KR20020011783A - A connecting device for suppling inert gas into a ladle - Google Patents

Abstract

PURPOSE: An inert gas supplying connector of a ladle is provided which puts a ladle onto a ladle rack and connects the ladle to an inert gas supplying pipe at the same time so that an inert gas is promptly and simple supplied to molten steel in the ladle. CONSTITUTION: In an apparatus in which an inert gas is supplied to molten steel in a ladle through a gas connection port of the ladle that is put onto a ladle rack, the inert gas supplying connector of the ladle comprises a gas supply port which is installed at the outer side of the ladle so as to be connected to the gas connection port, and at the lower part of which a female cone is equipped, wherein a conical resting surface is formed on the female cone; a male cone(30) on the upper part of which a conical inserting surface that is inserted onto the resting surface is formed, in which a nozzle pipe(70) connected to an inert gas supply hose so that the front end of the nozzle pipe(70) is projected from the upper part of the male cone(30) in a certain length, and which is ascended or descended by a cylinder(82); a first arm(91) in the one side of which the male cone(30) is carried so that the male cone(30) is slid up and down, and to which the cylinder(82) is fixed; a second arm(92) one side of which is connected to the other side of the first arm(91) by means of a pin(94), and the other side of which is connected to the ladle rack by means of a pin(95); and a coil elastic spring which elastically supports rotation of the first and second arms(91,92) so as to restitute them to their initial set positions.

Description

A connecting device for suppling inert gas into a ladle}

The present invention relates to a connection device for inert gas supply of a ladle, and more particularly, a mail cone which is connected to a female cone of the gas supply port by installing a gas supply port connected to a gas connection port on one side of the ladle and a ladle guard. It is supported by a plurality of arms and can supply the inert gas to the mail cone, and at the same time to configure the mail cone to move up and down, so that the mail cone is fitted to the female cone while the ladle is placed on the ladle guard. The present invention relates to a connection device for inert gas supply of a ladle, which can more easily supply an inert gas to molten steel in a ladle.

In general, an inert gas is added to the molten steel moved to the performance equipment in the ladle through the steelmaking process, and the like, and a conventional method thereof will be described with reference to FIG. 1.

Ladle 110 in the state containing the molten steel is placed on the ladle stabilizer 120, the ladle support 112 is provided on the ladle stabilizer 120 so as to face the predetermined position on the outer surface of the ladle 110. It is accommodated in the settled space 124 formed by the guide plate 122, the inert gas supply to the gas connection port 114 formed on one side of the ladle 110 when the ladle 110 is maintained in the state By fitting the coupling 132 mounted at the tip of the flexible hose 130, an inert gas such as argon is supplied to the molten steel in the ladle 110 to perform a so-called bubbling operation.

However, according to this conventional method, the operation of supplying the inert gas to the molten steel in the ladle 110 is performed by the operator directly to the settle position of the ladle 110, the flexible hose 130, the coupling 132 is mounted on the tip Since it is a manual operation to move and insert into the gas connection port 114 of the ladle 110, the bubbling operation takes a considerable time and effort was undesirable in terms of productivity.

In addition, the above work performed at a high temperature place has a problem that the worker is exposed to a safety accident such as a burn hazard, and the flexible hose 130 for supplying the inert gas is exposed to molten steel scattered during bubbling operation so that its life is remarkably increased. There was a side problem such as frequent replacement due to the decrease.

The present invention has been made to solve such a conventional problem, the object of which is to be placed on the ladle settled at the same time as the inert gas supply pipe is connected to the ladle so that the inert gas supply can be made more quickly and simply The present invention provides a connection device for supplying an inert gas to a ladle.

1 is a perspective view showing the appearance of supplying an inert gas to the ladle according to the prior art;

Figure 2 is an external perspective view showing the overall appearance of the ladle is placed on the ladle guard with the inert gas supply connection device according to the present invention;

Figure 3 is a front cross-sectional view showing a part of the gas supply port mounted on the ladle and the components mounted on the ladle stabilizer of the inert gas supply connection device according to the present invention.

