KR20100063388A - Coupling device of a gas supply pipe included in a refining equipment - Google Patents

Abstract

PURPOSE: A coupling device for gas supply pipes of refining equipment is provided to remove foreign materials from the mounting surface of a carriage with gas spray and to thereby prevent the leakage of gas due to the foreign materials. CONSTITUTION: A coupling device for gas supply pipes of refining equipment comprises a body(120), a spray member(140), and an elastic member(160). A flow path(122) and an insertion groove(124) connected to the flow path are formed in the body. The spray member is installed to be elevated in the insertion groove and sprays the gas provided from the flow path to the top and the side. The elastic member is extended or contracted to raise or lower the spray member.

Description

Coupling device of a gas supply pipe included in a refining equipment}

The present invention relates to a gas supply pipe connection device, and more particularly, to a gas supply pipe connection device for connecting a gas supply line provided in the water cart and the water ladles for the bubbling operation of molten steel in the water ladles. .

Generally, the steelmaking process for refining molten iron with molten steel is divided into converter refining for refining in a converter and out-of-house refining for refining in a ladle after tapping in the ladle.

On the other hand, the transportation means of the steel ladles containing molten steel include the ground bogie and the aerial crane. The movement between the steelmaking processes is performed by these transportation means, and all operations of the off-road refining process are performed within the steel ladles containing the molten steel. Are handled directly.

Among the series of work processes, such as the external refining process, there is a bottom bubling operation, which is performed to prevent segregation of components of molten steel or to separate inclusions.

In order to perform the lower bubbling operation, generally, when the grading ladles are seated on the grading cart, it is necessary to connect the gas supply line provided on the grading ladles and the gas supply line provided on the grading cart.

For this purpose, a gas supply pipe connecting device is used. If foreign matter exists in the surrounding area where the gas supply pipe connecting device and the gas supply pipe connecting device are disposed, the foreign matter is not kept confidential when the gas supply line is connected to the gas supply line. There is a problem of leakage.

In addition, since the gas leaks to the outside, the pressure of the gas supplied to the water ladles is lowered, so that the bubbling operation cannot be performed smoothly.

In addition, there is a problem that damage to the gas supply pipe connection itself due to foreign matter, for example, damage and dropping of the packing provided in the gas supply pipe connection device due to foreign matter.

It is an object of the present invention to provide a gas supply pipe connection device capable of removing foreign substances located at a connection portion of a gas supply pipe provided in a water grating and a water grating before the gratings are seated on the gutter.

The gas supply pipe connection device according to the present invention has a body having a flow path connected to the gas supply pipe and an insertion groove connected to the flow path, and is installed to be liftable in the insertion groove and sprays the gas supplied from the flow path to the upper side and the side surface. And an elastic member mounted to the insertion groove to expand and contract to elevate the injection member.

The injection member may include a first injection hole provided on the upper surface to inject the gas supplied upward, and a plurality of second injection holes provided on the side of the upper end to the side to inject the supplied gas to the side.

The gas supply pipe connection device may further include a sealing member mounted to the body so as to be disposed around the injection member to prevent the gas from leaking to the outside when the gas is supplied to the grading bars.

The body is installed in the water cart, the injection member is disposed so as to protrude to the upper portion of the insertion groove when the water gulls are separated from the water gutter, the injection member when the water grate is seated on the water gutter Is inserted into the insertion groove may be disposed.

According to the present invention, foreign matters on the seating surface of the watertight cart can be removed by injecting the gas to the side of the jetting nozzle which is arranged to protrude upward before the watertight wheels are seated on the watertight cart, thereby preventing external leakage of the gas by the foreign material. It can work.

In addition, since the foreign matter can be removed through the injection nozzle, it is possible to improve the pressure of the gas supplied to the sieves, thereby improving the efficiency of the bubbling operation.

