EP0340504B1 - Device for bending and balancing axial movable rolls of a rolling stand - Google Patents

Abstract

In a device for bending and balancing axially movable rolls of a rolling stand, in particular for the work rolls of a four-high rolling stand, in which there is on both sides a guide block 11 which is fixed to the housing in the window of each rolling-stand housing 3, and the roll chocks 4, 5 are supported to slide horizontally on an upper and lower lifting cage 6, 7, respectively, guided vertically on the guide block, and the roll bending forces are transmitted to the roll chocks by bending cylinders 16, 17, an improvement as regards the transmission of the bending and displacement forces to the roll chocks is achieved by virtue of the fact that at least one, preferably hydraulically acting bending cylinder 16, 17 engages on each upper and lower lifting cage 6, 7, the said bending cylinder(s) being supported on the guide block 11 fixed to the housing. <IMAGE>

Description

The invention relates to a bending and balancing device for axially displaceable rolls of a roll stand, in particular for the work rolls of a four-high roll stand, a guide block being arranged on both sides in the window of each roll stand stand and the roll chocks on both sides on an upper or respectively vertically guided guide block the lower lifting housing is supported in a horizontally sliding manner and the roll bending forces are transmitted from bending cylinders to the roll chocks.

A bending and balancing device of the type mentioned is known from DE-OS 36 27 690. In this bending and balancing device, two bending cylinders act on each lifting housing that horizontally guides the roller chocks, which are arranged such that the respective upper lifting housing receives the cylinder piston, while the piston rod is connected to the lower lifting housing. For work roll bending, the cylinder pistons arranged in the upper lifting housing are pressurized on the outside of the piston, as a result of which compressive forces are exerted on the piston rods act on the lower lift housing. As a result, upward forces are transmitted from the upper lift case to the slide surfaces of the chocks, and downward forces are transmitted from the lower lift case to the slide surfaces of the lower slide.

The arrangement of the lifting housing and bending cylinder can be easily replaced for maintenance purposes, which means that shorter downtimes of the roll stand can be achieved; this applies all the more if the hydraulic device for axial work roll displacement is also connected to the lifting housing.

From JP-A-61-129208 a four-high rolling stand is known, in which the chocks engage positively and non-positively in a horizontal guide groove of lifting housings, in which bending cylinders are arranged, which in turn are supported on the stand. To brace the chocks between the scaffolding stands, a tensioning cylinder is also arranged in a lifting housing, which is operatively connected to the bending cylinder and whose piston shaft is also supported on the scaffolding stand. This built-in construction is unfavorable for roll chocks, as it causes longer assembly and disassembly times and introduces additional moments and tension forces into the roll bearings.

From EP-A-00 84 827 a six-high stand is known in which, as a result of a different design principle, the roller chocks rest on the piston shafts of bending cylinders, which in turn are arranged together in a stand-fixed block. A comparable design principle can be found in a four-high mill stand according to JP-B-50-12385, in which the roll chocks of the work rolls also rest on the piston shafts of bending cylinders, although these are arranged in horizontally movable frames, which in turn are arranged be surrounded on three sides by a guide frame. The guide frame is fixed in the scaffold stand. This well-known design principle therefore takes a different path.

The object of the present invention is to improve the known bending and balancing device and to apply pressure forces to each individual lifting housing as separately as possible in order to be able to influence the roll bending even better and to be able to adjust the balancing of the rolls with the chocks even more precisely in order to be able to do so to avoid uncontrolled forces and moments on the highly loaded roller bearings.

This object is achieved in that at least one preferably hydraulically acting bending cylinder acts on each upper and lower lifting housing and is supported on the guide block fixed to the stand, the guide block in its central region having a web projecting into the stand window of the roll stand, on its upper and lower Web surface of the bending cylinder is supported and wherein the lifting housing for supporting the roll chock has an upper shoulder, in which the slide for the horizontal support surface of the roll chock is embedded such that the center of the bending cylinder and the center of the support surface lie in a vertical plane.

