EP0291719A2 - Universal rolling mill stand with adjustable horizontal and vertical rolls - Google Patents

Abstract

A universal rolling mill stand with adjustable sets of horizontal rolls and vertical rolls guided in window-type recesses of the roll housings. Each roll housing is formed by a pair of housing posts with cross-members connected by means of transverse supports. The bearing chocks of the set of horizontal rolls are vertically movable between the housing posts of the respective pair of housing posts and the bearing chocks of the set of vertical rolls are moved horizontally between outwardly cantilevering attachments of the pairs of housing posts. The upper cross-members connecting the pairs of housing posts can be raised and swung horizontally. A frame-type cage having plate-like wall members is connectible to lifting devices. The outer surfaces of the wall members of the cage are guided on guide surfaces of the housing posts of pairs of housing posts which face each other. The cage is vertically and horizontally movable with the mill stand and can be installed and removed from the rolling mill stand. The inner surfaces of the wall members of the cage form guide surfaces for adjustment movements of the bearing chucks of one or more of the rolls. The bearing chocks are supported by the cage and/or can be coupled to each other so that one is suspended from the other.

Description

The invention relates to a universal stand with adjustable horizontal and vertical roller sets guided in window recesses of the roll stands, in particular in the form of a universal roll stand with two roll stand halves connected by cross members, each formed from a pair of stand spars with crossbeams, in which the bearing chocks of the horizontal roll set between the uprights of the respective uprights and the bearing chocks of the vertical roller set can be moved vertically or horizontally between outwardly projecting lugs of these uprights and the upper ones lifting or lifting the crossbars connecting the uprights. can be swung out horizontally.

In known forms of training of universal roll stands of this type (company brochure SMS SCHLOEMANN-SIEMAG AG W 2/317 - November 1984 and W 2/1158 - June 1981), the two connecting the uprights are first used to insert or remove the roll sets for the purpose of changing the rolls Crossbeams detached from the rolling stand and lifted off or swung horizontally outwards. The upper horizontal roller of the horizontal roller set with its bearing chocks is then lifted out of the roll stand using a crane. The subsequent lifting of the vertical rollers of the vertical roller set with their bearing chocks requires these bearings to be installed pieces between the outwardly projecting lugs of the uprights, a horizontal movement first of the one and then the other vertical roller with the chocks out of the area of these lugs, so that the vertical rollers can then be lifted out of the roll stand one by one with the help of the crane. The lower horizontal roller with its chocks can then also be lifted out of the roll stand.

The expansion of the roller sets and also the installation of the new roller sets therefore require considerable assembly and time expenditure with the resulting long downtimes of the entire rolling mill in which the universal roll stand is located. The invention has for its object to simplify the installation and removal of the roller sets and thus reduce the time required and the assembly effort.

This object is achieved by a frame cage which has plate-shaped boundary walls and can be connected to lifting devices and which can be moved vertically and, if necessary, horizontally in the roll stand with the outer surfaces of the boundary walls on mutually facing guide surfaces of the uprights of the uprights and can be moved into and out of the latter, and in which the inner surfaces of the boundary walls form guide surfaces for positioning movements of the bearing chocks of one or more of the rollers, the bearing chocks being supported by the frame cage and / or being able to be coupled to one another. With this design, all roller sets with their bearing chocks can be brought in or out of the roll stand together when the frame cage is inserted or removed.

As the invention further provides, bearing chocks which are not guided on the guide surfaces of the boundary walls of the frame cage can be guided by rollers on guide surfaces of the uprights. A particularly advantageous embodiment according to the invention consists in the fact that the bearing chocks of the upper roller of the horizontal roller set are guided vertically in the boundary walls of the frame cage, the bearing chocks of the vertical roller set with these boundary walls, and the bearing chocks of the lower horizontal roller with the bearing chocks of the vertical roller set, whereby the bearing chocks can be coupled of the vertical roller set and the lower horizontal roller are guided horizontally or vertically on the guide surfaces of the uprights. The guiding surfaces of the uprights which guide the boundary walls of the frame cage and the bearing chocks of the vertical roller set are expediently in one plane according to the invention and, with the formation of inward-facing heels, form smaller spacings for the bearing chocks of the horizontal roller in guide surfaces, these heels slideways for the horizontal movement of the Show bearing chocks of the vertical rollers. The frame cage can be placed with outwardly projecting lugs on support surfaces arranged on the roll stand halves and can be locked to the roll stand halves by means of adjustment bolts which can be inserted into fixing bores.

