KR101584135B1 - Stopper rod - Google Patents

Abstract

The present invention relates to a stopper rod with an improved structure to enhance a performance of heat release with respect to heat conveyed from a tundish and to prevent loosening of a nut due to a phenomenon of thermal expansion for a joint portion with the nut in accordance with a change in temperature. According to the present invention, the stopper rod includes a stopper rod (100), one end of which is fastened in a connecting hole (25) of the stopper (20) which adjusts an outflow of molten steel retained in a tundish (10) and an other end of which is connected to an operation bar (30), comprising: a screw part (140) formed to be joined with a nut (40) on an outer circumference of the stopper rod (100); a hollow (120) formed to penetrate up and down in a longitudinal direction in an inner center of the stopper rod (100); and a communication hole (130) formed to communicate with the hollow (120) by being formed by at least one perforation in an outer side of the stopper rod (100), wherein the communication hole (130) is formed of perforations inclined upwards, going from the inner to the outer side.

Description

Stopper Load {STOPPER ROD}

The present invention relates to a stopper rod, and more particularly, to a stopper rod which can improve heat releasing performance with respect to heat transmitted from a tundish and at the same time, To a stopper rod whose structure is improved so as to prevent a phenomenon in which it is not released.

Generally, the stopper rod is connected to a stopper for opening and closing the immersion nozzle provided between the tundish and the mold, and the amount of molten steel injected into the mold is controlled by opening and closing the stopper.

At this time, the stopper rod is connected to the stopper and the other end is connected to the control device for controlling the stopper. When the stopper is lifted by the control device, the immersion nozzle is opened and molten steel is injected. In order to improve the distance between the conveyor device and the immersion nozzle and the opening / closing precision of the stopper by the control device, the stopper is adjustable in position.

A metal carrier element partially housed in an inner passage of a stopper rod in a conventional "Stopper rod" (publication date: Feb. 21, 2008) And a sealing means between the complementary seating surfaces of the passages of the rod, wherein the insert is threadedly engaged with one of the metal carrier element and the stopper rod body at a position higher than the metal carrier element, A configuration in which the sealing means is arranged is preliminarily formed.

However, in order to separate the carrier rod screwed to the control device and the stopper rod or to adjust the height of the stopper rod, the prior art has to rotate the carrier rod in a state in which the carrier rod is press-clamped with a tool such as a Pipe- There has been a problem that the rod surface is scratched or damaged, and the service life after long use is greatly shortened.

As another prior art technique of the conventional stopper rod for overcoming this problem, as disclosed in Korean Patent Registration No. 10-1482071 entitled " Stopper Rod "(Registered on January 20, 2015), the stopper of the tundish Wherein the stopper rod includes upper and lower fastening portions formed at both ends thereof with a male screw portion and a nut and is fastened to a control device and a stopper, and the upper and lower fastening portions are provided with an expansion plate The lower fastening portion has an inclined surface on an externally threaded portion. An inclined surface is formed on an inclined surface of the extension jaw to be in contact with an inclined surface formed in the stopper. A groove is formed in a boundary portion between the extension jaw and the externally threaded portion.

However, the existing stopper rod is not only expanded by the thermal expansion due to the high temperature heat from the tundish, but also the heat is transferred to the fastening portion with the nut, and the fastening portion of the screw and nut is expanded due to the expansion There is a possibility that a phenomenon that the fastening with the nut is not released may occur.

Korean Patent Publication No. 10-2008-16723 entitled "Stopper Road" (published on February 21, 2008) Korean Registered Patent No. 10-1482071 entitled "Stopper Rod" (registered on January 17, 2015)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and its object is to improve the heat releasing performance with respect to heat transmitted from a tundish, The stopper rod having an improved structure to prevent the phenomenon that the engagement with the nut is not released due to the expansion phenomenon according to the present invention.

According to an aspect of the present invention, there is provided a stopper rod having one end coupled to a coupling hole of a stopper for controlling the outflow of molten steel taken in a tundish and an operation bar connected to the other end, And a communication hole formed in the center so as to communicate with the hollow by forming at least one or more holes on the outer side of the hollow and communicating with the hollow in the longitudinal direction.