And, since the cleaning operation to remove the foreign matter through the injection nozzle can be performed, there is an effect that can prevent damage to the gas supply pipe connection device itself by the foreign matter.

Hereinafter, a gas supply pipe connecting apparatus according to an embodiment of the present invention will be described with reference to the drawings.

1 is a configuration diagram showing an external furnace refining facility equipped with a gas supply pipe connection device according to an embodiment of the present invention.

Referring to FIG. 1, the out-of-furnace refining facility 10 includes a tap ladle 20, a tap bore 40, and a gas supply pipe connecting device 100.

The receiving ladle 20 may have an inner space in which molten steel may be accommodated, and may include a gas supply pipe 22 guiding a movement path of the gas on an outer surface thereof. The gas supply pipe 22 is connected to a gas supply port (not shown) provided on the bottom surface of the water ladles 20 and supplies gas to the molten steel stored in the water ladles 20. Through this, bubbling of molten steel may be performed.

On the other hand, the receiving ladle 20 may be provided with a pressing unit 24 for pressing the receiving cart 20 when seated on the receiving cart 40. The pressurizing portion 24 pressurizes the water cart 40 by the weight of the water ladles 20. In addition, the pressurization part 24 may include a gas inlet 26 (see FIG. 2) for providing a movement path through which gas is introduced into the gas supply pipe 22.

The water cart 40 may be connected to a gas storage tank (not shown) and may include a gas supply pipe 42 for supplying gas to the gas supply pipe 22 of the water ladle 20. That is, the gas may be supplied to the molten steel stored in the water ladles 20 through the gas supply pipe 42 and the gas supply pipes 22 of the water ladles 20 provided in the water tank 40.

In addition, when the receiving cart 20 is seated on the receiving ladle 20, the pressurizing portion 24 of the receiving ladle 20 is seated so that the gas supply pipe 42 and the receiving bogie 20 of the receiving bogie 40. Connection portion 44 for connecting the gas supply pipe 22 of the may be provided.

On the other hand, when the receiving ladle 20 is seated on the receiving cart 40, the upper surface of the connecting portion 44 is pressed by the bottom of the pressing portion 24. That is, the connecting portion 44 may include a seating surface 44a that is pressed by the bottom of the pressing portion 24.

The gas supply pipe connection device 100 is installed at the connection portion 44 of the water tank 40, and connects the gas supply pipe 22 of the water ladle 20 and the gas supply pipe 42 of the water tank 40.

Hereinafter, the gas supply pipe connecting apparatus 100 will be described in more detail with reference to the drawings.

2 is a cross-sectional view showing a gas supply pipe connection device according to an embodiment of the present invention.

1 and 2, the gas supply pipe connecting device 100 includes, for example, a body 120, an injection member 140, an elastic member 160, and a sealing member 180.

The body 120 may include a flow path 122 connected to the gas supply pipe 42 provided in the water tank 40, and an insertion groove 124 connected to the flow path 122.

That is, one side of the flow path 122 may be connected to the gas supply pipe 42 and the other side may be connected to the insertion groove 124. Therefore, the gas supplied from the gas supply pipe 42 may be supplied to the insertion groove 124 through the flow path 122.

Insertion groove 124 is provided on the upper portion of the body 120, it may be formed in a shape corresponding to the shape of the injection member 140. That is, the insertion groove 124 may be formed so that the injection member 140 is inserted into the interior.

On the other hand, the body 120 may be mounted to the connection portion 44 of the water cart 40. That is, when the receiving ladle 20 is seated on the receiving cart 40, the bottom surface of the pressing part 24 of the receiving ladle 20 may be mounted on the connection part 44 so as to be disposed above the body 120. have.

In addition, the body 120 may include a separation preventing member 126 installed in the insertion groove 124 to prevent the injection member 140 is separated from the insertion groove 124. A detailed description thereof will be described later.

