KR101174991B1 - Vacuum degassing apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum degassing apparatus for vacuum degassing molten steel in a special steel production process, the upper portion of which is opened and installed on a side or bottom of the chamber for receiving a ladle containing molten steel, and the pressure within the chamber. A pressure control unit configured to reduce or pressurize the pressure and an upper portion of the chamber to cover the opening of the chamber, and an electrode rod is disposed on the lid and an upper portion of the lid having a through portion inserted or discharged in a direction perpendicular to the lid; It consists of an opening and closing part that opens or closes the penetrating part when inserting or discharging the electrode bar, thus eliminating the process of transferring from ladle process to degassing process by integrating refining work and degassing work in special steelmaking process. To reduce costs and improve productivity.

Description

Vacuum degassing apparatus {VACUUM DEGASSING APPARATUS}

The present invention relates to a vacuum degassing apparatus for vacuum degassing molten steel in a special steel production process, and more specifically, by installing an electrode bar on the upper portion of the vacuum degassing apparatus, temperature raising, desulfurization, and deoxidation can be performed without passing through a ladle. It relates to a vacuum degassing apparatus.

In general, the production process of special steel uses the steelmaking-rolling-correction process. When steelmaking process is subdivided, it is divided into electric furnace process, ladle process, degassing process, and casting process.

It melts the scrap metal in the electric furnace process, and then the temperature raising operation, the desulfurization and the deoxidation operation are performed in the ladle process. After that, degassing (oxygen, nitrogen, hydrogen) is carried out through the degassing process, and semi-finished products are produced through the regeneration process.

SUMMARY OF THE INVENTION An object of the present invention is to provide a vacuum degassing apparatus capable of heating, deoxidation and desulfurization without going through a ladle by forming a cover part through which an electrode rod can be inserted or discharged and an opening / closing part to open or close the cover part.

Another object of the present invention is to provide a vacuum degassing apparatus excellent in sealing property by providing a ball valve, a sealing gate and a separate pressure control tube in the opening and closing portion.

According to an aspect of the present invention, there is provided a chamber having an upper opening and receiving a ladle including molten steel, and a pressure control unit installed at a side or a lower side of the chamber and for reducing or pressing a pressure in the chamber. A cover part covering an opening of the electrode part and having a through part through which the electrode is inserted or discharged in a direction perpendicular to the cover part; And an opening and closing part disposed on the cover part to open or close the through part when the electrode rod is inserted or discharged.

Here, the opening and closing portion is disposed in the upper portion of the through portion, the upper and lower portion of the valve body of the tubular shape opening and rotatably installed inside the valve body, the ball valve is formed in the through groove to correspond to the cross section of the electrode; A rotating shaft coupled to one side of the ball valve to transmit a rotational force to the ball valve; And a driving unit connected to one end of the rotation shaft to provide a rotation force.

In addition, the opening and closing portion is disposed between the ball valve and the cover portion, the plate-shaped closed gate for sliding the perpendicular to the longitudinal direction of the electrode rod to seal the through portion; And a hydraulic cylinder connected to the sealing gate to drive the sealing gate due to the inflow of the fluid.

In addition, the present invention is preferably installed on the side of the valve body, it is preferable to further include a pressure control pipe for adjusting the internal pressure between the ball valve and the closed gate.

The vacuum degassing apparatus according to the present invention can omit the step of transferring from ladle process to degassing process by integrating refining work and degassing work in special steelmaking process, resulting in cost reduction and productivity improvement by shortening molten steel processing time. .

In addition, the present invention has the effect of preventing the deterioration of the degree of vacuum inside the chamber through the opening and closing portion.

1 is a detailed view of a vacuum degassing apparatus provided with an opening and closing part
2 and 3 are detailed views of the lid and the opening and closing portion of Figure 1, Figure 2 is a front sectional view of the lid open state, Figure 3 is a front sectional view of the lid closed state
4 is a side cross-sectional view of the opening and closing part of FIG.
5 and 6 are detailed views of the cover part to which the sealing gate is added, and FIG. 5 is a front sectional view of the cover part open state, and FIG. 6 is a front sectional view of the cover part closed state.

Hereinafter, a vacuum degassing apparatus of the present invention will be described with reference to the accompanying drawings.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In the drawings, it is to be noted that the sizes of the constituent elements of the invention are exaggerated for clarity of description, and when it is described that any constituent element is present inside or connected to another constituent element, The element may be installed in contact with the other element, may be installed at a predetermined distance from the element, and may be provided with a third element for fixing or connecting the element to the other element, The description of the means may be omitted.

1 is a detailed view showing a vacuum degassing apparatus including an opening and closing part.

FIG. 1 illustrates an embodiment of a vacuum degassing apparatus including an opening and closing portion in which an electrode may be inserted into or discharged from a cover part. Therefore, the present invention is not limited by the apparatus which is omitted or described in the drawings according to the present invention.

Referring to FIG. 1, the vacuum degassing apparatus is largely composed of a chamber 10, a pressure control unit 20, a cover part 40, and an opening and closing part 50.