A particularly advantageous embodiment results when the bearing chocks of the upper and, if applicable, the lower roller of the horizontal roller set are guided vertically in the boundary walls of the frame cage and the bearing chocks of the vertical roller set are guided and held horizontally in this, since this means that not only all the roller sets during installation and Spreading process indirectly on the guide surface Chen the stand spars are guided, but if necessary. With the appropriate structural design, a lateral insertion and removal of the frame cage with the roller sets is possible. If, as is further provided by the invention, coupling devices that can be coupled, displaceable and fixed lifting devices are arranged on the stand spars of both roll stand halves with this frame cage, then the rolls of the vertical roll set can also be positioned vertically changed, with the result that, for example, after changing the roll set whose setting on the rolling line does not have to be adjusted in height for the entire universal stand, and that position adjustments of the vertical rolls between the individual roll passes can also be carried out in order to achieve greater web center accuracy, so that the rolling stock enters the roll gap in the most horizontal position possible in order to achieve this goal. This has the further advantage that the so-called rocking roller tables previously arranged in front of and behind the universal roll stand can be dispensed with. The universal stand can also be designed according to the invention so that the bearing chocks only the upper roller of the horizontal roll set in the boundary walls of the frame cage are guided vertically and the bearing chocks of the vertical roll set are guided horizontally in this and that the bearing chocks of the lower horizontal roller are coupled with the bearing chocks of the vertical roll set the guide surfaces of the uprights are guided. In this case, the frame cage is first brought into the desired position and fixed and then the rollers of the horizontal roller set are centered on the set new rolling line with the aid of the adjusting devices.

Further forms of training of the invention are laid down in the subclaims.

• Fig. 1 ein Universalgerüst, von der Seite gesehen, teil­weise geschnitten,
• Fig. 2 den Rahmenkäfig mit den Horizontal- und Vertikalwal­zensätzen, teilweise geschnitten, in Walzrichtung gesehen,
• Fig. 3 den Rahmenkäfig mit den Horizontal- und Vertikalwal­zensätzen abgesetzt auf dem Absetzrahmen von der Seite gesehen,
• Fig. 4 die Seitenansicht von Fig. 3,
• Fig. 5 eine andere Ausbildungsform eines Universalgerüstes mit Rahmenkäfig von der Seite gesehen in schemati­scher Darstellung,
• Fig. 6 die Seitenansicht von Fig. 5 und
• Fig. 7 die Draufsicht auf Fig. 6.

The invention is explained in more detail using the exemplary embodiments shown in the drawing. Show in the drawing

• 1 is a universal scaffold, partially cut, seen from the side,
• 2 the frame cage with the horizontal and vertical roller sets, partially cut, seen in the rolling direction,
• 3 seen the frame cage with the horizontal and vertical roller sets offset on the setting frame from the side,
• 4 shows the side view of FIG. 3,
• 5 shows another embodiment of a universal scaffold with a frame cage seen from the side in a schematic representation,
• Fig. 6 is the side view of Fig. 5 and
• 7 is a top view of FIG. 6.

