EP1468754A2 - Device for holding at least one roll in a rolling machine - Google Patents

Abstract

The device has two coupling arrangements (6,7) comprising two coupling parts (6A,7A) having two grooves and two coupling elements, respectively. When coupling arrangements are in coupled mode, the first coupling element of coupling part (6A) extends into the first groove of coupling part (6A). The second coupling element of coupling part (7A) positively engages second groove of coupling part (6A). Two holding arrangements (12,13) are arranged on opposite faces of one roller viewed in the direction of a rotational axis. The coupling arrangements can be configured in a coupled mode and an uncoupled mode, wherein one roller can be detached from the two holding arrangements are in uncoupled mode. The second groove does not run parallel to the first groove.

Description

The invention relates to a device for holding at least one roller a rolling machine and a rolling machine.

For forming workpieces from an initial shape into a desired one Intermediate form (semi-finished, preforming) or final form (finished product, Finished molds) are, among many other processes, also rolling processes known, which are counted among the pressure forming processes. When rolling the workpiece (rolling stock) is placed between two rotating rollers and by applying a forming pressure through the rotating rollers changed in shape. Tool profiles are used in the profile rolling process arranged on the circumference of the rollers, which corresponding to the generation Enable profiles in the workpiece. When rolling flat, the cylindrical ones work or conical outer surfaces of the rollers directly on the workpiece.

With regard to the relative movement of the tools or rollers on the one hand and on the other hand, the workpiece is divided into longitudinal rolls, Cross rolls and cross rolls. The workpiece becomes vertical during longitudinal rolling to the axes of rotation of the rollers in a translatory movement and mostly without rotation through the space between the rollers (roller gap) emotional. The workpiece does not move translationally during cross rolling regarding the rollers or their axes of rotation, but only rotates about its own axis, which is usually a major axis of inertia, in particular the axis of symmetry for a rotationally symmetrical workpiece, is. When combining both types of movement in longitudinal rolling and in Cross rolling is referred to as cross rolling. The rollers are in the Usually at an angle to each other and to the workpiece, which is translational and rotational is moved.

Profile cross rolling machines in which two rolls are arranged on the outer circumference wedge-shaped profile tools around mutually parallel axes of rotation Rotating in the same direction is sometimes referred to as cross wedge rolling. The tools have a wedge-shaped or triangular cross-section Geometry can and along the circumference in its axial dimension increase in one direction and / or at an angle to the axis of rotation of the Rolls run.

These cross wedge rollers or profile cross rollers allow a variety of forming of workpieces with high precision or dimensional accuracy. The wedge-shaped Tools can have circumferential grooves and other tapering in the rotating workpiece. Due to the axial offset in the circumferential direction or the oblique arrangement of the tool wedges relative to The axis of rotation can, for example, change structures axially to the axis of rotation and tapering in the workpiece. By the increase or decrease in the outside diameter of the tool wedges during the course the axis of rotation can be axial in combination with the oblique arrangement running slopes and continuous transitions between two tapers different diameters can be generated in the workpiece. Especially Cross wedge rollers are suitable for producing elongated, rotationally symmetrical workpieces with constrictions or elevations like cams or ribs.

From DE 1 477 088 C a cross wedge rolling machine is known for the transverse rolling of rotary bodies or flat workpieces with two work rolls rotating in the same direction of rotation, on the roll surfaces of which wedge tools are interchangeably arranged. The wedge tools each have wedge-shaped or triangular-shaped, increasing from the roller shell to a height end position adapted to the workpiece to be produced, roughened by knurling or in some other way, and wedge-shaped smooth shaped surfaces with the same effect to the roller shell with calibration effect. The wedge tools are designed as deformation segments and only run over a partial circumference of the associated roller surface. The surfaces and tools of the two work rolls facing each other move in opposite or opposite directions on the workpiece.

DE 39 26 356 C2 discloses a rolling machine with interchangeable work rolls. Each of the work rolls is provided on one end face with a prism-shaped pin which is mounted on a divided clamping element of a drive shaft, a movable clamping part of the clamping element being connected to a fixed clamping part by means of at least one screw and one nut. On its opposite end face, each work roll has a cylindrical or prism-shaped pin which is mounted on a divided clamping element of the supporting pin, the movable clamping part of which is again connected to a fixed clamping part with the aid of at least one screw and a nut. The work roll is set in rotation by a drive via the drive shaft. The acting torques are transmitted from the drive shaft to the roller via the associated clamping element and the pin.

DE 309 408 C discloses the mounting of a typewriter of a typewriter.

