This application is the US-national stage of PCT application PCT/EP2010/004062 filed 6 Jul. 2010, published 13 Jan. 2011 as WO2011/00356, and claiming the priority of German patent application 102009032200.0 itself filed 7 Jul. 2009 and German patent application 102009060640.8 itself filed 28 Dec. 2009.
The invention relates to a cluster arm arrangement for the intermediate roll sets of 18 horizontal-stabilization roll stands, wherein arranged between the chock at the operating side and the chock at the drive side are cluster arms which are pivotable laterally of the intermediate roll and in which the lateral backing rolls for support of the working rolls in the stand are integrated.
In the case of the cassette mode of construction of the intermediate roll sets for 18 HS roll stands, pivotable cluster arms—in which the lateral backing rolls for support of the slender working rolls in the stand are integrated—are arranged between the chock at the operating side and the chock at the drive side to be pivotable laterally of the intermediate roll (inlet side and outlet side). The purpose of the backing rolls integrated in the cluster arms is to prevent warping of the working roll as well as to realize the horizontal offset (HS) of the working roll with respect to the intermediate roll with the help of the support bridge adjustment arranged therebehind.
In the case of a roll change, when with support bridge adjustment into a retracted setting the cluster arms ‘are free’, the cluster arms have to be brought into a defined position and be disposed centrally with respect to the stand and thus position the working rolls on the stand center.
In known constructions the pivot axle, which is fixedly connected with the cluster arm, is led completely through the chocks as far as the outer side thereof and fixed by retaining blocks, so that the axle can rotate in the chocks. Restoring of the cluster arms to the defined ‘center position’ is realized in that the pivot axle, which protrudes through the chock, of the cluster arm presses the cluster arm into the desired position by way of spring packets. This arrangement requires increased effort for the assembly and servicing of the intermediate roll set together with the cluster arms, since removal of the retaining blocks and the spring packets on each occasion of demounting and remounting the retaining blocks and spring packets, as well as setting of the spring packets for establishing the central position of the cluster arms, are necessary in the roll workshop.
In addition, in order to demount the cluster arm the two chocks have to be completely moved apart until the long pivot axle is free.
The object of the invention is to create a cluster arm arrangement which substantially simplifies mounting and maintenance operations.
According to the invention this object is fulfilled by a cluster arm arrangement for the intermediate roll sets of 18 HS rolls stands, wherein arranged between the chock at the operating side and the chock at the drive side are cluster arms which are pivotable laterally of the intermediate roll and in which the lateral support rolls for supporting the working rolls in the stand are integrated, which arrangement is characterized in that a pivot pin, which is fixedly connected with the cluster arm and about the axis of which the cluster arm is pivotable, is arranged between the chock and the cluster arm and that a locking means for the cluster arm as well as an abutment with a restoring spring are operatively arranged on the pivot pin as a compact unit in the region between the cluster arm and chock.
In detail, it is then provided that the pivot pin fixedly connected with the cluster arm co-operates with a locking bar which serves as locking means and which is so constructed that when the locking bar pivotably fastened to the chock is pivoted in, the cluster arm is axially locked with respect to the chock, but nevertheless remains pivotable.
The pivotable locking bar is fixable in the closed state by a fixing screw.
After release of the fixing screw the pivotable locking bar can be pivoted out, wherein the cluster arm is freed so that the chock can be moved out axially.
Moreover, it is provided that an abutment member, which pivots in company with the cluster arm, is fastened to the outer collar of the pivot pin, wherein the pivot movement of the cluster arm outwardly is limited by the locking bar, against which the abutment member is then supported.
According to a further embodiment the pivot movement of the cluster arm in inward direction can be absorbed by a restoring spring, wherein when no forces act from outside on the cluster arm the restoring spring presses the cluster arm back until the abutment member bears against the locking bar.
In the new concept, the locking means of the cluster arms as well as the abutment with the restoring spring are arranged as a compact unit in the region between the cluster arm and chock and, in particular, at each of the two ends.
In that case, two pivot pins are fixedly mounted at the cluster arm instead of the long pivot axle of the cluster arm. This simplifies assembly and servicing operations, because in order to demount the cluster arms the chocks only have to be moved apart by a short stroke.
The pivot pin fixedly connected with the cluster arm is constructed so that when a locking bar pivotably fastened to the chock is pivoted in, the cluster arm is axially locked to the chock, but nevertheless remains pivotable.
The invention shall be explained in the following with reference to the drawings, in which:
The pivot pin 3 is arranged between the chock 1 and the cluster arm 2, the cluster arm 2 being pivotable about the axis of the pivot pin 3.
The pivot pin 3 fixedly connected with the cluster arm 2 is so constructed that when a locking bar 4 pivotably fastened to the chock 1 is pivoted in, the cluster arm 2 is axially locked to the chock 1, but nevertheless remains pivotable.
The pivotable locking bar 4 is fixed in the closed state by a fixing screw 5.
After release of the fixing screw 5 the pivotable locking bar 4 can be pivoted open and frees the cluster arm 2 so that the chock 1 can be moved out axially.
An abutment member 6 which pivots with the cluster arm 2 is fastened to the outer collar of the pivot pin 3. Pivoting of the cluster arm 2 outward is limited by the locking bar 4, against which the abutment member 6 is in that case supported. This position is that which the cluster arm 2 must adopt in the event of a roll change.
Pivoting of the cluster arm 2 inward is resisted by a restoring spring 7. If no forces act on the cluster arm 2 from the outside, the restoring spring 7 presses the cluster arm 2 back until the abutment member 6 bears against the locking bar 4.
Number | Date | Country | Kind |
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10 2009 032 200 | Jul 2009 | DE | national |
10 2009 060 640 | Dec 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/004062 | 7/6/2010 | WO | 00 | 3/8/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/003561 | 1/13/2011 | WO | A |
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Number | Date | Country | |
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20120151982 A1 | Jun 2012 | US |