The invention relates to a suction transport device for taking off a sheet from a sheet stack in a sheet running direction, which includes at least two revolving suction means, as well as a method for taking off sheets.
DE 26 37 073 A1 discloses a sheet feeder for folding machines in which a suction transport device is provided which includes a continuously revolving suction wheel having a horizontal axis of rotation which is transversal to the sheet running direction. By means of the suction wheel a topmost sheet on a sheet stack is grabbed and transported further to a processing machine, such as a folding machine.
In the case of suction transport devices comprising only a single suction wheel it has often been experienced that a sheet gets into a skew position, resulting in the fact that the sheet is not adequately transported further. For this reason it has become customary to provide suction transport devices with two suction wheels which are firmly installed at an equal distance from the center line of a sheet. These two suction wheels are used for all kinds of sheet sizes, from large to small. Especially in the case of very large sheets it may happen that for reasons of inertia the margins of a sheet are transported at a lower speed than the regions in which the suction wheels engage. This may lead to undesired deformation of a sheet.
The object underlying the invention is to provide a suction transport device using means of simple design by which sheets of different sizes can be reliably taken off from a sheet stack.
This object is achieved by a suction transport device for taking off a sheet from a sheet stack in a sheet running direction, comprising at least two revolving suction means, wherein said at least two suction means are mounted to be adjustable horizontally and transversally to the sheet running direction.
In the case of the suction transport device according to the invention two suction means are mounted to be adjustable horizontally and transversally to the sheet running direction. This enables to decrease or increase the distance between the two suction means depending on the size of the sheet to be taken off. Due to this it is ensured that sheets of many different sizes are reliably and exactly transported further to a processing machine.
Preferably the adjustable suction means are mounted on a drive shaft to be displaceable transversally to the sheet running direction and in a rotationally fixed manner in order that they can be driven by a single drive only.
In a preferred embodiment, a fixed suction means having the same distance from each of the adjustable suction means is provided in the middle between the adjustable suction means. With a suction transport device of this kind even very small sheets can be reliably taken off.
In the case of a further preferred emboidment, the drive shaft is driven by a servomotor controlled by a controller. The controller is configured to control the servomotor such that for taking off a sheet from a sheet stack the suction means are charged with suction air and the suction means are initially rotated at minimal rotational speed; the suction means are then accelerated to a maximal rotational speed; the maximal rotational speed is then maintained over a predetermined period of time; and the suction air is then turned off and the suction means are decelerated to the initial minimal rotational speed.
By controlling the servomotor in this way it is ensured that no inertia effects occur at the margins of the sheet, which may lead to warping of the sheet.
Preferably, the two adjustable suction means are each formed by a suction belt and the fixed suction means is formed by a suction roller.
Hereinafter an exemplary embodiment of the invention will be described in more detail with reference to the accompanying drawings, in which
The suction transport device 10 includes two suction belts 12, 14 arranged horizontally at a distance from one another and a suction roller 22 arranged in the middle between the two suction belts 12, 14. Each of the two suction belts 12, 14 includes a small roller 18 and a larger roller 16, which are surrounded by an endless belt 20. The rollers 16 of the suction belts 12, 14 rest on a common drive shaft 26 in a rotationally fixed manner and are axially displaceable on the drive shaft 26.
A drive pinion 23 is mounted adjacently to the suction roller 22 in a rotationally fixed manner on the drive shaft 26 and is made to rotate via an endless toothed belt 28 by a servomotor 30 shown in
The drive shaft 26 passes through fixed bearing blocks 36, 38 which are arranged at both sides of the suction roller 22. At the top side of the bearing blocks there are formed rectangular guide recesses 40, 41 in which a push bar 32 is guided such that it is displaceable horizontally and transversally to the sheet running direction BL. The suction belt 12 is mounted on a support 34 which is attached to the left end side of the push bar 32 in
The position of the suction belts 12, 14 shown in
The servomotor 30 is driven by a controller (not shown) as illustrated in the diagram of rotational speed over time of
The adjustment option by means of the push rod as described is only one of many conceivable possible ways of adjusting the suction belts. Of course it is possible to realize the adjustment, for example, by means of drives which are also controlled by the controller.
In the exemplary embodiment described one suction roller 22 and two suction belts 12, 14 are provided. However it is also conceivable to realize other embodiments which use only a pair of adjustable suction belt and suction roller.
Number | Date | Country | Kind |
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10 2012 207 320.5 | May 2012 | DE | national |