in a lower portion of the incising portion 8. An opener (not shown) is provided at the lower end of the opening 8a, and sand (not shown) is filled in the opening 8a. In addition, an opening 6b is formed in the upper end of the running portion 8a.

In the electric furnace 5 constructed as described above, when the molten steel work is completed, an opener (not shown) blocking the lower end of the louver 8a is opened to discharge the sand to open the louver 8a. Accordingly, molten steel is led through the louver 8a and is loaded on the ladle (not shown) below.

On the other hand, after about 150 tons of scrap iron is charged into the electric furnace 5 over the first and second cycles, and about 80 times are used until the molten steel is discharged through the electric arc, the tube 8a The tube brick is eroded.

If the erosion of the tube brick of the louver 8a is increased, the slag in the electric furnace 5 is mixed at the time of discharging the molten steel, so that the quality of the molten steel is lowered.

In order to prevent this, after the molten steel is produced about 80 times, the tube brick of the louver 8a of the electric furnace 5 is exchanged.

However, the tube brick of the lug 8a has a structure weight of about 1000 kg and forms a considerable weight, and the work is performed at a position where the releasing or assembling position is as high as about 7 to 8 m from the ground.

 Therefore, conventionally, the crane 2 installed on the ceiling of the steel making facility is used to open the opening 6b for opening and closing work provided on the top of the opening 8a of the electric furnace 5, lower the wire rope 3, (8a).

Then, the wire rope 3 was lowered by using the crane 2 on the ceiling to replace the worn-out lobe 8a, and the wire rope 3 was hoisted again to mount a new lobe 8a to the electric furnace .

However, according to the above-described method, the operator who adjusts the crane 2, the worker who inserts the wire rope 3 descending by the crane 2 into the opening 6b for work pouring work, A large number of workers, such as workers who need to hold the loungers 8a to be replaced at the lower portion of the loungers 8a, are needed.

In addition, since the work site is generally dark during the replacement work of the louver 8a of the electric furnace 5, the receiver may not be accurately judged between workers who unlock or assemble the crane driver 2 and the lounger 8a In this case, the worker who seats the louver 8a in the lower portion of the electric furnace is exposed to the risk of a safety accident such as an injury or the like .

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the related art, and it is an object of the present invention to shorten the time for replacing the louvers by easily lifting the louvers through the minimum number of persons, And a device for reducing the risk of an operator's safety accident.

In order to achieve the above object, an embodiment of the present invention provides the following apparatus for exchanging a lure of a furnace.

In an embodiment of the present invention, the apparatus frame disposed below the molten steel discharge hole of the furnace and the multi-stage elevating means installed in the apparatus frame for multi-stage elevation in the direction of the molten steel discharge hole of the furnace, have.

In one embodiment, the multi-stage elevating means includes a first elevating portion provided on an upper portion of the apparatus frame and provided so as to be raised and lowered to a position spaced a predetermined distance downward from the molten steel discharge hole of the furnace, And a second elevating part provided on an upper part of the first elevating part and provided so as to be elevated from the position of the first elevating part to the molten steel discharging hole of the furnace.

In one embodiment, the first elevating portion includes a first hydraulic cylinder arranged at a predetermined interval in the circumferential direction on a fixed plate provided on the upper portion of the apparatus frame, and a second hydraulic cylinder arranged to move up and down according to the driving of the first hydraulic cylinder, And a lifting plate installed at the rod end of the first hydraulic cylinder.

In one embodiment, the second lifting unit includes a second hydraulic cylinder installed on the upper portion of the lifting plate, and a second lifting unit installed on the rod end of the second hydraulic cylinder so as to move up and down according to the driving of the second hydraulic cylinder, As shown in FIG.

In one embodiment, the apparatus may further include a bogie body connected to a lower end of the apparatus frame to move the apparatus frame to a lower side of the molten steel discharge hole of the furnace.

In one embodiment, the apparatus further comprises fixing means installed and connected between the apparatus frame and the truck body such that the apparatus frame is fixed to the truck body, wherein the fixing means comprises a seating block installed at the bottom of the apparatus frame, And a support groove provided on an upper portion of the truck body to engage the seat block.

In order to replace the furnace opening and closing port of the furnace, the furnace opening and closing port exchange apparatus of the present invention is configured such that the operator is moved to a position at which the operator can perform the replacement operation through the one-stage lift, It is possible to easily carry out the replacement work with the minimum number of persons and to prevent the risk of the safety accident such as the dropping of the lounger between the replacement work.

