The invention relates to a rolling mill consisting of at least one horizontal stand and at least one vertical stand which are connected with each other.
During rolling of, e.g., slabs, it is known to provide a vertical stand directly after a horizontal stand in order to reduce the width of a slab. Dependent on a rolling mill, further horizontal and/or vertical stands follow. It is further known to form-and/or forcelockingly connect the horizontal and/or vertical stand. Such a connection serves, on one hand, to minimize vibrations in a rolling mill and, on the other hand, to form a larger base for mounting both stands on a base on which the rolling mill with its horizontal and vertical stands is mounted and secured.
The publication JP 55 144 308 discloses a rolling mill in which in front of and behind a horizontal stand, a vertical stand is, respectively, arranged, and the front and rear vertical stands are connected with the horizontal stand arranged in the middle. JP 55 100 807 discloses connections of vertical stand-horizontal stand-vertical stand, with connection bolts connecting all of the three stands.
Also known are connections with which projections, which are formed on vertical stands engage around retaining wedges provided on the horizontal stands. With the circumferential engagement, clearances are formed in which wedges are inserted in order to connect a vertical stand with the horizontal stand. In another embodiment, the projections of the vertical stands form flange plates which are screwed on the horizontal stands.
During rolling of a rolled stock, a vertical stand can be subjected to a large damage when the rolled stock is fed from the horizontal stand to the closed roll gap of the vertical stand.
The horizontal force, with which a rolling stock is fed to the rolls of the vertical stand, can be calculated based on the roll separating force and the rolling torque of the horizontal stand and on the geometry and material characteristics of the rolled stock. The produced maximal horizontal force is designated as a crash load. In order to prevent any damage to the entire rolling mill or to avert its damage, the crash load should be absorbed in the stands of the horizontal and/or vertical rolling mill stands.
Accordingly, an object of the invention is to provide a connection between at least one horizontal rolling mill stand and at least one vertical rolling mill stand and which can absorb such a crash load and is formed so that it requires little space and is releasable.
According to the invention, the object of the invention is achieved by releasably arranging connection elements between both rolling mill stands, wherein the connection elements each consists of a left flange, a right flange, and a web arranged therebetween.
The embodiments of the invention are recited in subdlaims.
A connection element formed according to the invention provides a slim and light construction. Therefore, separate connection elements can be mounted or secured between the rolling mill stands without a large expenditure of force. Further, the connection elements require very little space, which makes available a free constructional space for other components, in particular for tubing. With the use of the inventive connection elements, a play-free and stress-free connection of the rolling mill stands is obtained. The design of the connection elements, i.e., their dimensioning is effected based on the knowledge of the greatest, always to be considered, horizontal force, so that the crash load can be absorbed by the rolling mill stands, without the crash load passing in the foundation.
Further details of the invention follow from the claims and the following description in which the embodiment of the invention, which is shown very schematically in the drawings, is explained in details. The drawings show:
a side view of a horizontal stand and a connected therewith vertical stand;
The connection elements 7 are provided on the right stand cross-bars 5, 6 of the front and rear rolling stands 3, 4 of the horizontal stand 1 above and below a pitch line 10, respectively. In the embodiment shown in the drawings, the connection elements 7 are screwed with the horizontal stand 1.
As shown in
Number | Date | Country | Kind |
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10351900.9 | Nov 2003 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP04/11666 | 10/15/2004 | WO | 4/7/2006 |