1 shows a universal roll stand cut in different planes normal to the axes of the horizontal rolls. Thereafter, the uprights 1 of the scaffold are penetrated by four tie rods 2 mounted therein, each of which can be driven in rotation by means of a power-operated worm 3 which engages in a worm wheel 4 provided on the tie rod 2. At both ends, the tie rods 2 pass into threaded spindles 5, which engage in pressure nuts 6, the recesses of an upper and a lower Crossbar 7, 8 are provided. While the lower pressure nuts 6 are inserted directly into the lower crossmember 8, the upper pressure nuts 6 are each arranged in coupling bushes 9 which, like the lower pressure nuts, are supported on the uprights 1. The upper cross members 7 are pivotally arranged, not shown in the drawing, coupling bushes, while in the opposite end of the upper cross members 7 recesses 7a are provided, which engage with a step of the coupling bushes 9 with corresponding steps, but on the other hand end freely so that the upper cross members 7 pivotable by approximately 90 ° with one swivel release the space formed over the housing windows 10 formed by the column bars 1. The housing window 10 have lower flanks 11, the inside width of which is adapted to the width of the bearing chocks 13 of the lower horizontal roller 14. The flanks 12 of the housing window 10 adjoining shoulders have an enlarged clear width, which enables direct guidance of the bearing chocks 15 of the vertical rollers 16. In addition, the bearing chocks 17 of the upper horizontal roller 18 are provided; they are guided vertically between boundary walls 22, which are jointly connected by means of a yoke 21 to the frame cage 19, which can be raised or lowered by means of a lifting eye 20 by a lifting device which is cast onto the yoke 21 connecting the boundary walls 22.

The yoke 21 or the boundary walls 22 are connected to a lateral adjustment bar 23, which limits and positions the introduction of the boundary walls 22 into the housing window 10. In order to secure a fixed position of the frame cage 19 in the roll stand, its yoke 21 and / or the boundary walls 22 are provided with fixing bores 24 (cf. FIG. 2), into which the stator leg (not shown) men 1 guided fixing bolts can be inserted. The boundary walls 22 are thus supported on the one hand against the flanks 12 of the housing window 10 and, on the other hand, with their inner surfaces, expediently secured against axial displacements, they guide the bearing chocks 17 of the upper horizontal rollers 18 in the vertical direction. Their downward-facing boundary surfaces guide the bearing chocks 15 of the vertical rollers 16 in the horizontal direction and support them against vertical displacements, so that the horizontal guidance, with only a tight play allowing vertical guidance, without the incorporation of separate recesses into the flanks of the housing window 10, is also possible becomes like a simple removal of the bearing chocks 15 upwards, without prior horizontal displacement of these bearing chocks 15 with the vertical rollers 16.

The boundary walls 22 are each provided with support grooves 25 in the lower region of their inner surfaces, into which horizontally projecting supporting springs 26 engage, which are attached to the top of the bearing chocks 15 of the vertical rollers 16. In a similar way, undercut retaining grooves 27 are provided on the underside of the bearing chocks 15 of these vertical rollers 16, into which the angled ends of lifting eyes 29 can be hung. These lifting eyes 29 in turn encompass (see FIG. 2) lugs 30 of the bearing chocks 13 of the lower horizontal roller 14. The side legs 29a of the lifting lugs 29 are overlapped here (see FIG. 2 bottom right) by wear plates 30a of the lugs 30 of the mounting chocks 13, while a web 29b, which closes the eyebolts 29 downward, engages under the lugs 30 at a distance so as not to impede the travel of the lower horizontal roller 14 during operation. Are the lower webs 29b of the support eyelet 29 at their attachment 30 facing side formed prismatic and for lifting the rollers 14 engage in correspondingly shaped grooves 30b of the lugs 30.

To change the roll, it is now only necessary to pivot the two upper crossbars 7 and 8 outwards by 90 ° in order to expose the upper opening between the uprights 1. After loosening the fixing bolts, the frame cage 19 can then be lifted out of the upright 1 by a simple lifting operation in the vertical direction by means of a lifting device engaging the lifting eye 29. Unless special projections are provided, the bearing chocks 17 of the upper horizontal roller 18 lie on the bearing chocks 15 of the vertical roller 16 and both are supported by the support springs 26 of the chocks 15 of the vertical rollers 16 which engage in the support grooves 25 of the boundary walls 22 dug out. The lifting of the bearing chocks 15 is followed by the eyebolts 29 suspended in these, and after their webs 29b have placed in the grooves 30b of the lugs 30 of the chocks 13 of the upper horizontal roller 14, these together with the lower horizontal roller 14 and both sets of rollers, the horizontal rollers 18, 14 and the vertical rollers 16 are lifted together in a single operation.

