KR200226778Y1 - Device for guiding hot steel of refining furnace - Google Patents

Abstract

It is an object of the present invention to provide a tapping guidance device for a refining furnace, which can prevent scattering and spreading of molten steel by guiding the flow of molten steel to the ladle stably and uniformly.

The present invention consists of a lower cone and an upper cone containing molten steel, and in the refining furnace having a mouth ring engaged with the spout of the ladle at the inlet, the amount of the upper cone of the refining furnace parallel to the revolving shaft of the refining furnace. The upper joint is rotatably installed on the side, and the lower joint is twisted at a predetermined angle toward the furnace entrance at the tip of the upper joint, and the upper joint is used to control the rotation angle of the upper joint and the lower joint, respectively. The stop bar protruding from the side of the cone, and is provided on the lower end of the joint provides a tapping guide device for refining furnace characterized in that it comprises a guide for inducing molten steel in close contact with the lower side of the mouth ring when tilting the refining furnace.

Description

Device for guiding hot steel of refining furnace

The present invention relates to a refining furnace used in the molten steel manufacturing process, and more particularly to a tapping induction apparatus of the refining furnace that can prevent the molten steel to spread during the tapping of the refining furnace.

In general, molten steel melted in an electric furnace is made of high purity molten steel in which a ladle is injected into a refinery and then blown in a refinery to remove oxide gas and other impurities.

As shown in FIG. 4, the refining furnace includes a lower cone 100 and an upper cone 101 containing molten steel. Molten steel is injected through the inlet formed in the upper cone 101 and tapping is also made through the inlet.

Therefore, during the tapping work, the molten steel is spilled through the inlet by tilting the refining furnace itself toward the ladle 112 placed on the water tank 111 which is moved along the rail 110. At this time, the molten steel is scattered to the outside. By spreading, a phenomenon in which the ladle 112 may not be accurately input is generated.

That is, in the past, the waste water overflows into the inlet in the process of charging the molten metal into the refining furnace, and the abnormal furnace is now attached to the furnace, while the molten steel is scattered during the refining operation. When you go to the river, the splash and spread of the water will occur.

As molten steel is scattered and pulled out, the molten water is fused to the rail, which is the moving path of the steel cart, and equipment accidents occur. The area where molten steel is exposed to the air due to tapping flow spreading phenomenon increases the amount of nitrogen in the atmosphere. This results in a problem of quality deterioration due to component instability.

In particular, when the molten molten steel is fused to the rail, prolonged interruption of work results in a drastic drop in productivity, aggravating the workload and increasing the risk of safety accidents in the process of treating the fused waste water.

Therefore, the present invention was devised to solve the above problems, and the tapping guidance device of the refinery furnace was made to prevent the scattering and spreading of the molten steel by inducing the flow of molten steel to the ladle stably and uniformly. The purpose is to provide.

1 is a perspective view showing a refining furnace equipped with a tapping apparatus according to the present invention,

2 is a view showing a state of use of the tapping guide device according to the present invention,

FIG. 3 is a view of FIG. 1 viewed in the A direction according to the present invention; FIG.

Figure 4 is a perspective view showing a state of tapping the molten steel in the refining furnace according to the prior art.

Explanation of symbols on the main parts of the drawings

10: refining furnace 11: lower cone

12: upper cone 13: mouse ring

20: upper joint 21: bearing

30: lower joint 40, 41, 42, 43: stop bar

50: guide plate 51: refractory

52: fastening member 53: T-shaped member

In order to achieve the object as described above, the present invention in the refining furnace, it is installed on the side of the refining furnace is rotated toward the furnace inlet when tilting the refining furnace, the molten steel to be pulled out further comprises a guide part in close contact with both sides of the inlet It is characterized in that it can be uniformly introduced into the ladle without being scattered to the outside of the inlet.

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

1 is a perspective view showing a refining furnace equipped with a tapping guide device according to the present invention, Figure 2 is a view showing a state of use of the tapping guide device according to the present invention, Figure 3 according to the present invention It is a view seen from the A direction.

According to the drawings, the refining furnace 10 is composed of a lower cone 11 and the upper cone 12 containing the molten steel, the entrance is equipped with a mouth ring that meshes with the spout of the ladle, the upper cone 12 Molten steel is injected through the inlet formed in the tap and tapping is also made through the inlet.

