JP2019155377A - Sliding nozzle device - Google Patents

Abstract

To provide a sliding nozzle device freely openably/closably provided with slide metal frame holding parts on both sides of the long side of a fixed metal frame capable of simultaneously opening/closing the slide metal frame holding parts on both the sides with a simple operation.SOLUTION: The shafts 5a, 5 of slide metal frame holding parts 4a, 4b are rollably held to both sides of long side of a fixed metal frame 2, respectively, edge parts of the shafts of the slide metal frame holding parts on both sides are provided with a first link part 7a and a second link part 7b, respectively, and the first link part and the second link part are connected with link means 10 in such a manner that, by the opening/closing operation of either slide metal frame holding part, the shaft of the other slide metal frame holding part is reversely rotated, thus the other slide metal frame holding part is opened/closed as well.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a sliding nozzle device used for controlling the flow rate of molten metal, and more particularly, to a sliding nozzle device provided with slide metal frame holding portions that can be opened and closed on both sides on the long side of a fixed metal frame.

  The sliding nozzle device is attached to, for example, a molten steel discharge port of a ladle, and in a state where a surface pressure is applied by overlapping two refractory plates having upper and lower nozzle holes, the lower plate is placed against the upper plate. The flow rate of the molten steel (molten metal) is controlled by sliding linearly and changing the opening of the nozzle hole.

  Such a sliding nozzle device generally has a fixed metal frame that holds the upper plate, a slide metal frame that holds the lower plate and slides linearly to slide the lower plate relative to the upper plate, It has a slide metal frame holding part that slidably holds the slide metal frame, an elastic body for applying a surface pressure between the upper and lower plates, and a drive device for driving the slide metal frame.

  Generally, there is one slide metal frame holding portion, but there is a type divided into two for the purpose of miniaturization. For example, in Patent Document 1, as shown in FIGS. 8 and 9, two opening / closing metal frames (slide metal frame holding portions) 40 are provided symmetrically with respect to the center line in the slide direction of the slide metal frame 30. These are attached to the fixed metal frame 20, respectively. The slide metal frame holding unit 40 includes a portal arm 41, a spring box 42, a surface pressure guide 48, and a sliding member 46. Specifically, the base end portion of the portal arm 41 is rotatably attached to the pin 22 provided on the fixed metal frame 20, and a spring box 42 is disposed between the arms 41a of the portal arm 41. A surface pressure guide 48 is integrally provided in the box 42.

In this sliding nozzle device, it is necessary to open the two slide metal frame holding portions on the outside and then close the plates when exchanging the plates.
However, when the sliding nozzle device is placed horizontally when the plate is replaced and the two slide metal frame holding parts are opened so that the two slide metal frame holding parts are positioned above and below, the upper slide metal frame holding part is Since it is necessary to open against (gravity), it is a burden on the operator, and even if it opens, it returns to its original position even if it rotates due to its own weight. Also, the lower slide metal frame holding part is dangerous because it rotates by its own weight and opens freely, and it is necessary to close against the dead weight when closing, and it is burdensome for the operator, and the return due to its own weight There is also a problem. And in order to avoid such a rotation of the slide metal frame holding part due to its own weight, it has to be fixed with a hook or the like, and there is a problem that the labor of the work increases.

JP 2014-208380 A

  The problem to be solved by the present invention is a sliding nozzle device that is capable of opening and closing slide metal frame holding parts on both sides of the long side of the fixed metal frame, and simultaneously opening and closing the slide metal frame holding parts on both sides by a simple operation. Is to be able to.

According to the present invention, the following sliding nozzle devices (1) to (8) are provided.
(1)
A sliding nozzle device that is capable of opening and closing slide metal frame holding portions on both sides of the long side of the fixed metal frame, and capable of rotating the shaft of the slide metal frame holding unit on both sides of the long side of the fixed metal frame. The first and second link portions are respectively provided at the ends of the shafts of the slide metal frame holding parts on both sides, and the opening of the one slide metal frame holding part opens and closes the other slide metal frame holding part. A sliding nozzle device in which a first link portion and a second link portion are connected by link means so that the other slide metal frame holding portion is also opened and closed by reversely rotating the shaft.
(2)
Each of the first link portion and the second link portion has a connecting portion at a position eccentric from the central axis of the shaft, and the link bar as a link means intersects a straight line connecting the central axes of the respective shafts at these connecting portions. The sliding nozzle device according to (1), which is rotatably provided.
(3)
When the slide metal frame holding part is closed, the first link part and the second link part are in a point-symmetrical position around the center of the straight line connecting the central axes of the respective shafts in the longitudinal section. The sliding nozzle device according to (2), which is connected by a single link bar.
(4)
The first link part and the second link part are provided with a first link bar and a second link bar, respectively, and the end of the first link bar and the second link bar opposite to the connecting part is a fixed metal frame. The sliding nozzle device according to (2), wherein the first gear and the second gear provided on the first gear and the second gear are eccentrically pivotably attached, and the first gear and the second gear mesh with each other.
(5)
The sliding nozzle device according to any one of (2) to (4), wherein a connection position between the first link part or the second link part and the link bar is adjustable.
(6)
The sliding nozzle device according to any one of (2) to (4), wherein the length of the link means for connecting the first link portion and the second link portion is adjustable.
(7)
The sliding nozzle device according to any one of (1) to (6), which is used on the condition that the slide metal frame holding portions on both sides are positioned up and down during plate replacement.
(8)
The sliding nozzle device according to (7), wherein the weights of the slide metal frame holding portions on both sides are different.