On the other hand, the body 120 may be provided with a plurality of springs 128 for mitigating the impact applied to the body 120 when the receiving ladle 20 is seated on the top. That is, the shock applied to the body 120 when the receiving ladle 20 is seated by the elastic force of the spring 128 may be alleviated to prevent the body 120 from being damaged.

The injection member 140 may be installed and lifted in the insertion groove 124 to inject the gas supplied from the flow path 122 to the upper side and the side surface.

That is, the injection member 140 is disposed to protrude to the upper portion of the insertion groove 124 when the receiving ladle 20 is separated from the receiving cart 40, the receiving ladle 20 is the receiving cart 40 When seated in the insertion groove 124 may be installed in the insertion groove 124 to be inserted and disposed inside.

In other words, when the receiving ladle 20 is seated on the receiving cart 40 and the pressing part 24 of the receiving ladle 20 presses the seating surface 44a, the injection member 140 may press the pressing part 24. Pressurized by) is inserted into the insertion groove 124.

On the other hand, the injection member 140 is formed in a cylindrical shape having an inner space, the first injection hole so that the gas supplied from the flow path 122 is injected into the inner space of the injection member 140 and then injected to the upper side and the side 142 and a plurality of second injection holes 144 may be provided.

The first injection hole 142 is provided on the upper surface of the injection member 140 to inject the gas supplied to the injection member 140 to the upper side, and supplies it to the gas supply pipe 22 of the receiving ladle 20. In other words, the first injection hole 142 may be provided on the upper surface of the injection member 140 to supply gas to the gas inlet 26.

On the other hand, the second injection hole 144 is provided on the upper end of the injection member 140 to inject the gas supplied to the injection member 140 to the side. In addition, a plurality of second injection holes 144 may be provided to allow gas to be injected into the entire area around the injection member 140, and may be holes formed in the injection member 140.

Therefore, when the injection member 140 is disposed to protrude to the upper portion of the insertion groove 124, that is, when the receiving ladle 20 is separated from the water cart 40, when the gas is supplied to the injection member 140 Gas is injected through the first injection hole 142 and the second injection hole 144 of the injection member 140.

Accordingly, gas is injected through the second injection hole 144 of the injection member 140 to the periphery of the insertion groove 124 to the periphery of the insertion groove 124 and the seating surface 44a of the receiving cart 40. The foreign material in place can be removed.

On the other hand, when the injection member 140 is arranged to protrude from the insertion groove 124 at the lower end of the injection member 140, the locking jaw portion 146 to prevent the injection member 140 is separated from the insertion groove 124 It can be provided.

That is, the locking jaw portion 146 may be supported by the release preventing member 126 installed in the insertion groove 124 so that the injection member 140 may not be separated from the insertion groove 124.

In addition, the injection member 140 may be disposed around the first injection hole 142 and may have a mounting protrusion 148 extending upwardly. When the receiving protrusions 148 are seated on the receiving cart 40, the pressing part 24 of the receiving ladle 20 is seated. Accordingly, the injection member 140 may be pressed by the receiving ladle 20 to be lowered into the insertion groove 124.

The elastic member 160 is installed in the insertion groove 124 is stretched so that the injection member 140 is elevated. That is, the elastic member 160 is one end is mounted to the injection member 140 and the other end is mounted to the insertion groove 124 is compressed when the injection member 140 is lowered, and then the pressing force applied to the injection member 140 is When removed, it provides a restoring force to the injection member 140.

In other words, when the receiving ladles 20 are seated on the receiving cart 40, that is, the receiving ladles 20 are seated on the receiving cart 40 so that the pressing portion 24 of the receiving ladles 20 is seated. When the surface 44a is pressed, the injection member 140 is pressed by the pressing part 24 to be inserted into the insertion groove 124. At this time, the elastic member 160 is compressed.

Since the receiving ladle 20 is separated from the receiving cart 40, the injection member 140 is raised to protrude from the insertion groove 124 by the restoring force, that is, the elastic force provided from the elastic member 160.