DE 891 642 C discloses a roll holder for a rolling machine. In this known rolling machine, each bearing journal has a coupling flange on the roller frame, into which a centering projection of the roller body can be inserted without an axial displacement of one or both bearing journals. The dome flange can be designed as a pocket into which the centering insert of the roller body is inserted and held by an end piece. Bolts or screws can be provided to fix the centering shoulder and the coupling flange to one another.

The invention is based on the object, a simple and safe Holder for a roller of a rolling machine and a corresponding rolling machine specify.

This object is achieved according to the invention by means of a device the features of claim 1.

The device of claim 1 is for holding at least one by one Rotatable or rotating roller of a rolling machine is suitable and determines and comprises two opposite, viewed in the direction of the axis of rotation horizontal end faces of the roller can be arranged or arranged holding devices and at least two coupling devices with one engaged state (or: force or torque transmitting state) for the torque-transmitting connection of each holding device the roller and with a disengaged state (or: no power or no torque Status).

The coupling devices now each have at least two coupling pairs from at least one first groove and at least one a corresponding first coupling element on the one hand and at least a second groove not running parallel to the first groove and at least a corresponding second coupling element on the other hand on. The first and second groove (s) are on a first coupling part formed and the first and second coupling elements on a second Coupling part of the respective coupling device.

When the coupling device is engaged, the two associated are now Pairings of groove and coupling element of each coupling device in Engagement, wherein at least the pairing of the or the second groove (s) and the second coupling element (s) are positively engaged. As a result, when rotating at least one of the holding devices on the Connection surfaces of the coupling device on which the positive connection is effective, the rotational movement and the torque synchronously on the roller transfer. At the same time, the roller will fall out of position prevented between the holding devices.

In order to replace the roller or to equip it with tools, the roller can be detached between the holding devices designed. For this purpose, the roller is in the disengaged state of the coupling devices removable from the holding devices.

The rolling machine according to claim 21 comprises at least two µm each an axis of rotation that is rotatable or rotating, in particular that can be equipped with tools or equipped, rolls (or .: work rolls), at least one Rotary drive for rotating the rolls at least during a forming phase for forming an or can be arranged between the rollers arranged workpiece and each have a device according to the invention to hold the rollers.

The term "forming" means any transformation of the form a workpiece understood in another form, as also described at the beginning, including preforms and preforms. The axes of rotation of the Rolls are defined as geometric or mathematical axes in (Euclidean, three-dimensional) space around which the rollers rotate. Power transmission or mechanical axes are used in this application called waves.

Advantageous refinements and developments of the device and of the rolling machine result from that of claim 1 and claim 21 each dependent claims.

In general, the first grooves and preferably also the second Grooves each have a groove base. In a preferred embodiment is now the first in every first coupling part of the coupling devices Groove formed deeper than the second groove (or: the bottom of the groove further down arranged) so that the first coupling element is not at the bottom of the groove strikes first groove when the second coupling element in a form-fitting manner the second groove engages. Furthermore, the coupling devices are in the engaged state the coupling elements generally not at the bottom of the groove of the associated grooves to a geometric overdetermination avoid. Alternatively, the first grooves and the second grooves of the Coupling devices at least partially open at the bottom, that is to say Type of slots.

It is useful if each of the coupling devices in the engaged state also the first coupling element of the associated second Coupling part in the first groove of the associated first coupling part intervenes to additionally stabilize the connection.

The first groove and the second groove of the first coupling part are preferred each coupling device directed orthogonally to each other. this makes possible an optimal power transmission and holder when engaged.

The first grooves of the first coupling parts and preferably also the second Grooves of the first coupling parts are generally continuous. However, the second coupling part can each have at least two mutually separate first coupling elements and two mutually second Coupling elements include, preferably on different sides the axis of rotation are arranged and then in particular by a central Area around the axis of rotation are separated.

The first grooves and second grooves of the first coupling parts preferably run and the first coupling elements and second coupling elements of the second coupling parts each radially to the axis of rotation in the engaged Condition of the respective coupling device.

The side walls of the second grooves and the second coupling elements and preferably also the first grooves and the first coupling elements are generally substantially vertical and / or formed flat to form a good force counter surface for positive locking.

The first grooves preferably serve as guide grooves during assembly or disassembly of the rollers. In a particularly advantageous embodiment at least the first grooves are substantially straight or linear. In particular, the first grooves of the first coupling parts the coupling devices at their ends open to the outside designed to insert the first coupling element along the groove. Moreover can the first grooves at at least one of their open ends expand outwards and guide surfaces for the first to be introduced Form coupling element. Accordingly, the first coupling element taper at least at one of its free ends and with the guide surfaces corresponding to the first groove or sliding on it Form guide surfaces.