By means of these measures according to the invention, the bending forces advantageously act on each individual lifting housing and thus separately on the chocks of the upper and lower work rolls. Reactions of the bending forces as a result of reaction forces on the upper and lower work roll are avoided, since the reaction forces are absorbed by the roll stands. As a result, the bending forces can be applied to each individual roller more precisely and more effectively. Through the Arrangement of two bending cylinders on each lifting housing makes the balancing system working as a hydraulic balance even more effectively adjustable, so that uncontrolled forces and moments on the highly loaded roller bearings are avoided. The support on the web surfaces of the guide block enables good guidance during the vertical movement of the lifting housing; due to the perfect guidance of the lifting housing, an excellent sealing of the housing against sinter, dust or other harmful influences from the rolling mill operation is guaranteed; In particular, the alignment of the bending cylinder and the support surface in a vertical plane avoids additional frictional forces on the support surfaces, since no moment can occur between the support of the work roll chocks and the bending cylinder.

An embodiment of the invention is characterized in that the bending cylinder is arranged at least partially in the lifting housing, the cylinder piston being guided in a corresponding bore in the lifting housing and the piston shaft being connected to the web of the guide block. These constructive measures allow a simple, robust and reliable construction of the bending device. The lifting housing with the integrated bending cylinders can be quickly replaced as a single unit. As a result, low downtimes are achieved due to a maintenance-friendly design.

Another embodiment of the invention is concerned with the measure that the guide block has a central projection adapted to the vertical extent of the lifting housing, which engages in a correspondingly designed recess in the central lifting housing and that at least on the vertical contact surfaces of the lifting housing with the guide block and the roller chock partially sliding surfaces are arranged. This ensures that each lifting housing is as long as possible on the guide block is guided in the middle, the frictional forces counteracting the displacement being limited to the design-related minimum dimension.

In a further advantageous embodiment of the invention, a device for axially displacing the rolls, in particular the work rolls, is connected to the lifting housing and is connected to the roll chock with the aid of at least one driver element. This avoids relative movements between the roll chocks and the displacement system during the vertical movement of the work rolls. Therefore, no tilting moments can act on the roller bearings, so that their load-bearing capacity is not impaired.

Figur 1

einen Teilschnitt der oberen und unteren Arbeitswalzeneinbaustücke mit Hubgehäuse und Biegezylinder,

Figur 2

einen Teilschnitt eines Walzeneinbaustücks mit einer Einrichtung zur axialen Verschiebung der Arbeitswalze.

The invention is illustrated in more detail using an exemplary embodiment. Show it

Figure 1

a partial section of the upper and lower work roll chocks with lifting housing and bending cylinder,

Figure 2

a partial section of a roll chock with a device for axial displacement of the work roll.

According to FIG. 1, the work rolls 1, 2 are mounted in chocks 4, 5 in the stand 3 of the roll stand (not shown); the upper work roll 1 in the upper roll chock 4 and the lower work roll 2 in the lower roll chock 5. Each roll chock is slid horizontally on both sides on the shoulder 9 of a lift housing 6, 7. For this purpose, the roller chock is provided with a support surface 8 and a slide 10 is embedded in the load-bearing shoulder 9 of the lifting housing.

The lifting housing 6, 7 is guided in a vertically sliding manner on a common guide block 11. The guide block 11 is firmly connected to the roll stand. The guide block has a central projection 12 which is approximately matched to the vertical extent of the lifting housing 6, 7 and which engages in a correspondingly designed recess 13 in the central longitudinal region of the lifting housing. The vertical contact surfaces of the lifting housing with the guide block 11 and the roller chock 4, 5 are provided with the sliding surfaces 14, 15 (FIG. 2). The bending and balancing cylinders 16, 17 are in the Lift housing 6, 7 arranged such that the cylinder piston 18 is guided in a corresponding bore 19 in the lifting housing and that the piston shaft 20 is supported on a web 21 of the guide block 11 which projects into the stator window 28.

