DEVICE FOR COATING A METAL STRIP WITH SEPARATELY MOVABLE ELECTROMAGNETIC STABILIZING DEVICE AND BLOWING DEVICE

Abstract

A device for coating a metal strip with a liquid coating material comprises a coating container filled with, for example, liquid zinc. After the metal strip exits the coating container, liquid coating material adheres to the metal strip. Excess coating material is blown away from the surface of the metal strip by a blowing device. Thereafter, the metal strip runs through an electromagnetic stabilization device which is supported on the blowing device. Disturbing influences may cause the metal strip to no longer run centrally through a slot of the blowing device. A displacement or re-alignment of the blowing device is then required to guide the metal strip back to the set middle position. A first displacing device displaces the electromagnetic stabilization device relative to the blowing device in the plane transverse to the direction of transport of the metal strip to avoid an undesirable displacement of the electromagnetic stabilization device.

Claims

1.-14. (canceled)

15. A device (100) for coating a metal strip (200), comprising: a coating container (110) filled with a liquid coating material (300) for coating a surface of the metal strip (200) as the metal strip (200) passes through the coating container (110); a blowing device (120) arranged above the coating container (110) for blowing excess parts of the liquid coating material (300) off the surface of the metal strip (200) as the metal strip (200) passes through a slot (122) of the blowing device (120); an electromagnetic stabilizing device (140) for stabilizing the metal strip (200), the electromagnetic stabilizing device (140) being arranged above the blowing device (120) and supported by the blowing device (120); and a first displacing device (160) arranged between the blowing device (120) and the electromagnetic stabilizing device (140) for displacing the electromagnetic stabilizing device (140) relative to the blowing device (120); a control device (170) operatively connected to the first displacing device (160) for controlling the first displacing device (160); a second displacing device (130) for displacing the blowing device (120); a regulating device (180) operatively connected to the second displacing device (130); and a first detecting device (154) for detecting an actual position of the metal strip (200) or a deviation of an actual position of the metal strip (200) from a predetermined target center position in the slot (122) of the blowing device (120), the first detecting device (154) being operatively connected to the regulating device (180); wherein the regulating device (180) is configured to displace the blowing device (120) so that the metal strip (200) maintains a target center position within the slot (122), wherein the regulating device (180) displaces the blowing device (120) in response to the actual position of the metal strip (200) or the deviation of the actual position of the metal strip (200) from a predetermined target center position in the slot (122) detected by the first detecting device (154), and wherein the control device (170) is configured to move the electromagnetic stabilizing device (140) and compensate for the displacement of the blowing device (120).

16. The device (100) for coating a metal strip (200) according to claim 15, wherein the first detecting device (154) is operatively connected to the control device (170), and wherein the control device (170) is configured to move the electromagnetic stabilizing device (140) in response to the detected deviation of the actual position of the metal strip (200) from the predetermined target center position in the slot (122) of the blowing device (120).

17. The device (100) for coating a metal strip (200) according to claim 15, further comprising a second detecting device (155) for detecting a displacement of the blowing device (120) relative to a pass line reference position, the pass line reference position being defined by fixed positions of a first deflecting roller arranged within the coating container and a second deflecting roller arranged above the stabilizing device, wherein the control device (170) is configured to move the electromagnetic stabilizing device (140) in opposite direction to the displacement of the blowing device relative to the pass line reference position detected by the second detecting device (155).

18. The device (100) according to claim 17, further comprising a human machine interface (HMI) configured to visualize the detected deviation of the blowing device (120) from the pass line reference position.

19. The device (100) for coating a metal strip (200) according to claim 15, further comprising a third detecting device (145) for detecting a deviation of an actual position of the metal strip (200) from a predetermined target center position in a slot (142) of the electromagnetic stabilizing device (140), the further detecting device (145) being operatively connected to the control device (170), wherein the control device (170) is configured to move the electromagnetic stabilizing device (140) in response to the deviation of the actual position of the metal strip (200) from the predetermined target center position in the slot (142) of the electromagnetic stabilizing device (140) detected by the third detecting device (145).

