DE950843C - Vertical or edging roll stand - Google Patents

Description

Vertical or edging roll stand The present invention relates to on vertical and edging roll stands. Depending on the operating conditions, the Training of these roll stands very different. In some cases it is sufficient if the rollers can only be adjusted to a fixed rolling line and thus to be adjusted against each other only when the cross-section of the rolling stock changes to need.

For this purpose, the scaffolds are usually designed so that the rollers with their bearings are slidably arranged in frames in which also support the adjusting spindles which effect the adjustment of the rollers. By Adjustment of the adjusting spindles, which are possibly geared to one another are, the rollers can be individually or together to the new dimensions of the rolling stock can be set. In many cases, however, the rollers must be vertical or Edging roll stands not only on a fixed rolling line, but when changing the caliber track can also be adjusted to a new rolling line.

Various paths have already been taken to achieve this goal. In several known devices of this type, the rollers are mounted in frames, which can be adjusted independently of one another within narrow limits, so that a job the rollers with respect to other dimensions of the rolling stock is possible. The setting the reels on a new caliber track is only possible by moving the whole thing Scaffolding including the drives possible.

Furthermore, vertical or edging roll stands are known in which a roller firmly in the frame is arranged while the second roller mounted displaceably in the frame of the frame by spindles on the other roll is. A roller always remains in place, so that this arrangement of the rollers not even a quick and easy adjustment to a fixed rolling line allows, because with the slightest change in width of the product to be rolled-every time the whole scaffolding must be moved to the immovable arranged in the frame Align the roll to the new dimensions of the rolling stock. The whole must also Stand can be moved as soon as the caliber track of the rolling mill is changed. This alignment, which becomes necessary again and again with the slightest change However, the roller, which is immovably mounted in the frame, causes long breaks in rolling, is thus extremely uneconomical and also requires the operator a high degree of care.

In short, it can therefore be said. that the known designs either structurally very complex or the requirements of the rolling mill operation with regard to quick alignment of the rolls to new rolling stock dimensions and others Caliber tracks are not up to date.

The aim of the invention is to create a vertical framework whose Rolling with simple means easily and quickly both on a fixed rolling line as well as when changing the caliber track to be aligned with a new rolling line can.

According to the invention, this is a roller bearing housing via tension cheeks connected to a yoke and by a spindle that acts in particular on the yoke can be moved in relation to the base plate, while the other WaL # bearing housing through one or more spindles supported in the yoke can be adjusted relative to the former is, the spindle for the displacement of a roller bearing housing and the Spindle or spindles for the employment of the other roller bearing housing in this way are geared together that by the coordination of the gear ratios and spindle pitches the two roller bearing housings run in opposite directions to a fixed one Rolling line are movable. This arrangement makes special operations for the geared connection of the adjusting spindles assigned to the two rollers avoided. With such a designed gear for the symmetrical adjustment of the rollers With the simplest of means, the rolling stand can also be moved onto a fixed rolling line be carried out transversely to the rolling direction if, according to a further feature of the Invention of both the spindle for the displacement of the ° .inen roller bearing housing as well as the lockers or spindles for the adjustment of the other roller bearing housing releasable, in particular via a clutch that can be operated electrically or by hand are connected to the transmission connecting them. Because that is the spindle for moving one roller bearing housing and the spindle or spindles be actuated together for the adjustment of the other roller bearing housing, let the rollers adjust in the same direction to a fixed rolling line. Will however the coupling between the adjusting spindle or the adjusting spindles and the drive gear solved, then only the roll stand moves while maintaining the one time set roller gap.

Further details of the invention emerge from the drawing, which shows an edging frame 'as an exemplary embodiment. FIG. I shows a section in the roller plane, Fig. 2 shows a section A-A in Fig. 1, Fig. 3 shows a section B-B in Figures i and q. a section C-C also in Fig. i.

With i and: 2 the rollers are designated, together with their bearings in one of the roller bearings = housing 3 and q. are used. The roller bearing housings 3 and q. are used in the roller mills 5 and 6, so that they can be expanded upwards are. The roller bearing housings 3 and q. are in the roller mills 5 and 6 by means the clamps 7 held. The roller frame 5 carrying the roller bearing housing 3 is over the drawbars. 8 and 9 connected to the yoke io. The the roller bearing housing q. load-bearing roller frame 6 is slidably guided between the tension cheeks 8 and 9. The roller frame 6 is supported against the spindles i i inserted into the yoke io and 12 from, so that the rollers i and 2 by means of the spindles i i and 12 against each other can be employed. The roller mill 6 is provided with tie rods 13 which via springs 14 against the cross members attached to the spindles i i and iz 15 and remove both the thread play and the roller frame 6 in keep constant contact with the end faces 16 and 17 of the spindles i i and 12, so that they do not need to be weakened by any indentations on their front ends.

