WO2015079055A1 - Arrangement and method for setting a working gap between working rollers of a roller and/or guide stand - Google Patents

Abstract

The invention relates to an arrangement (6) for setting a working gap (S) between working rollers (4, 5) of a roller and/or guide stand (1), in particular for a rolling mill, comprising at least one piston cylinder unit (7) which is operatively connected to one of the working rollers (4, 5) for setting the working gap (S), at least one hydraulic device (8) and at least one hydraulic fluid, wherein the piston cylinder unit (7) can be impinged with hydraulic fluid by means of the hydraulic device (8), characterized in that the hydraulic fluid is a magnetorheological fluid, wherein at least one device (9) is arranged on the piston cylinder unit (7) for temporarily generating a magnetic field within a section of the piston cylinder unit (7) impinged with the magnetorheological hydraulic fluid.

Description

 The invention relates to an arrangement for setting a working gap between work rolls of a rolling and / or guide stand, in particular for a rolling mill, comprising at least one at least single-acting piston-cylinder unit, which is used for setting the working gap is technically connected to one of the work rolls, at least one hydraulic device and at least one hydraulic fluid, wherein the piston-cylinder unit can be acted upon by the hydraulic means with the hydraulic fluid.

Furthermore, the invention relates to a rolling and / or guide stand, in particular for a rolling mill, and a rolling mill.

Furthermore, the invention relates to a method for setting a working gap between work rolls of a rolling and / or guide stand, in particular for a rolling mill. In rolling mills rolling and / or guide frames are used to produce with them semi-finished products of starting products, such as ingots, slabs, blocks or billets. For this purpose, the starting materials are passed through a working gap formed between two work rolls of a rolling and / or guide stand.

In order to produce a semi-finished product with the desired dimensioning, it is necessary to set the working gap according to the respective requirements. For this purpose, it is known to use mechanical adjusting devices, which are operatively connected to at least one of the work rolls for adjusting the working gap. On the other hand, it is known to set a working gap cheaper hydraulic To use adjusting devices, which are also technically connected to at least one of the work rolls for adjusting the working gap.

Mechanical adjusting devices are usually relatively large and expensive to manufacture. In addition, their regulation is relatively complicated, which is associated in particular with difficult operating conditions. This is associated with relatively high manufacturing and operating costs, including the necessary lubrication of the mechanically interacting parts. Furthermore, an adjustment of a working gap during a sting usually only partially or not possible.

Hydraulic starter use hydraulic fluid as working medium. A disadvantage here is that a hydraulic oil column contained in a piston-cylinder unit of the hydraulic adjusting device has elastic properties, so that a uniformly qualitative rolling result can not always be reliably achieved.

The object of the invention is to enable a maintenance-friendly, cost-effective and very accurate adjustment of a working gap between work rolls of a rolling and / or guide stand. Furthermore, the simple possibility of retrofitting or modernizing existing scaffolding to create.

This object is achieved by an arrangement having the features according to claim 1, a rolling and / or guide structure having the features according to claim 6, a rolling mill having the features according to claim 7 and a method having the features according to claim 8. Advantageous embodiments are given in the subclaims, which taken alone or in different combination with each other can represent an aspect of the invention. With claim 1, an arrangement for adjusting a working gap between work rolls of a rolling and / or guide stand, in particular for a rolling mill proposed, comprising at least one piston-cylinder unit which is operatively connected to one of the work rolls for setting the working gap, at least one hydraulic device and at least a hydraulic fluid, wherein the piston-cylinder unit can be acted upon by the hydraulic device with the hydraulic fluid, characterized in that the hydraulic fluid is a magnetorheological hydraulic fluid, wherein arranged on the piston-cylinder unit at least one means for temporarily generating a magnetic field within a loaded with the magnetorheological hydraulic fluid portion of the piston-cylinder unit is.

According to the invention, adjustment of a working gap between work rolls of a rolling and / or guide stand can be carried out without the complicated and expensive use of a mechanical setting device. Instead, a more cost-effective magnetorheological employment is carried out according to the invention. The effort of lubrication, as it is necessary for mechanical jobs can be eliminated.