In order to be able to insert or execute the roller linearly, the first are Grooves of the first coupling parts of the two coupling devices preferably directed or adjustable essentially parallel to one another.

To switch between the engaged state and the disengaged state Switching or changing the coupling devices is preferred at least one setting device for (automatic) setting at least one of the two holding devices axially to the axis of rotation of the roller in one Infeed movement towards each other and in a continuous movement from each other path.

To mount the roller between the two holding devices is now the roller in a first step in the disengaged state of the coupling devices under the guidance of the first coupling elements in the first Grooves of the first coupling parts of both coupling devices in an insertion direction running parallel to the first grooves into one position spent between the two holding devices and then in a second step, the associated coupling devices by delivering at least one of the two holding devices to the roller in transferred their engaged state. The roller is then safely between held the holding devices. Conversely, dismantling the roller from the holding devices, the two coupling devices first from its engaged state to its disengaged state transferred by moving at least one of the two holding devices away from the roller and then the roller is under guidance the first coupling elements in the first grooves of both coupling devices in an execution direction running parallel to the first grooves brought into a position outside the two holding devices. This simple assembly and disassembly is a particular advantage of Invention.

To limit the feed movement and fix the roller between the Holding devices are on the holding devices and on the rollers the mutually facing end faces arranged stop surfaces or are attached, in the engaged state of the coupling devices abut each other.

Positioning means are in a particularly advantageous development of the device provided for positioning the roller relative to the holding devices in a position in which the two coupling devices convertible from the decoupled state to the coupled state are or vice versa. These positioning means are preferably the corresponding ones Stop means formed that the rollers in the direction of insertion stop or stop in the position in which the holding device (s) to the roller for transferring the coupling device into their coupled state is possible and / or in which the second coupling element of the associated second coupling part in the second groove of the associated first coupling part is insertable. The positioning means can in particular include positioning elements that engage behind one another. In addition, the positioning means are generally designed so that they enable the feed movement of the holding devices relative to the roller or not hinder.

The device is preferably for holding at least two by one Axis of rotation rotatable or rotating rollers of a rolling machine provided and then comprises two holding devices and two each Coupling devices for each of the rollers. It can be the holding devices and the rollers in the assembled state next to each other or, in Seen the direction of gravity, be arranged one above the other.

The at least two rollers are preferably in the same one after the other Direction of insertion or mountable from the same side of the rolling machine and / or is the first roller to be mounted between the holding devices of the rollers to be subsequently assembled.

It is now preferably the positioning means on the rollers and the holding devices designed and arranged so that the one to be assembled first Roller between the holding devices of the subsequently to be assembled Rolls can be guided through and only in their desired position between the associated holding devices of this roller in the desired Position is positioned or is positionable. In particular, they are Positioning means or stop means for this purpose at the one to be inserted first or seen roller to be mounted in the direction of insertion at the end of the holding device and at the front as seen in the direction of insertion Side of the roller on the end faces or arranged laterally and the Positioning means or stop means of a second after the first roller roller to be assembled at the beginning of the holding device, as seen in the insertion direction and on the back, seen in the direction of insertion, on the front sides or arranged to the side of the roller.

The at least two rollers can now in a special embodiment distinctive or in a clear assignment between the associated Holding devices can be installed, in particular by training the associated coupling devices and / or the associated positioning means.

The rolling machine generally comprises storage devices for each holding device, in which the holding devices are rotatably mounted.

The axes of rotation of the rollers mounted in the holding devices are in the Generally directed essentially parallel to one another and / or essentially, seen in the direction of gravity, one above the other and / or essentially are arranged perpendicular to the direction of gravity.

In a particularly preferred embodiment, the rolling machine is as Profile cross rolling machine or cross wedge rolling machine, whose basic structure was described at the beginning. In particular point the rollers profile or wedge tools and rotate in the same direction to each other, the workpiece only rotates on its own axis and not is transported translationally by the rollers - in contrast to the Longitudinal rolling. The tools on the rollers are in particular in cross section wedge-shaped or triangular and take in along the circumference their radial dimension in one direction and / or run obliquely to the axis of rotation of the associated roller.