In the yoke io a spindle 18 is also used, which over the thrust bearing i9 is supported against the base plate 2o. The spindles 11, 12 and 18 are connected to one another by the transmission 21. The spindles i i and 12 are assigned clutches 22, through which the connection i i and 12 with the transmission can be canceled. Should the rollers i and 2 be set against one another when the clutches 22 are engaged, the spindles i i and 12 become common actuated with the spindle 8 via the gear 21. The pitches of the threaded spindles 11, 12 and 18 and the translations of the gears of the gearbox 21 are so on top of one another matched that the rollers i and 2 run in opposite directions to a fixed roller line move. If rollers i and 2 are to be set up on a different roller line, so the couplings 22 are released and thus the connection of the spindles i i and 12 with the gear 21 canceled. So it just becomes the spindle 18 actuated, through which the roll stand is then moved transversely to the rolling direction, without the set gap between rollers i and 2 changing. As well as when hiring the rollers as well when moving the roll stand also move the spindles i i and 12, which are therefore non-rotatable, but longitudinally inserted displaceably into the hollow output shafts 23 @ and 24 of the gearbox 21 are. In order to enable the roll stand to be moved, the tie bars 8 and 9 placed on the base plate 2o so as to be displaceable transversely to the rolling direction. The cheeks 8 and 9 are based on the sliding surfaces 25 of the base plate 20. Furthermore, are wedge-shaped strips 26 embedded in the base plate 2o to guide the tension cheeks 8 and 9, which engage in correspondingly wedge-shaped grooves 27 of the tension cheeks 8 and 9. To a To achieve play-free leadership and jamming of the tension cheeks 8 and 9 in their To switch off guides as much as possible, the guide strips 26 are assigned to Fcdern 28, which keep the guide strips in constant play-free contact in the grooves 27.

Rollers i and 2 are driven via spindle 29, bevel gear pairs 30 and the gear pairs made up of wheels 31 and 32, with the one bevel gear of the bevel gear pair 3o assigned to roller 2 being non-rotatable but displaceable on spindle 29. The roller mills 4 and 5 are designed so that they also serve as a housing for the gear wheels associated with the rollers. In each case the last gear wheel 32 is designed as a ring gear with a profiled bore. The rollers i and 2 are provided with a correspondingly profiled pin 33 and inserted with this pin 33 into the bores of the gear wheels 32, whereby the easy replacement of the rollers i and 2 including the roller bearing housing is ensured.

The invention can not only apply to vertical and edging stands, but can also be used with propellants.

Claims (7)

PATENT CLAIMS: i. Vertical or edging roll stand with one on the base plate slidable frame, in which one roller bearing housing is fixed and the other roller bearing housing compared to the former by being supported in the frame motor-driven spindles is arranged displaceably, characterized in that that in geared connection with the movably arranged roller bearing housing in the frame (4) adjusting spindles (11, 12) one in a known manner against the Spindle (18) supporting the base plate (20) is provided for adjusting the frame is, where the translation of the gear connection and the pitch of the spindles (i i, 12, 18) is chosen so that @, the roller bearing housings (3, 4) evenly counter-rotating are movable to a fixed rolling line (C-C). 2. Vertical or edging mill stand according to claim i, characterized in that both the spindle (18) for the displacement of a roller bearing housing (3) as well as the spindle (i i, 12) or spindles for the employment of the other roller bearing housing (4) releasably, in particular via a electrically or by hand 'to be operated clutch (22) with the connecting them Gear (21) are connected. 3. Vertical or edging stand according to claim i or 2, characterized in that one roller bearing housing (3) has tension cheeks (8, 9) connected to a yoke (io) and in particular to the yoke (io) attacking spindle (18) relative to the base plate (2o) can be moved, while the other roller bearing housing (4) by a spindle supported in the yoke (io) (11, 12) or more can be employed against the former. 4. Vertical or edging mill stand according to one of the preceding claims, characterized in that on the tension cheeks (8, 9) for the sliding roller bearing housing (4) two parallel guides (25 " 27) are provided, one of which is rigid and the second as against the pressure of springs (2 $) or similar movable guide bar (26) provided with inclined wedge surfaces is trained. 5. Vertical or edging mill according to one of the preceding Claims, characterized in that the two roller bearing housings (3, 4) light are detachably inserted into a roller frame (5, 6) and instead of the roller bearing housing (3, 4) of a roller frame (5) is connected to the tension cheeks, while on the other roller frame (6) the adjusting spindles (i 1, 12). act. 6. Vertical or Upsetting mill stand according to claim 5, characterized in that the roller mills (5, 6) take up the gears (30, 31, 32, 33) assigned to the rollers (1, 2). 7. vertical or edging roll stand according to claim 6, characterized in that the roller (i or 2) with a profiled pin (33) in a corresponding bore is detachably inserted into the roller frame (5 or 6) with the roller bearing housing (3 or 4) of the last gear wheel (32) engages. Documents considered: German Patent No. 886 584; U.S. Patent Nos. 746: 228, 664645 2 047 509, 2 oii 686, 2 o16 o16, 2 1 95 502, 2 183388.