DEVICE AND METHOD FOR TRANSPORTING STRIP MATERIAL, IN PARTICUALR A HOT STRIP

Abstract

The invention relates to a device for producing strip material, in particular hot strip, comprising: lateral guide elements (5) which are arranged on both sides of the strip material (4), in particular along a roller table (1) with several rollers (2), at least one rotating wear body (6) on each side guide element (5).

In order to further minimize the wear of guide elements when transporting hot strip over a roller conveyor, the invention proposes a speed control device (7) for setting a speed of the at least one wear element, a position control device (9) for setting an extended position of the at least one wear element and a positioning drive (13) for extending the at least one wear body to an extended position.

Claims

1. Device A device for transporting strip material, in particular hot strip, comprising: a transport device (1) for transporting the strip material in a predetermined transport direction over a predetermined distance; lateral guide elements (5) arranged on at least one side of the transport device (1); at least one rotating wear body (6) on each lateral guide element (5), the wear body (6) being mounted for rotation about an axis transverse to the transport direction; a rotary drive (13) for rotating the at least one wear body about the axis; and a speed control device (7) for regulating a speed of the at least one wear body to a predetermined target speed, said speed control device configured such that a peripheral speed of the at least one wear body is lower than an advance speed of the strip material on the transport device.

2. The device according to claim 1, further comprising a sensor for sensing an advance speed of the strip material on the roller table, alternatively for sensing a rotation speed of the roller proportional to the advance speed and in which a reference variable of the speed control device is the advance speed or the rotation speed of the roller.

3. The device according to claim 1, in which the speed control device is configured such that a reference variable of the speed control device (7) is a contact time per area with the strip material.

4. The device according to claim 1, wherein a reference variable of the speed control device (7) is a retraction in the strip material.

5. (canceled)

6. The device according to claim 1, wherein the speed control device is configured such that an angular speed of the wear body (6) is in the order of 0.5 to 10 revolutions per minute, preferably in the order of 0.5 to 5 revolutions per minute.

7. The device according to claim 1 further comprising a position control device (9) for regulating an extended position of the at least one wear body (6) to a predetermined target position; and a positioning drive (14) for extending the at least one wear body transversely to the transport direction into the target position.

8. The device according to claim 7, wherein the speed control device is configured such that a reference variable of the position control device is a force with which the at least one wear body (6) is pressed against the strip material on the transport device (1).

9. The device according to claim 7, further comprising a sensor for sensing a lateral position of the strip material (10) and in which a reference variable of the position control device is a target position for the strip material on the transport device.

10. The device according to claim 1, wherein the rotary drive for the at least one wear body is an electric motor.

11. The device according to claim 7, wherein the positioning drive is a hydraulic drive.

12. The device according to claim 1, in which a maintenance prognosis device displays an expected next maintenance date as a function of a previous maintenance date and of events since the previous maintenance date.

13. The device according to claim 1, in which the transport device for the strip material (4) comprises a roller table (1) with rollers (2).

14. A method for transporting strip material, comprising the steps of: transporting the strip material via a transport device (1) with lateral guide elements (5) on at least one side of the transport device over a predetermined distance, rotation of at least one wear body (6) on each lateral guide element (5) around an axis perpendicular to the transport direction with a rotary drive (13), calculation of a target speed or a change in speed to a specific target speed of the at least one wear body (6) by a speed controller device (7), setting the calculated target speed or changing it for the rotary drive (13) wherein a peripheral speed of the at least one wear body is lower than an advance speed of the strip material on the transport device.

15. The method according to claim 14, in which a reference variable of the speed control device is an advance speed of the strip material or the roller speed of rotation of the roller table.

16. The method according to claim 14, wherein a reference variable of the speed control device (7) is a contact time per surface with the strip material.

17. The method according to claim 14, wherein a reference variable of the speed control device (7) is a retraction in the strip material.

18. (canceled)

19. The method according to claim 18, wherein the an angular speed of the wear body (6) is in the order of 0.5 to 10 revolutions per minute, preferably in the order of 0.5 to 5 revolutions per minute.

20. The method according to claim 14 further comprising the steps of regulating an extended position of the at least one wear body (6) to a predetermined target position by a position control device (9) and extending the at least one wear body transversely to the transport direction into the target position by a positioning drive (14).

21. The method according to claim 20, wherein a reference variable of the position control device is a force with which the at least one wear body (6) is pressed against the strip material on the transport device (1).

22. The method according to claim 20, in which a lateral position of the strip material (10) is detected by a sensor and a reference variable of the position control device is a target position for the strip material on the transport device.