Fig. 1 is a schematic view showing a state in which a ladle of a conventional electric furnace is replaced.
2 is a side view of an embodiment of a furnace ladder exchange apparatus according to the present invention.
FIG. 3 is a side view illustrating a state in which the embodiment of the present invention shown in FIG. 2 is vertically elevated.
4 is a plan view of one embodiment of the present invention shown in Fig.
FIG. 5 is a side cross-sectional view illustrating an embodiment of the present invention shown in FIG. 2 mounted on a car body.
FIG. 6A is an operational state diagram illustrating a state in which an embodiment of a furnace ladder exchange apparatus according to the present invention is mounted on a truck body and moves to a lower end of a ladle of an electric furnace.
FIG. 6B is an operational state diagram illustrating a state in which an embodiment of the present invention shown in FIG. 6A is moved up and down by one step to an operable position by an operator.
FIG. 6C is an operational state diagram showing a state in which the embodiment of the present invention shown in FIG. 6B is moved up to the lower end of the electric furnace so that the replacement louver for the louver replacement operation of the operator is raised and lowered two steps.

In order to facilitate understanding of the features of the present invention as described above, the present invention will be described in more detail with reference to the present invention.

In order to facilitate understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, the related components among the components that perform the same function in the respective embodiments are denoted by the same or an extension line number.

Embodiments related to the present invention are basically elevated from the ground to the lower portion of the electric arc furnace and can be easily exchanged through the minimum number of persons, thereby shortening the time for replacing the lobe replacement work, Is reduced.

Hereinafter, a specific embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a side view of one embodiment of a furnace ladder exchange apparatus according to the present invention, FIG. 3 is a side view showing a state in which the embodiment of the present invention shown in FIG. In accordance with one embodiment of the present invention. And FIG. 5 is a side cross-sectional view illustrating a state in which an embodiment of the present invention shown in FIG. 2 is mounted on a car body.

2 to 5, the structure of one embodiment of the furnace ladder exchanging apparatus of the present invention comprises a furnace frame 20 disposed below the molten steel discharge hole of the furnace, a multi- And a multi-stage elevating means (30) installed on the apparatus frame (20) so as to be able to exchange lanes of the apparatus frame (20).

First, the apparatus frame 20 may be installed in a structure of a steel making facility, or may be made of steel or the like. The apparatus frame 20 may include a step member 27 to allow an operator to move up or down and may include a lower deck 21 connected to the step member 27 to enable an operator to work .

A guide rail member 25 may be installed on the apparatus frame 20 along the periphery of the lower deck 21 to prevent a safety accident such as a fall of an operator between operations. A support block 22 may be installed on the lower side of the lower deck 21 to support the lower deck 21 in the apparatus frame 20, (23) is extended to support the side of the lower deck (21).

The multi-stage elevating means 30 may be mounted on the upper end of the apparatus frame 20. The multi-stage elevating means (30) elevates the louver and the worker in the direction of the molten steel discharge hole of the furnace so that the worker can easily carry out the louver replacement work of the furnace.

The multi-stage elevating means 30 may include a first elevating portion 40 and a second elevating portion 50.

First, the first elevating portion 40 is installed on the upper portion of the apparatus frame 20, and raises the elevating portion and the operator to a position spaced a predetermined distance downward from the molten steel discharging hole of the furnace. At this time, the predetermined distance may be a position at which the operator can easily perform the lubrication port replacement work in the molten steel discharge hole of the furnace, and may be a distance of about 1.5 m to 1.8 m from the lower end line of the molten steel discharge hole in the furnace .

The first elevating unit 40 may include a fixed plate 41, a first mounting block 47, a first hydraulic cylinder 42, and a lift plate 45 . The fixing plate 41 may be mounted on the upper end of the lower deck 21 of the apparatus frame 20. The fixing plate 41 may be provided in a lattice structure so as to be easily mounted on the first mounting block 47 as shown in FIG.

The first mounting block 47 may be installed in the circumferential direction between the grids of the fixing plate 41 with a predetermined gap therebetween. When three first mounting blocks 47 are provided as shown in FIG. 4, they are arranged at intervals of 120 degrees. If four first mounting blocks are installed, they will be arranged at 90 degrees.

Here, the first hydraulic cylinder 42 may be bolted and mounted corresponding to the number of the first mounting blocks 47. The first hydraulic cylinder 42 is composed of a cylinder body 42a and a rod 42b. The cylinder body 42a is installed at the lower end of the first mounting block 47 and its load is supported by the first mounting block 47. The rod 42b of the first hydraulic cylinder 42 Is located at the upper end of the first mounting block 47 and is moved up and down according to the driving of the hydraulic cylinder.

