1. Technical Field
The present invention relates to a slide valve device for automatic surface pressure application, and more particularly, to a novel improvement for eliminating heavy physical work conducted under high temperature, stabilizing a surface pressure application force, and achieving compactification in a slide valve device constituted by a fixed plate, a slide plate, and a seal plate.
2. Description of the Related Art
Generally, the continuous casting facilities are provided with, as means for controlling outflow of a molten metal from a molten metal vessel, a slide valve device provided at a bottom portion of the molten metal vessel, for opening and closing an outflow port.
Examples of structures of the slide valve device include a toggle mechanism in which a surface pressure is manually applied and released. Further, as another example, there may be given a slide valve device having a two-layer structure (Japanese Patent Application No. 2004-327405), which is manufactured by the applicants of the present invention as illustrated in
As illustrated in
The pressing means in the slide valve device having a similar basic structure as described in the above structure is disclosed in JP 01-38592 B, for example.
Further, in the sliding nozzle device provided with a surface pressure application/release mechanism disclosed in JP 06-226430 A (not shown), application and release of the surface pressure to the elastic means may be achieved through a movement of the pressing member, and the application and release of the surface pressure and the opening/closing operation of the flow path may be achieved by means of independent driving mechanism.
The conventional slide valve devices are structured as described above, and hence the following problems are present.
That is, in a first conventional structure in which the toggle mechanism described above is used, the surface pressure is manually applied and released. Therefore, the operation is highly heavy physical work to be conducted under high temperature.
Further, in a second conventional structure disclosed in the specification of Japanese Patent Application No. 2004-327405 described above, the surface pressure may easily be applied and released by means of a cylinder drive. However, owing to a two-layer structure, it is structurally impossible to apply three-layer structure thereto. In addition, surplus sliding strokes are required for releasing the surface pressure, and hence the lengths of the device main body and the cylinder are increased. As a result, the device main body and the cylinder are increased in size.
Still further, also, a third conventional structure disclosed in JP 01-38592 described above is difficult to be applied to the three-layer structure. As a result, similarly to the second conventional structure, a shape thereof becomes larger and the structure thereof becomes complicate.
Yet further, also, in a fourth conventional structure disclosed in JP 06-226430 described above, the structure thereof is extremely complicated because the pressing members are necessary to turn, and the toggle arms, etc. are required.
A slide valve device for automatic surface pressure application according to the present invention includes:
a fixed plate fixed within a base frame firmly adhering to a bottom lower surface of a molten metal vessel;
a slide case slidably provided below the fixed plate by means of an actuator and having a slide plate;
a seal case provided below the slide case and having a seal plate and/or a shooting nozzle;
a movable body provided to each side portion of the seal case so as to be movable on a support surface; and
a coupling means for coupling the slide case with the seal case, in which
the guide piece and the seal case are slid by means of the actuator in a state of being coupled with each other through an intermediation of the coupling means so that the surface pressure can be applied and released.
Further, the coupling means includes a connecting pin or a coupling stopper obtained through integrating the connecting pin with a stopper.
Still further, an attachment/detachment position of the coupling means for coupling the guide piece and the seal case is set to a fully opened position or a fully closed position of the slide case upon a use stroke thereof.
Yet further, the seal case or the stopper provided on the base frame or the coupling stopper is pivotably provided; and
a heat insulating cover pivotably provided on a side of the fixed plate can be closed only when the stopper is accommodated at a horizontal position.
The slide valve device for automatic surface pressure application according to the present invention is structured as follows, and hence the following effects can be obtained.
That is, in the three-layer structure constituted by the fixed plate, the slide plate, and the seal plate, only the slide plate is slid so as to perform control and an ON/OFF operation of the flow of hot water, and the seal case and the slide case are coupled with each other by means of the coupling means so as to be slid. The surface pressure is applied and released by means of the movable bodies such as rollers sliding on the support surface, whereby the configuration can be downsized and simplified.
Further, owing to the above-mentioned effect, the heavy physical work conducted under high temperature is eliminated, whereby operability can be significantly increased.
It is an object of the present invention to provide a slide valve device for automatic surface pressure application in which a seal case is slid by means of movable bodies such as rollers in the three-layer structure constituted by a fixed plate, a slide plate, and a seal plate so as to eliminate heavy physical work conducted under high temperature and to achieve compactification.
In the following, a slide valve device for automatic surface pressure application according to a preferred embodiment of the present invention is described with reference to the drawings.
Note that, the same or similar parts as those in the conventional example are described while denoted by the same reference symbols.
Below the fixed plate 3, a slide case 4 having a slide plate 5 provided with a nozzle hole 5a is connected through an intermediation of a guide piece 4b to a hydraulic or electrical actuator 7. With the activation of the actuator 7, only the slide case 4 can be independently slid in a horizontal direction in the drawing.
The slide case 4 can be bent downward in the drawing owing to an axial support portion 4a provided on a side of the guide piece 4b. A seal case 21 having a seal plate 21a below the slide case 4 is similarly openable and closable through an intermediation of an axial support portion 15 while applying the structure illustrated in the conventional structure of
The guide piece 4b and the seal case 21 are formed to be integrally slidable by means of a coupling means 23 such as a connecting pin inserted into a coupling hole 22. In the coupled state, the slide case 4 and the seal case 21 can be slid by means of the actuator 7.
Therefore, as illustrated in
Accordingly, when the movable body 14 moves on the support surface 13 owing to sliding of the seal case 21, the spring holder 30 vertically moves, whereby the surface pressure can be applied and released.
Next, the operation thereof is described. First, in the slide valve device 20 of the present invention, when hot water flows through the insertion nozzle 8, only the slide case 4 is slid by means of the actuator 7, whereby it is possible to perform control and an ON/OFF operation of the hot water which flows from the insertion nozzle 8 into the shooting nozzle 6 through the nozzle holes 3a and 5a.
Next, in the case where fireproof materials of the portions are replaced after completion of the supply of the hot water as described above, the movable body 14 is detached from the support surface 13 when the seal case 21 and the slide case 4 are slid together in the state of being coupled with each other by means of the coupling means 23. As a result, the surface pressure can be released as described above.
Next, the case where the fireproof materials of the above-mentioned slide valve device 20 are replaced is described. First, the slide case 4 is situated at the fully closed position (K1 of
Next, in accordance with the movement of the slide case 4 to a fully opened position K2 of
Next, with the structure similar to the conventional structure illustrated in
Further, after completion of the replacement of the fireproof materials, maintenance, and the like of the portions, the surface pressure is applied by means of procedure opposite to the above-mentioned procedure. In this manner, a maintenance operation is finished, and the slide valve device 20 can be reused for molding.
Note that, as illustrated in
Therefore, the coupling stopper 31 obtains the same coupling operation as that of the connecting pin 23 by being inserted into the coupling hole 22, and obtains the same stopper operation as that of the stopper 24 by bending the stopper 24.
Number | Date | Country | Kind |
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2006-158356 | Jun 2006 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2007/061272 | 6/4/2007 | WO | 00 | 12/3/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2007/142178 | 12/13/2007 | WO | A |
Number | Name | Date | Kind |
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7258256 | Mitsui et al. | Aug 2007 | B2 |
Number | Date | Country |
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2006-136912 | Jun 2006 | JP |
2006051753 | May 2006 | WO |
Number | Date | Country | |
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20090184139 A1 | Jul 2009 | US |