DE2526459A1 - SLIDING VESSEL DEVICE FOR CASTING DRILLS - Google Patents

Description

Sliding device for pouring vessels

The invention relates to a slide valve device for Watering vessels.

The use of sliders to control the out Casting vessels, for example pouring ladles, emerge Molten metal flow, for example molten steel, is known. One in such slide valve devices The problem that arises relates to the precise positioning of the slide plates of such devices .in relation to the pouring channels in the vessels. The harsh mechanical and thermal conditions under which

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Postal check Munich No. 163397-802

such a slide valve device must work, can lead, among other things, to rapid wear of the slide plate. Wear or erosion of slide valve parts are especially strengthened when their slide plates are inaccurately positioned as soon as the slide devices are opened.

Until now, the positioning of a slide plate was dependent on the skill of an operator. this was supported by a position indicator selector. The gate valve control was carried out in this way but leaves a lot to be desired.

The electrical control of a sliding gate device, for example with the help of microswitches which are arranged in the path of movement of the slide plate proved impractical, especially in steel mills.

The object of the invention is therefore to design the slide valve device of the type mentioned so that " that the slide plate with the help of a hydraulic or pneumatic operating unit in relation can be precisely positioned on the channels of the casting vessel without wear and tear and erosion in the previously observed Scope.

For this purpose, according to the invention, in a slide valve device to control the flow of molten metal, the slide plate of the device to control its position with a hydraulic or pneumatic drive unit

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connected, this drive unit according to the inventive proposal comprises a pair of working cylinders arranged in series. One end of the drive unit is connected to the slide plate, while its other end is fixed, so it cannot be moved can, wherein the first working cylinder does not work in normal 'use, but only serves to a Specify the reference position while the second working cylinder or its piston is actuated in such a way that it touches the slide plate reciprocated relative to the reference position to thereby open the slide valve device and close.

The reference position can relate to that position of the slide plate in which the slide slide device is located is exactly in the fully open position. A locking device can for example, releasably hold the first working cylinder in a reference position.

The drive unit working cylinder can be made from conventional Cylinder-piston devices exist. The pistons can be provided with piston rods, which extend out of the associated cylinders. One piston rod is used to connect the slide plate, while the other makes the connection with a fixed bearing structure, whereby the said one end of the drive unit is arranged immovably, that is, is fixed. The two cylinder-piston devices can be in a common cylindrical housing which is provided with a partition which divides the case into two cylinders, each of which

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receives one of said pistons. Such a drive unit can be used to control the gate position operate as follows:

First of all, on one side or the other of the fixed piston are constantly brought pressure to act, with the result that the housing a assumes stationary fixed point position in order to create the mentioned reference position. Then he drives up the second working cylinder in a suitable manner to act pressure its piston in the housing back and forth to move the gate. Instead of applying pressure to the working cylinder, In which the immovable, i.e. fixed piston is located, this piston and its cylinder could also be locked to thereby adjust the housing to the stationary reference position.

Then one or the other side of the piston of the working cylinder connected to the slide plate could continuously pressurized. This would cause the housing to adopt a given reference position to take to the slide plate. The optional pressurization of one or the other side of the fixed piston then causes the housing to slide back and forth, causing the slide plate to move will.

During operation, wear can become so significant that the flow is no longer complete prevent when the second working cylinder is

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is operated to close the slide gate device. A major advantage of the slide valve device described here it is therefore to be seen that precautions are taken for an emergency flow interruption are. The pressure acting on the first working cylinder can be used to interrupt the emergency flow sd change that the first working cylinder is activated, that is, driven, and thereby the drive unit as The whole is moved in order to bring the slide plate into an emergency closed position in this way. It is intended that the slide plate is elongated and has a central flow opening. The sliding pusher device is open as soon as the opening of the slide plate covers the pouring channel. The sliding pusher device is normally closed by moving the plate, e.g. to the left, whereby the opening with the pouring channel does not overlap. If the slide plate goes over the middle to the right moved, the slide gate open position leads to the emergency operation IuB interruption.

Since the wear usually takes place asymmetrically, the service life of the valve plate can be extended, because the slide valve device is provided with an intermediate position between the central position and the emergency flow cut-off position subsequent movement can be opened or closed.

According to a further embodiment, the slide plate provided with two spaced adjacent flow or flow openings. In this case it will receive the normal flow interruption as soon as the

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The slide plate is set to the middle, i.e. is centered, and the one between the two openings The plate part located with the pouring channel is in an aligned overlap. The second working cylinder corresponds in this case best of the double-acting type, so that the slide plate moves to the left or right can be used to open the GlBitschiebervorrichtung. The * reference position corresponds to the valve plate center position. The emergency flow interruption can thereby achieve that the first working cylinder defining the reference position is actuated. In the emergency flow cutoff position covers another part of the slide plate on a non-centric side of the one or other opening the pouring channel.