23. The method according to claim any one of claim 14, in which a maintenance forecasting device displays an expected next maintenance date as a function of a previous maintenance date and of events since the previous maintenance date.

Description

[0023] Further features and advantages of the invention will become apparent from the following description of preferred embodiments, in which reference is made to the accompanying drawings.

[0024] FIG. 1 shows a plan view of a device for producing and in particular transporting strip material according to an embodiment of the invention.

[0025] FIG. 2 shows the block diagram of a regulation of the rotational speed of the wear bodies according to an embodiment of the invention.

[0026] FIG. 3 shows the embodiment according to FIG. 1 in a perspective view.

[0027] FIG. 4 shows the block diagram of a regulation of the pressure generation for extending the wear bodies according to an embodiment of the invention.

[0028] The drawing is not to scale and in some areas elements are highlighted to emphasize functionality. The same reference symbols are used for identical or identically acting elements, unless stated otherwise.

[0029] FIG. 1 shows a roller table 1 with rollers 2, over which a strip material 4 is transported. The rollers 2 are driven by motors 3, with the strip material being conveyed from left to right in the illustration. It is clear to the skilled person that the invention is not limited to a roller table as a transport device, rather, instead of a roller table for example transfer plates can also be used as a transport device. In the following, however, reference is predominantly made to a roller table without limiting generality.

[0030] In order to prevent the strip material 4 from falling sideways from the roller table 1, the roller table is provided with lateral guide elements 5, which are preferably arranged on both sides of the strip material 4, in particular at the level of the roller table 1 with its multiple rollers 2. As described in the introduction, these lateral guide elements 5 are, however, subject to increased wear. In order to distribute the wear caused by the strip material 4 over a larger area, a plurality of rotating wear bodies 6 is arranged on the lateral guide elements 5 on both sides of the roller table 1. Each of the wear bodies 6 is mounted for rotation about its axis of symmetry extending parallel to the rollers of the roller table and is caused by a rotary drive 13 to undergo rotary movement about its axis of symmetry. Each wear body can have its own rotary drive, or one rotary drive drives several or all of the wear bodies.

[0031] According to the invention, the speed of rotation of the wear body 6 is regulated to a predetermined target speed as a function of the advance speed of the strip material 4 on the roller table 1. For this purpose, the device includes a sensor 8 for sensing the rotational speed of the roller. The output signal of the sensor, which represents the roller speed, serves as a reference variable of a rotation speed control device 7 for the wear body.

[0032] Alternatively, the rotation speed of the wear body 6 is regulated to a predetermined target speed as a function of a contact time per surface with the strip material. In this case, the device includes a sensor, not shown, for sensing the contact time between the wear body and the strip material. The speed of the wear body is selected as a function of this contact time, i.e., the contact time is used as a reference variable for the rotation speed control device.

[0033] In both cases, however, the rotation speed of the wear body is regulated such that the peripheral speed of the wear body is less than or equal to the advance speed of the strip material on the roller table. In particular, an angular speed of the wear bodies in the order of magnitude of 0.5 to 10 revolutions per minute, preferably 0.5 to 5 revolutions per minute, has proven to be optimal.

[0034] The regulation of the rotation speed of the wear bodies is summarized in FIG. 2. The controller 7 reads the output signal of a sensor 8 for the roller speed of the roller table 1 as a reference variable. Depending on the roller speed, the controller 7 sends a manipulated variable signal to a power supply 11 for the rotary drive of the wear body. Depending on the disturbance variable or the actual roller speed of the roller table 1, a change in rotation speed results for the drive of the wear bodies, so that the speed of the wear body is always adapted to the roller speed of the roller table. The rotary drive for the at least one wear body is preferably an electric motor.

[0035] In a further embodiment, the rotation speed of the wear bodies 6 is regulated to a predetermined, preferably reduced target speed as a function of a measured strip tension. When the strip tension falls below a defined threshold value, for example when the strip leaves the last roll stand, the target speed is reduced so that the friction increases the strip tension.

[0036] This regulation can be linked or overlaid with one or both of the aforementioned regulations.

[0037] In addition to the controllable setting of the rotation speed of the wear bodies 4, the lateral position of the strip material 4 on the roller table 1 is also regulated to a predetermined target position. For this purpose, the device includes a position controller 9 for regulating an extended position of the at least one wear body. FIG. 3 shows an embodiment of a roller table 1 with a regulation for the centering of the strip material 4 on the roller table 1. The strip material 4 is centered by the wear bodies 6, which can be extended laterally, i.e., transversely with respect to the transport direction of the strip material 4. Since the strip material 4 rests loosely on the rollers 2, the strip material can easily be moved laterally by extending the wear bodies and, in particular, be centered on the roller table 1. For this purpose, the device has a positioning drive 14 for extending the at least one wear body to an extended position. In one embodiment of the device according to the invention, the reference variable is a force with which the wear body 6 is pressed against the strip material 4 on the roller table 1. By detecting the force, the strip material 4 can be held in a predetermined position on the roller table 1.

