Abstract:
A roller is formed of at least two adjacent roller barrels. Each of the roller barrels has its own shaft that defines an axis of rotation for its associated roller barrel. The axes of rotation of the several roller barrels can be independently positioned. A support is located between the two roller barrels and supports the shafts of the two adjacent barrels. This central support is able to be adjusted.

Description:
FIELD OF THE INVENTION 
     The present invention relates to a roller with a plurality of barrels or segments located axially adjacent each other. Axes of rotation of the individual barrels can be positioned independently. 
     DESCRIPTION OF THE PRIOR ART 
     EP 0 141 189 B1 describes a film roller with several barrels, whose axes of rotation can be adjusted parallel with each other by means of eccentric displacement devices. 
     DE 11 32 934 B1 discloses an ink duct without a vibrating roller and with a divided transfer roller. The shafts of the transfer roller segments are supported on a support bearing arranged between the barrels. 
     SUMMARY OF THE INVENTION 
     The object of the present invention is based on producing a roller. 
     In accordance with the present invention, this object is attained by providing a roller having a plurality of axially adjacent barrels. A position of an axis of rotation of at least one barrel can be set independently of the position of the axis of rotation of a second barrel. At least one support bearing is arranged between the two barrels. This support bearing is adjustable. 
     The advantages which can be achieved by means of the present invention reside, in particular, in that, with a roller with a multi-part barrel, it is possible to adjust an axis of rotation of at least on barrel independently of an axis of rotation of a second barrel. It is particularly advantageous in this situation that these two axes of rotation can be displaced parallel in respect to each other by a single adjusting device. It is thus possible to reduce assembly and maintenance times and to simplify the adjustment work. 
     For example, for compensating for sagging of this roller or of an adjoining roller, a support in respect to an ink duct, i.e. in respect to a lateral frame, is provided between the sections. This support can be adjustable. It is possible, by use of this device, to set a changeable opening angle, which is not 180°, of the axes of rotation of the two barrels. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The roller in accordance with the present invention is represented in the drawings and will be described in greater detail in what follows. Shown are in: 
     FIG. 1, a schematic cross section, in the longitudinal direction, through a roller in accordance with the present invention, 
     FIG. 2, a schematic cross section through a roller taken a long line II—II in FIG. 1, and in 
     FIG. 3, a schematic and view of a roller in accordance with FIG.  1 . 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     A roller  1  is used for conveying ink and/or dampening agent in a rotary printing press. This roller  1  is preferably used as a film roller in an ink duct and is shown in FIG.  1 . 
     The roller  1  has a plurality of barrels, for example two such, barrels  2 ,  3 , which are arranged next to each other in the axial direction of roller. Each one of these first and second barrels  2 ,  3  is rotatably seated on its own barrel shaft  6 ,  7  by rolling bearings  4 . The first shaft  6  of the first or left barrel  2  is provided on both its ends with centered journals  8 ,  9 , and the second shaft  7  of the right or second barrel  3  is provided with eccentric journals  11 ,  12 . The centers of the accentric journals  11 ,  12  of the second shaft  7  are displaced by an amount of eccentricity e 7  in respect to a center or center line of a barrel  3 . 
     These four journals  8 ,  9 ,  11 ,  12  are each fastened in pivot levers or arms  13 ,  14 ,  16 , an are used as support bearings. For this purpose, the left pivot lever  16  has a first, central bore, which is arranged approximately in the center of the pivot lever  16  and whose diameter is matched to a diameter of the journal  9  of the first barrel shaft  6 . 
     A second bore is provided at a first end of the left pivot lever  16 . The left pivot lever  16  is pivotably seated on a bearing bolt  17  using this second bore. This bearing bolt  17  is arranged on the ink duct  21 , for example, by being fixed on the frame. The pivot lever  16  is provided with an adjustment screw  18  on its second end. This adjustment screw  18  has springs  19  between its head and the pivot lever and is supported at its free end on an ink duct  21 , for example, which is fixed on the frame. 
     The second and third pivot levers  13 ,  14  are also embodied to be pivotable and adjustable as may be seen in FIG.  2 . The pivotable support of the central pivot lever  16  is depicted in FIG.  2 . However, it will be understood that the preceding discussion regarding the left pivot lever  16  is also applicable to the right pivot lever  13  and to the central pivot lever  14 . Also, FIG. 2 is to be understood as being generally representative of all three pivot levers  13 ,  14  and  16 . 