20. The device (100) according to claim 15, further comprising a human machine interface (HMI) configured to visualize the detected deviation of the actual position of the metal strip (200) from the target center position in the slot (122, 142) of the blowing device (120).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] Accompanying the invention are three figures, in which:

[0018] FIG. 1 shows the device according to the invention; and

[0019] FIGS. 2 and 3 show plan views of the slot of a blowing device or the electromagnetic stabilizing device each with marking of the target center position and different desired actual positions of the metal strip.

DETAILED DESCRIPTION

[0020] The invention is described in detail in the following in the form of embodiments with reference to the mentioned figures. The same technical elements are denoted by the same reference numerals in all figures.

[0021] FIG. 1 shows the device 100 according to the invention for coating a metal strip 200 with a liquid coating material 300, for example zinc. For this purpose, the initially still uncoated metal strip 200 is fed in transport direction R in a coating container 110 filled with the liquid coating material. Within the coating container 110 the metal strip 200 is deflected with the help of a deflecting roller so that it leaves the coating container at the top. After the transit through the coating container, the still liquid coating material adheres to the metal strip 200.

[0022] Arranged above the coating container 110 is a blowing device 120 which spans a slot 122 through which the metal strip 200 is guided. Excess coating material is blown off the surface of the metal strip 200 with the help of the blowing device.

[0023] In order that blowing onto the upper side and lower side of the metal strip 200 takes place uniformly it is important that the metal strip 200 runs through the slot 122 of the blowing device 120 in a predetermined target center position 128, as symbolized in FIG. 2 in the form of the solid line in X direction. This target center position is distinguished by, in particular, uniform spacings or spacing distributions from the inner edges of the slot 122 of the blowing device 120. Possible undesired actual positions of the metal strip are also drawn, as dashed lines, in FIG. 2 near the desired predetermined target center position. Undesired actual positions for the metal strip are thus present, for example, if it is twisted relative to the target center position or shifted parallelly in Y direction.

[0024] FIG. 3 shows a third possible undesired actual position, in which the metal strip 200 is parallelly shifted in X direction, i.e., in width direction, relative to the target center position.

[0025] With further reference to FIG. 1 there can be seen above the blowing device 120 an electromagnetic stabilizing device 140 which in turn has a slot 142 through which the metal strip 200 is similarly guided. It is also the case here that the metal strip 200 runs through the slot 142 preferably in a predetermined target center position 128, as shown in FIGS. 2 and 3, so that the forces provided by the electromagnetic stabilizing device 140 can have a stabilizing action in desired manner uniformly on the metal strip 200. The same applies to the slot 142 and the center position, which is also desired thereat, as beforehand with reference to FIGS. 2 and 3 for the slot 122 of the blowing device 120.

[0026] The electromagnetic stabilizing device 140 is mechanically supported on the blowing device 120. However, according to the invention this support is not carried out rigidly, but by way of a first displacing device 160 provided between the blowing device 120 and the electromagnetic stabilizing device 140. In concrete terms, the first displacing device 160 enables displacement of the electromagnetic stabilizing device 140 relative to the blowing device in a plane transverse to the transport direction R of the metal strip. The displacing device 160 is controlled with the help of a control device 170.

[0027] In addition, a first detecting device 154 for detecting a deviation of the actual position of the metal strip 200 from a predetermined target center position in the slot 122 of the blowing device 120 is arranged between the stabilizing device 140 and the blowing device 120. Alternatively, the first detecting device 154 can also be constructed only for detection of the actual position of the metal strip. Moreover, a regulating device 180 is provided for regulating the actual position of the metal strip 200 to a predetermined target center position in the slot 122 of the blowing device, as explained above with reference to FIGS. 2 and 3, through displacement of the blowing device 120 with the help of a second blowing device 130. The regulation is carried out in response to the detected deviation. If determination of the deviation of the actual position from the target center position does not take place in the first detecting device 154, it can also be undertaken, for example, within the regulating device 180. The displacement is carried out in a plane transverse to the transport direction R of the metal strip as a function of the detected deviation of the actual position of the metal strip from the predetermined target center position in the slot 122 of the blowing device. In other words, if it is ascertained that the metal strip 200 does not run through the slot 122 in the target center position 128, then the blowing device 120 is so displaced with the help of the second displacing device 130 that the metal strip again runs through the slot 122 of the blowing device in the predetermined target center position 128. For that purpose, the first detecting device 154 is constructed so that it can preferably detect all three actual positions of the metal strip 200 deviating from the target center position 128 as described above with reference to FIGS. 2 and 3.