Here, the tap guide apparatus according to the present invention, the upper joint 20 and the upper joint (20) which are rotatably installed on both sides of the upper cone 12 of the refining furnace 10 in parallel with the tilting shaft 10 of the refining furnace 10. 20) the lower joint 30 is pivotally coupled at a predetermined angle toward the furnace entrance to the tip and the upper joint to control the rotation angles of the upper joint 20 and the lower joint 30 when the refining path 10 is tilted. Stop bars (40, 41, 42, 43) protruding from the side of the cone (12), and the lower joint (30) is installed on the end of the mouth ring (13) in close contact with the lower side including a guide for inducing molten steel Is done.

The induction part includes a guide plate 50 having a rectangular shape attached to an end of the lower joint 30, and a refractory 51 attached to the inner surface of the guide plate 50. Further, since the refractory 51 is in close contact with the side of the mouth ring 13, the refractory 51 has the same curved shape as the annular mouth ring 13.

An anchor (not shown) is attached to the guide plate 50 to increase the coupling force with the refractory 51 when the refractory 51 is attached.

According to the present invention, the guide plate 50 constituting the induction part is to be replaced according to the damage of the refractory 51, for this purpose attach a fastening member 52 having a T slot formed at the end of the lower joint 30 The T-shaped member 53 is installed on the rear surface of the guide plate 50 so as to be inserted into the T slot of the fastening member 52 to be detachable from the fastening member 52.

The upper joint 20 is installed in the upper cone 12 through the bearing 21 installed in the upper cone 12, protrudes horizontally with respect to the refining furnace 10 in the vertical state and the middle portion It is bent at right angles to form ??.

Therefore, the bent lower end of the upper joint 20, which is bent in the scouring furnace 10, can be rotated to be naturally inclined.

The lower joint 30 is a member rotatably installed at the end of the bent upper joint 20 and is coupled to the end of the upper joint 20 by a predetermined angle.

That is, the contact surface of the end of the upper joint 20 and the upper end of the lower joint 30 is formed by combing, so that the rotation axis of both joints is twisted at a predetermined angle with respect to the tilting axis of the refining furnace 10 as shown in FIG. 2. It is structured.

Therefore, the lower joint 30 is rotated toward the mouth ring 13 with respect to the end of the upper joint 20 in the vertical direction, so that the refractory 51 of the guide plate 50 installed on the lower joint 30 is the mouth ring 13. Will be close to.

On the other hand, the stop bar (40, 41, 42, 43) is to limit the range of rotation of each joint in accordance with the tilting and return of the refining path 10, for the upper joint 20 and the lower joint 30 A total of four are installed, two of which are two in each.

The first stop bar 40 and the second stop bar 41 are for supporting the upper joint 20 and the lower joint 30 that are rotated vertically when the refining furnace 10 is vertical. It is installed on the upper and lower sides along the center axis of the refining furnace 10, and the lower portion of the bent portion and the lower joint 30 of the upper joint 20 is caught.

In addition, the third stop bar 42 is to be installed under the rotation axis of the upper joint 20 in the rotation radius of the end of the upper joint 20 when the refining furnace 10 is tilted to reach a horizontal state, the refining furnace 10 ) Is rotated below the horizontal state, the upper joint 20 is no longer rotated.

The fourth stop bar 43 is for controlling the lower joint 30 which is rotated by bending at the end of the upper joint 20 when the refining furnace 10 is rotated below the horizontal state. When the refractory 51 of the guide plate 50 installed on the lower joint 30 is in close contact with the side of the mouth ring 13, the lower joint 30 is caught so that the rotation is controlled.

Therefore, it is possible to prevent the refractory material 51 of the guide plate 50 from colliding with the mouth ring 13 by the fourth stop bar 43.

Hereinafter, the operation of the present invention will be described.

During the refining operation or when the refining furnace 10 is erected, the upper joint 20 installed through the upper cone 12 and the bearing 21 also forms a vertical state while the bent end is struck down. (20) The lower joints (30) installed at the ends are also hanging down.