A control of the working cylinder of the drive unit The pressure that is applied can be achieved with the aid of a conventional valve device. This valve device can best be operated electrically. The use of solenoid valves is recommended here at.

The drive unit can be connected directly to the slide plate or via a direction change coupling linkage connect indirectly. A toggle lever, for example, is used on such a linkage.

It will be understood that the invention relates not only to a slide valve device, but also that Working method for controlling this device and a casting vessel that is equipped with such a slide valve device is equipped with one element.

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The invention is based on the in the drawing illustrated embodiments explained in more detail. In the drawing show:

1 shows a schematic sectional view of a casting vessel with a slide valve device in which the inventive proposal can be implemented,

Fig. 2 is a schematic representation of part of a slide valve device that relates to the inventive Facility,

3 shows a schematic representation of the mode of operation the sliding pusher device and

Fig. 4 shows another embodiment in which a toggle lever with a slide plate of the device a drive unit connects.

The slide valve device described here is primarily intended to have a molten metal discharge, for example Molten steel, from a pouring vessel provided with a bottom pouring opening, for example a pouring ladle 1, steer. The slide valve device is not shown in its entirety for reasons of simplicity. The slide valve device as such, as will become apparent from the following description, in essentially correspond to conventional construction. With regard to structural details of such sliding scraper devices is based on GB-PS 1 093 478 and 1 2 74 referenced.

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The ladle 1 is provided with a mounting plate 2 to which a slide valve device 3 is attached is. The device 3 has a slide housing 4 which is fastened to the mounting plate 2 by means of joint elements which lie outside the plane of the drawing and serve to make the valve housing in the shown Lock position.

A power-driven slide frame 5 is in the housing 4 Movable to the left and right in the longitudinal direction. The sliding frame 5 carries an arrangement that has, inter alia, a nozzle or GieBbüchse 6 and an elongated sliding plate 10, which at 11 a Owns opening.

Spring elements θ are arranged in recesses in the sliding frame 5, the so supported "arrangement push upwards. As a result, the slide plate 10 is pressed toward the ladle so that it is a stationary head plate 7 provided with an opening the slide valve device 3 touches. The contacting surfaces of the two plates 7, 10 form the sliding surfaces of the slide valve device 3.

The drive of the sliding frame 5 for the reciprocating movement of the slide plate 10 with respect to the head plate 7 takes place with the aid of a fluid drive unit. This unit, which is described below, is on the right-hand side of the slide valve device 3 attached, based on Fig. 1, for example by means of bayonet couplings, not on the one in the drawing is referred.

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To open and close the sliding gate device 3 the slide plate 10, which is connected to the head plate in Touch stands, shifted. This head plate, not shown in detail, is in the operating state on the associated one Casting vessel attached, with its opening in overlap with the bottom-side pouring opening of the casting vessel stands. The elongated slide plate 10, which can move back and forth, is pressed against the head plate 7. In the open state, a central flow opening is created through the opening at 11 (FIG. 2) in the slide plate 10 created, which is in overlap with the top plate opening, creating a pouring channel for the Melt flow occurs. The channel has an axis which is indicated in FIGS. 2 and 3 by the dash-dotted line 12. The slide plate 10 can As indicated by arrow 13, with the aid of a fluid drive unit, for example ejiner hydraulic drive unit 15, move back and forth.

The drive unit 15 is connected to a hydraulic circuit 16 which has a reservoir R, a flow · has medium pressure source P and two control valves 16, 1ö. The unit has two rams 20, 21 which are arranged one behind the other and a common cylindrical one Split housing 22. A middle partition divides the housing 22 into two cylinder sections 24, 25 on which the ram pistons 26, 27 receive. The piston 26 has a piston rod 29, the free end of which is on a fixed support structure is immovably attached, so is fixed. The piston 27 has a Piston rod 30, the free end of which is attached to the slide plate.

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The valves 17, 18 are basically switching valves, which work so that they pressurize fluid on opposite sides of the pistons 26 and 27 control. The valve 18 also has an "emptying" position, in which there is pressurized fluid from the ram 21 to the container R. returns. The exact construction of the valves 17, 18 is not essential, so that alternative valve devices can also be used could be built. The illustrated valves 17, 18 are electrically operated solenoid valves, which are controlled by a control panel 32. On the other hand, the valves could also be operated by hand.