[0028] The said displacement of the blowing device 120 does not have to have an effect on the electromagnetic stabilizing device 140, which is supported on the blowing device 120. For that purpose, the control device 170 is constructed to control the first displacing device 160 in such a way that the electromagnetic stabilizing device 140 in the case of a displacement of the blowing device 120 relative to a pass line reference position is not moved therewith but can remain at its original location. The control device 170 accordingly acts in such a way on the first displacing device 160 that in the case of a displacement of the blowing device 120 the electrical stabilizing device 140 preferably makes precisely the opposite movement to the blowing device 120, i.e., as a result preferably remains at its original location.

[0029] In order to realize this special form of control for the first displacing device 160 the control device 170 can evaluate different situations. On the one hand, the control device 170 can be constructed to perform displacement of the electromagnetic stabilizing device 140 as a function of the deviation, which is detected by the first detecting device 154, of the actual position of the metal strip from the predetermined target center position of the metal strip in the slot 122 of the blowing device 120.

[0030] Alternatively or additionally, the control device 170 can be constructed to perform the displacement of the electromagnetic stabilizing device as a function of and in opposite direction to the displacement, which is detected by a second detecting device 155, of the blowing device 120.

[0031] Finally, according to a further alternative or additionally the control device 170 can be constructed to cause displacement of the electromagnetic stabilizing device 140 as a function of a detected deviation of the actual position of the metal strip from a predetermined target center position in the slot 142 of the electromagnetic stabilizing device. A precondition for that is that a third detecting device 145 is present for detecting the said deviation of the actual position of the metal strip from the predetermined target center position in the slot 142 of the electromagnetic stabilizing device 140.

[0032] The first, second and third detecting devices 154, 155, 145 are constructed to preferably recognize all conceivable deviations of an actual position of the metal strip from the desired target center position. Amongst those is, in particular, a (parallel) shifting of the metal strip in X or Y direction or a rotation such as explained above with reference to FIGS. 2 and 3. Accordingly, the first and second displacing devices 130, 160—in the case of suitable control by the regulating device 180 or the control device 170—are constructed to move the blowing device 120 and the electromagnetic stabilizing device 140 in a desired manner in a plane transverse to the transport direction R of the metal strip, particularly to shift (parallelly) or to rotate so as to realize running-through of the metal strip in the target center position. To that extent, the illustration of the first and second displacing devices 160, 130 as a carriage or piston-cylinder unit is in each instance merely exemplifying, but not limiting.

[0033] The first and third detecting devices 154, 145 as well as optionally also the second detecting device 155 can be realized in the form of a single sensor device 150, which, for example, is constructed in confocal manner or is laser assisted. To that extent, the sensor device—also termed ‘laser’ for short—forms a constructional unit for the mentioned detecting devices. The sensor device 150 can also be generally termed spacing detection device.

REFERENCE NUMERAL LIST

[0034] 100 device [0035] 110 coating container [0036] 120 blowing device [0037] 122 slot of the blowing device [0038] 128 target center position of the metal strip in the blowing device or the electromagnetic stabilizing device [0039] 130 second displacing device [0040] 140 electromagnetic stabilizing device [0041] 142 slot of the electromagnetic stabilizing device [0042] 145 third detecting device [0043] 150 sensor device [0044] 154 first detecting device [0045] 155 second detecting device [0046] 160 first displacing device [0047] 170 control device [0048] 180 regulating device [0049] 200 metal strip [0050] 300 coating material [0051] R transport direction of the metal strip [0052] X width direction of the metal strip in target center position [0053] Y direction transverse to the plane spanned by the metal strip