Meanwhile, although the elastic member 160 is a coil spring in the drawing, the present invention is not limited thereto, and the elastic member 160 may employ any configuration that can provide a restoring force to the injection member 140.

The sealing member 180 is mounted to the body 120 so as to be disposed around the injection member 140 to prevent the gas from leaking to the outside when the gas is supplied to the receiving ladle 20. That is, the sealing member 180 is mounted in the installation groove 130 formed on the upper surface of the body 120.

Therefore, when the receiving ladles 20 are seated on the receiving trolley 40, that is, the receiving ladles 20 are seated on the receiving trolley 40 so that the pressing portion 24 of the receiving ladles 20 is seated. When pressing the 44a, the sealing member 180 is in close contact with the bottom surface of the pressing unit 24 to prevent the gas injected from the injection member 140 from leaking to the outside of the sealing member 180.

Accordingly, the gas injected from the injection member 140 may be supplied to the gas supply pipe 22 of the river ladle 20 through the gas inlet 26 of the river ladle 20.

On the other hand, a plurality of sealing member 180 may be mounted.

As described above, before the receiving ladle 20 is seated in the receiving cart 40, the injection ladle 20 is disposed to protrude upward from the insertion groove 124 and is injected through the injection nozzle 140 having the second injection hole 144. Since the foreign matter on the seating surface 44a of the water cart 40 can be removed by injecting gas to the side surface of the nozzle 140, the external leakage of the gas by foreign matter can be prevented.

In other words, when the foreign matter is disposed adjacent to the sealing member 180 and positioned on the seating surface 44a, the bottom surface of the pressurizing portion 24 of the tuft ladle 20 may not be in close contact with the seating surface 44a. Accordingly, since the external leakage of the gas cannot be prevented by the sealing member 180, the gas injected from the injection member 140 leaks to the outside.

However, since the gas may be injected through the side injection hole 144 which is disposed to protrude to the upper portion of the insertion groove 124 before the receiving ladle 20 is seated, the foreign substance located on the seating surface 44a is removed. Since it can be removed, it is possible to prevent the external leakage of gas by foreign matter.

In addition, since foreign substances located on the seating surface 44a can be removed, the external leakage of the gas can be prevented, so that the pressure of the gas supplied to the grading ladles 20 can be increased. Can improve.

In addition, since the foreign matters may be removed before the receiving ladles 20 are seated, the receiving ladles 20 may be seated in the state where the foreign matters are positioned above the sealing member 180, and the sealing member 180 may be formed by the foreign matters. It can prevent damage.

Hereinafter, with reference to the drawings will be described the operation of the gas supply pipe connecting apparatus according to an embodiment of the present invention.

3 is an operation diagram for explaining the operation of the gas supply pipe connection device according to an embodiment of the present invention, Figure 4 is an operation diagram for explaining the operation of the gas supply pipe connecting device according to an embodiment of the present invention.

In other words, FIG. 3 is an operation diagram showing a state before the classmates are seated on the cart, and FIG. 4 is an operation diagram showing a state where the classmates are seated on the cart.

Referring to FIG. 3, first, before the receiving ladles 20 (see FIG. 1) are seated on the receiving cart 40 (see FIG. 1), the injection member 140 may be formed of the body 120 by the elastic member 160. It is arranged to protrude to the top of the insertion groove 124 of the). In this case, the locking jaw portion 146 of the injection member 140 may be supported by the release preventing member 126 so that the injection member 140 may not be separated from the insertion groove 124.

On the other hand, when the gas is supplied in this state, the gas is supplied to the injection member 140 through the gas supply pipe 42 of the water cart 40, the flow path 122 of the body 120, the insertion groove 124. The supplied gas is injected through the first injection hole 142 and the second injection hole 144 of the injection member 140.