[0038] In a preferred, particularly practical embodiment, the at least one wear body is moved into the extended position in operative connection together with the lateral guide elements.

[0039] Alternatively, the positioning controller 9 can read the specification of a lateral position as a reference variable. For this purpose, the device comprises a sensor 10 for sensing a lateral position of the strip material on the roller table.

[0040] Preferably, a hydraulic drive is used as the positioning drive.

[0041] The regulation of the lateral position of the strip material 4 on the roller table 1 is summarized in FIG. 4. The controller 9 determines the hydraulic pressure of a pressure transducer 12 for the hydraulic drive. The pressure transducer 12 thus represents the actuator or the controlled system of the control loop for controlling the position of the rotating wear body 6 transversely with respect to the transport direction of the strip material on the transport device. The pressure transducer 12 takes into account the actual lateral position of the strip on the roller table. Depending on this strip position, the pressure transmitter 12 outputs a correction signal for changing the pressure.

[0042] The controls of the device preferably further include a maintenance prognosis device, not shown, which indicates a probable next maintenance date as a function of a previous maintenance date and events since the previous maintenance date.

[0043] The method according to the invention for transporting strip material is described in more detail below with reference to the figures:

[0044] The method initially provides for the transport of the strip material via the transport device 1 with lateral guide elements 5 on the sides of the transport device. The lateral guide elements are preferably arranged on both sides of the transport device, but at least on one side of the transport device. The strip material is transported on the transport device over a predetermined distance, for example to the reel.

[0045] In order to reduce the wear on the lateral guide elements due to the friction of the strip material, wear bodies 6 are provided on each lateral guide element 5, which wear bodies are rotated about an axis transverse to the transport direction. For this purpose, the wear bodies on the lateral guide element are each provided with a rotary drive 13. The target speed of the rotary drive 13 can be regulated and is specified by the speed control device 7. Instead of specifying the target speed directly, the speed control device 7 can also determine the change in speed that is required to arrive at the setpoint speed. The calculated target speed or the change in the current speed is set at the rotary drive 13.

[0046] The target speed of the wear bodies depends on the advance speed of the strip material on the transport device. When the target speed of the rotary drive 13 is set by the speed control device 7, the advance speed of the strip material or the rotation speed of the roller of the roller table can serve as the reference variable of the speed control device. Alternatively, the contact time per area with the strip material can serve as the reference variable of the speed control device 7. This prevents excessive heating of the wear bodies 6 by the strip material. As a further alternative, the retraction in the strip material can also serve as the reference variable of the speed control device 7. This enables in particular monitoring of the winding quality at the end of the strip on the reel.

[0047] By regulating the target speed of the wear bodies, damage to the strip edge during transport of the strip material can also be minimized. For this purpose, the peripheral speed of the wear body or wear bodies 6 is regulated as a function of the advance speed of the strip material on the transport device 1 in such a manner that the peripheral speed is less than or equal to the advance speed of the strip material on the transport device 1. With the peripheral speed of the wear bodies, which is dependent on the advance speed of the strip material, an angular speed of the wear bodies corresponds to a speed of the order of magnitude of 0.5 to 10 revolutions per minute. The speed is preferably regulated to 0.5 to 5 revolutions per minute.

[0048] Since, according to the invention, the wear bodies 6 can be extended in and opposite to the direction of their axis of rotation, their extended position can be adjusted to a predetermined target position by a position control device 9. The wear body is extended transversely to the transport direction into the target position by the positioning drive 14 of the wear body 6. When regulating the target position of the wear body, the force with which the at least one wear body 6 is pressed against the strip material on the transport device 1 is recorded as the reference variable of the position control device. Alternatively, the lateral position of the strip material 10 can be detected by a sensor, so that a target position for the strip material on the transport device serves as the reference variable for the position control device.

REFERENCE NUMBERS

[0049] 1 Roller table [0050] 2 Roll [0051] 3 Roller drive [0052] 4 Strip material [0053] 5 Lateral guide element [0054] 6 Rotating wear body [0055] 7 Speed controller wear body [0056] 8 Roller speed sensor [0057] 9 Position controller wear body [0058] 10 Sensor target position of strip material [0059] 11 Power supply roller drive [0060] 12 Pressure transducer hydraulic drive [0061] 13 Rotary drive [0062] 14 Positioning drive