One end of the stopper rod is composed of a small diameter portion having a small diameter so as to be inserted into a coupling hole of the stopper and having a clearance space, a large diameter portion having a larger diameter than the small diameter portion, and an inclined surface connecting the small diameter portion and the large diameter portion.

The communication hole is formed with an upward inclined structure from the inside to the outside.

The hollow has a spiral groove portion formed concavely and spirally along the inner circumferential surface on the inner circumferential surface.

The threaded portion is composed of an acid and a valley, and a corner portion of the acid portion is chamfered to have a plane portion formed in a planar shape.

The present invention improves the structure of the stopper rod 100 that transmits the upward and downward movement of the operation bar 30 to the stopper 20 so that the heat transferred from the molten steel in the tundish 10 can be easily discharged, It is possible to improve the durability of the parts and to prevent the phenomenon that the fastening part of the screw and the nut is not released due to the expansion due to the temperature change, .

In addition, the present invention has an advantage that the heat in the hollow 120 can be easily discharged to the outside of the stopper rod 100 when the communication hole 130 is formed upward from the inside to the outside.

When the helical groove portion 122 is formed on the inner circumferential surface of the hollow 120, the heat can be efficiently transferred from the lower portion of the hollow 120 to the upper portion of the hollow 120, It is possible to prevent the heat from being transmitted to the operation bar 30 side.

1 is a perspective view showing a stopper rod according to the present invention;
2 is a sectional view of Fig. 1;
3 is a use state diagram of the present invention.
4 is a sectional view showing a modified example of the communication hole of the present invention.
5 is a sectional view showing another embodiment of the stopper rod of the present invention.
6 is an enlarged view showing a modified embodiment of a threaded portion according to still another embodiment of the present invention.

1 to 3, one end of the stopper rod is fastened to a stopper 20 for controlling the flow of molten steel taken in the tundish 10, and the other end of the stopper rod is fastened to the operating bar 30, A screw part 140 formed to be fastenable to the nut 40 on the outer periphery, a hollow part 120 formed to communicate upward and downward in the center in the longitudinal direction, and at least one hole And a communication hole (130) formed to communicate with the hollow (120).

More specifically, the threaded portion 140 has a structure formed by a plurality of ridges and valleys on the outer circumference of the stopper rod 100, and is engaged with the nut 40 to fix the engagement with the stopper 20 do.

The hollow 120 is vertically formed inside the stopper rod 100, and the upper and lower sides of the hollow 120 communicate with the outside.

The communication hole 130 is formed in the intermediate portion of the stopper rod 100 so that the outer side thereof communicates with the inside of the hollow 120. The communication hole 130 communicates with the stopper rod 100 via the stopper rod 100, It is possible to prevent the heat in the tundish 10 from being transmitted to the side of the operating bar 30 through the stopper 20 by discharging it to the outside of the tundish 100.

An engaging hole 25 is formed in the stopper 20 so that one end of the stopper rod 100 is inserted and the threaded portion 140 is fastened.

The stopper rod 100 has a small diameter portion 112 having a smaller diameter so that one end structure is inserted into the coupling hole 25 of the stopper 20 to have a clearance space A and a diameter smaller than that of the small diameter portion 112 And a sloped surface 114 connecting the small diameter portion 112 and the large diameter portion 116. The large diameter portion 116 has a large diameter portion 116,

In addition, the stopper rod 100 has a structure in which a step portion 150 is protruded outward to support the seating of the operating bar 30 on the upper portion.

The stopper rod 100 is formed in an elliptical cross-sectional shape rather than a threaded portion 140 at a portion where the actuating bar 30 is engaged.

Since the small diameter portion 112 is spaced apart from the inner circumferential surface of the engaging hole 25 when engaged with the engaging hole 25, the contact area with the stopper 20 is minimized, .

The operation bar 30 has a structure in which a stopper control cylinder (not shown) is operated to move up and down and a stopper 20 connected to the stopper rod 100 is moved up and down to adjust the flow rate of molten steel in the tundish 10 .

4 is a view showing a modified example of the communication hole 130 of the present invention. Unlike the above-described embodiment in which the communication hole 130 is horizontally formed, And has a structure formed by perforating upwardly inclined structure.

Accordingly, the communication hole 130 is discharged to the outside of the stopper rod 100 through the communication hole 130 formed upward in the process of upward movement of the heat inside the hollow 120.