For processing these roller sets and their further disassembly, a setting frame 31 (FIGS. 3 and 4) is provided on which both roller sets can be placed. In this case, the individual bearing chocks 13, 15, 17 are set down on adjustable support surfaces; adjustable support plates 32 are provided here for the bearing chocks 13 of the lower horizontal roller 14, the bearing chocks 15 are received by support plates 13 arranged on both sides and the boundary walls 22 and / or the bearings chocks 17 of the upper horizontal roller 18 are received by support plates 34. It is also possible to provide separate support plates for the boundary walls 22 and the bearing chocks 17. Furthermore, it has proven to be useful, if necessary, to design the support plates, but in particular the boundary walls, support plates to be displaceable in the direction of the axes of the horizontal rollers. For this purpose, four pressure medium cylinder units 35 are provided which act on different forms of boundary walls or on rails common to these. There is also the possibility of reversing displacements of the supports provided at different ends of the setting frame 31 by reversing drives, in particular by pinions fixedly mounted between racks.

The separate adjusting bar 23 can be dispensed with if the thickness of the boundary walls 22 and, accordingly, the distance between the guide plates of the uprights 1, i.e. of the housing window 10 accommodating these are enlarged. In this case, the downward-facing boundary surfaces of the boundary walls 22 secure the vertical position of the frame cage 19 in the uprights 1, while the inner regions of these boundary surfaces limit the vertical movements of the bearing chocks 15 of the vertical rollers 16.

5, 6 and 7 of a universal roll stand consists of two roll stand halves which are connected to one another by cross members 42. These roll stand halves are each made up of a pair of stand bars 40 and 41, which are each connected or connectable to one another by an upper crossbar 43 and a lower crossbar 44. the bearings are between the uprights 40 and 41 of the uprights construction pieces 49 and 50 of the two horizontal rollers 46 and 47 vertically up and down (Fig. 5). On both pairs of uprights 40 and 41 (FIGS. 6 and 7) are outwardly projecting lugs 51 and 52, respectively, which merge into elongated threaded spindles 51a and 52a. The bearing chocks 53 of the vertical rollers 45 are moved horizontally between these projections 51, 52. In the exemplary embodiment, the pairs of threaded spindles 51a, 52a are connected to these thread-guided horizontal cross members 54 and 55, respectively.

The plate-shaped boundary walls 56a of the frame cage 56 are guided with their outer surfaces between the mutually facing guide surfaces 40a and 41a of the stator beam pairs 40 and 41 of the roller stand halves. The inner surfaces of these boundary walls 56a represent guide surfaces both for the vertical adjustment movement of the bearing chocks 49 of the upper horizontal roller 46 guided thereon and for the horizontal adjustment movement of the bearing installation pieces 53 of the vertical rollers 45. The adjustment movements themselves are for the upper horizontal roller 46 by a corresponding or movement of the cross-member 43 and the positioning movements of the vertical rollers 45 by horizontal movements of the horizontal cross-members 54 and 55 in a manner not belonging to the invention. The bearing chocks 53 of the vertical rollers 45 are guided (FIG. 5) in a drawer-like manner from below in the plate-shaped boundary walls 56a of the frame cage 56. The bearing chocks 50 of the lower horizontal roller 47 are connected to the bearing chocks 53 of the vertical rollers 45 in a manner similar to that described in the previous exemplary embodiment (FIGS. 1 to 4) by means of suspension eyelets 57 which can be suspended therein. A vertical movement of the lower horizontal roller 47 with their chocks 50 is effected by the lower cross members in a manner that is also not part of the invention.