Fig. 2 shows a partial section of the scaffold stand 3, not shown, with which the guide block 11 is firmly connected. The central projection 12 of the guide block, which engages in the corresponding recess 13 of the upper lifting housing 6, is clearly recognizable. The bores 19 shown in dashed lines for receiving the cylinder pistons 18 of the bending cylinders 16 can be seen in the lifting housing. The vertical contact surfaces of the lifting housing to the guide block 11 and to the roller chock 4 contain the sliding surfaces 14, 15. A device 24 for axially displacing the work roller 1 is connected to the lifting housing 6 and is connected to the roller chock 4 by means of a driver element 25. The driver element consists, for example, of two pinions 26 which are mounted on the one hand on the thrust housing 27 of the displacement device and on the other hand mesh with a toothed rack (not shown in more detail) which is arranged on the roller chock 4.

For work roll bending and for balancing the rolls, the bending cylinders 16, 17 arranged in the lifting housings 6, 7 are pressurized on the outside of the piston with a hydraulic medium, each bending cylinder being supported on the upper web surface 22 and the lower web surface 23 of the guide block 11 fixed to the stand. The pressure forces generated are transferred from the bending cylinder to the lifting housing transferred and passed from there into the roll chocks 4, 5. By the measure that each lifting housing has its own bending cylinder, which is supported separately on the guide block 11, it is possible to apply exactly predetermined bending forces to each lifting housing and thus into each side of the roll chock or to ensure a balanced balance of the roll chocks, so that predetermined bending forces ensure the desired preload of the work rolls and, on the other hand, adverse moments on the roll bearings are avoided.

Reference symbol overview

1

upper work roll

2nd

lower work roll

3rd

Scaffolding stand

4th

upper roller chock

5

lower roller chock

6

upper lift housing

7

lower lift housing

8th

Contact surface

9

Heel of the lift housing

10th

Slider

11

Guide block

12

central projection

13

Recess

14, 15

Sliding surfaces

16, 17

Bending and balancing cylinders

18th

Cylinder piston

19th

drilling

20th

Piston skirt

21

web

22

upper bridge surface

23

lower bridge surface

24th

Slider

25th

Driver element

26

pinion

27

Drawer housing

28

Stand window

Claims (4)

1. Bending and balancing device for axially displaceable rolls (1,  2) of a roll stand, in particular for the work rolls of a four-high roll stand, wherein a guide block (11) is arranged, fast with the housing, at both sides in the window of each roll stand housing (3) and the roll chocks (4, 5) are supported at both sides to be horizontally slidable on an upper or lower lifting housing (6, 7) vertically guided at the guide block (11) and the roll bending forces are transmitted by bending cylinders (16, 17) to the roll chocks (4,  5), characterised thereby that at least one bending cylinder (16, 17), which is preferably hydraulically acting and which is supported at the guide block (11) fast with the housing, engages at each upper and lower lifting housing (6, 7), wherein the guide block (11) has in its middle region a web (21), which projects into the housing window (28) of the roll stand housing (3) and on the upper and lower web surface (22, 23) of which the bending cylinder (16, 17) is supported, and wherein the lifting housing (6, 7) has, for the support of the roll chock (4, 5), an upper ledge (9) in which the slide member (10) for the horizontal bearing seat (8) of the roll chock (4, 5) is so let in that the centre of the bending cylinder (16, 17) and the centre of the bearing seat (8) lie in one vertical plane.
2. Bending and balancing device according to claim 1, characterised thereby that the bending cylinder (16, 17) is arranged at least partly in the lifting housing (6, 7), wherein the cylinder piston (18) is guided in a corresponding bore (19) in the lifting housing (6, 7) and the piston rod (20) is connected with the web (21) of the guide block (11).
3. Bending and balancing device according to claim 1 or 2, characterised thereby that the guide block (11) comprises a central projection (12), which is matched to the vertical extent of the lifting housing (6, 7) and which engages in a correspondingly constructed recess (13) in the central lifting housing, and that at least partial slide seats (14, 15) are arranged at the vertical contact surfaces of the lifting housing (6, 7) relative to the guide block (11) and relative to the roll chock (4, 5).
4. Bending and balancing device according to at least one of claims 1 to 3, characterised thereby that a device (24) for the axial displacing of the rolls (1, 2), in particular of the work rolls, is connected with the lifting housing (6, 7) and with the aid of at least one entraining element (25), stands in connection with the roll chock (4, 5).

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