The chamber 10 has an upper opening and accommodates a ladle 11 including molten steel, and the pressure control unit 20 is provided on the side or bottom of the chamber 10 to reduce or pressurize the pressure in the chamber 10. Is installed.

Cover portion 40 is disposed on the upper portion of the chamber 10 to cover the opening of the chamber 10 to perform a vacuum degassing operation, and at the same time electrode rod 30 to perform a temperature raising operation without passing through the ladle 11 ) Has a penetrating portion 41 to be inserted or discharged into the chamber 10.

In addition, the opening and closing part 50 opens the through part 41 when the electrode rod 30 is inserted for the temperature raising operation, and the electrode rod 30 is discharged after the temperature raising operation and vacuum degassing treatment is performed on the molten steel in the chamber 10. It is characterized by closing the through part 41 for the work.

Since the temperature increase operation is performed in the degassing apparatus without going through a separate ladle process as described above, it is not necessary to heat the temperature substantially higher than the theoretical solidification temperature during the temperature increase operation as is generally performed in the ladle process. Thereby, the problem that phosphorus (P) contained in the slag enters the molten metal again and degrades the quality. In addition, the cover part 40 may further include a temperature measuring device and a sampling device to accurately process the temperature raising operation and the degassing operation.

2 and 3 is a detailed view of the opening and closing portion and the cover portion of Figure 1, Figure 2 is a front sectional view showing a state in which the opening and closing portion provided with a ball valve opening, Figure 3 is a opening and closing portion provided with a ball valve Front sectional drawing which shows the closed state.

2 and 3, the opening and closing part 50 is disposed above the through part 41, and is rotatable inside the valve body 61 and the valve body 61 having a tubular shape having an upper and a lower part opened. It is installed so as to be coupled to the ball valve 63 and the one side of the ball valve 63, the through-hole 64 is formed so as to correspond to the cross-section of the electrode rod 30 therein to transfer the rotational force to the ball valve (63). It includes a rotating shaft 65 and a drive unit (not shown) connected to one end of the rotating shaft 65 to provide a rotational force.

When the electrode bar 30 is lowered for the temperature raising operation, the ball valve 63 has a through hole 64 formed in the ball bar to open the through part 41 formed in the cover part 40. It is preferred to be arranged in parallel in the longitudinal direction of.

On the contrary, when the electrode rod 30 is raised and discharged out of the cover part 40 for the vacuum degassing operation after the temperature increase operation is completed, the ball valve 63 is closed to close the through part 41 formed in the cover part 40. It is preferable that the through grooves 64 formed in the vertical direction are disposed perpendicular to the longitudinal direction of the electrode rod 30.

In addition, the valve body 61 is preferably provided with a receiving groove 62 corresponding to the outer peripheral surface of the ball valve 63 on the inner circumference.

This, by forming the receiving groove 62 for accommodating a part of the outer peripheral surface of the ball valve 63 inside the valve body 61, the ball valve 63 is easy to rotate in the valve body 61 and at the same time the opening and closing portion This is to improve the sealing property of (50). Here, lubricating oil may be used to facilitate rotation between the ball valve 63 and the valve body 61, and a gasket may be used to improve the sealing property between the ball valve 63 and the valve body 61. have.

Figure 4 is a side cross-sectional view of Figure 3, showing a cross section of the opening and closing portion including the ball valve when the through portion is closed.

When the ball valve 63 closes the through portion 41 formed in the cover portion 40, the through groove 64 of the ball valve 63 is accommodated in the receiving groove 62 in order to ensure stable sealing. desirable. To this end, the diameter D1 of the through groove 64 should be smaller than the maximum diameter D2 formed in the receiving groove 62.

That is, when the number of the through grooves 64 is singular, it is preferable that the diameter D1 of the through grooves 64 is smaller than the diameter D2 of the receiving groove 62, and the number of the through grooves 64 is the number of the electrode rods 30. In the case where a plurality is formed, it is preferable that the diameter D1 of the circumscribed circle including the plurality of through grooves 64 is smaller than the diameter D2 of the receiving groove 62. Here, the circumscribed circle means a circle including a plurality of through grooves.

5 and 6 are detailed views of the cover part to which the sealing gate 71 is added, and FIG. 5 is a front sectional view of the cover part open state, and FIG. 6 is a front sectional view of the cover part closed state.

5 and 6, the opening and closing portion 50 including the valve body 61, the ball valve 63, the rotation shaft 65, and the driving unit (not shown) includes the ball valve 63 and the cover. It is disposed between the portions 40, the sliding plate perpendicular to the longitudinal direction of the electrode rod 30 is connected to the plate-shaped sealing gate 71 and the sealing gate 71 to seal the through portion 41 of the fluid It further comprises a hydraulic cylinder 73 for driving the sealing gate due to the inflow.

The sealing gate 71 and the hydraulic cylinder 73 is to directly open and close the through part 41, and to enhance the sealing with the ball valve 63. The sealing gate 71 is a plate shape, it is preferable that the larger than the width of the electrode 30 to ensure a stable sealing.

