The present application is a 35 U.S.C. §§371 National Phase conversion of PCT/EP2013/062097, filed Jun. 12, 2013, which claims priority of European Patent Application No. 12172560.0, filed Jun. 19, 2012, the contents of which are incorporated by reference herein. The PCT International Application was published in the German language.
The present invention relates to a strip deflection device for deflecting strips, in particular metal strips, at an angle. The strip deflection device comprises a deflection cylinder around which the strip can be deflected while maintaining the strip tension, wherein the strip is supported by means of rolling elements which are arranged on the deflection cylinder along a helical wrap surface and form bearing faces of equal height.
In the industrial treatment of strips the individual processing stations are frequently accommodated in different production halls, which are arranged at an angle or laterally transposed to one another. The direction of the strip run in a process train then has to be altered for production technology reasons, and often the top and bottom of a strip are inverted.
Various devices are known for deflecting strips. For example, DE 29 482 90 A1 describes guiding a strip over a deflection cylinder which is provided with rollers. A spiral-shaped deflection is known from JP 55 080641 A.
An angular deflection and/or reorientation of the strip surfaces, in which the inside or outside of a strip can optionally be fed to a subsequent process step as a “go side” is also often required in the case of process trains for metal strips.
In the metal industry various apparatuses are known for angular deflection, for example specially designed deflection stations. To reorient the surfaces of a strip it is known to alternately pay out the strip from the top or the bottom in the infeed section of the installation. Another possibility is to alternately wind up from the top or the bottom in the outfeed section of the installation. A third possibility may also comprise winding a strip round a special installation. All these measures are associated with considerable technical effort.
The object of the invention is to specify a strip deflection device and a method for deflecting the strip which requires less technical effort.
According to a basic principle of the invention, rollers with a different angulation are used on the circumferential side of a deflection cylinder: on one half-shell the rollers are arranged on the left hand, and on the other on the right hand. Depending on the direction of the intake strip, the rollers of one or the other half-shell act as bearing faces for the strip. The deflection device is thus characterized in that the deflection cylinder can be adjusted between a first operating position and a second operating position, wherein each operating position is respectively assigned an arrangement of the rollers, and wherein the rollers of an arrangement are oriented with an angulation that corresponds to the helical wrap. Depending on production engineering circumstances a strip, which comes alternatively from two infeed directions oriented opposite one another, can thereby easily be deflected in each case by a deflection angle, for example by 90°.
To further explain the invention, reference is made in the following part of the description to drawings, from which further advantageous embodiments, details and developments of the invention can be taken on the basis of non-restrictive exemplary embodiments.
In the drawings:
As already stated in the introduction, the infeed direction 14 and the desired outfeed direction 15 are determined by the topology of the individual processing stations in a production hall. The object can consist in diverting, at an angle, a strip 2 fed in in accordance with an infeed direction 14 and simultaneously also effecting a reorientation of the strip 2, in other words inverting the top O of the strip and the bottom U of the strip. Another object can consist in diverting, at an angle, a strip 2 fed in in accordance with the infeed direction 14, without simultaneously effecting a reorientation of the strip 2, in other words the infeed-side strip surface also remains as the outfeed-side strip surface. In the latter case another roller, the deflection roller 6 illustrated in
In the next two illustrations in
Since the angulation of the rollers 20 in each roller cassette 10, 11 is oriented in each case in accordance with the direction of rotation of the respective wrap, there are no differences on the wrap face in the speed between deflection cylinder 3 and strip 2, so that scratches and other damage to the surface of the strip 2 are prevented.
The helical wrap of the deflection cylinder 3 in
To switch operating modes the continuous strip is initially separated from the deflection cylinder 3. The deflection cylinder 3 is then pivoted and the strip 2 is re-threaded. Switching the strip deflection device 1 between the first and the second operating position 31, 32 is explained once again below on the basis of a comparison (the strip 2 is shown transparently in
First Operating Position 31 of the Deflection Cylinder 3 (
To deflect the strip 2 fed in from the left by a deflection angle 7 of 90°, the deflection cylinder 3 is in a first operating position 31. Here the first arrangement 10 of the rollers 20 provides bearing faces for the right-hand wrap. The second arrangement 11 of the rollers 20 is on the other half-shell and is not in use.
Second Operating Position 32 of the Deflection Cylinder 3 (
To deflect the strip 2 fed in from the left (see
The arrangement of the deflection cylinder 3 and the deflection roller 6 is selected such that the strip running plane is the same in both operating positions after leaving the strip deflection device 1.
Switching between the first operating position 31 and the second operating position 32 is effected as already stated in the present example by a carousel 16 which is supported on rollers in a guideway on the floor (foundation) 19 of a production hall. The carousel 16 can be driven by chains or by a gear unit or in another way. By means of the carousel 16 the deflection cylinder 3 can be pivoted back and forth in a horizontal plane by a pivot angle of for example 90°. The pivot axis 5 here runs in the intersection between the axis 4 of the deflection cylinder 3 and the central axis 17 of the outfeed strand 22. This means the axis 17 of the outfeed strand 22 is identical for both operating positions 31 and 32.
