AU727347B2 - Device for the crossed displacement of rolling rolls - Google Patents

Description

-1-

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT

ORIGINAL

Name of Applicant/s: Danieli C. Officine Meccaniche SpA Actual Inventor/s: Estore Donini and Cesare Galletti and Fausto Drigani Address for Service: BALDWIN SHELSTON WATERS 60 MARGARET STREET SYDNEY NSW 2000 g Invention Title: 'DEVICE FOR THE CROSSED DISPLACEMENT OF ROLLING

ROLLS'

Details of Original Application No. 52427/96 dated 21 MAY 1996 The following statement is a full description of this invention, including the best method of performing it known to me/us:- File: 25122AUP00 la "DEVICE FOR THE CROSSED DISPLACEMENT OF ROLLING

ROLLS"

This invention concerns a device for the crossed displacement of rolling rolls whether they be processing rolls and/or back-up rolls, as set forth in the main claim.

To be more exact, the invention is employed in cooperation with the upper and lower rolling blocks of a four-high rolling mill stand to produce plate and/or strip for the purpose of making possible a crossed and coordinated displacement of the processing rolls and/or the back-up S. rolls.

e- The state of the art covers four-high rolling mill stands e producing plate and/or strip which include opposed respective upper and lower processing rolls which define the rolling plane and are fitted to relative chocks located on one side and the other side of the rolling mill stand.

Each processing roll is associated with a relative back-up roll, which has the task of limiting the bends produced in 20 the processing roll during rolling and enables very high rolling pressures to be used.

The state of the art covers the necessity to induce in the rolls a displacement in the rolling plane which causes a reciprocal crossed positioning of the rolls even though at very limited angles.

This displacement may be carried out during processing or in the initial pre-setting step.

This cross-over movement in the state of the art is generally carried out with the use of two different techniques.

According to a first technique traversing movements in suitable directions are imparted to all the chocks supporting the rolls.

So as to ensure the crossed positioning of the rolls, each chock positioned at one end of a roll, for instance a processing roll, receives a traversing movement in the opposite direction to the movement imparted to the opposite chock of the same processing roll and to the movement imparted to the chock at the same end of the opposed processing roll.

By using this technique, at least when the traversing of all the chocks has the same value, the vertical projection of the point of intersection of the axes of the rolls remains unchanged for any angle imparted to the axes of the rolls.

According to another displacement technique, the chock positioned at one side of 10 the roll is traversed whereas the chock positioned at the opposite side is kept stationary, the moveable chocks of the opposed rolls being positioned opposite each other.

In this case the position of the vertical projection of the point of crossover of the axes of the rolls is varied according to the direction of the traversing movement of the chocks and according to the value of that movement.

S The state of the art discloses a plurality of systems for displacement of the chocks, for instance with gear systems, screw-threaded systems, jack systems and other systems.

All these systems, however, have been found unsatisfactory as regards accuracy of positioning, coordination of the movements, simplicity of embodiment and application, installation costs and also yet other reasons, amongst which are the great power required, the considerable bending caused thereby, the incorrect functioning of the bearings, etc.

It is an object of the present invention to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative.

The present invention therefore provides a device for the crossed displacement of rolling rolls in a four-high rolling mill stand to produce plate and/or strip, the device comprising an upper rolling block and a lower rolling block, the upper and lower rolling blocks including processing rolls and back-up rolls cooperating at ends thereof with respective supporting chocks, the supporting chocks cooperating with a respective stationary housing, and, in cooperation with at least one side of at least one chock, at least one motion transmission mechanism for cross displacement of at least one of the processing and back-up rolls comprising a positioning and guide element operably connected to the at least one supporting chock, a plurality of jacks operably connected to the stationary housing, and oscillating shoes connecting the jacks to the positioning and guide element, at least one jack being connected to each end of the positioning and guide element, whereby commanded and controlled movements of the plurality of jacks imparts a lateral displacement to the positioning and guide element by extending the at least one jack on one and of the positioning and guide element and retracting the at least 15 one jack at another end of the positioning and guide element to impart a cross-over displacement to at least one of the process and back-up rolls.