The upper and lower joints 20 and 30, which are vertically lowered, are respectively supported by the body stop bars whose rotation is controlled by being caught by the first stop bar 40 and the second stop bar 41 installed on the upper cone 12, respectively. Will be.

When the tilting furnace 10 is tilted for the tapping work in this state, the upper joint 20 connected to the upper cone 12 as the bearing 21 is hanged by its own weight, as if the refinery 10 It is in a state of rotating about).

When the refining furnace 10 is continuously rotated to form a horizontal state, the third stop bar 42 installed on the upper cone 12 is in close contact with the outer surface of the upper joint 20 which is floated in the vertical state.

Continue to tilt the refining furnace 10 in this state, the refining furnace 10 is rotated below the horizontal state, according to the revolving of the refining furnace 10, the upper joint 20 is to maintain a vertical state, but refining The rotation is controlled by the third stop bar 42 that moves with the furnace 10 to move with the refining furnace 10.

That is, after the refining furnace 10 is horizontal, the upper joint 20 is not rotated with respect to the refining furnace 10 and is lifted according to the revolving of the refining furnace 10 while being caught by the third stop bar 42. Will be.

As described above, when the end of the upper joint 20 is caught by the third stop bar 42 and the refining furnace 10 continues to descend while the rotation is controlled, the lower joint 30 installed at the end of the upper joint 20 ) Is rotated about the end of the upper joint 20 while being stretched vertically by its own weight.

Therefore, like the rotation of the upper joint 20, the lower joint 30 is also rotated with respect to the refining furnace 10 by the rotation of the refining furnace 10 which is continued by maintaining the perpendicular state to its own weight. It becomes a state.

In this state, when the refining furnace 10 is rotated at an optimum angle for tapping, the lower joint 30 contacts the fourth stop bar 43 installed at the entrance of the upper cone 12 and further rotation is performed. Controlled.

When the lower joint 30 comes into contact with the fourth stop bar 43, the refractory 51 of the guide plate 50 installed at the end of the lower joint 30 is in close contact with the side of the mouth ring 13, and is shown in FIG. 3. As described above, the guide plate 50 provided with the refractory 51 is provided on both side surfaces of the lower portion of the mouth ring 13.

In this state, when the molten steel is pushed out through the furnace inlet, the molten steel is guided by the guide plate 50 which protrudes outward while surrounding the side surface of the mouth ring 13, so that the tapping flow is stably and uniformly maintained. It can be put into the ladle.

According to the tapping induction apparatus of the refinery according to the present invention as described above, regardless of the shape of the slag or now attached to the furnace, it is possible to maintain the flow of tapping flow uniformly and uniformly to prevent molten steel scattered by tapping flow spread. There is an effect that can be prevented.

In addition, it is possible to reduce the additional weight of the workload and the safety risks caused by the molten steel is not properly put into the ladle, there is an additional effect to improve the productivity by reducing the waiting time.

In addition, with the spread of tapping flows, the tapping nitrogen rises generated by the non-uniform contact with nitrogen in the atmosphere is also maintained to be able to produce high-quality steel according to the characteristics of the steel.

Claims (3)

In the refinery of the structure consisting of a lower cone and the upper cone containing the molten steel, the mouth ring is fitted with a mouth ring engaging the spout of the ladle, Upper joints rotatably installed on both sides of the upper cone of the refining furnace parallel to the shaft of the refining furnace, and lower joints that are rotatably coupled at a predetermined angle to the furnace entrance at the top of the upper joint. It includes a stop bar protruding to the side of the upper cone to control the rotation angle of the joint and the lower joint, respectively, and an induction part installed at the end of the lower joint and in close contact with the lower side of the mouth ring when tilting the refining furnace. Tapping guidance device of the refining furnace characterized in that. According to claim 1, wherein the guide portion of the refining furnace, characterized in that consisting of a rectangular guide plate attached to the lower joint end, and a refractory attached to the guide plate inner surface is formed in the same curve as the annular mouth ring Tapping guidance device. The method of claim 2, wherein the T-shaped member is attached to the lower joint end is formed, the T-shaped member is installed on the back of the guide plate to be inserted into the T slot of the fastening member, so that the guide plate is replaceable Tapping guidance device of the refining furnace characterized in that.