According to the present invention, when opening and closing the slide metal frame holding parts on both sides, opening and closing one side opens and closes the other, so that both sides of the slide metal frame holding parts can be opened and closed simultaneously with a simple operation. it can. Thereby, the opening / closing operation | work of the slide metal frame holding | maintenance part of both sides is simplified, and work efficiency improves.
Furthermore, even in a sliding nozzle device that is used under the condition that the slide metal frame holding parts on both sides are positioned up and down when replacing the plate, the opening and closing work of the upper and lower slide metal frame holding parts is lightened, and in any state Since the opening and closing of the upper and lower slide metal frame holding portions are interlocked, the work is simplified and the work efficiency is improved.

1 is a perspective view of a sliding nozzle device according to a first embodiment of the present invention (a state where a slide metal frame holding portion is opened). FIG. 1 is an exploded perspective view of a portal arm and a shaft of a slide metal frame holding part in a sliding nozzle device according to a first embodiment of the present invention. 1 is a side view of a sliding nozzle device according to a first embodiment of the present invention (a state where a slide metal frame holding portion is closed). 1 is a side view of a sliding nozzle device according to a first embodiment of the present invention (a state where a slide metal frame holding portion is opened). The enlarged view of the 1st link part in the sliding nozzle apparatus which is the 1st Example of this invention. The side view of the sliding nozzle apparatus which is the 2nd Example of this invention. The perspective view of the sliding nozzle apparatus which is the 3rd Example of this invention. Sectional drawing of the sliding nozzle apparatus of patent document 1 (FIG. 2 of patent document 1). The perspective view of the sliding nozzle apparatus of patent document 1 (FIG. 1 of patent document 1).

  Embodiments of the present invention will be described below based on examples shown in the drawings.

<First embodiment>
In this embodiment, the present invention is applied based on Patent Document 1, that is, the sliding nozzle device shown in FIGS. Conventionally, the slide metal frame holding portion is rotatably held by the pin 22, but in this embodiment, as shown in FIGS. 1 to 3, the pin is integrated with the lower slide metal frame holding portion 4a as a shaft 5a. The shaft 5 a is rotatably held by the two shaft holding portions 6 of the fixed metal frame 2. The shaft 5a is integrated with the portal arm 41a of the slide metal frame holding portion 4a by a screw 61, and a first link portion 7a is provided at the end of the shaft 5a.
The upper slide metal frame holding portion 4b is integrally provided with a shaft 5b, and a second link portion 7b is provided at an end of the shaft 5b.
That is, the first link portion 7a and the second link portion 7b each having a disk shape are attached to the shafts 5a and 5b on both sides, and each link portion is connected to a position eccentric with respect to the central axis of the shaft. Pins 71a and 71b are projected. Both ends of one link bar 10 are rotatably attached to these pins 71a and 71b as link means. The link bar 10 intersects a straight line connecting the central axes of the shafts 5a and 5b, and the distance between the centers of the shafts 5a and 5b and the pins 71a and 71b is the same.

  As shown in FIG. 3, when the slide metal frame holding portions 4a and 4b on both sides are closed, the pin 71a of the first link portion 7a is at the 9 o'clock position, and the pin 71b of the second link portion 7b is at the 3 o'clock position. These link portions (pins 71a and 71b) are in a position symmetrical with respect to the center of a straight line connecting the central axes of the shafts 5a and 5b in the longitudinal section.

  FIG. 5 is an explanatory diagram of a mechanism for adjusting a connection position between the link portion 10 and the link portion (pin 71a) of the first link portion 7a. The link bar 10 has a long hole 10a, the screw 10b is screwed from the end of the link bar 10, and the tip 10b-1 projects into the long hole 10a. The tip 10b-1 of the screw 10b has a U-shape and sandwiches the pin 71a. That is, since the connecting position between the pin 71a and the link bar 10 is changed by moving the screw 10b back and forth, the connecting length between the first link portion 7a (pin 71a) and the second link portion 7b (pin 71b) is adjusted. It is possible.