FIG 1

eine Vorrichtung zum Halten zweier übereinander angeordneter Walzen einer Walzmaschine in einem Längsschnitt,

FIG 2

eine Vorderansicht auf die Stirnseite einer Halteeinrichtung für die obere Walze gemäß FIG 1 mit einem Kupplungsteil mit Kupplungselementen,

FIG 3

eine Vorderansicht auf die Stirnseite der oberen Walze gemäß FIG 1 mit einem Kupplungsteil mit Kupplungsnuten,

FIG 4

eine Vorderansicht auf die Stirnseite einer Halteeinrichtung für die untere Walze gemäß FIG 1 mit einem Kupplungsteil mit Kupplungselementen,

FIG 5

eine Vorderansicht auf die Stirnseite der unteren Walze gemäß FIG 1 mit einem Kupplungsteil mit Kupplungsnuten,

FIG 6

eine dreidimensionale Ansicht eines zweiten Kupplungsteils mit vier radialen Kupplungselementen,

FIG 7

eine dreidimensionale Ansicht eines zum zweiten Kupplungsteil gemäß FIG 6 korrespondierenden ersten Kupplungsteils mit zwei radialen Kupplungsnuten,

FIG 8

eine dreidimensionale Ansicht des ersten Kupplungsteils gemäß FIG 7 und des zweiten Kupplungsteils gemäß FIG 6 unmittelbar vor dem radialen Einführen,

FIG 9

eine dreidimensionale Ansicht des ersten Kupplungsteils gemäß FIG 7 und des zweiten Kupplungsteils gemäß FIG 6 im eingeführten Zustand unmittelbar vor dem Einkuppeln,

FIG 10

eine dreidimensionale Ansicht des ersten Kupplungsteils gemäß FIG 7 und des zweiten Kupplungsteils gemäß FIG 6 nach dem Einkuppeln und

FIG 11

eine gegenüber der Ansicht in FIG 10 um 180° gedrehte dreidimensionale Ansicht des ersten Kupplungsteils gemäß FIG 7 und des zweiten Kupplungsteils gemäß FIG 6 nach dem Einkuppeln

The invention is explained in more detail below on the basis of exemplary embodiments. Reference is made to the drawings in which

FIG. 1

a device for holding two rolls of a rolling machine arranged one above the other in a longitudinal section,

FIG 2

2 shows a front view of the end face of a holding device for the upper roller according to FIG. 1 with a coupling part with coupling elements,

FIG 3

2 shows a front view of the front face of the upper roller according to FIG. 1 with a coupling part with coupling grooves,

FIG 4

2 shows a front view of the end face of a holding device for the lower roller according to FIG. 1 with a coupling part with coupling elements,

FIG 5

2 shows a front view of the end face of the lower roller according to FIG. 1 with a coupling part with coupling grooves,

FIG 6

3 shows a three-dimensional view of a second coupling part with four radial coupling elements,

FIG 7

6 shows a three-dimensional view of a first coupling part corresponding to the second coupling part according to FIG. 6 with two radial coupling grooves,

FIG 8

7 shows a three-dimensional view of the first coupling part according to FIG. 7 and the second coupling part according to FIG. 6 immediately before the radial insertion,

FIG. 9

8 shows a three-dimensional view of the first coupling part according to FIG. 7 and the second coupling part according to FIG. 6 in the inserted state immediately before the coupling,

FIG 10

a three-dimensional view of the first coupling part according to FIG 7 and the second coupling part according to FIG 6 after coupling and

FIG 11

a three-dimensional view of the first coupling part according to FIG. 7 and the second coupling part according to FIG. 6 rotated by 180 ° with respect to the view in FIG

are each shown schematically. Corresponding parts and sizes are given the same reference numerals in FIGS. 1 to 11.

The device shown in FIG. 1 is for holding two work rolls 2 and 3 provided and part of a rolling machine, in particular a cross wedge roller or cross wedge rolling machine.

The first work roll 2 is rotatable or rotating about an axis of rotation A. and the second work roll 3 rotatable about an axis of rotation B or rotary. The axes of rotation A and B are essentially parallel to one another and perpendicular to the direction of the gravitational or gravity (gravity) arranged so that both Work rolls 2 and 3 are arranged directly one above the other.

The work rolls have a substantially cylindrical outer surface on. On the outer surface or outer surface of the work rolls 2 and 3 are in general, not shown, each wedge-shaped in cross section and segment-like or completely rotating tools attached, in particular braced or screwed, each at an angle and at an angle the respective axis of rotation A and B are arranged and axially with respect to Axes of rotation A and B are arranged in substantially the same positions are. The tools are preferably seen in the circumferential direction also in their cross section, with the increase in cross section in the Tools of different work rolls 2 and 3 is in opposite directions.

The first, upper work roll 2 is on its left end 20 in FIG a flange-like first coupling part 6A of a coupling device 6 and on the other, right end face 21 with a flange-like first Coupling part 7A provided a coupling device 7. The same is true second, lower work roll 3 on its left end face 30 in FIG. 1 with a flange-like first coupling part 8A of a coupling device 8 and on the other, right end face 31 with a flange-like first Coupling part 9A provided a coupling device 9. In addition to the first Coupling parts 6A, 7A, 8A and 9A comprise the coupling devices 6 to 9 each also corresponding flange-like second coupling parts 6B, 7B, 8B and 9B, each on an associated, designed as a rotary shaft Holding device 12, 13, 14 and 15 arranged or formed are.