As can be seen from Fig. 2, the slide plate is arranged so that the opening 11 with the pouring channel axis 12 is out of overlap. A full area 33 of the slide plate 10 is thus above the channel, and the The sliding gate device is in the normal closed position. Serves during normal use the PreBstBmpel 20 as a reference position device, the pressure prevailing in this stamp and the the existing relationship between its cylinder and piston can be maintained unchanged. The ram 21 is normally used to open and close the slide gate device. To open this device, the ram 21 is pressurized so that it extends, thereby moving the slide plate to the right to move. As soon as the ram 21 is fully extended, the opening 11 is with respect to the axis 12 in central position, and the slide valve device is then fully open. The exact reference position device of the hydraulic unit leaves caused by setting the ram 20,

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in order thereby to ensure that the slide plate opening 11 is precisely centered with respect to the axis 12 is as soon as the sliding gate device is opened. The setting of the PreBstempel 20 can be done with the help of a Adjusting screw device, which forms part of the piston rod 29, or with the aid of an adjustable one Attachment of the fixed support structure. Such an adjustable fastener can make use of an adjustment screw. Alternatively, make the connection with the slide plate 10 adjustable, so that an exact reference position setting is achieved can be. In those cases in which, for example, a toggle linkage is used, the slide plate 10 be connected to the toggle lever by a ball coupling adjustable by means of a spindle. Others too Adjustment devices that are familiar to the designer can be used in this context.

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During operation, the slide plate 10 is subject to gradual wear, with the opening 11 eroding, so is removed. The stage can then be reached in which the normal closing of the slide valve device by withdrawing the ram 21 and thus by moving the slide plate back in the position shown in Fig. 1 no longer allows complete closure of the pouring channel. The ram 20 is then operated so that the drive unit 15 is displaced as a whole and the slide plate be moved fully to the right. This results in an emergency slide lock, with the surface 34 the slide plate 10 covers the pouring channel.

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If then the ram 20, 21 are then pressurized in a suitable manner, a limited Continued use of the closed slide plate 10 seem appropriate before it is replaced.

The control of the slide valve device and in particular the control of the position or location of the slide plate 10 will now be described in the following primarily with reference to FIG. described. For the sake of simplicity, the setting of the valves 17, 18 is not described. Instead it will reference is made to the pressure conditions prevailing at points a, b, c and d. A print "1" means full system pressure, while a pressure "0" tank or Reservoir pressure means, i.e. an unpressurized state.

Fig. 1-1 shows the slide plate 10 in the normal Closed position of the sliding gate device. The one at points a and b on opposite sides of the piston 26 of the press ram 20 and at points c and d on opposite sides of the piston 27 of the press ram prevailing prints are the following:

a »1) b ■ Oi c ■ Oj d = 1

The normal opening of the sliding gate device will achieved by changing the pressures due to which the piston 27 and the slide plate 10 moved to the right will; see Fig. 3-11. The pressures acting on the unit 15 are:

a «1, b« Oj c · I ₁ d ■ 0

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It can be seen that the pressure acting on the ram 20 remains unchanged. The in the ram 21 prevailing pressures are compared to the normal sliding gate device closed position as shown in FIG Fig. 3-1 is shown, vice versa.

After wear and tear, the emergency slider device lock requires, wildly the slide plate 10 is moved further to the right, via the in Fig. 3-II position. This is done through change of the pressure prevailing in the ram 20 is reached, so that the drive unit 15 itself is displaced. This condition is shown in Fig. 3-III. The pressures acting on the unit 15 are:

a = Oj b = 1j c ^e Ii d = G

It can be seen that the pressures at c and d are the same as in the normal open position of the sliding gate device, as indicated in Fig. 3-11.

After first of the emergency slide gate lock option If use has been made, this type of application can be converted into continue to a limited extent. The slide gate valve assembly can be opened by pulling back on the unit open again as shown in Fig. 3-IV. The pressures acting on the unit 15 are:

a = 1; b ^s 0; c = 1jd ^B 0

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It can be seen that the prevailing in the ram 21 Pressure conditions and the position of the piston 27 of the last-mentioned punch between the normal sliding slide valve opening position, the emergency closed position and the "emergency" open position remain unchanged.

Another slide gate valve opening can be, how shown in Fig. 3-V. The unit 15 is now in the emergency open position, that is in the right-hand position, and when the ram 21 is then actuated, the following pressures result:

a = Oj b »1) c = 0) d * 1

A fairly simple change can be made by that a twin orifice slide plate for the slide valve device Is used. In this case the ram 21 should correspond to the double-acting Τ / ρ. Such a ram would be actuated as soon as its piston moved from its center position to the one or the other side is moved to thereby align one or the other opening with the pouring channel axis align. The piston center position then corresponds to the normal closed position of the slide valve device, if a part of the slide plate covers between the openings dBn the pouring channel. The ram 20 can also be in in such a case, as described above, remain unchanged.