5 is a view showing another embodiment of the present invention, in which a helical groove 122 is concavely formed on the inner circumferential surface of the hollow 120 so as to be connected from the lower side to the upper side.

The helical groove portion 122 is converted into a turbulent gas in the process of discharging heat from the lower side to the upper side of the hollow 120 of the stopper rod 100 to assist the discharge of heat in the upward direction.

In this case, outside air may flow into the hollow 120 through the communication hole 130, or the heat inside the hollow 120 may be discharged to the outside.

The stopper rod 100 according to the present invention having such a configuration functions to transmit the upward movement of the operation bar 30 to the stopper 20. To this end, one end (lower end) of the stopper rod 100 is connected to a stopper 20, and the other end (upper end) of the stopper rod 100 is engaged with the operation bar 30.

The threaded portion 140 is fastened to the inner circumferential surface of the coupling hole 25 and is fastened to the nut 40 to fix the coupling with the stopper 20 as described above.

A nut 40 is fastened to the stopper rod 100 in a state where the stopper rod 100 is fastened to the stopper rod 100 while the stopper rod 100 is engaged with the stopper rod 100, .

Since the stopper rod 100 is partially immersed in the molten steel contained in the tundish 10, heat is transferred from the molten steel in the tundish 10 to the stopper rod 100, The heat is transmitted to the operation bar 30 through the hollow 120 of the stopper rod 100 and the communication hole 130 to minimize heat transfer.

When the communication hole 130 is formed upward from the inside to the outside, the heat in the hollow 120 can be easily discharged to the outside of the stopper rod 100.

In this case, when the helical groove portion 122 is formed on the inner circumferential surface of the hollow 120, the heat can be efficiently turbulent upward from the lower portion of the hollow 120 to improve the discharge efficiency of the heat, As the external heat is discharged, the heat can be prevented from being transmitted to the operation bar 30 side.

The present invention improves the structure of the stopper rod 100 that transmits the upward and downward movement of the operation bar 30 to the stopper 20 so that the heat transferred from the molten steel in the tundish 10 can be easily discharged, It is possible not only to improve the durability of the parts but also to prevent the fastening part of the screw thread and the nut from being released from the fastening with the nut due to the expansion due to the temperature change.

6 is a view showing still another embodiment of the present invention. Unlike the above-described embodiment, the end portion of the mountain of the screw portion 140 composed of the plurality of mountains 142 and the valleys 141 is chamfered, Shaped planar portion 144 is formed.

The overtap is provided so as to minimize the contact area between the flat portion 144 and the nut 40 so that the fastening portion of the screw and the nut can be prevented from being released from the nut due to thermal expansion due to the temperature change have.

10: Tundish 20: Stopper
30: Operation bar 40: Nut
100: Stopper rod 112: Small neck part
114: sloped surface 116:
120: hollow 122: spiral groove
130: communication hole 140: threaded portion
141: Goal 142: Mountain
144: flat portion 150: fixed jaw

Claims (5)

A stopper rod (100) having one end coupled to an engagement hole (25) of a stopper (20) controlling the outflow of molten steel taken in a tundish (10) and an operation bar (30)
The stopper rod 100 includes a threaded portion 140 formed to be fastenable to the nut 40 on the outer circumference thereof;
A hollow (120) formed in the center so as to communicate upward and downward in the longitudinal direction; And
And a communication hole (130) formed at least on the outer side of the hollow (120) to communicate with the hollow (120)
Wherein the communication hole (130) is perforated with an upward inclined structure from the inside to the outside. The method according to claim 1,
One end of the stopper rod 100 is inserted into the coupling hole 25 of the stopper 20 and has a small diameter portion 112 having a small clearance,
A large diameter portion 116 having a larger diameter than the small diameter portion 112,
And a slope surface (114) connecting the small diameter portion (112) and the large diameter portion (116). The method according to claim 1,
Wherein the engaging portion of the stopper rod (100) has an elliptical cross section. The method according to claim 1,
Wherein the hollow (120) is formed with a helical groove portion (122) formed along the inner circumferential surface in a spiral shape concave on the inner circumferential surface. The method according to claim 1,
Wherein the threaded portion 140 comprises a mountain 142 and a valley 141 and has a flat portion 144 formed by chamfering a corner portion of the mountain 142 to form a planar shape. .

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