Title of Invention

A DEVI FOR HYDRAULIC ADJUSTING OF COMPONENTS PARTICULARLY THE ROLLERS OF STRAND GUIDING SEGMENTS OF A STRAND CASTING DEVICE

Abstract

"A DEVICE FOR HYDRAULIC ADJUSTING OF COMPONENTS PARTICULARLY THE ROLLERS OF STRAND GUIDING SEGMENTS OF A STRAND CASTING DEVICE" A device for hydraulic adjusting of components, particularly the rollers (36) of strand guiding segments (35) of a strand casting device, with hydraulic cylinders (2), which are each divided by a piston (12) with piston rod (13) into a cylinder chamber (9) and an annular cylinder chamber (11), wherein the cylinder chambers (9, 11) are connectible by control members alternately and reciprocally as well as simultaneously with a pressure source (7) and a pressure sink (5), characterised in that only 2/2 on-off valves (la, lb, lc, Id) are provided as control members.

Full Text

The present invention relates to a device for hydraulic adjusting components, in particular the rollers of strand guiding segments of a strand casting device. In continuous casting installations the casting process begins in a casting mold. The surficially solidified casting strand exits from the mold vertically and is deflected by 90° in strand guiding segments having a certain radius and is guided to a horizontal straightening driver arranged downstream. The guiding of the casting strand is realized by guiding rollers which can be adjusted by hydraulic cylinders. Accordingly, it is possible to consider, inter alia, roll wear and changed casting parameters. For controlling the hydraulic cylinder, in general, proportional servo valves are used. They require microfine-filtered hydraulic oil as a result of their precise fit. The expenditure in regard to oil filtering is significant. Moreover, there is always a fire danger in connection with hydraulic oil in a casting machine and rolling mill area. DE 3835010 discloses a device for supporting and guiding the billet discharging from a continuous casting plant. US 3954046 discloses a valve arrangement for controlling a reversible hydraulically operated device. WO 97/41983 discloses a adjusting device for setting the position of billet-support elements. The invention has the object to provide a hydraulic system for adjusting continuous strand guiding segments which has a comparatively minimal requirement with regard to the purity of the working liquid and the minimal fire danger. The object is solved in that as control members on-off valves are provided. On-off valves are either closed or open while proportional servo valves can also be in any intermediate position. Accordingly, on-off valves can withstand coarse dirt particles without clogging, while the possible opening of a proportional servo valve requires a clean working medium in order to prevent seat soiling. Moreover, in contrast to the proportional servo valves, the valve pistons of the on-off valves do not require precise fit because in the open state they are centered on a stop and in the closed state on the seat. Accordingly, the requirement with regard to purity and, moreover, to the lubrication action of the working fluid in the case of on-off valves is significantly lower than in the case of proportional servo valves. This means a reduced expenditure for filtering and the problem-free use of water-oil emulsions as a working liquid. In addition to the reduced expenditure for the on-off valves and for the type as well as the cleaning of the working liquid, the fire safety is a decisive advantage of the solution according to the invention. By arrangement of four on-off valves in a full bridge circuit, a simple guiding and minimal length of the hydraulic lines with corresponding minimal installation expenditure are achieved. It is also advantageous that the on-off valves are controllable by a three-step controller. The three-step controller operates only with the positions plus, minus, and zero. In the plus position, one of the on-off valve pairs is excited, in the minus position the other one, while in the zero position both on-off valve pairs are without current and thus closed. This results in a simple control configuration. Since the on-off valves have a throttle, an adjustment of the piston position without overswinging can be realized despite the fully open on-off valves. It is also advantageous when the on-off valves can be controlled by pulse width modulation. While in the three-step control the opening time interval of the on-off valves as a whole can be varied, the number of constant, short opening intervals is variable in connection with the pulse width modulation (variable pulse-duty factor). This is realized, similar to the three-step control, by