The plate-shaped boundary walls 56a of the frame cage 56 (FIGS. 6 and 7) have additional lugs 58 with passage recesses 58a and flat vertical contact surfaces 58b. These contact surfaces 58b rest on likewise vertically running, flat guide surfaces 59a of lifting devices 59, which are each arranged in pairs on adjacent stator bars 40, 41 of the roller stand halves and are connected to one another in a geared manner by motors 60 driven via coupling spindles 61. Each of the lifting devices 59 has a driving pin 63 which can be axially displaced in an eccentric lifting gear 62 (FIG. 5) and which can be inserted into and removed from the respective passage recess 58 of the plate-shaped boundary walls 56a of the frame cage 56 (FIG. 5).

The piston-cylinder units 66, shown in dash-dotted lines and arranged on the stand bars 40, 41, serve to balance the cross members 43 during their adjusting movements.

As can be seen in particular from FIG. 5, the frame cage 56, as already explained in the exemplary embodiment according to FIGS. 1 to 4, can be guided on the guide surfaces 40a, 41a of the uprights 40, 41 for the purpose of removing or installing the roller sets can be lifted out of the roll stand or lowered into it. The bearing chocks 49 of the upper horizontal roller 46 rest on the bearing chocks 53 of the vertical rollers 45, and these are drawer-guided and held under the frame cage 56 from below. The bearing chocks 50 of the lower horizon Valley roller 47, which, as in the aforementioned embodiment according to FIGS. 1 to 4, are guided directly between the guide surfaces 40a, 41a of the uprights 40, 41, are suspended in the support eyelets 47, which are connected to the bearing chocks 53 of the vertical rollers 45 with lifted out of the roll stand.

In order to change the position of the rolling line to a vertically higher position W1 or a vertically lower position W2 (FIG. 5), the driver pins 63 are inserted into the passage recesses 58a of the contact surfaces 58b of the approaches with the aid of a piston-cylinder unit 70 arranged on the eccentric lifting gear 22 58 of the plate-shaped boundary walls 56a introduced. These passage recesses 58a have the shape of horizontally extending longitudinal slots (FIG. 6). With the aid of the eccentric lifting gear 62, the driving pins 63 of all lifting devices 59 then carry out a common lifting or lowering movement, which bring the frame cage 56 and with it the vertical rollers 45 into a position in which the rolling line runs at the desired height between W1 and W2 . Subsequently, the driving pins 63, which for this purpose have slightly wedge-shaped contact surfaces, are firmly pressed into the passage recesses 58 and thus lock the frame cage 56 in the set rolling position. The two horizontal rolls 46 and 47 are then centered on the set rolling line with the aid of the crossbars 43 and 44.

Claims (17)