Figure 4 is an exploded perspective view showing the entirety of the components mounted on the ladle guard of the inert gas supply connection device according to the present invention;

Fig. 5 is a front sectional view showing overall the components mounted on the ladle guard of the inert gas supply connection device according to the present invention;

Figure 6 is a detailed view of the restoring means which is one of the components of the present invention;

7 is an explanatory diagram showing a state in which the arms of the present invention operate;

Explanation of symbols on the main parts of the drawings

10 ladle 12 ladle support

14 gas connection port 16 connection hose

20: gas supply port 24: female cone

24a: seating surface 30: mail cone

30a: fitting side 32: sliding guide hole

36: slit groove 38: elastic coil spring

40: pipe support pipe 42: through hole

44: set screw 46: outer diameter expansion unit

50: connector 60: ball housing

70 nozzle pipe 74 inert gas passage

80: spindle 82: cylinder

91, 92: arm 85: inert gas supply hose

96: restoration means 96c: coil elastic spring

In order to achieve the above object, the present invention provides a device for supplying an inert gas to the molten steel in the ladle through the gas connection port of the ladle placed in the ladle settle, the outer side of the ladle is installed in the gas connection A gas supply port connected to the port and having a female cone having a conical seating surface at a lower portion thereof; A conical fitting surface fitted to the seating surface, the nozzle cone connected to the inert gas supply hose to accommodate the tip end of the protruding length by a predetermined length, and the upper and lower mail cones being moved up and down by a cylinder; A first arm accommodating the mail cone on one side so as to be slidable up and down and fixing the cylinder; A second arm of which one side is connected to the other side of the first arm via a pin, and the other side of which is connected to the ladle supporter via a pin; And a coil elastic spring configured to elastically support rotation of the first arm and the second arm to restore the initial position to an initial setting position.

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

Figure 2 is an external perspective view showing a state in which the ladle is placed on the ladle supporter having a connection device for inert gas supply according to the present invention, Figure 3 is mounted on the ladle of the connection device for inert gas supply according to the present invention Figure 4 is a front sectional view showing a part of the components mounted on the gas supply port and the ladle stabilizer, Figure 4 is an exploded perspective view showing the components mounted on the ladle stabilizer of the inert gas supply connection device according to the invention as a whole, Figure 5 is a front sectional view showing the overall components of the ladle guards of the inert gas supply connection device according to the present invention.

The apparatus 1 has a gas supply port 20 installed at a predetermined position on the outer surface of the ladle 10, the gas supply port 20 is a gas connection port 14 formed on one lower side of the ladle 10 Is connected via a connecting hose (16).

As shown in FIGS. 2 and 3, the gas supply port 20 includes a female cone mounted to a bracket 22 fixedly integrally with an outer surface of the ladle 10 via a bolt 25. The female cone 24 has a female cone 24. The female cone 24 forms a seating surface 24a having a conical inner surface, and a penetrating portion, that is, a penetrating stem 24b, has a predetermined inner diameter. It is fixed to the top of the (10), the through nipple portion (24b) is further extended to a predetermined length to the upper portion is equipped with a nipple (26), the nipple (26) of the connection hose (16) It is connected to one side.

In addition, the apparatus 1 has a mail cone 30 corresponding to the female cone 24 of the gas supply port 20, the outer surface of the upper portion of the male cone 30 is the female cone It is formed by the conical fitting surface 30a corresponding to the conical inner surface 24a of (24). In addition, the mail cone 30 forms a sliding guide hole 32 penetrated in the longitudinal direction, and the sliding guide hole 32 extends the inner diameter extending portion 34 from the center portion to the lower portion with the outer diameter thereof enlarged. ). In addition, a plurality of slit grooves 36 extending in a predetermined length up and down while facing each other are formed in a portion surrounding the inner diameter expanding portion 34 of the mail cone 30.