The holding devices 12 and 13 for the upper work roll 2 are in associated Bearing devices 16 and 17 about the axis of rotation A about not closer designated roller bearings rotatably. The holding devices 14 and 15 for the lower work roll 3 are in associated storage facilities 18 and 19 rotatably supported about the axis of rotation B via roller bearings, not specified. The holding device 12 of the first work roll 2 and the holding device 14 of the second work roll 3 each have a shaft extension as drive shaft 42 or 43, each with one or a common, Rotary drive, not shown, can be connected or coupled.

The coupling devices 6 to 9 are shown in FIG Condition, that is, their coupling parts 6A and 6B, 7A and 7B, 8A and 8B and 9A and 9B are in engagement with each other. On the one hand, this means that upper first work roll 2 and the lower second work roll 3 between the associated holding devices 12 and 13 or 14 and 15 axially to them respective axis of rotation A or B clamped or held and it will on the other hand, torques or rotations of the holding devices 12 and 14 via the drive shafts 42 and 43 synchronously on the work rolls 2 and 3 and the beyond holding devices 13 and 15 transmitted.

Now each of the work rolls 2 and 3 by disengaging the associated one Coupling devices 6 and 7 or 8 and 9 of the holding devices 12 and 13 or 14 and 15 removable and removable from the device to replace the tools or the entire work roll 2 and 3.

The structure and operation of the coupling devices 6 to 9 is exemplarily based on the coupling devices 6 and 8 and the 2 to 11 explained in more detail.

2 and 6 show the second coupling part 6B or 7B and FIG. 3 and FIG. 7 shows the first coupling part 6A or 7A of the coupling device 6 or 7 for the upper work roll 2. FIG. 4 shows the second coupling part 8B and 5 shows the first coupling part 8A of the coupling device 8 for the lower work roll 3. The two coupling parts 6A and 6B are also illustrated in Figures 8 to 11 in different positions. Both Coupling parts 6A and 6B have the basic shape of a cylinder with the Rotation axis A as a cylinder axis. The coupling device 7 are identical in construction identical to the coupling device 6 and the coupling device 9 to the coupling device 8, which is indicated by the brackets set corresponding reference numerals should be expressed.

In the first coupling part 6A and 8A, two are orthogonal to each other and radially to the axis of rotation A and B, continuous and each other grooves 60 or 80 and 61 crossing in the area of the axis of rotation A or B or 81, which are at least predominantly a rectangular cross section or straight vertical side walls. The first groove 60 or 80 is set deeper or further inward than the second groove 61 or 81 trained.

The second coupling part 6B or 8B has four radially extending axially Coupling elements 62, 63, 64 projecting or projecting from the axis of rotation and 65 or 82 to 85, which are offset by 90 ° to one another and in the range the axis of rotation A or B through a central intermediate area from each other are separated. The coupling elements 62 and 64 or 82 and 84 are for engagement in the first groove 60 and 80 of the first coupling part 6A or 8A and the coupling elements 63 and 65 or 83 and 85 for engagement provided and formed in the second groove 61 or 81. The coupling elements 62 and 64 or 82 and 84 are higher or more outstanding formed as the coupling elements 63 and 65 or 83 and 85.

The first grooves, e.g. 60 and 80, and the associated coupling elements e.g. 62 and 64 or 82 and 84, of all coupling devices 6 to 9 directed vertically or parallel to gravity G and the second grooves, e.g. 61 and 81, and the associated coupling elements e.g. 63 and 65 and 83 and 85, corresponding to horizontal or perpendicular to gravity G.

The bearing devices 17 and 19 now each have two bearing parts 17A and 17B or 19A and 19B, each between two positions axially or parallel to the axis of rotation A or B against each other or are adjustable and fixable in the positions. This is an actuating device realized for axial delivery or continuation of the axial in the bearing part 17A fixed holding device 13 or 15 to the work roll 2 or 3 or away from this. The actuator can also be a drive for automatic delivery or delivery.

At the upper edge, the second coupling part 6B has the coupling device 6 a cut-off area for the upper work roll 2, in which the coupling element 62 projects upwards and tapers below Training of management areas. The outstanding area of the coupling element 62 and the cut off upper edge of the second coupling part 6B together form a positioning element 66. The first coupling part 6A has a loop-shaped one at the upper edge Recording for the positioning element 66 of the coupling element 62, the forms a further positioning element 67 and also on the cut one Area of the second coupling part 6B rests when the cylinder axes of the coupling parts 6A and 6B coincide on the axis of rotation A.