For production engineering reasons it is expedient to combine the rollers 20 in common subassemblies. Thus the right-hand rollers 20 are accommodated in right-hand roller cassettes with a right-hand orientation 10, while left-hand rollers 20 are accommodated in left-hand roller cassettes with a left-hand orientation 11.
In each roller cassette 10 the rollers 20 are oriented parallel to one another and in the direction of the right-hand helix. Each roller cassette 10 is assigned an attachment face on the cylinder sleeve face. A roller cassette 10 is attached to the cylinder 3 by screws. This means the roller cassettes 10 can easily be exchanged. The roller cassettes 10 can however also be detachably attached to the cylinder sleeve face in another way.
The same applies for the roller cassettes 11 on which the rollers 20 are oriented in the direction of a left-hand helix.
As is illustrated in
However, the wrap of the strip 2 extends from the top vertex 25 of the deflection cylinder 3 (“12 o'clock”) to its bottom vertex 24 (“6 o'clock”). Therefore when the operating position is switched from 31 to 32 and vice versa the orientation of the rollers 20 at the vertices 24 and 25 must also be switched. This can be done by undoing the attachment and exchanging the roller cassettes. Another option is to use a rotatable pivot cassette 12 on the top and bottom vertex 24, 25 of the deflection cylinder 3.
Here the rollers 20 are accommodated in a roller cassette 12 which is mounted so as to rotate about its axis of rotation 13. The axis of rotation 13 is parallel to the cylinder axis 4. By rotating the pivot cassette 12 by 180 degrees the orientation of the rollers 20 is switched from right-hand to left-hand or vice versa.
A crucial advantage of the invention is that the machines of the prior art, which are complex in terms of mechanics and control engineering, are no longer required for switching the top and bottom of the strip. In particular, when a coupling of two lines is retrofitted, it is possible to switch the top O of the strip and the bottom U of the strip using simple means.
Arranging the rollers 20 in cassettes has the advantage that the orientation of the rollers can easily be changed by switching the cassettes.
In the vertices 24 and 25 the orientation of the rollers 20 can be changed thanks to the symmetrical structure of the pivot cassette 12 by rotating them about their longitudinal axis 13 by 180°.
The arrangement of deflection cylinder 3 and deflection roller 6 may differ depending on local circumstances and requirements.
In
Although the invention has been illustrated and described in greater detail on the basis of the preferred exemplary embodiments explained above, the invention is not limited by the disclosed examples and other variations can be derived herefrom by the person skilled in the art without departing from the scope of protection of the invention.
Thus as described, the strip 2 runs from above via the deflection roller 6 and from above via the deflection cylinder 3. In a different arrangement of deflection roller 6 and deflection cylinder 3 it is also possible to guide the strip 2 from below via the deflection roller 6 and from below via the deflection cylinder 3 (
Thus for example the deflection cylinder 3 arranged as torsionally rigid in the above example can also be rotatably mounted.
The rollers 20 can be designed differently, for example have a cylindrical running surface, or else can be shaped like a barrel.
The deflection angle 7 is of course not restricted to 90°, but can be a different value.
Differently shaped roller bars can also be used instead of the roller cassettes 10, 11 or 12. Apart from in the vertices 24 and 25 the supports of the rollers 20 can also be fixedly attached to the circumference of the deflection cylinder 3.
The mounting of the individual rollers 20 should essentially be free-moving.
Although the axes of the rollers 20 lie parallel on a roller cassette, they are offset.
Number | Date | Country | Kind |
---|---|---|---|
12172560 | Jun 2012 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2013/062097 | 6/12/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2013/189792 | 12/27/2013 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
7213785 | Richert et al. | May 2007 | B2 |
Number | Date | Country |
---|---|---|
10 90 621 | Oct 1960 | DE |
29 48 290 | Jun 1981 | DE |
55-80641 | Jun 1980 | JP |
S57-180550 | Nov 1982 | JP |
58-135049 | Aug 1983 | JP |
60-148623 | Aug 1985 | JP |
2001-302048 | Oct 2001 | JP |
100 869 266 | Nov 2008 | KR |
Entry |
---|
Chinese Office Action, dated Oct. 27, 2015, issued in corresponding Chinese Patent Application No. 201380032383.4. Including English translation. Total 22 pages. |
International Search Report dated Sep. 25, 2013 issued in corresponding International patent application No. PCT/EP2013/062097. |
Written Opinion dated Sep. 25, 2013 issued in corresponding International patent application No. PCT/EP2013/062097. |
Number | Date | Country | |
---|---|---|---|
20150122865 A1 | May 2015 | US |