A pipe support tube 40 having a through hole 42 having the same size as the sliding guide hole 32 is inserted into the inner diameter expanding portion 34 of the male cone 30. The pipe support tube 40 is provided with an elastic repulsive force in the direction of exiting the male cone 30 by the elastic coil spring 38 installed in the inner diameter expanding portion 34 of the male cone 30. A set screw 44 is fastened to a plurality of bolt holes 41 formed from the outside to the inner diameter side of the support tube 40, and the outer end of the set screw 44 is a slit groove 36 of the male cone 30. The pipe support tube 40 is prevented from escaping from the mail cone 30 by being kept in the state. In addition, the through hole 42 of the pipe support tube 40 is continuous from the center to the lower end of the outer diameter of the enlarged state and at the same time forms an outer diameter enlarged portion 46 forming a female thread.

The connector 50 is coupled through the outer diameter expanding portion 46 of the pipe support tube 40, and the connector 50 is screwed to the outer diameter expanding portion 46 at an upper outer surface thereof. ) And a through-hole 54 having the same diameter as the through-hole 42 of the pipe support tube 40 is formed in the center of the connector 50, the through-hole 42 ) Forms a first inner diameter enlarged portion 56a having a female screw thread formed on the lower side except for a predetermined length of the upper end portion, and a second inner diameter enlarged portion 56b continuous from the first inner diameter enlarged portion 56a to the lower end. . In addition, the outer surface of the lower end of the connector 50 is made of a spherical fitting portion 58 formed in a spherical shape, the elastic coil spring 59 is built in the second inner diameter expansion portion 56b.

And, the ball housing 60 is inserted from the top outside the connector 50, the ball housing 60 penetrates in the longitudinal direction in the center to have the same inner diameter as the outer diameter of the center side of the connector 50. The formed through hole 62 and the ball support 64 formed in a hemispherical shape having the same shape as that of the upper side that is half of the spherical fitting portion 58 of the connector 50 while continuing from the center portion to the lower end of the through hole 52. Has In addition, the ball housing 60 is formed in a substantially plate shape having a predetermined size, the ball housing 60 is formed with a bolt mounting hole 66 penetrated up and down.

The nozzle pipe 70 is inserted into and coupled to the first inner diameter expanding portion 56a of the connector 50, and the nozzle pipe 70 has a first inner diameter expanding portion of the connector 50 at an outer surface of the center 50. A male thread 72 corresponding to 56a is formed so that the male thread 72 can be screwed into and fixed to the first inner diameter expanding portion 56a of the connector 50, and this nozzle pipe 70 ) Through the through hole 54 of the connector 50, the through hole 42 of the pipe support tube 40, and the sliding guide hole 32 of the mail cone 30 than the upper end of the mail cone 30 It extends upwards to protrude slightly, and the outer diameter of the upper portion is such that the through hole 54 of the connector 50, the through hole 42 of the pipe support tube 40, and the sliding guide hole of the mail cone 30 are extended. It is set equal to the inner diameter size of (32). In addition, an inert gas passage 74 penetrates in a longitudinal direction at the center of the nozzle pipe 70, and an elbow 78 is mounted at a lower end of the nozzle pipe 70 via a nipple 76. In addition, an elastic coil spring 79 may be inserted between a portion where the male thread 72 of the nozzle pipe 70 is formed and a lower end of the through hole 54 of the connector 50.

The ball housing 60 is fixed to the upper end of the hollow cylinder-shaped spindle 80 via the bolt 61, the spindle 80 is fixed to the lower end in the state fitted to the first arm 91 to be described later It is connected to the rod 83 of the cylinder 82 via the bracket 81, the connecting bracket 81 is formed of a disc 81a at the upper end to close the lower end of the spindle 80 and female screw in the lower center A portion 81b is formed and fixed to the male threaded portion 83a at the tip of the rod 83. In addition, a slit-shaped groove 84 continuous in a circumferential direction is formed on one side of the lower end of the spindle 80, and the groove 84 is an elbow fixed to the lower nipple 76 of the nozzle pipe 70. This is for the 78 to be fitted so that the other side can protrude out of the spindle 80. Of course, the elbow 78 may not protrude to the outside through the groove 84, in any case should be one end of the inert gas supply hose 85 to be described later to the elbow (78). In addition, hydraulic cylinders 86a and 86b are connected to the cylinder 82 to supply a working fluid, and the hydraulic pipelines 86a and 86b are connected to a hydraulic installation through a solenoid valve, etc., not shown. . In addition, the ball housing 60 is formed on the upper end of the spindle 80 by having a ball support portion 80a formed in a hemispherical shape having the same shape as the lower shape that is half of the spherical fitting portion 58 of the connector 50. When fixed to the upper end of the spindle 80, the spherical fitting portion 58 of the connector 50 is accommodated in a spherical space formed by the ball supporting portions 64 and 80a so as to be slidable.