As described above, when the gas is injected through the second injection hole 144, the injected gas may have foreign substances located on the upper surface of the connection portion 44 of the water cart 40, that is, the seating surface 44a. Can be removed from.

Referring to FIG. 4, when the tufts of ladle 20 (see FIG. 1) are seated on the tuft truck 40 (see FIG. 1), that is, the pressurizing portion 24 of the tuft ladle 20 may be connected to the tuft bore 40. When seated on the connecting portion 44, that is, the seating surface 44a, the injection nozzle 140 is pressed by the pressing portion 24.

Accordingly, the injection nozzle 140 descends into the insertion groove 124 and is eventually disposed in the installation groove 124. In this case, the first injection hole 142 of the injection nozzle 140 is disposed under the gas inlet 26 of the pressurizing part 24, and the second injection hole 144 of the injection nozzle 140 is formed in the insertion groove 124. It is placed inside.

When the gas is supplied in a state in which the injection nozzle 140 is disposed inside the insertion groove 124, the supplied gas is supplied through the first injection hole 142 and the second injection hole 144 of the injection nozzle 140. Sprayed.

However, the gas injected from the second injection hole 144 is a sealed space formed by the bottom surface of the pressurizing portion 24 disposed above the injection nozzle 140, the sealing member 180, and the release preventing member 126. Sprayed into.

After a certain time has passed, the supplied gas is injected only through the first injection port 142 having a relatively low pressure, and thus the supplied gas may be supplied only to the gas supply pipe 22 of the grazing ladle 20. have.

As described above, before the receiving ladles 20 are seated on the receiving cart 40, in other words, the pressing part 24 of the receiving ladles 20 is seated on the connection part 44 of the receiving cart 40. Before the injection, foreign matter located on the upper surface of the connection portion 44 of the water cart 40, that is, the seating surface 44a, may be removed by injecting gas through the second injection hole 144 of the injection member 140. This can prevent external leakage of gas.

In addition, since the external leakage of the gas by the foreign matter can be prevented, it is possible to increase the pressure of the gas supplied to the grasp 20, there is an effect that can improve the efficiency of the bubbling operation.

In addition, since the foreign material located on the upper surface of the connection portion 44 of the water cart 40 may be removed before the receiving ladle 20 is seated, it is possible to prevent the gas supply pipe connection device 100 from being damaged by the foreign material. .

1 is a configuration diagram showing an external furnace refining facility equipped with a gas supply pipe connection device according to an embodiment of the present invention.

2 is a cross-sectional view showing a gas supply pipe connection device according to an embodiment of the present invention.

3 is an operation diagram for explaining the operation of the gas supply pipe connection device according to an embodiment of the present invention.

4 is an operation diagram for explaining the operation of the gas supply pipe connection device according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: gas supply pipe connecting device

120: body

140: injection member

160: elastic member

180: sealing member

Claims (4)

In the gas supply pipe connection device for connecting the gas supply pipe provided in the water ladle and the gas supply pipe provided in the water cart for the bubbling operation of the water ladle, A body having a flow path connected to the gas supply pipe and an insertion groove connected to the flow path; An injection member installed in the insertion groove so as to be elevated and injecting gas supplied from the flow path into upper and side surfaces thereof; And An elastic member mounted to the insertion groove and elastically stretched to raise and lower the injection member; Gas supply pipe connection device comprising a. The method of claim 1, wherein the injection member A first injection hole provided on an upper surface to inject a gas supplied thereon; And A plurality of second injection holes which are provided at the upper end side and inject gas supplied to the side; Gas supply pipe connection device comprising a. The method of claim 1, And a sealing member mounted to the body so as to be disposed around the injection member to prevent the gas from leaking to the outside when the gas is supplied to the grading bars. The method of claim 1, The body is installed in the water cart, The jetting member is disposed to protrude to the upper portion of the insertion groove when the grasps are separated from the grading cart. Gas supply pipe connection device characterized in that the.

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