  Next, an opening / closing mechanism for the slide metal frame holding portions 4a and 4b in this embodiment will be described. In FIG. 3, when the upper slide metal frame holding part 4b is opened, the second link part 7b provided on the shaft 5b rotates in the direction of the arrow (clockwise direction). Since it rotates in the counterclockwise direction, the lower slide metal frame holding portion 4a can be simultaneously opened in conjunction with it (state shown in FIG. 4).

  Further, when closing the slide metal frame holding portions 4a and 4b, if the upper slide metal frame holding portion 4b is closed, the first link portion 7a rotates in the opposite direction to the second link portion 7b, so that the lower slide The metal frame holding part 4b can be simultaneously interlocked and closed. After closing the slide metal frame holding parts 4a and 4b on both sides, a stopper pin is inserted into the through hole that connects the slide metal frame holding parts 4a and 4b to the fixed metal frame, and the slide metal frame holding parts 4a and 4b are completely Confirm that it was closed.

  In the present invention, since the shafts 5a and 5b of the two slide metal frame holding portions 4a and 4b are provided so as to be rotatable with respect to the fixed metal frame 2, the end portions of these shafts 5a and 5b are rotated in reverse to each other. Can be connected to each other by a link mechanism (link means). Therefore, in the present invention, the link mechanism can be provided only on one short side of the fixed metal frame 2. The sliding nozzle device has a mechanism for opening and closing the slide metal frame 3 for plate replacement work and a mechanism for driving the slide metal frame 3 with a driving device. Since it can be provided only on the short side, these movements are not affected.

  And in this invention, it connects the connection part 71a of the 1st link part 7a, and the connection part 71b of the 2nd link part 7b so that the link bar 10 may cross | intersect the straight line which connects the center axis | shaft of each shaft 5a, 5b. Thus, the mutual link portions are reversely rotated. For this reason, the movement of the link mechanism can be reduced. In this embodiment, a disk is provided on the shafts 5a and 5b as the link portions 7a and 7b. However, the present invention can be applied to other than the disk, for example, a rod-like object or a plate-like object.

  Furthermore, when the slide metal frame holding portions 4a and 4b are closed, the first link portion 71a and the second link portion 71b are point-symmetrical positions about the center of the straight line connecting the central axes of the shafts in the longitudinal section. By doing so, the first link portion 71a and the second link portion 71b can rotate in reverse in a substantially synchronized manner even if they are connected by one link bar 10. For this reason, since it can be set as a simple link mechanism, it is excellent in maintainability and can make a device compact. When the two slide metal frame holding portions 4a and 4b are closed by finely adjusting the connection length between the first link portion 71a and the second link portion 71b with the screw 10b of the long hole 10a of the link bar 10. It can be completely closed without shifting.

In this embodiment, the lower slide metal frame holding part 4a and the upper slide metal frame holding part 4b have substantially the same weight and are fixed eccentrically with respect to the shafts 5a and 5b, respectively. Since the lower slide metal frame holding part 4b rotates downward by the action of its own weight (gravity) of the slide metal frame holding part 4b, almost no force is applied to the operation of opening the upper slide metal frame holding part 4b.
Conversely, when closing the slide metal frame holding portions 4a and 4b, the upper slide metal frame holding portion 4b tries to rotate in the closing direction (downward) due to the action of its own weight (gravity). It does not take.
For this reason, when the slide metal frame holding portions 4a and 4b have the same weight, the slide metal frame holding portions 4a and 4b stop at an arbitrary position without being naturally rotated. On the other hand, when it is desired to open or close the slide metal frame holding portions 4a and 4b by its own weight, the balance can be naturally rotated by making one slide metal frame holding portion heavier than the other.

  This embodiment is a horizontal type sliding nozzle device in which the slide metal frame holding portions 4a and 4b are vertically positioned when the plate is replaced. However, the slide metal frame holding portions 4a and 4b are positioned on the left and right when the plate is replaced. The present invention can also be applied to a vertically installed sliding nozzle device.

<Second embodiment>
In this embodiment, a link bar having a third link part in the middle is used as the link means. In this embodiment, there is a protrusion on the side surface of the fixed metal frame 2, so the link bar 10 of the first embodiment cannot be attached, and the third link portion is used to avoid the protrusion. is there.

