DE1050290B - Adjusting device consisting of a nut and a spindle, especially for chocks in rolling mills - Google Patents

Description

German

The invention deals with the problem of adjusting the rollers mounted in chocks in Rolling mills in which the chocks are pretensioned, if necessary, guided through them Tie rods with external nuts and height-adjustable spacers between them are connected or braced. Such rolling mills are referred to as statorless rolling mills. In general terms, the invention is applicable wherever opposing parts, in the are connected to one another in the manner described above, changed in their distance from one another, d. H. employed should be. However, the following explanations deal with the preferred field of application of the Rolling mills.

An adjusting device for statorless rolling mills is known in which a coarse adjustment by moving wedge-shaped spacers between the chocks and making fine adjustments caused by turning bearing bushes with an eccentric bore for the roll neck will. If you operate the coarse setting, the outer nuts of the tie rods must be loosened beforehand and later be tightened again, a measure that is only carried out during assembly or disassembly can. This means that the fine adjustment should be given the largest possible adjustment range. The eccentricity of the bores in the rotatable bearing bushes is great, which is because of the Space at the expense of the diameter of the heavily loaded bearing journals. On the other hand, needs there is no weight compensation for the top roller in the adjustment device described above.

It is also an adjusting device consisting of a nut and spindle for rolling mills without a stand known, in which the sleeve-like outer nuts of the tie rods serve as adjusting nuts. In in this case there is a weight compensation or a hydraulic spreading device between the chocks provided because the nuts alone can only make an adjustment in one direction. If the tie rods are to be prestressed, the prestressing force must be applied by the spreading device will. The spreading device can in this respect also be carried out with the known ones located between the chocks and are equated with height-adjustable spacers.

The aim of the invention is to create an adjusting device consisting of a nut and spindle for the chocks of statorless rolling mills or other parts with variable spacing, in which the hydraulic spreading device is replaced by rigid spacers and the change in the spacers is simultaneously on off a nut and a spindle

existing adjustment device,

especially for chocks

in rolling mills

Applicant:

Moeller & Neumann GmbH,
St. Ingbert / Saar, Ensheimer Str. 48

Karl Neumann, St. Ingbert / Saar,
has been named as the inventor

affects the height of the pressure nuts on the tie rods, so that the adjustment to be made with each employment Always keep chocks clamped between rigid parts.

This object is achieved according to the invention in that the spacers from one of the tie rods encompassing, on the one part supported threaded ring bolt and one cooperating with this annular, supported on the other part of the threaded nut, each of which one of these threaded parts rotatable and the other non-rotatable fixed to one of the parts to be adjusted is connected, and that a drive is derived from the drive for rotating a threaded part, which the Pressure nuts on the parts to be adjusted are adjusted to the extent and in the direction, how the parts to be adjusted move.

A particularly simple way, a gear connection between the rotatable threaded parts between To produce the chocks and the pressure nuts of the tie rods, consists in accordance with the further Invention in using the tie rods for this, d. H. the derived rotary drive through the tie rod to form by being rotatable, whereby the pressure nuts of the part to be adjusted can be fixed, in order to obtain a screwing movement between the tie rod and the pressure nut.

809 749/150

Claims (1)