The other end of the first arm 91 is rotatably connected to one end of the second arm 92 via a pin 94 fitted vertically and a bearing 94a that facilitates the rotational movement. The other end of the second arm 92 is rotatably connected to the support frame 93 with a pin 95 fitted vertically and a bearing 95a for smooth rotation. In addition, the support frame 93 is fixed to a predetermined position of the ladle support 12 via a bolt (not shown).

The first arm 91 and the second arm 92, and the second arm 92 and the support frame 93, the spindle support 91a at the tip of the first arm 91 is rotated in the horizontal direction by an external force. When the external force is removed in the case of movement, the restoring means is connected to each other by the restoring means 96 so as to return to the predetermined position. The restoring means connecting the first arm 91 and the second arm 92 ( 96, only the restoring means 96 connecting the second arm 92 and the support frame 93 has the same configuration.

As shown in Figs. 4 and 6, the restoring means 96 is integrally fixed to the second arm 92 by welding or the like and extends a predetermined length toward the first arm 91, and A spring fitting protrusion 96b formed at an end side of the extension 96a and protruding toward the first arm 91, and protruding toward the spring fitting protrusion 96b formed on the first arm 91; It consists of another spring fitting protrusion 96c and the elastic coil spring 97 which both ends are fixed to the spring fitting protrusions 96b and 96c. Of course, the restoring means 96 is installed on the lower side as shown in Figure 6, it may be installed on the upper side or both, only the elastic coil spring 97 is deformed by an external force and then restored What is necessary is just to comprise so that the 1st arm 91 and the 2nd arm 92 may be moved to an initial state.

In addition, the spindle 80 is fitted to the hollow support cylindrical spindle support 91a integrally formed at one end of the first arm 91, and the cylinder support 82 is mediated with a bracket 91b at the spindle support 91a. ) Is fixed.

The operation of connecting the inert gas supply hose 85 to the gas connection port 14 of the ladle 10 by the apparatus of the present invention configured as described above will be described.

The gas supply port 20 constituting the apparatus 1 of the present invention is installed in the ladle 10, and other components including the mail cone 30 are installed in the ladle guard 12.

At this time, the position of the mail cone 30 is set to be directly under the gas supply port 20 of the ladle 10 in the ladle 10 is placed on the ladle support 12, in the initial state The rod 83 of the cylinder 82 is reversed, i.e., lowered. This is a state in which the mail cone 30 is lowered through the spindle 80 connected to the rod 83, and the mail cone 30 in this state is gas even after the ladle 10 is placed on the ladle support 12. It is located on the lower side than the gas supply port 20 so as not to interfere with the supply port 20.

In this state, when the ladle 10 is settled on the ladle support 12, the rod 83 of the cylinder 82 is moved forward, that is, raised automatically or by an operator operating a separate button provided in the control unit Then, the rise of the rod 83 raises the spindle 80 connected thereto along the spindle support 91a, and then the components connected to the top of the spindle 80 all rise together.

The seating surface 24a of the female cone 24 equipped with the gas supply port 20 of the ladle 10 is the upper fitting surface 30a of the male cone 30 located at the top of the components which rise in this way. ), The position of the female cone 24 is likely to be slightly off the rising path of the male cone (30). This is due to a predetermined error generated when the ladle 10 rests on the ladle support 12, and the outer diameter size of the lower surface of the seating surface 24a of the female cone 24 is set in accordance with the range of the error. Will be. That is, as shown in FIG. 7, if the area where the female cone 24 can be located when the ladle 10 is settled is referred to as the moving region MA, the female cone 24 is moved. In any position of MA), the tip of the male cone 30, more precisely, a part of the end of the fitting surface 30a formed outside the upper portion of the male cone 30, is the area of the female cone 24, That is, the maximum inner diameter of the seating surface 24a of the female cone 24 should be within the fixed area FA. This means that even if the female cone 24 is out of an initial setting position, if the female cone 24 is within a predetermined error range, that is, the female cone 24 is within a preset moving area MA, the male cone 30 The seating surface 24a of the female cone 24 is positioned on a path along which the upper end of the upper side travels.