Is set with the inventive arrangement a desired working gap, this can be effectively frozen by the generation of the magnetic field in the acted upon with the magnetorheological hydraulic fluid portion of the piston-cylinder unit, since the magnetic field causes a solidification of existing in the piston-cylinder unit magnetorheological fluid, so that no Elasticity of a hydraulic oil column is given as in conventional hydraulic starting device. In particular, the magnetic field changes the viscosity of the magnetorheological fluid contained in the piston-cylinder unit and thus its suspension or damping behavior. If, for example, the viscosity, ie the viscosity of the magnetorheological fluid increases, this not only increases it the stiffness of the liquid column, but also the rigidity of an entire system (rolling stand with liquid), although the elasticity, ie the modulus of elasticity of the roll stand, as far as it consists of mechanical components, has remained unchanged. In other words, the variable adjustment of the viscosity of the liquid in the rolling stand, allows a fine adjustment of the rigidity of the overall system with respect to a particular desired for a given rolling process rigidity of the overall system in the vicinity of the predetermined by the E-modulus of the rolling mill basic stiffness. Furthermore, by the controlled design of the magnetic field, the Scheer force generation intake in the piston-cylinder unit can be regulated in order to keep the counter bearing force. This can be assisted by additional means, such as pressure transfer devices. Consequently, a working gap set with the arrangement according to the invention does not vary unintentionally, as a result of which higher-quality rolling results can be achieved. Corresponding properties of magnetorheological fluids are known, for example, from damper arrangements, as evidenced, for example, by the published patent application DE 198 20 570 A1.

The generation according to the invention of the magnetic field in a section of the piston-cylinder unit is connected to an additional control possibility, also during an engraving. In particular, when using the arrangement according to the invention, an adaptation / change of a working gap can take place during a stitch.

The arrangement according to the invention can also have two or more piston-cylinder units, which are operatively connected to one of the work rolls for adjusting the working gap. Also, both work rolls with each at least one piston-cylinder unit for setting the working gap be technically connected. When using the device according to the invention, a change in a working gap can take place by means of a hydraulic piston-cylinder unit provided on a rolling and / or guide stand. The existing hydraulic piston-cylinder unit is usually controlled by a central hydraulic system. By means of the existing hydraulic piston-cylinder unit, for example, first a coarse adjustment of a working gap can be made before a final adjustment of the working gap takes place by means of the arrangement according to the invention.

As a magnetorheological hydraulic fluid, various fluids with the respective optimum properties can be used. The invention is not limited to the use of a particular magnetorheological fluid.

The means for temporarily generating the magnetic field within the portion of the piston-cylinder unit subjected to the magnetorheological hydraulic fluid may be configured in any suitable manner. The invention is not limited to a particular embodiment of this device.

According to an advantageous embodiment, the hydraulic device has a fluid-conducting series connection of at least one hydraulic pump for pumping the magnetorheological hydraulic fluid and a second electronically controllable hydraulic unit, wherein the piston-cylinder unit is connectable to the second hydraulic valve unit such that the hydraulic pump via the second hydraulic valve unit fluidly connected to the Kolbenzlylindereinheit is. By controlling the hydraulic valve unit and possibly also the hydraulic pump, the piston-cylinder unit can be acted upon in the desired manner with the magnetorheological hydraulic fluid. The Hydraulic valve unit may comprise at least one control valve, which may be formed, for example, as a 3/2-way valve.

According to a further advantageous embodiment, a series circuit consisting of a first hydraulic valve unit and a pressure transmission device is fluid-conductively connected in the hydraulic device between the hydraulic pump and the second hydraulic valve unit, wherein by means of the pressure transmission means, a pressure from the primary hydraulic fluid to a secondary hydraulic fluid is transferable; and wherein the first hydraulic valve unit is preferably connected between the hydraulic pump and the pressure transmission device. According to this embodiment, any hydraulic system using a primary hydraulic oil may be used to adjust the working gap according to the invention. It is also possible to reconstruct a hydraulic system using primary hydraulic oil for realizing the invention. About the additional device is a separation of the primary hydraulic fluid, such as a hydraulic oil, and the secondary magnetorheological hydraulic fluid. By controlling the hydraulic valve units and possibly also the hydraulic pump, the piston-cylinder unit can be acted upon in a desired manner with the magnetorheological hydraulic fluid. The hydraulic valve units may each have at least one control valve, which may be formed, for example, as a 3/2-way valve. A further advantageous embodiment provides that the arrangement has at least one electronic control and / or regulating device which is connected in terms of communication technology with the hydraulic device and which is set up to control or regulate the loading of the hydraulic cylinder with the magnetorheological hydraulic fluid. The control and / or regulating device can be designed as a separate structural unit. Alternatively, the Control and / or regulating device may be formed by an electronic control of a rolling and / or guide stand or a rolling mill.