If the tie rods are very strongly pre-tensioned, the surface pressure in the threaded parts of the adjusting device is so high that adjustment movements are no longer possible or only possible with a very strong rotary drive. It is then advisable to relax the tie rods while adjusting the adjustment parts. The hydraulic device described below for releasing and tensioning tie rods is not subject to protection. In the drawing, an embodiment of the invention is shown, namely the example relates to a standless, prestressed double roll stand with chocks 1 and 2 and a rotary drive for the adjusting device located between the chocks. The chocks 1, 2 are drilled through and connected to one another by means of tie rods 3 and external or compression nuts 4, 5. The adjustable spacers are represented by a threaded ring bolt 7 a, which is part of a worm wheel 7 driven by the worm 6, and by an annular threaded nut 8. The ring bolt la or worm wheel 7 is rotatably supported on the chock 2, the ring nut 8 is non-rotatably connected to the chock 1. The tie rod 3 is rotatably connected to the worm wheel 7 via the wedge 9. The tie rod 3 can move in the worm wheel 7 in the longitudinal direction. If the aforementioned parts are now assembled and the nuts 4 and 5 are screwed so far onto the tie rod 3 that there is no play between the chocks 1 and 2 and the nuts, but also no preload, at a certain total height of the adjusting device 6, 7 and 8 determine the distance between the two chocks 1 and 2. If the thread of the nut 8 has the same pitch as the thread of the nut 4, the nut 4 is prevented from turning by means of the bolt 4 a, but the nut 5 can turn around with the tie rod 3, then - when the worm 6 is rotated - ■ the chock 1 raised or lowered depending on the direction of rotation. The adjustment force on the screw 6 corresponds to the weights to be lifted and the frictional moments that occur. The chock 2 remains in its position. But if the nut 4 and the nut 5 are prevented from rotating and the thread pitch of the nuts 4 and 5 is half as large as the thread pitch of the nut 8, if furthermore the nuts 4 and 5 have opposing threads, then - if the worm 6 is rotated - both chocks approach or remove each other by the same amount, based on the center plane of the nip. For this purpose, the scaffolding rests on the lower floor surfaces of the tie rods 3 on the foundation. In general, it will be sufficient to raise and lower the chock 1 zn. But there are also rolling mills where it is desirable that the height of the roll center, once established, remains. It is then more advantageous to make the chocks 1 and 2 movable in the manner described above. In order to easily cause a bias of the tie rod 3 and to be able to easily cancel before actuating the adjusting device, z. B. the tie rods hollow, d. H. designed as tubes which are closed at the upper end by the closure piece 10 and the cover 11 and at the lower end by the closure piece 12 and the cover 13. In the closure piece 10 sits a multiplier consisting of a piston 14 and a plunger 15 and a preload spring 16 located behind the piston, which generates a moderate preload pressure. In the closure piece 12 there is a check valve 17 which, in the example, is closed by a very strong spring 18. The training and function of this tie rod is not the subject of the invention. If a pressure medium is applied to the piston of the multiplier through the opening of the cover 11, this pressure is multiplied in the ratio of the piston diameter 14 to the diameter of the small plunger 15 and acts on the liquid in the tube. A high tension is generated in the pipe and under the influence of this tension the pipe elongates. There is play between the upper edge of the chock 1 and the lower edge of the nut 4 or between the lower edge of the chock 2 and the upper edge of the nut 5 or between the two nuts and the two chocks. One of the two nuts is then tightened without play. If the pressure is now removed from the multiplier, the pipe 3 wants to contract and the parts 1, 2, 3, 4, 5, 7 and 8 are under strong pretension. The screw 6 cannot be rotated under this pretension because the moments to be applied are too great for a practically usable design. Rolling takes place with this preload. If the center-to-center distance between the two rollers - be it due to caliber wear or through caliber correction - is to be changed, pressure is applied to the piston 14 again, the tube 3 elongates and all parts that are under tension with one another are tension-free. It is now easy to turn the screw 6 and thereby change the center-to-center distance between the two rollers. When the new desired center-to-center distance is reached, the pressure medium that is above the piston 14 is removed, the tube contracts and all parts are again under strong pretension. It is within the scope of the invention to make the nut 8 rotatable and to set the eyebolt 7 a. Patent claims: 1. An adjusting device consisting of a nut and a spindle for mutually opposite, variable-spacing parts, in particular for chocks in statorless rolling mills, in which the parts are positioned between them via, optionally pretensioned tie rods with external nuts and adjustable in height between them Spacers are connected to one another or braced, characterized in that the spacers consist of a threaded ring bolt (7 a) which engages around the tie rods (3) and which is supported on one part (2) and an annular ring-shaped bolt (7 a) that cooperates with this and which is attached to the other Part (1) supporting threaded nut (8), of which one of these threaded parts is rotatably and the other non-rotatably fixedly connected to one of the parts to be adjusted, and that a drive is derived from the drive for rotating a threaded part (7a), which on the parts to be adjusted (1, 2) seated pressure nuts (4, 5) in the Dimensions and adjusted in the direction in which the parts to be adjusted move.