The end of the rod 42b of the first hydraulic cylinder 42 is connected to the lifting plate 45. When the rod 42b of the first hydraulic cylinder 42 ascends and descends, Or falls. At this time, when the first hydraulic cylinders 42 are installed in three, the support points for the lifting plate 45 are three, so that the lifting plate 45 can be supported and lifted more stably.

Here, the lifting plate 45 may be provided in the form of a circular plate so that a uniform load may be applied to the plurality of first hydraulic cylinders 42 arranged at predetermined intervals.

Next, the second elevating part 50 is installed on the upper part of the first elevating part 40, and raises the elevating part to the molten steel discharge hole at the position where the first elevating part 40 is elevated. That is, the second elevating portion 50 raises the elevating portion 40 downward from the lower end line of the molten steel discharge hole of the furnace to about 1.5 to 1.8 m, Or about 1.5 to 1.8 meters, which is the distance that can be separated.

Specifically, the second lift portion 50 may include an upper deck 55, a second mounting block 57, a second hydraulic cylinder 52, and a support 53. The upper deck 55 may be fixed to the upper end of the elevating plate 45. In the upper deck 55, an operator may perform an operation of releasing or assembling the ladle from the molten steel discharge hole of the furnace do.

A ladder member 56 is installed at one side of the upper deck 55 so that an operator in the lower deck 21 of the apparatus frame 20 can ascend to the upper deck 55 to perform a ladle replacement operation . Further, the upper deck 55 is formed in a wide plate shape rather than the elevating plate 45, so that a space can be provided for an operator to smoothly perform the lounger replacement work.

The second mounting block 57 may be installed on the upper surface of the upper deck 55 and the second hydraulic cylinder 52 may be bolted to the second mounting block 57, have. Specifically, the second hydraulic cylinder 52 may be installed at a position corresponding to a vertical line on the center of the lifting plate 45.

In this case, the second hydraulic cylinder 52 is connected to the elevating plate 45 while applying a relatively same load to a plurality of first hydraulic cylinders 42 arranged at predetermined intervals in the circumferential direction of the elevating plate 45 So that it is possible to raise and lower the louver support more stably.

The support base 53 may be installed at the end of the rod 52b of the second hydraulic cylinder 52. [ As the rod 52b of the second hydraulic cylinder 52 ascends or descends, the lubrication tube bundle is raised toward the molten steel discharge hole of the furnace, Or lowered.

In the embodiment of the present invention, the apparatus frame 20 is not fixed to the structure of the steel making plant but is mounted on the upper end of the car body 60 as shown in FIG. 5, Hole bottom direction.

In this case, the apparatus frame 20 further includes fixing means 70 installed between the apparatus frame 20 and the truck body 60 so that the apparatus frame 20 can be stably fixed to the upper end of the truck body 60 can do.

Here, the fixing means 70 may include a seating block 71 and a support groove 73. First, the seating block 71 is installed to protrude downward from both sides of the apparatus frame 20, and may be formed of a U-shaped steel frame structure. The support groove 73 is formed in a recessed shape having a shape corresponding to the seating block 71 so that the seating block 71 is fixedly coupled to the upper end of the car body 60, As shown in FIG.

When the seat block 71 is seated in the support groove 73, the apparatus frame 20 is firmly fixed to the car body 60, Can be prevented.

The configuration of an embodiment of a lap-lace gate exchange apparatus according to the present invention is as described above, and an operation state will be described below.

FIG. 6A is an operational state diagram illustrating a state in which an embodiment of a furnace ladder exchange apparatus according to the present invention is mounted on a car body and moves to the lower end of an electric furnace. FIG. 6B is a view showing an operation state of the present invention shown in FIG. FIG. 6C is a view showing an operation state of the embodiment of the present invention shown in FIG. 6B by two steps of elevating and lowering the operator, And a state in which the louver is moved to the lower end of the electric furnace.

6A to 6C, in order to replace the lug 9 in the molten steel discharge hole of the electric furnace, the operator first mounts the apparatus frame 20 to the truck body 60 by using a crane or the like. Of course, the apparatus frame 20 may be always mounted on the truck body 60, or may be fixed to the lower end of the molten steel discharge hole of the electric furnace. In this case, when the molten steel is introduced into the molten steel discharge hole of the electric furnace, the molten steel should be disposed at a distance such that there is no interference.

When the installation of the apparatus frame 20 is completed at the upper end of the truck body 60, the operator then operates the truck body 60 to move the apparatus frame 20 ).

When the apparatus frame 20 is positioned at a certain position on the lower end of the molten steel discharge hole of the electric furnace, the worker rides a step member 27 provided on the side of the apparatus frame 20 and presses the lower deck 21 And then rides again on the ladder member 56 to the upper deck 55 again.