  That is, as shown in FIG. 6, an intermediate rotating part 11 is provided as a third link part in the middle part of the short side surface of the fixed metal frame 2 as a third link part, and the first link bar 11 a is provided in the intermediate rotating part 11. And one end of the second link bar 11b are rotatably connected. The other end of the first link bar 11a is rotatably connected to the first link portion 7a, and the other end of the second link bar 11b is rotatably connected to the second link portion 7b. Note that the first link bar 11a has a turnbuckle 11c in the middle thereof, whereby the length of the first link bar 11a, and thus the first link portion 7a (pin 71a) and the second link portion 7b (pin 71b). The length of the link means for connecting the two can be adjusted.

  FIG. 6 shows a state in which the slide metal frame holding portions 4a and 4b are opened. When the slide metal frame holding portions 4a and 4b are closed from this state, the first link portion 7a and the intermediate rotation portion 11 are rotated in the counterclockwise direction. Rotate. On the other hand, the second link portion 7b rotates in the clockwise direction. Therefore, when the slide metal frame holding part 4a is closed, the slide metal frame holding part 4b can be simultaneously closed in conjunction with it. Similarly, when the slide metal frame holding portions 4a and 4b are opened, the first link portion 7a and the second link portion 7b rotate in opposite directions, so that the slide metal frame holding portions 4a and 4b can be simultaneously opened in conjunction with each other. .

<Third embodiment>
Referring to FIG. 7, similarly to the first embodiment, a disc-shaped first link portion 7a and a second link portion 7b are attached to the shafts 5a and 5b on both sides, respectively. Pins 71a and 71b are projected as connecting portions at positions eccentric with respect to the central axis. A first link bar 13a and a second link bar 13b are rotatably attached to these pins 71a and 71b.

On the other hand, the short side of the fixed metal frame is rotatably held so that the first gear 12a and the second gear 12b are engaged with each other, and each gear has pins 121a and 121b at eccentric positions. ing. The first link bar 13a and the second link bar 13b are rotatably connected to these pins 121a and 121b.
Since the first gear 12a and the second gear 12b are engaged with each other in this way, the shafts 5a and 5b on both sides rotate in reverse, so that the slide metal frame holding portions 4a and 4b can be simultaneously opened and closed. It becomes possible.

DESCRIPTION OF SYMBOLS 1 Sliding nozzle apparatus 2 Fixed metal frame 3 Slide metal frame 4a, 4b Slide metal frame holding | maintenance part 41a, 41b Portal arm 5a, 5b Shaft 6 Shaft holding part 61 Screw 7a 1st link part 71a Pin 7b 2nd link part 71b Pin DESCRIPTION OF SYMBOLS 10 Link bar 10a Long hole 10b Screw 10b-1 Screw tip 11 Intermediate rotation part 11a First link bar 11b Second link bar 11c Turnbuckle 12a First gear 121a Pin 12b Second gear 121b Pin 13a First link bar 13b Second link bar

Claims (8)

  A sliding nozzle device that is capable of opening and closing slide metal frame holding portions on both sides of the long side of the fixed metal frame, and capable of rotating the shaft of the slide metal frame holding unit on both sides of the long side of the fixed metal frame. The first and second link portions are respectively provided at the ends of the shafts of the slide metal frame holding parts on both sides, and the opening of the one slide metal frame holding part opens and closes the other slide metal frame holding part. A sliding nozzle device in which a first link portion and a second link portion are connected by link means so that the other slide metal frame holding portion is also opened and closed by reversely rotating the shaft.   Each of the first link portion and the second link portion has a connecting portion at a position eccentric from the central axis of the shaft, and the link bar as a link means intersects a straight line connecting the central axes of the respective shafts at these connecting portions. The sliding nozzle device according to claim 1, wherein the sliding nozzle device is rotatably provided.   When the slide metal frame holding part is closed, the first link part and the second link part are in a point-symmetrical position around the center of the straight line connecting the central axes of the respective shafts in the longitudinal section. The sliding nozzle device according to claim 2, wherein the sliding nozzle devices are connected by a single link bar.   The first link part and the second link part are provided with a first link bar and a second link bar, respectively, and the end of the first link bar and the second link bar opposite to the connecting part is a fixed metal frame. 3. The sliding nozzle device according to claim 2, wherein the first gear and the second gear provided on the first gear and the second gear are eccentrically pivotably attached, and the first gear and the second gear mesh with each other.   The sliding nozzle device according to any one of claims 2 to 4, wherein a connection position between the first link part or the second link part and the link bar is adjustable.   The sliding nozzle device according to any one of claims 2 to 4, wherein a length of a link means for connecting the first link portion and the second link portion is adjustable.   The sliding nozzle device according to any one of claims 1 to 6, which is used under a condition in which the slide metal frame holding portions on both sides are positioned up and down during plate replacement.   The sliding nozzle device according to claim 7, wherein the weights of the slide metal frame holding parts on both sides are different.