The first coupling part 8A of the coupling device 8 for the lower work roll 3 has a cut off area at its lower edge with a hook-shaped extension as a positioning element 86. The second Coupling part 8B also has a hook-shaped at the lower edge Extension as a positioning element 87, the two hook-shaped Reach behind and support positioning elements 86 and 87, when the cylinder axes of the two coupling parts 8A and 8B coincide on the axis of rotation B.

The associated bearing parts are used to assemble the work rolls 2 and 3 17A and 19A with the associated holding devices 13 and 15 initially continued in the outer position or left there. Now first the lower work roll 3 with its two first coupling parts 8A and 9A from above between the - sufficiently spaced - top two Holding devices 12 and 13 and the coupling parts 6B and 7B therethrough guided. By executing the positioning elements 87 and 97 on the one hand and the positioning elements 66 and 76 on the other hand ensures that the lower work roll 3 pass through the upper holding devices 12 and 13 can.

Then the work roll 3 with the first grooves 80 and 90 in the vertical insertion direction E parallel to gravity G. or threaded onto the coupling elements 82 and 92 (as in FIG. 8 for Coupling device 6 shown). A taper at the beginning of the coupling element 82 and 92 and an expansion 89 and 99 at the lower entrance the groove 80 and 90 serve as guides or contact surfaces or threading aids. Now the grooves 80 and 90 on the coupling elements 82 and 92 and then on the coupling elements 84 and 94 of the second coupling parts 8B and 9B guided until the positioning elements 87 and 97 of the work rolls 2 and 3 on the associated positioning elements Strike 86 and 96 of the lower holding devices 14 and 15. The Positioning positions of the holding devices 14 and 15 are chosen so that the coupling elements 82 and 84 and 92 and 94 on both sides in the engage respective guide grooves 80 and 90 and of their longitudinal ones Side walls are guided. In the through the positioning elements 86, 87, 96, and 97 when the work roll reaches its end position 3, the two coupling parts 8A and 8B and 9A and 9B are concentric arranged to the axis of rotation B.

Now the transverse coupling elements 83 and 85 and 93 and 95 into the transverse second grooves 81 and 91 by axial infeed the holding device 15 in a feed direction Z coaxial to the axis of rotation B engaged (as shown in FIG 9 for coupling device 6). The coupling elements 82 to 85 and 92 to 95 are now in theirs Form so adapted to the grooves 80 and 81 and 90 and 91 that with this Engagement a form fit at least on the longitudinal side walls is produced. Due to the abutting flat sides or stop surfaces 52 and 53 or 56 and 57 of the coupling parts 8B and 8A or 9B and 9A this feed movement is limited before the coupling elements 82 to 85 and 92 to 95 on the groove base of the respective grooves Strike 80 and 81 and 90 and 91. Now the two coupling devices 8 and 9 in their engaged state and it's a stable, torque-transmitting connection between work roll 3 and holding devices 14 and 15 realized.

The first grooves 80 and 90 have in addition to the lower widenings 89 and 99 also expandings 88 and 98 on top. This is advantageous if the lower work roll 3 on its way between the upper holding devices 12 and 13 through with their grooves 80 and 90 on the coupling elements 62 and 64 and 72 and 74 of the upper coupling parts 6B and 7B out becomes easier because threading up and down is easier becomes. All grooves can also be gripped at the upper edge (see FIG. 7).

After this assembly of the lower work roll 3, the upper work roll 2 mounted by this in a first step from above with the first grooves 60 and 70 of their first coupling parts 6A and 7A the coupling elements 62 and 72 threaded in the insertion direction E. or is adjusted (FIG 8). The tapered area of the Coupling element 62, which is part of the positioning element 66 and a itself outward widening 68 at the beginning of the first groove 60 as Threading aids or guides.

After threading, the grooves 60 and 70 are on the coupling elements 62 and 72 and then continue on the coupling elements 64 and 74, respectively guided up to by the stop of the positioning elements 66 or 76 and 67 or 77 specified end position, in which the axial infeed in the Infeed direction Z for the positive connection of the second grooves 61 and 71 with the associated coupling elements 63 and 65 or 73 and 75 (FIG 9).

FIGS. 10 and 11 show the coupling device 6 in the one produced in this way engaged state. The end faces 50 of the second Coupling part 6B and 51 of the first coupling part 6A lie on top of one another and the coupling elements 62 and 64 engage at a distance from the groove base positively into the groove 60 and the coupling elements 63 and 65 in the groove 61.