As shown by the solid line in the figure, when the position of the female cone 24 is slightly out of the upward path of the male cone 30, if the male cone 30 continues to rise, the fitting surface of the male cone 30 ( A predetermined reaction force is generated between the 30a) and the seating surface 24a of the female cone 24 in the direction of moving the male cone 30 and the female cone 24 to be close to each other. In this case, the female cone 24 fixed to the ladle 10 remains fixed at the position thereof, while the mail fitted to the first arm 91 connected to the second arm 92 to be rotatable. The cone 30 moves to the female cone 24. Here, since the first arm 91 is rotatable at the tip of the second arm 92, and the second arm 92 is rotatable at the tip of the support frame 93, the mail cone 30 is The center can be moved to coincide with the center of the female cone 24 located in the movement area MA.

Therefore, the fitting surface 30a of the male cone 30 is fitted in a state of being in close contact with the seating surface 24a of the female cone 24.

In addition, the up and down impact force generated when the mail cone 30 is fitted to the female cone 24 is in charge of the elastic coil spring 38 supporting the mail cone 30 from the bottom, the mail As the cone 30 is fitted to the female cone 24, a large force acts downward to the male cone 30, and the elastic coil spring 38 moves as the male cone 30 moves downward by this force. It contracts. And, this behavior is possible by the slit groove 36 formed in the vertical direction in the male cone (30).

When the male cone 30 is fitted into the female cone 24, the inert gas is supplied through the inert gas supply hose 85, and the inert gas is connected to the nozzle pipe 70 and the gas connection port 14. Bubbling operation can be made by being supplied to the molten steel in the ladle 10 through.

Then, when the bubbling operation is completed, the supply of the inert gas through the inert gas supply hose 85 is cut off, the ladle 10 is moved to another process from the ladle guards (12).

As the ladle 10 is removed from the ladle settlement 12, the mail cone 30 inserted in the female cone 24 of the gas supply port 20 also exits the female cone 24, and At the same time, the external force applied to the mail cone 30 by the female cone 24 is also removed, which restores the first arm 91 and the second arm 92 supporting the mail cone 30. It moves to the initial state by the elastic coil spring 97 of the means 96 and waits for the next bubbling operation.

As described above, according to the connecting device for inert gas supply of the ladle according to the present invention, a mail cone connected to the female cone of the gas supply port is installed on one side of the ladle by installing a gas supply port connected to the gas connection port. It is supported by a plurality of arms and can supply the inert gas to the mail cone, and at the same time to configure the mail cone to move up and down, so that the mail cone is fitted to the female cone while the ladle is placed on the ladle guard. It has the effect of supplying inert gas to the molten steel in the ladle more simply.

Claims (1)

In the device to supply the inert gas to the molten steel in the ladle through the gas connection port of the ladle seated on the ladle support A gas supply hole 20 installed at an outer side of the ladle 10 and connected to the gas connection port 12 and having a female cone 24 having a conical seating surface 24a formed at a lower portion thereof; A conical fitting surface 30a fitted to the seating surface 24a is formed thereon, and the nozzle pipe 70 connected to the inert gas supply hose 85 is accommodated so that the tip thereof protrudes a predetermined length upward. A mail cone 30 to be moved up and down by 82); A first arm 91 which accommodates the mail cone 30 on one side so as to be slidable up and down and fixes the cylinder 82; A second arm 92 of which one side is connected to the other side of the first arm 91 by a pin 94 and the other side of which is connected to the ladle settlement via a pin 95; And, And a coil elastic spring (96c) for elastically supporting the rotation of the first arm (91) and the second arm (92) to restore the initial position.