means of discrete switching signals of a separate electronic hardware or by means of software of a computer. This optimizes the pulse-duty factor in the direction of switching frequency reduction. In the pulse width modulation, as in the case of the three-step control, an outlet on-off valve and an inlet on-off valve are always controlled at the same time since the inflow volume of one cylinder chamber corresponds always to the outflow volume of the other one. It is moreover advantageous that each piston is connected by means of a connecting rod with a position transducer which triggers the control when the piston position surpasses an upper or a lower limit value. The position transducer allows a closed control circuit for the piston position. In this connection, a simple configuration and a simple startup of the three-step controller results based on the determination of hysteresis of the permissible piston position by an upper and lower limit value thereof. Since the four on-off valves are combined to an on-off valve block, a space-saving, cost-efficient configuration of the on-off valves is provided. Accordingly, the present invention provides a device for hydraulic adjusting of components, particularly the rollers of strand guiding segments of a strand casting device, with hydraulic cylinders, which are each divided by a piston with piston rod into a cylinder chamber and an annular cylinder chamber, wherein the cylinder chambers are connectible by control members alternately and reciprocally as well as simultaneously with a pressure source and a pressure sink, characterised in that only 2/2 on-off valves are provided as control members. Further features of the invention result from result from the claims, the subsequent figure description and the drawings, in which embodiments of the invention are schematically illustrated. It is shown in: FIG. 1 a circuit diagram of the bridge circuit of the hydraulic oil circulation of a hydraulic cylinder; FIG. 2 a circuit diagram of the hydraulic oil circulation and the control of the on-off valves of a hydraulic cylinder; FIG. 3 a simplified circuit diagram of the hydraulic oil circulation and the control of the on-off valves of the four hydraulic cylinders of a strand guiding segment; FIG. 4 like FIG. 3, but with perspective illustration of a strand guiding element. FIG. 1 shows the on-off valves (la, b, c, d), connected in a bridge circuit, of the hydraulic circuit of a hydraulic cylinder (2) which are combined to a valve block (3). The on-off valves (la, b) can be connected via a first connecting point (4) with a pressure sink (5), the on-off valves (lc, d) via a second connecting point (6) with a pressure source (7). The on-off valves (la, c) are connected moreover via a third connecting point (8) with a cylinder chamber (9), the on-off valves (lb, d) via a fourth connecting point (10) to an annular cylinder chamber (11) of the hydraulic cylinder (2). The cylinder chamber (9) and the annular cylinder chamber (11) are seal-tightly separated by a piston (12). The piston has a piston rod (13) projecting from the annular cylinder chamber (11). FIG. 1 shows the very compact configuration of the valve block (3) which is realized with minimal expenditure. In FIG. 2, a valve block with a hydraulic cylinder (2) and a simplified illustration of the electric control of the on-off valves (la, b, c, d) are illustrated. FIG. 2 shows also the connecting points (4, 6, 8, 10) for connecting the on-off valves (la, b, c, d) with the pressure sink (5) and the pressure source (7), the cylinder chamber (9) as well as the annular cylinder chamber (11). The piston (12) is connected by a connecting rod (14) with a position transducer (15) which indicates the respective position of the piston (12) relative to the hydraulic cylinder (2). Each one of the on-off valves (la, b, c, d) has a solenoid (16) which is connected via electric lines (17a, b, c, d) with a three-step controller (18) or a pulse width modulator (19). The three-step controller (18) and pulse width modulator (19) are realized as electronic hardware or integrated as software in a computer (20). The on-off valves (la, b, c, d) have springs (21) which effect their closing when the solenoid (16) is without current. The piston rods (13) are sealed by glands (22) which also serve for supporting the hydraulic cylinders (2) on one half of the strand guiding segments (35, FIG. 4). They support on their free ends a swivel head (23) for connecting them with the other half of the strand guiding segments (35). FIG. 3 shows a simplified circuit diagram of the hydraulic oil circulation and the control of the valve blocks (3) for the four hydraulic