1.Universal roll stand with adjustable horizontal and vertical roll sets, which are guided in window recesses of the roll stands, in particular in the form of a universal roll stand with two roll stand halves connected by cross members, each formed from a pair of stand spars with cross members, in which the bearing chocks of the horizontal roll set between the stand spars Stator spar pair and the bearing chocks of the vertical roller set can be moved vertically or horizontally between outwardly projecting lugs of these stator spar pairs and the upper of the crossbars connecting the stator spar pairs can be lifted or swung out horizontally,
marked by
a frame-shaped cage (19, 56) which has plate-shaped boundary walls (22, 56a) and can be connected to lifting devices, said frame cage (19, 56) with the outer surfaces of the boundary walls (22, 56a) on mutually facing guide surfaces (40a, 41a) of the uprights (1, 40, 41) the stator spar pair is guided vertically and, if necessary, horizontally in the rolling stand and can be brought into and out of it, and in which the inner surfaces of the boundary walls (22, 56a) have guide surfaces for adjusting movements of the bearing chocks (17, 49, 53) of one or more the Form rollers (18, 49, 45), wherein the bearing chocks (17, 15, 49, 56) are carried by the frame cage (19, 56) and / or can be coupled to one another. 2. Universal roll stand according to claim 1,
characterized,
that, not on the guide surfaces of the boundary walls (22, 56) guided bearing chocks (15, 13, 50) of rollers on guide surfaces (40a, 41a) of the uprights (1, 40, 41), on the frame cage (19, 56) can be attached and / or coupled to one another. 3. Universal roll stand according to claim 1 and / or 2,
characterized,
that the bearing chocks (17) of the upper roller (18) of the horizontal roller set are guided vertically in the boundary walls (22) of the frame cage (19), the bearing chocks (15) of the vertical roller set (16) with these boundary walls (22), and the bearing chocks (13 ) of the lower horizontal roller (14) with the bearing chocks (15) of the vertical roller set (16) can be coupled, the bearing chocks (15) of the vertical roller set (16) and those of the lower horizontal roller (14) on the guide surfaces of the uprights (1) horizontally or be guided vertically. 4. Universal rolling stand according to one or more of claims 1 to 3,
characterized,
that the boundary walls (22) of the frame cage (19) and the bearing chocks (15) of the vertical roller set (16) guiding surfaces of the uprights (1) each lie in one plane and form inwardly directed shoulders in for the bearing chocks (13) of the lower Horizontal roller (14) pass over, the shoulders representing slideways for the horizontal movement of the bearing chocks (15) of the vertical rollers (16). 5. Universal roll stand according to one or more of claims 1 to 4,
characterized,
that the frame cage (19) with outwardly projecting shoulders (27) on the roller stand halves (1) arranged support surfaces can be placed. 6. Universal roll stand according to one or more of claims 1 to 5,
characterized,
that the frame cage (19) can be locked with the roller stand halves by means of adjusting bolts which can be inserted into fixing bores (24). 7. Universal scaffold according to claim 1,
characterized,
that the bearing chocks (49, 50) of the upper and lower rollers (46, 47) of the horizontal roller set in the boundary walls (56a) of the frame cage (56) vertically and the bearing chocks (53) of the vertical roller set (45) are guided and held horizontally in this are. 8. Universal roll stand according to claim 1,
characterized,
that the bearing chocks (49) of the upper roller (46) of the horizontal roller set in the boundary walls (56a) of the frame cage (56) are vertical and the bearing chocks (53) of the vertical roller set (45) are drawer-guided and held therein, and the bearing chocks (50) the lower horizontal roller (47) with the bearing chocks (53) of the vertical roller set (45) are coupled to the guide surfaces (40a, 41a) of the stator spar pairs (40, 41). 9. Universal roll stand according to claims 7 and / or 8,
marked by
on the stand spars (40, 41) of both roller stand halves, which can be coupled to the frame cage (56), can be set, set and fixed, lifting devices (59). 10. Universal roll stand according to claim 9,
characterized,
that the lifting devices (59) are arranged in pairs on adjacent stator bars (40, 41) of both roller stand halves and are driven together. 11. Universal roll stand according to claim 10,
characterized,
that the lifting device (59) has a flat vertical guide surfaces (58b) which can be placed on contact surfaces of the frame cage (56) and has a passage opening for a lifting driver element (63) which engages in a passage recess (58a) in the contact surface of the frame cage (56) and can be brought out of it. 12. Universal roll stand according to claim 11,
characterized,
that the lifting driver elements (63) are designed as axially displaceable and fixable bolts mounted in an eccentric lifting gear (62). 13. Universal roll stand according to one or more of claims 1 to 12,
characterized,
that the boundary walls (22, 56a) of the frame cage (19, 56) and the bearing chocks (15, 13, 53, 50) can be coupled together by means of interlocking grooves and female connectors. 14. Universal roll stand according to one or more of claims 1 to 13,
characterized,
that the bearing chocks (13, 50) of the lower horizontal roller (14, 47) can be hooked into supporting eyelets (29, 57) which connect them to the bearing chocks (15, 53) of the vertical rollers (16, 45). 15. Universal roll stand according to claim 14,
characterized,
that the lifting eyes (29, 57) have grooves (30b) which engage in the prismatic webs (29b) of the lifting eyes (29, 57). 16. Universal roll stand according to one or more of claims 1 to 13,
characterized,
a setting frame (31) which can be set up outside the rolling stand and has bearing surfaces for attachments arranged on the frame cage (19, 56) and / or the bearing chocks of the roller sets. 17. Universal scaffold according to claim 16,
characterized,
that the supports of the bearing surfaces are motor-displaceable in the axial direction of the horizontal rollers.

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