To remove or disassemble the work rolls 2 and 3 the steps mentioned during assembly in the reverse order, in an extension direction opposite to the infeed direction Z and one Execution direction opposite to the insertion direction E.

To hold the work rolls 2 and 3 during assembly or disassembly mounting aids 22 and 23 or 32 and 33 provided.

Thus, the measures described are a simple matter Exchange or exchange of work rolls 2 and 3 or their tools realized and also an unmistakable installation of the two Work rolls 2 and 3 due to the special design of the positioning means 66, 67, 76, 77, 86, 87 and 96, 97.

The coupling parts are preferably made of steel. The coupling elements can in particular as prefabricated parts in grooves in the second Coupling part, as seen for example in FIG 8, are attached or be molded or molded in the coupling part itself. The grooves in the first or second coupling part are preferably by material removal generated, especially milled.

LIST OF REFERENCE NUMBERS

2.3

Stripper

6,7,8,9

coupling device

6A, 7A

first coupling part

8A, 9A

first coupling part

6B, 7B

second coupling part

8B, 9B

second coupling part

12.13

holder

14.15

holder

16.17

Storage facility

17A, 17B

bearing part

18.19

Storage facility

19A, 19B

bearing part

42, 43

drive shaft

50 to 57

stop surface

60, 61

groove

62 to 65

coupling member

66, 67

positioning

70, 71

groove

72 to 75

coupling member

76, 77

positioning

80, 81

groove

82 to 85

coupling member

86, 87

positioning

88

widening

89

widening

90, 91

groove

92 to 95

coupling member

96, 97

positioning

98

widening

99

widening

A, B

axis of rotation

G

gravitational force

e

insertion

Z

infeed

Claims (24)