In Figs. 1 and 2, the slide plate 10 is directly with the piston rod 30 is coupled. In certain installation cases, a change of direction coupling can be used instead find so that the line of action of the unit 15 does not have

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the direction of movement of the slide plate 10 coincides. Fig. 4 shows an example of such a coupling in which a toggle lever 40 is used. The PreBstempel 20 is in this case articulated with a piston 26 on a fixed bearing 41, and the ram 21 is stationary with its piston 27 with the toggle lever 40 in pivot connection. The toggle lever 40 can be pivoted by means of a bearing 42 stored. The position 40a of the toggle lever corresponds to the normal closed position of the slide valve device. The position 40b corresponds to the normal open position, and the position 40c corresponds to Emergency closed position of the sliding gate device.

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Claims (14)

PATENT CLAIMS 1. Sliding valve device for controlling a molten metal flow, in the case of the slide plate of the device for adjusting its position with a hydraulic one or pneumatic drive unit, characterized in that the drive unit (15) is a Having a pair of press rams (20, 21) arranged in a line and with their Binen end with the slide plate (10) is connected, while the other end of the drive unit (15) is fixed that the first ram (20) is inactive during normal operation and serves to create a reference position, and that the current press stamp (21) can be actuated to open and close the slide valve device relative to this reference position to the slide plate (10) to move back and forth. 2. Device according to claim 1, characterized in that the one created by the first press punch (20) Reference position B indicates the exact fully open position of the slide valve device. 3. Apparatus according to claim 1 or 2, characterized by a locking device for releasable retention of the first ram (20) in a reference position. 4. Device according to one of claims 1-3, characterized in that the press rams (20, 21) of the drive unit form two cylinder-piston devices (24, 26; 25, 27). - 17 509881 / 0A31 5. Apparatus according to claim 4, characterized in that one of the plunger pistons (26) has a piston rod (29) has, by means of which it is connected to a fixed support structure is connectable, and that the other ram piston (27) has a piston rod (30) through which it is connected to the slide plate (10). · 6. Apparatus according to claim 5, characterized in that that the two cylinder-piston devices (24, 26j 25, 27) share a common cylindrical housing (22) in which there is a partition (23) which divides the housing (22) into the two cylinders (24, 25) divided. 7. Apparatus according to claim 6, characterized in that when the one press ram piston (26) is in a reference position is located, the housing (22) assumes a stationary reference position, and that optionally during operation the opposite sides of the other ram piston (27) are alternately pressurized with fluid pressure, whereby this other piston (27) is reciprocable within the housing (22), thereby around the pusher plate (10) to slide between the slide gate device open and closed positions. 8. Device according to one of claims 1-7, characterized in that that the slide plate (10) is an elongated body in which there is a central flow opening (11) located with a pouring channel (12) of the slide valve device can be brought into overlap in order to open the device, and that the second ram during normal operation (21) can be actuated to move a surface (33) of the slide plate (10) which is located on one side of the opening (11), to bring with the pouring channel in overlap and thereby close the device. 509881/0431 - 1ö - 9. Apparatus according to claim 8, characterized in that the first pressing bag can be driven in such a way that one Surface (34) of the slide plate (10), which is on the opposite side of the opening (11) is to Closure of the sliding gate device with the AbgieB channel to bring in overlap. 10. Device according to one of claims 1-7, characterized in that the slide plate (10) is an elongate Body with two spaced apart flow openings, and that the reference position of a closed position corresponds to the slide plate, in which a central plate part between the openings with an AbgLeBkanal (12) of the device is in overlap. 11. The device according to claim 10, characterized in that the second ram (27), for example the double-acting type, the gate valve and can move to thereby one of the flow openings with the pouring channel (12) to be brought into overlap and to open the device, 12. Apparatus according to claim 10 or 11, characterized in that the first press ram is in the reference position can be actuated to move the slide plate into a closed position to move, in which another part of the slide plate with the pouring channel (12), which is not is located on a side facing the center of one or the other of the two openings, with the pouring channel (12) is brought into overlap. - 19 -509881/0431 13. Device according to one of claims 1-12, characterized by an electrically operated valve device (17, 1B) for controlling the application of pressure the drive unit (15). 14. Device according to one of claims 1-13, characterized in that the slide plate (10) and the Drive unit (15) through a change of direction coupling, as it is represented by a toggle linkage (40), are connected. 5098 8 1/0431 Blank page