Unless the context clearly requires otherwise, throughout the description and the claims, the words 'comprise', 'comprising', and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in the sense 20 of"including, but not limited to".

The attached figures are given as a non-restrictive example and show some preferred embodiments of the invention as follows:- Figs.la and lb are front views of two forms of embodiment of a rolling mill stand using a first embodiment of the invention; Fig.2 shows a section along the line A-A of Figs.la and lb; Figs.3a and 3b are two forms of embodiment of a variant of Figs.la and ib; Figs.4a and 4b show two forms of embodiment of a second solution of the invention; 5b and 5c show a variant of the solution in Fig.4; Figs.6a and 6b show another variant of the invention; Fig.6c is a partial three-dimensional view of the solution in Fig.6b; A rolling mill stand 10 for strip and/or plate, one front of which is shown S schematically in the attached figures, 4 includes an upper rolling block lla and a lower rolling block llb defining a rolling plane.

Each block, both the upper block lla and the lower block llb, normally comprises a respective processing roll 12 and respective back-up roll 13, respectively 12a and 13a for the upper block lla, and 12b and 13b for the lower block llb, fitted at their ends in their respective supporting chocks 14.

The rolling mill stand 10 comprises also an outer stationary supporting housing 15 per side.

According to the invention adjustment and positioning means 16 are included between one stationary housing 15 and the respective chocks 14 of the rolling mill stand 10 and are positioned in cooperation with both the sides of the eo 15 chocks 14.

The function of these adjustment and positioning means 16 is to impart to the chocks 14 a lateral coordinated displacement movement so as to induce a reciprocal crossover position at least in the rolls 12.

In this case the adjustment and positioning means 16 comprise at least one positioning and guide cradle 18 cooperating with a contrast block 19.

The motion transmission means 20 induce on the contrast block 19 a traversing movement which allows a movement of mating lateral displacement of the chocks 14.

In the case of Figs. 1, 2, 4, 5a, 5b, 5c, and 6a the motor transmission means 20 comprise eccentric means 21 including the pivot 22 associated with actuation arm means 23.

The eccentric means 21 in the attached Figures are illustrated as a non-restrictive example with axis parallel to the nominal axis of the rolls 12 13.

The spirit of the invention foresees the use of eccentric 5 means 21 also with vertical axis substantially broadside to the nominal horizontal axis of the rolls 12 13, although such solution is not illustrated but can immediately be appreciated.

The actuation arm means 23 can be of an angular sector (Figs. 1 and with a gear wheel (Figs. 4 and 6a) or lever (Fig. The actuation arm means 23 cooperate with actuation means 24 governed by motor means The actuation means 24 can be with tangent screw (Figs. 1 and rack (Figs. 4b and 6a), rod (Fig. jack (Fig. 6b) in which case they also incorporate the motor means The motor means 25 are connected to each other through a control unit 26 (shown only in Figs.la and Ib) so as to induce a coordinated movement whereby the positioning of the positioning and guide cradle 18 present on one side of the chock 14, corresponds to a mating positioning in the opposite direction of the other positioning and guide cradle 18 present on the other side of the chock 14.

20 In particular, the positioning and guide cradles 18 of the e• ~upper rolling block 1la receive, as regards the same front of the rolling mill stand 10, a movement in the opposite direction to that imparted to the positioning and guide cradles 18 of the lower rolling block llb, so that the respective rolls have crossed axes of the desired value.

Between the positioning cradle 18 and the supporting housing 15 a hydraulic actuator capsule 27 may be positioned, with the function of distributing the thrusts and loads, thus preventing undesired deformations and compensating any play caused by the tolerances in the parts in reciprocal movement.