With claim 5, a rolling and / or guide structure, in particular for a rolling mill, proposed, characterized by at least one arrangement according to one of the aforementioned embodiments or any combination thereof. With this rolling and / or guide framework, the advantages mentioned above with respect to the arrangement are connected accordingly. The rolling and / or guiding framework can for example have a duo, trio or quarto-roll arrangement or have an even larger number of rolls.

With claim 6, a rolling mill is proposed, characterized by at least one aforementioned rolling and / or guide frame. With this rolling mill, the advantages mentioned above with respect to the arrangement are connected accordingly.

With patent claim 7, a method for adjusting a working gap between work rolls of a rolling and / or guide stand, in particular for a rolling mill, proposed, wherein the rolling and / or guide stand has at least one piston-cylinder unit, which for the adjustment of the working gap wirktechnisch with one of the work rolls is connected, characterized in that the piston-cylinder unit is acted upon by a magnetorheological hydraulic fluid, wherein a magnetic field is temporarily generated within a loaded with the magnetorheological hydraulic fluid portion of the piston-cylinder unit. With this method, the advantages mentioned above with respect to the arrangement are connected accordingly. In the following, the invention will be explained by way of example with reference to the attached figures with reference to preferred exemplary embodiments, wherein the features illustrated below may represent an aspect of the invention both individually and in various combinations with one another. Show it

Figure 1: a schematic representation of an embodiment of an inventive rolling and / or guide frame, and Figure 2 is a schematic representation of another embodiment of an inventive rolling and / or guide frame.

Figure 1 shows a schematic representation of an embodiment of an inventive rolling and / or guide frame 1 for a rolling mill not shown in detail.

The rolling and / or guide frame 1 has a quarto structure with a roll stand, not shown, on which two support rollers 2 and 3 and two work rolls 4 and 5 are movably mounted, wherein between the work rolls 4 and 5, a working gap S is formed ,

The rolling and / or guide stand 1 has an arrangement 6 for adjusting the working gap S between the work rolls 4 and 5. The arrangement 6 comprises a piston-cylinder unit 7, which is operatively connected to the work roll 4 for adjusting the working gap S. Furthermore, the arrangement 6 comprises a hydraulic device 8 and a magnetorheological hydraulic fluid, wherein the piston-cylinder unit 7 can be acted upon by the hydraulic device 8 with the magnetorheological hydraulic fluid. On the piston-cylinder unit 7 is a device 9 for temporarily generating a magnetic field within one with the magnetorheological hydraulic fluid acted upon portion of the piston-cylinder unit 7.

The hydraulic device 8 comprises a hydraulic pump 10 for pumping the magnetorheological hydraulic fluid and a hydraulic pump 10 downstream of the hydraulic pump 10, electronically controlled hydraulic valve unit 1 1, wherein the hydraulic pump 10 via the hydraulic valve unit 1 1 fluidly connected to the piston-cylinder unit 7 is connectable. The hydraulic valve unit 1 1 is designed for example as a directional control valve.

Furthermore, the arrangement 6 comprises a communication connection 12 communicatively connected to the hydraulic device 8 electronic control and / or regulating device 13 which is adapted to control or regulate the application of the piston-cylinder unit 7 with the magnetorheological hydraulic fluid.