In addition, when the electrode rod 30 is lowered for the temperature raising operation, the sealing gate 71 opens the through part 41 so that the sealing gate 71 is retracted by the hydraulic cylinder 73 so that the electrode rod 30 is opened. On the contrary, after the electrode rod 30 rises after the temperature raising operation, the sealing gate 71 is advanced to the hydraulic cylinder 73 to close the penetrating portion 41 to reduce the pressure in the chamber 10. Keep it.

At this time, since the sealing gate 71 is to maintain the pressure in the chamber 10 to a low pressure close to the vacuum state, the hydraulic cylinder 73 for transmitting the driving force by the inflow of fluid as a cylinder to provide a large force. Is preferably used.

According to another embodiment of the present invention, a pressure regulating pipe is installed on the side of the valve body 61 of the opening and closing part 50 to adjust the internal pressure of the ball valve 63 and the sealing gate 71 ( 75) more.

By including the pressure control tube 75 as described above, the through-hole 41 is closed through the ball valve 63 and the sealing gate 71 and at the same time, the inside of the opening / closing part 50 is decompressed or pressurized to degas the vacuum. The sealing property of a device can be improved.

In addition, the pressure control tube 75 is connected to the pressure control unit 20 for controlling the pressure of the chamber 10, thereby controlling the pressure inside the chamber 10 and the opening and closing unit 50 together. .

In addition, in the present invention, in order to provide reliable control remotely from the vacuum degassing apparatus, a detection unit for detecting the position of the electrode 30 and the detection result of the detection unit is input, the lifting or stopping of the electrode 30 And, it is preferable to further include a control unit for controlling the rotation or stop of the ball valve 63, and the forward or backward of the closed gate (71).

This saves time and effort due to manual control and prevents accidents caused by inaccurate manual control.

The control unit, the ball valve 63 and the sealing gate 71 opens the cover portion 40, when the electrode 30 starts the lowering movement, the electrode 30 is the upward movement At the end, it is preferable that the ball valve 63 and the sealing gate 71 close the cover portion 40.

The controller rotates the through groove 64 of the ball valve 63 to be in a direction parallel to the longitudinal direction of the electrode 30 when the electrode 30 starts to move downward, and the sealing gate is More preferably, the penetrating portion 41 is reversed to open.

On the contrary, when the electrode 30 ends the upward movement, the control unit rotates the through groove 64 of the ball valve 63 to be perpendicular to the longitudinal direction of the electrode 30, and the sealing gate passes through It is preferable to advance the portion 41 to close.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments but may be manufactured in various forms, and having ordinary skill in the art to which the present invention pertains. It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: chamber 11: ladle
20: pressure control unit 30: electrode
40: cover part 41: through part
50: opening and closing part 61: the valve body
62: receiving groove 63: ball valve
64: through groove 65: rotating shaft
67: drive part 71: sealed gate
73: hydraulic cylinder 75: pressure control pipe

Claims (9)

A chamber accommodating a ladle for receiving molten steel, the chamber having an upper opening;
A pressure control unit installed at a side or a bottom of the chamber and reducing or pressurizing a pressure in the chamber;
A cover part disposed on an upper part of the chamber to cover the opening of the chamber and having a through part through which an electrode is inserted or discharged in a direction perpendicular to the cover part; And
It is disposed on the cover portion, the opening and closing portion for opening or closing the through part when the electrode rod is inserted or discharged; includes;
The opening /
A tubular valve body disposed above the through part and having an upper and a lower part opened;
A ball valve rotatably installed in the valve body and having a through groove formed therein to correspond to a cross section of the electrode;
A rotating shaft coupled to one side of the ball valve to transmit a rotational force to the ball valve; And
And a driving unit connected to one end of the rotation shaft to provide a rotation force.
The valve body,
Receiving grooves corresponding to the outer circumferential surface of the ball valve is formed on the inner circumference of the valve body,
The ball valve has a plurality of through grooves,
Vacuum degassing apparatus characterized in that the diameter of the circumscribed circle including the plurality of through grooves is smaller than the diameter of the receiving groove.
delete delete delete The method of claim 1,
The opening /
A plate-shaped sealing gate disposed between the ball valve and the cover part to slide perpendicularly to the longitudinal direction of the electrode rod to seal the through part; And
And a hydraulic cylinder connected to the closed gate to drive the sealed gate due to the inflow of the fluid.
The method of claim 5,
It is installed on the side of the valve body, the vacuum degassing apparatus further comprises a pressure control tube for adjusting the internal pressure between the ball valve and the closed gate.
The method of claim 6,
The pressure control pipe is a vacuum degassing apparatus, characterized in that connected to the pressure control unit for controlling the pressure of the chamber.
The method of claim 5,
A detector detecting a position of the electrode; And,
And a control unit configured to control the lifting or stopping of the electrode rod, the rotation or stop of the ball valve, and the forward or backward movement of the closed gate by inputting a detection result of the detection unit. .
The method of claim 8,
The control unit,
When the electrode starts the downward movement, the ball valve and the sealing gate opens the cover portion,
And the ball valve and the sealing gate close the cover part when the electrode ends the upward movement.

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