cylinders (2) of a strand guiding segment (35, FIG. 4). In the same way, it is also possible to adjust leveling machines and saws. A switch cabinet (24) is connected with a computer whose software controls the on-off valve blocks (3) by means of three-step controllers or pulse width modulation. The switch cabinet (24) has inter alia a network card (26), a central processing unit (CPU) (27), a memory (28), an transducer (15), a digital/analog converter or switching amplifier (30) for the on-off valve signals, a digital input/output (31) for a control panel (32) on site and for a strip terminal (33) for connecting the signals of the device; in addition, a mains supply circuit (34) is provided. FIG. 4 shows basically the same as FIG. 3 but with a strand guiding segment (35) in a perspective illustration. The latter has rollers (36) between which the cast strand (37) to be guided is positioned. The rollers have supports (38). The latter are adjusted by the hydraulic cylinders (2) and the pistons (12) by means of the piston rod (13). Pressure transducers (39) for monitoring the process are mounted in the hydraulic lines between the on-off valve blocks (3) and the hydraulic cylinders (2). Their signals are collected together with the signals of the on-off valve block (3) in an input/output component (40) and transmitted to the digital/analog converter (30). The signals of the position transducer (15) are then transmitted to the interface (29). The device according to the invention functions as follows. When the position transducer (15) shows a deviation from the nominal position of the rollers (36), the nominal position is adjusted again, once a certain upper or lower limit value is surpassed, by controlling the corresponding on-off valves (la, b, c, d) via three-step control or pulse width modulation. By employing the on-off valves instead of proportional servo valves a water/oil emulsion can be used as the working liquid so that the fire danger in the case of leakage is reduced. Moreover, a microfine filtration of the working liquid is no longer needed so that the device according to the invention is less expensive with regard to initial installation cost and operation. cWE CLAIM 1. A device for hydraulic adjusting of components, particularly the rollers (36) of strand guiding segments (35) of a strand casting device, with hydraulic cylinders (2), which are each divided by a piston (12) with piston rod (13) into a cylinder chamber (9) and an annular cylinder chamber (11), wherein the cylinder chambers (9, 11) are connectible by control members alternately and reciprocally as well as simultaneously with a pressure source (7) and a pressure sink (5), characterized in that only 2/2 on-off valves (la, lb, lc, Id) are provided as control members. 2. The device as claimed in claim 1, wherein each hydraulic cylinder (2) has four on-off valves (la, lb, lc, Id) in a full-bridge circuit. 3. The device as claimed in claim 1 or 2, wherein the on-off valves (la, lb, lc, Id) have a throttle. 4. The device as claimed in any one of claims 1 to 3, wherein the solenoid (16) of the on-off valves (la, lb, lc, Id) are controllable in drive by way of a three step controller (18) or by way of a pulse width modulator (19). 5. The device as claimed in claim 4, wherein the three step controller in (18) and the pulse width modulators (19) are integrated in a computer (20) as electronic hardware. 6. The device as claimed in any one of claims 3 to 5, wherein each piston (12) is connected by way of a connecting rod (14) with a position transducer (15) which triggers the regulation after the exceeding of an upper or a lower limit value of the piston position. 7. The device as claimed in any one of claims 1 to 6, wherein four on-off valves (la, lb, lc, Id) are combined into an on-off valve block. 8. A device for hydraulic adjusting of compounds, particularly the rollers of strand guiding segments of a strand casting device, substantially as herein described with reference to the accompanying drawings.

Documents:

in-pct-2001-0340-che abstract.jpg

in-pct-2001-0340-che abstract.pdf

in-pct-2001-0340-che claims-duplicate.pdf

in-pct-2001-0340-che claims.pdf

in-pct-2001-0340-che correspondence-others.pdf

in-pct-2001-0340-che correspondence-po.pdf

in-pct-2001-0340-che description (complete)-duplicate.pdf

in-pct-2001-0340-che description (complete).pdf

in-pct-2001-0340-che drawings.pdf

in-pct-2001-0340-che form-1.pdf

in-pct-2001-0340-che form-19.pdf

in-pct-2001-0340-che form-26.pdf

in-pct-2001-0340-che form-3.pdf

in-pct-2001-0340-che form-5.pdf

in-pct-2001-0340-che others.pdf

in-pct-2001-0340-che pct.pdf

in-pct-2001-0340-che petition.pdf