In the example of Fig.la the upper lla and lower llb rolling blocks are associated, per each front of the rolling 6 mill stand 10, with one single motor means 25 connected to respective actuation means 24 which induce an opposite displacement in the elements of the upper block lla to that in the elements of the lower block llb.

In Fig.lb each of the upper and lower rolling blocks lla, llb cooperates with a respective motor means According to the variant of Fig.3a the contrast blocks 19 associated with the back up rolls 13a, 13b are associated with one and the same motor means 25 through respective actuation means 24 suitably fitted in the opposite direction to each other, whereas the processing rolls 12a, 12b are associated in turn with one and the same motor means which too is connected to actuation means 24 fitted in the S"opposite direction to each other.

15 This embodiment makes it possible to manage in a differentiated manner, although coordinated through the control unit 26, the displacement of the processing rolls 12a, 12b as compared to the displacement of the back-up rolls 13a, 13b.

20 According to the further variant of Fig.3b, each roll 12 and 13 may have its own motion transmission means comprising at least one motor means 25 with the relative actuation means 24.

According to a variant which is not shown here, the adjustment of the position is carried out only on one front of the chocks 14.

In Figures 4a and 4b there may be a revamping condition for an existing stand by applying on a wall the motion transmission means 20 which, with the positioning and guide cradle 18, act on the paired oscillating shoes 17 which, with their spherical cooperation surfaces, enable the chock 14 to be acted on.

The solutions shown in Figures 5a, 5b and 5c illustrate a 7 new stand with motion transmission means 20 fitted in a row (Fig. 5c) in median position.

The solution in Figure 6a illustrates a similar case to that of Figures 4a and 4b but with two motion transmission means 20 which work on a positioning and guide plate 118, which enables the said positioning and guide plate 118 to oscillate and also to create the desired guide for the axial shift of the system of chocks 14 and rolls 12.

Figures 6b and 6c illustrate a similar solution to that of 6a but with the use of commanded and controlled jacks 24 25 which work on a transmission bar 28 which cooperates with the positioning and guide plate 118 by means of oscillating shoes 17 of a cylindrical or spherical type eo.* cooperating with seating of a mating form.

15 In the spirit of the invention there may also be layers of anti friction material.

e

Claims (4)

1. Device for the crossed displacement of rolling rolls in a four-high rolling mill stand to produce plate and/or strip, the device comprising an upper rolling block and a lower rolling block, the upper and lower rolling blocks including processing rolls and back-up rolls cooperating at ends thereof with respective supporting chocks, the supporting chocks cooperating with a respective stationary housing, and, in cooperation with at least one side of at least one chock, at least one motion transmission mechanism for cross displacement of at least one of the processing and back-up rolls comprising a positioning and guide element operably connected to the at least one supporting chock, a plurality of jacks operably connected to the stationary housing, and oscillating shoes connecting the jacks to the positioning and guide element, at least one jack being connected to each end of the positioning and guide element, whereby commanded and controlled movements of the plurality of jacks imparts a lateral displacement to the positioning and guide element by extending the at least one jack on one and of the 15 positioning and guide element and retracting the at least one jack at another end of the positioning and guide element to impart a cross-over displacement to at least one of the process and back-up rolls.

2. Device as in Claim 1, in which the motion transmission mechanism is placed on S° one side of the stationary housing.

3. Device as in Claim 1, in which the motion transmission mechanism is placed on both sides of the supporting housing.

4. Device as in Claim 1, in which the motion transmission mechanism is placed in cooperation with median vertical plane of the supporting housing. A device for the crossed placement of rolling mills substantially as herein described with reference to Figures 6b and 6c of the accompanying drawings. DATED this 3rd Day of September, 1999 DANIELI C. OFFICINE MECCANICHE SpA Attorney: JOHN D. FORSTER Fellow Institute of Patent Attorneys of Australia of SHELSTON WATERS