Device for holding at least one roll (2, 3) which is rotatable or rotating about an axis of rotation (A, B) of a rolling machine for forming workpieces a) two holding devices (12, 13, 14, 15) which can be arranged or arranged on opposite end faces of the roller, as seen in the direction of the axis of rotation, b) at least two coupling devices (6, 7, 8, 9), each with an engaged state and with an uncoupled state, c) wherein each coupling device has two corresponding coupling parts (6A to 9A, 6B to 9B), c1) wherein a first of the two coupling parts has at least one, preferably essentially rectilinear, first groove (60, 70, 80, 90) and at least one second groove (61, 71, 81, 91) not parallel to the first groove, c2) a second of the two coupling parts at least one first coupling element (62.64; 72.74; 82.82; 92.94) and at least one second coupling element (63.65; 73.75; 83.85; 93.95) comprises, wherein the first coupling element, preferably at least axially to the axis of rotation, projects further than the second coupling element, d) wherein each of the coupling devices in the coupled state d1) on the one hand the first coupling element of the associated second coupling part projects into the first groove of the associated first coupling part and d2) on the other hand, the second coupling element of the associated second coupling part engages in the second groove of the associated first coupling part in a form-fitting manner on the side walls thereof to produce a torque-transmitting connection of each holding device to the roller and e) the roller being detachable or removable from the holding devices when the coupling devices are disengaged. The device of claim 1, wherein the first groove in each first Coupling part of the coupling devices deeper than the second groove of this first coupling part is designed so that the first coupling element does not hit the groove bottom of the first groove if that second coupling element engages positively in the second groove. Apparatus according to claim 1 or claim 2, wherein in the coupled State of each of the coupling devices the first coupling element of the associated second coupling part in the first groove of the associated first coupling part in positive engagement with the side walls intervenes. Device according to one or more of the preceding claims, in which the first grooves and the second grooves of the first coupling parts the coupling devices each have a groove base and in the engaged state of the coupling devices Coupling elements do not rest on the groove base of the associated grooves and / or in which the first grooves and the second grooves of the first Coupling parts of the coupling devices at least partially are open at the bottom and / or in which the first groove and the second Groove of each first coupling part of the coupling devices orthogonal to each other. Device according to one or more of the preceding claims, in which the first grooves of the first coupling parts of the two Coupling devices run essentially parallel to each other or are adjustable. Device according to one or more of the preceding claims with at least one actuating device for at least one of the two holding devices axially to the axis of rotation in a feed movement towards each other and in a continuous movement from each other path. Device according to one or more of the preceding claims, in which, in order to mount the roller between the two holding devices, the roller in the disengaged state of the coupling devices first by guiding the first coupling elements of the second coupling parts in the first grooves of the first coupling parts of both coupling devices in a manner parallel to the first Groove-running insertion direction can be brought into a position between the two holding devices and then the associated coupling devices can be transferred into their coupled state by delivering at least one of the two holding devices to the roller and / or
in which, to remove the roller from the holding devices, the two coupling devices can first be transferred from their engaged state to their disengaged state by continuing to move at least one of the two holding devices away from the roller and then the roller under guidance of the first coupling elements in the first grooves of both coupling devices in an execution direction running parallel to the first grooves can be brought into a position outside the two holding devices. Device according to one or more of the preceding claims, at the on the holding devices and on the rollers on the facing end faces arranged stop faces or are attached, in the engaged state of the coupling devices abut each other. Device according to one or more of the preceding claims Positioning means (66.67; 76.77; 86.87; 96.97) for positioning the Roll relative to the holding devices such that the two coupling devices from the decoupled state to the coupled one Condition are transferable. Apparatus according to claim 9, wherein the positioning means comprise stop means which stop the movement of the roller in the insertion direction in a position in which the holding device (s) can be moved towards the roller in order to transfer the coupling device into its coupled state and / or in the second coupling element of the associated second coupling part can be inserted into the second groove of the associated first coupling part and / or
in which the positioning means are designed such that they enable the holding devices to move in relation to the roller and / or
in which the positioning means comprise positioning elements engaging behind one another. Device according to one or more of the preceding claims for holding at least two rolls of a rolling machine which are rotatable or rotating about an axis of rotation, each with two holding devices and two coupling devices for each roll,
wherein the holding devices and the rollers are preferably arranged next to one another and / or, viewed in the direction of gravity, one above the other and / or preferably the at least two rollers can be installed unmistakably between the associated holding devices, in particular by designing the associated coupling devices and / or the associated ones positioning. The apparatus of claim 11, wherein the at least two rollers can be assembled or assembled one after the other in the same direction of insertion and / or the first roller to be mounted between the Holding devices of the rollers to be assembled thereafter must be performed. Apparatus according to claim 12 in relation to claim 9
or a claim referring back to claim 9, in which the positioning means on the rollers and the holding devices are designed such that the roller to be mounted first can be passed between the holding devices of the rollers to be subsequently mounted and only in its desired position between the associated holding devices thereof Roller is positioned in the desired position by the positioning means or can be positioned,
preferably the positioning means or stop means for the roller to be assembled first, viewed in the insertion direction, at the end of the holding device and, viewed in the insertion direction, on the front side of the roller, and further preferably the positioning means or stop means for a second roller after the first roller roller to be assembled, viewed in the direction of insertion, are arranged laterally at the beginning of the holding device and, viewed in the direction of insertion, on the rear side of the roller. Device according to one or more of the preceding claims, of the first grooves of the first coupling parts of the coupling devices designed open to the outside at least one of its ends and are preferably at least one of their open ends widen outwards and guide surfaces for the first to be inserted Form coupling element. Device according to one or more of the preceding claims, the or each first coupling element is at least one its free ends tapered. Device according to one or more of the preceding claims, of the first grooves of the first coupling parts and preferably the second grooves of the first coupling parts are also continuous are. Device according to one or more of the preceding claims, the first grooves and second grooves of the first coupling parts and the first coupling elements and second coupling elements the second coupling parts, preferably with their respective side walls, each run radially to the axis of rotation. Device according to one or more of the preceding claims, the second coupling part each has at least two first coupling elements and comprises two second coupling elements, wherein preferably the at least two first coupling elements on different Sides of the axis of rotation are arranged and preferably the at least two second coupling elements on different Sides of the axis of rotation are arranged. Device according to one or more of the preceding claims, the side walls of the second grooves to be brought into a form-fit connection and the second coupling elements and / or the first grooves and of the first coupling elements essentially vertical and / or are flat. Device according to one or more of the preceding claims, in which the first coupling parts of the coupling devices the roller and the second clutch parts on the holding devices are arranged. Rolling machine with a) at least two rollers which can be rotated or rotated about an axis of rotation, in particular equipped or equipped with tools, b) at least one rotary drive for rotating the rolls at least during a forming phase for forming a workpiece that can be arranged or arranged between the rolls, c) a device according to one or more of the preceding claims for holding each roller Rolling machine according to claim 21 with bearing devices (16, 17, 18, 19) for each holding device in which the holding devices are rotatable are stored. Rolling machine according to claim 21 or claim 22, which is a profile cross rolling machine or cross wedge rolling machine is formed and / or in which the tools are wedge-shaped in cross section on the rollers or have triangular profiles or shapes and along the circumference in its radial dimension in one direction increase and / or at an angle to the axis of rotation of the associated roller run. Rolling machine according to one or more of claims 21 to 23, where the axes of rotation of the assembled rollers are essentially parallel are directed towards each other and / or in which the axes of rotation of the Rolls essentially, seen in the direction of gravity, one above the other and / or arranged substantially perpendicular to the direction of gravity are.

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