The present invention is directed to a turning device having a turning bar. The turning device is useable for rerouting a web of material.
In order to be able to process webs of material which are fed from two diametrically opposed directions to a single downstream located machine, or in order to be able to feed paper webs, which are coming from the same direction, to two different machines for further processing, turning bar arrangements have been developed. The turning bars are movable between two work positions, each of which causes a rerouting of the web of material by 90°, into opposite directions.
Such a turning bar arrangement is known from DE 43 11 438 C2. This turning bar arrangement comprises a plurality of turning bars. Both longitudinal ends of each turning bar are hingedly connected with support spindles of a rack and each turning bar end can be displaced, along these support spindles. The turning bars can each assume two different work positions, in which they each extend at an angle of 45° in relation to the support spindles. The turning bars can each be transferred from one of their work positions into the other of their work positions by a pivot movement of 90° in the plane defined by the axes of the support spindles and of the turning bars. This transfer takes place through movement of the turning bars through an intermediate position, in which each of the turning bars extends perpendicularly with respect to the support spindles. To make such a transfer possible, it is necessary for each of the support spindles to be movable, coordinated with the movement of the turning bars, perpendicularly with respect to each other.
Turning bar arrangements are also known, in which the turning bars can be switched from one work position into the other work position on an axis which is parallel to the plane defined by the axes of the support spindles and of the turning bars. However, such a turning bar arrangement requires sufficient space, either above or underneath of this plane, for performing the transfer movement.
DE 29 20 684 A1 discloses a linear actuating member for pivoting a turning bar.
DE 31 27 872 C2 describes a turning bar, whose first end is seated changeably in a rack, and whose second end is displaceably seated in a guide device. Compressed air is supplied through a link, and the guide devices can be displaced by use of linear drive mechanisms and can be secured by use of clamping devices.
The object of the present invention is directed to providing a turning device with a turning bar which can be simply and dependably pivoted.
In accordance with the present invention, this object is attained by the provision of a turning device having a turning bar for rerouting a web of material. A rack supports the turning bar for pivotal movement. The turning bar has a free longitudinal end which is not connected directly to the rack and which extends, in a cantilever manner from the rack. An actuator is usable to pivot the turning bar through 90° between the two work positions. At least one fixation device is usable to secure the turning bar in its two work positions. The actuator may be a linear actuator, particularly a pneumatic cylinder. The linear actuator may be connected with the rack and the turning bar.
An advantage which can be achieved by the use of the present invention lies, in particular, in that the mechanical structure of the turning device is simplified. A hinged connection of the second longitudinal end of the turning bar with the rack is omitted. Therefore, neither a second support spindle, nor any mechanism for controlling its movements, are necessary. Passage of a compressed air feed line through a link connecting the turning bar with the rack permits a particularly compact construction especially in the vertical direction. Moreover, it is possible to do without a flexible pipe line, which flexible line is in danger of wear or damage, for conducting the compressed air to the turning bar.
When the turning bar in accordance with the present invention is employed for rerouting webs of material of varying widths, it is desirable to be able to limit the size of the surface area of the jacket of the turning bar, from which compressed air exits to form an air cushion underneath the web of material to be rerouted, in accordance with the width of the web of material. For this purpose, at least one piston, which axially limits the compressed air-supplied interior of the turning bar, is axially displaceable inside the turning bar.
Since a free end of the turning bar is not needed for use in connecting the compressed air feed line to the turning bar, an actuating element for use in adjusting the position of the at least one piston can preferably be conducted out of the turning bar at this free end. This actuating element can have, for example, the shape of a knurled wheel or of a crank for use in turning a threaded bar which is extending through the turning bar, in the longitudinal direction of the turning bar, and whose screw thread meshes with a threaded bore in the piston.
A closing body, which is used for the selective closing of each of a group of holes in the jacket of the turning bar, is preferably embodied as a hollow cylinder. The at least one piston can be displaced within this hollow cylinder. This arrangement makes it possible to move the closing body and the at least one piston independently of each other.
If the at least one piston is arranged in the turning device at the longitudinal end of the turning bar which is connected with the link, it is necessary to conduct the compressed air, which is fed into the interior of the turning bar, through this piston. For this purpose, a section of the compressed air feed line in the interior of the turning bar, is embodied as a tube section which traverses the piston.
The rack which supports the turning bar has two stops for use in fixing the end position of the pivot movement freedom, which two stops are preferably adjustable.
Furthermore, at least one fixation device, for use in fixing the turning bar in respective end positions of the pivot movement freedom, is provided. This fixation device preferably comprises a bolt which is connected with the rack for engaging a projection of the turning bar. In accordance with a simple embodiment of the present invention, the bolt is pivotable around an axis extending vertically with respect to a longitudinal axis of the turning bar.