     The third or central pivot lever  14  is arranged centered between the left and right barrels  2 ,  3  and is provided with two bores as seen most clearly in FIG.  1 . These two bores are arranged eccentrically in respect to each other by the amount of eccentricity e 7 . The right journal  8  of the first or left barrel shaft  6 , which left shaft  6  has centered journals  8 ,  9 , is seated in the left bore of the center pivot lever  14 . The right bore of the center pivot lever  14  receives the left journal  12  of the second or right barrel shaft  7 , which shaft, has eccentric journals. 
     The right pivot lever  13  is provided with a central bore which is matched in axial alignment to the right bore of the center pivot lever  14 , i.e. this right pivot lower central bore is also offset by an amount of an eccentricity e 7  in respect to the central bore of the left pivot lever. 
     The eccentric journals  12 ,  11  of the second shaft are assigned to the central bore of the center pivot lever  14  and in the central bore of the right pivot lever  13 , respectively. The amounts of eccentricity e 7  of the journals of the shaft and the eccentricities of the bores are arranged in such a way that the two barrels  2 ,  3  of the roller  1  are located centered in respect to each other in an initial position. 
     The right journal  11  of the eccentric right barrel shaft  7  protrudes past the right pivot lever  13 . Adjusting means, such as an adjustment device  22  are provided for affecting adjustment of the eccentric position of the eccentric shaft  7 , and therefore the position of the second barrel  3  of the roller  1 . Those adjusting means are arranged on this protruding end of the journal  11 . In the present embodiment, as be soon more clearly in FIG. 3, these adjusting means  22  essentially consist of a lever  23  and a counter-support  24 . The lever  23  has a journal receiving bore, whose diameter is matched to a diameter of the eccentric journal  11  of the shaft  7 . The lever  23  is clamped, fixed against relative rotation, on the free end of the eccentric journal  11  by means of a threaded claiming screw  26 , and has a bore on its end. 
     A threaded bolt  27  projects through this level and bore, and has a first end that is provided with a threaded nut  28 . A second end of treaded bolt  27  is fixedly connected, for example is pressed into the counter-support  24 . In the present embodiment example, the counter-support  24  is pivotably seated on the right pivot lever  13  by means of a dowel screw  29 . Springs  31  are arranged on the threaded bolt  27  between the lever  23  and the counter-support  24 . 
     In an initial position, the three pivot levers  13 ,  14 ,  16  are adjusted, in respect to each other, in such a way that the two shafts  6 ,  7  are aligned with each other, i.e. that the two roller barrels  2 ,  3  lie coaxially in respect to each other. An even or continuously uniform shaft spacing distance between the two barrels  2 ,  3  and an adjoining roller  32  can be set in this way. If it is now desired to change the distance of the right barrel  3  from the adjoining roller  32 , the shaft  7  is pivoted in respect to the eccentric journals  11 ,  12  by means of the associated adjustment device  22 . In this way, the position of an axis of rotation  33  of the second barrel  3  is changed in relation to an axis of rotation  34  of the first barrel  2 . It is, for example, also possible to adjust the center pivot lever  14 , or one, or respectively both, outer pivot levers  13 ,  16 , so that the two axes of rotation  33 ,  34  no longer lie parallel with each other and enclose an opening angle unequal to 180°. If more than two barrels  2 ,  3  are arranged, it is possible to provide an adjustable support bearing between each respective two barrels, or to assign one adjustable support bearing to a group of barrels. For example, one roller can have four barrels, wherein two barrels are assigned to a common shaft, i.e. a support bearing is only provided in the center. 
     It is also possible to provide the barrels  2 ,  3  with journals, which are fixed against relative rotation. In this case the, journals are then rotatably seated in the support bearings. The position of the journals can be adjusted, for example by use of an eccentric adjustment of the pivot levers, or respectively of the support bearings. 
     While a preferred embodiment of a roller in accordance with the present invention has been set forth fully and completely hereinabove, it will be apparent to one of skill in the art that a number of changes in, for example the drive for the roller, the end use of the roller, any covering on the roller, and the like could be made without departing from the true spirit and scope of the present invention which is accordingly to be limited only by the following claims.