FIG. 2 shows a schematic representation of a further exemplary embodiment of a rolling and / or guiding framework 1 according to the invention. The arrangement 6 of this rolling and / or guide stand 1 differs from the exemplary embodiment shown in FIG. 1 in that the hydraulic device 8 is a hydraulic pump 10 for pumping a primary hydraulic fluid in the form of a hydraulic oil, and an electronically controllable first hydraulic valve unit 14 connected downstream of the hydraulic pump 10 , one of the first hydraulic valve unit 14 downstream pressure transmission means 15, with which a pressure from the primary hydraulic fluid to a secondary magnetorheological hydraulic fluid is transferable, and at least one of the pressure transmission means 15 downstream, electronically controllable second hydraulic valve unit 1 1, wherein the hydraulic pump 10 via the first hydraulic valve unit 14 fluid-conducting with the pressure transmission device 15 and the pressure transmission device 15 via the second hydraulic valve unit 1 1 fluid-conducting with the piston-cylinder unit 7 is connectable. LIST OF REFERENCE NUMBERS

1 rolling and / or guide frame

2 support roller

 3 support roller

 4 stripper

 5 stripper

 6 arrangement

 7 piston-cylinder unit

 8 hydraulic device

 9 device

 10 hydraulic pump

 1 1 hydraulic valve unit

 12 communication connection

13 control and / or regulating device

14 hydraulic valve unit

 15 pressure transmission device S working gap

Claims

claims 1 . Arrangement (6) for setting a working gap (S) between work rolls (4, 5) of a rolling and / or guide stand (1), in particular for a rolling mill, comprising at least one piston-cylinder unit (7), which is used to set the working gap (S). is technically connected to one of the work rolls (4, 5), at least one hydraulic device (8) and at least one hydraulic fluid, wherein the piston-cylinder unit (7) can be acted upon by the hydraulic device (8) with the hydraulic fluid,  characterized,  in that the hydraulic fluid is a magnetorheological hydraulic fluid, wherein at least one device (9) for temporarily generating a magnetic field is arranged on the piston-cylinder unit (7) within a section of the piston-cylinder unit (7) acted upon by the magnetorheological hydraulic fluid. 2. Arrangement (6) according to claim 1, characterized in that the hydraulic device (8) has a fluid-conducting series connection of at least one hydraulic pump (10) for pumping the magnetorheological hydraulic fluid and a second electronically controllable hydraulic valve unit (1 1), wherein the piston-cylinder unit ( 7) is connectable to the second hydraulic valve unit (1 1) such that the hydraulic pump (10) via the hydraulic valve unit (1 1) is fluid-conductively connected to the piston-cylinder unit (7). 3. Arrangement (6) according to claim 2, characterized in that in the hydraulic device (8) between the hydraulic pump (10) and the second hydraulic valve unit (1 1) a series circuit consisting of a first Hydraulic valve unit (14) and a pressure transmission device (15) fluidly connected, wherein by means of the pressure transmission means (15), a pressure from the primary hydraulic fluid to a secondary hydraulic fluid is transferable; and wherein the first hydraulic valve unit (14) preferably between the Hydraulic pump (10) and the pressure transmission device (15) is connected. Arrangement according to claim 3, characterized in that it is the secondary hydraulic fluid to the magnetorheological hydraulic fluid. Arrangement (6) according to one of the preceding claims, characterized by at least one communication technology with the hydraulic device (8) connected electronic control and / or regulating device (13), which for controlling or regulating the action of the piston-cylinder unit (7) with the magnetorheological hydraulic fluid is set up. Rolling and / or guide stand (1), in particular for a rolling mill, characterized by at least one arrangement (6) according to one of claims 1 to 5. Rolling mill, characterized by at least one rolling and / or guiding framework (1) according to claim 6. Method for setting a working gap (S) between work rolls (4, 5) of a rolling and / or guide stand (1), in particular for a rolling mill, wherein the rolling and / or guide stand (1) has at least one piston-cylinder unit (7), which for adjusting the working gap (S) is technically connected to one of the work rolls (4, 5), characterized in that the piston-cylinder unit (7) is acted upon by a magnetorheological hydraulic fluid, wherein within a loaded with the magnetorheological hydraulic fluid portion of the piston-cylinder unit (7) temporarily a magnetic field is produced.