The closing body, which is provided for the selective closing of a respective group of holes in the jacket of the turning bar, is preferably rotatable between its two positions around the longitudinal axis of the turning bar. In comparison with the axial displaceability of the closing body disclosed in DE 43 11 438 C2, this feature of the present invention permits an increased stroke length of the movement of the closing body. Demands made on the positional accuracy of the holes in the jacket and in the closing body can accordingly be relatively low.
To facilitate a rapid switching of the turning device between the two work positions of the turning bar, it is possible to provide a linear actuating member, in particular a pneumatic cylinder, for accomplishing the pivoting movement of the turning bar.
Preferred embodiments of the present invention are represented in the drawings and will be described in greater detail in what follows.
Shown are in:
In a top plan view, partially in section,
A longitudinal end of a turning bar 01 is connected, via a link 26, with the sliding pad 23. Turning bar 01 is pivotable around a vertical axis, which is perpendicular to the plane of
A link bore 29, which extends in the plane of
The sliding pad 23 is furthermore provided with a connector 32 for connection of the sliding pad 23 with a compressed air line, so that the interior of the turning bar 01 can be charged with compressed air via the connector 32, the sliding pad chamber 31, the link bore 29 and the turning bar tube section 06.
The turning bar 01 has a cylindrical turning bar jacket 02, which jacket 02 is provided with evenly distributed jacket holes 08 over its entire circumference and, except for short pieces at the turning bar longitudinal ends, over its entire axial length. A closing body 03, in the shape of a hollow cylinder 03, rests against an interior wall of the turning bar jacket 02 and is rotatable around the longitudinal axis of the turning bar 01. As can be seen particularly in the sectional view, taken along the line A-A in
In the course of displacing the turning bar 01 from one work position into the other, the closing body 03 preferably performs a rotation through 180°, so that the group of jacket holes 08, which are open in the one work position of the turning bar 01, in the other work position of the turning bar 01 are located opposite the closed half of the circumference of the closing body 03, while the jacket holes 08 of the other group are now aligned with the holes 04 of the closing body 03. Such a coupling of the rotation of the closing body 03 to the displacement of the turning bar 01 can take place, for example, with the aid of a stationary gear ring on the link 26, which gear ring is not specifically represented and which meshes with an exterior teeth arrangement of the closing body 03.
A first turning bar threaded spindle 07, as seen in
A corresponding second piston 11, which is axially displaceable with the aid of a second turning bar threaded spindle 12 also supporting a nut 10, is arranged at the free end of the turning bar 01, as represented in
The borders of the pistons 09, 11 facing the interior 13 of the turning bar 01 each follow the course of an edge 14 of a web of material that is looped around the turning bar 01, i.e. they essentially follow the course of two helically-shaped sections of opposite handedness, each extending around half the piston circumference.
The sliding pad 23 has two arms 16, which extend at an angle of 90° from each other and on the end of each of which arms 16 a stop 17 has been mounted, which stop 17 has a concave side 18 facing the turning bar 01, as represented in
The turning bar 01 has protrusions 33, as seen in
The bolt 38 of the right arm 16 extends behind the inclined face 34 of the protrusion 33 and in this way acts as a lock and keeps the turning bar 01 pressed against the right stop 17. The bolt 38 itself has an inclined face which, in the locked position, is pushed against the inclined face 34 of the protrusion 33. It is achieved, because of the inclined course of these inclined faces 34, that, by pivoting the bolt 38 out of the vertical position represented at the right arm 16, and by pivoting of the bolt 38 into the horizontal position represented at the left arm 16, and with the turning bar 01 being fixed in place against the stop 17, the bolt 38 can already be engaged behind the protrusion 33 before the turning bar 01 rests directly against the stop 17, and that the locking of the turning bar 01 is free of play.
This second preferred embodiment of the turning device in accordance with the present invention permits a remote-controlled switching of the turning bar 01 between its two work positions without direct access of an operator to the turning bar being necessary.
While preferred embodiments of a turning device, in accordance with the present invention, have been set forth fully and completely hereinabove, it will be apparent to one of skill in the art that various changes in, for example, the type of web being turned, the source of supply of the compressed air, the number and size of the jacket holes, 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 appended claims.
Number | Date | Country | Kind |
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101 31 272 | Jun 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE02/02199 | 6/17/2002 | WO | 00 | 12/29/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/002440 | 1/9/2003 | WO | A |
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Number | Date | Country | |
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20040149855 A1 | Aug 2004 | US |