1. Field of the Invention
The invention relates to a calender arrangement.
2. Description of the Background Art
In vertical calenders having a plurality of rolls, one of the intermediate rolls is provided with a main drive and transmits the torques to all the other rolls frictionally, by means of tangential forces, from one roll to the next and via the web to be treated and the roll covers. This leads to undesired horizontal deflections, that is to say to deformations of the intermediate rolls. In addition, the web structure and the roll covers are impaired.
In an on-line calender, before the paper web is threaded, and with the nips open, all the rolls in contact with the paper web are accelerated by their auxiliary drives, and the drive roll with the main drive is accelerated to a rotational speed at which the respective circumferential speed corresponds to the web speed of the paper, which can be 1000 m per minute and much higher. After the nips have been closed, power is introduced only by the main drive of a single drive roll. This is illustrated schematically in
In modern calenders, the top roll and the bottom roll of the roll stack are designed as controllable-deflection rolls. Because of their internal frictional losses, necessitated by their functioning, these two rolls need a greater drive force than the remaining calender rolls. In addition, the most extreme deformation of the paper web takes place in the first nip. In conventional calenders having a main drive, these two power components have to be dragged through the entire roll stack and, in so doing, stress the paper web and the roll covers in a damaging way as a result of frictional transmission of the tangential forces. This results in increased wear of the roll surfaces and a reduction in the service life of the rolls.
According to an earlier proposal in DE-196 50 576.3, all the rolls are provided with their own (power) drives, and the powers of the individual drives are coordinated with one another in such a way that the horizontal roll deformations are minimized.
The achievement of this object in accordance with the invention is defined in Patent claim 1.
The object of the invention is to provide a calender whose roll drive is designed such that the outlined disadvantages of the prior art are avoided in a cost-effective manner.
According to the invention, the controllable-deflection rolls are each provided with their own power drive. In one configuration of the invention, a controllable-deflection top roll and bottom roll can be driven with drive powers matched to each other. It is preferred to register the horizontal deformation of an intermediate roll and to control or regulate the power distribution to the two drives in such a way that this deformation at least remains below an amount which is still permissible. It has been shown that this requirement can be met if the top roll and bottom roll are driven with essentially the same power.
Two embodiments of the calender arrangement according to the invention are reproduced schematically in side view in the appended
After the nips have been closed, the calender rolls have the predefined line load applied to them, at which predefined pressure stresses are developed in the nips. At the same time, the calendering forces corresponding to the loading are provided by the two power drives of the top and bottom rolls. An intermediate roll is expediently provided with sensors for the horizontal deformations, and the distribution of the drive power to the top and bottom roll is carried out in such a way that these horizontal deformations are minimized. Alternatively, it is also possible for the horizontal forces acting on an intermediate roll to be measured and minimized.
In the embodiments according to the invention according to
As shown in
The first and second gear mechanisms 29, 30 preferably comprise slip-on gear mechanisms. Each slip-on gear is connected to the roll sleeve of the controllable deflection rolls 12, 20. Cardan shafts 32, 33 are used to bridge the power drive 27, 28 and the gear mechanisms 29, 30, respectively. Cardan joints 34, 35 and 36, 37 are associated with each cardan shaft 32, 33.
The rolls 12, 14, 16, 18, 20 are supported via bearing housings at a calender stand 39. The intermediate rolls 14, 16 and 18 are mounted in a manner known per se in lever arms 22, via which forces from operating cylinders 24 can be introduced, in particular in order to compensate for the so-called overhung loads. Hydraulic units 26 are used to close the nips; instead of this, the inner stroke of the roll 20 could also be used for this purpose, while the upper controllable-deflection roll 12 is mounted in a fixed location in the frame.
On one of the intermediate rolls 14, 16, 18, transverse forces which occur can be measured via sensing elements (not illustrated) and, depending on the measurement result, the power distribution of the drives 27 and 28 for the top roll 12 and the bottom roll 20 can be adjusted, in order that these transverse forces do not exceed a predefined value. Alternatively, possible deformations of the intermediate rolls 14, 16, 18, in particular at their roll centre, can be measured by means of measuring elements. This measurement result can be included in the power distribution of the drives 27 and 28 for the top roll 12 and the bottom roll 20, in order also to minimize these deformations.
It should further be noted that the concept according to the invention is particularly suitable for re-equipping existing calenders, in which there is often a lack of space, or for narrower machines having a relatively low drive power and relatively stiff intermediate rolls.
Number | Date | Country | Kind |
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PCT/EP99/01412 | Mar 1999 | WO | international |
19811474.5 | Mar 1998 | DE | national |
This application is a continuation-in-part of application Ser. No. 10/313,985 (Attorney Docket No. 081242-000100US), filed on Dec. 5, 2002, which was a continuation-in-part of application Ser. No. 09/424,076 (Attorney Docket No.: 081242-000000/703 US 06), filed on Feb. 15, 2000, which was a 371 of PCT/EP99/01412, filed on Mar. 4, 1999, which claimed priority from German application no. 19811474.5, filed on Mar. 17, 1998. The full disclosures of each of these applications are incorporated herein by reference.
Number | Date | Country | |
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Parent | 10313985 | Dec 2002 | US |
Child | 11009596 | Dec 2004 | US |