At this time, only one worker is sufficient, and two people may go up for more efficient work. Conventionally, since the louver 9 is lifted up through the overhead crane operation, a lifter is required to assemble the louver 9 having a large weight and to assemble it.

6B, when the first hydraulic cylinder 42 is driven through the control unit C, the lifting plate 45 connected to the end of the rod 42b of the first hydraulic cylinder 42, And the upper deck 55 is also raised.

At this time, the rising distance of the upper deck 55 may be a position where the worker can easily carry out the replacement work of the louver 9 from the lower end face of the molten steel discharge hole of the electric furnace. This can be considered to be about 1.5 to 1.8 m in consideration of the elongation of the worker.

6C, the operator drives the second hydraulic cylinder 52 through the control unit C, and the support base 53 mounted on the end of the rod 52b of the second hydraulic cylinder 52 ). A replacement lubrication port 9 is seated on the upper end of the support base 53 and inserted into the molten steel discharge hole of the electric furnace.

At this time, the rising distance of the supporter 53 may be a distance allowing the lances 9 to be completely inserted into the molten steel discharge holes of the electric furnace. Since the actual louver 9 has a considerable weight close to about 1000 kg, it is difficult for the operator to lift the louver, so that it is completely inserted into the molten steel discharge hole of the electric furnace through the second hydraulic cylinder 52 It would be preferable for the operator to mount the louver 9.

Therefore, the distance by which the support pedestal 53 is lifted by the second hydraulic cylinder 52 may be a distance between the lower end surface of the molten steel discharge hole of the electric furnace and the upper deck 55, that is, about 1.5 to 1.8 m.

When the lug 9 is completely inserted into the molten steel discharge hole of the electric furnace, the worker completes the replacement work of the lug 9 by mounting the lug 9 to the molten steel discharge hole of the electric furnace by pin tightening or the like.

The embodiment of the present invention is capable of easily changing the lending port through the minimum number of persons by elevating the luggage compartment from the ground to the lower part of the lap of the electric furnace through the above-described configuration and operating state, So that the effect of reducing the risk of safety accident of the operator is expected.

The above items are merely illustrative of specific embodiments of the furnace exchanging apparatus.

Therefore, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. do.

20 ... device frame 21 ... lower deck
30 ... Multi-stage elevating means 40 ... First elevating portion
41 ... fixed plate 42 ... first hydraulic cylinder
45 ... lift plate 50 ... second lift portion
52 ... second hydraulic cylinder 53 ... support
55 ... upper deck 60 ... truck body
70 ... fixing means 71 ... mounting block
73 ... support groove

Claims (5)

Device frame;
A bogie body connected to a lower end of the apparatus frame to move the apparatus frame to a lower side of a molten steel discharge hole of the furnace; And
A multi-stage elevating means installed in the apparatus frame and being provided for changing the level difference of the work space and changing the lobe opening / closing port of the furnace,
And the lounger exchange device.
The method according to claim 1,
Wherein the multi-
A first elevating part installed on the upper part of the apparatus frame to raise and lower the ladle opening to a position spaced apart by a predetermined distance downward from the molten steel discharge hole of the furnace so as to form a working space;
A second elevating part installed on the first elevating part to elevate the louver to the molten steel discharge hole of the furnace at a position of the first elevating part so as to replace the louver;
And a second opening / closing valve for opening / closing the second opening / closing valve.
3. The method of claim 2,
The first elevating portion includes:
A first hydraulic cylinder disposed at a predetermined interval in a circumferential direction on a fixed plate provided on an upper portion of the apparatus frame; And
A lifting plate installed at an end of the rod of the first hydraulic cylinder so as to move up and down according to the driving of the first hydraulic cylinder;
And a second opening / closing valve for opening / closing the second opening / closing valve.
The method of claim 3,
The second elevation portion
A second hydraulic cylinder installed on an upper portion of the lifting plate; And
A support installed on the rod end of the second hydraulic cylinder so as to be lifted and lowered in accordance with the driving of the second hydraulic cylinder and on which the louver is seated;
And a second opening / closing valve for opening / closing the second opening / closing valve.
The method according to claim 1,
Further comprising fixing means associated and installed between the apparatus frame and the truck body such that the apparatus frame is secured to the truck body,
The fixing means includes: a mounting block protruding downward from both sides of the apparatus frame; And
A support groove having a shape corresponding to the seating block and installed on an upper portion of the car body so as to be coupled with the seating block;
And a second opening / closing valve for opening / closing the second opening / closing valve.

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