This application claims the priority of European Patent Application No: 07405131.9, filed on May 1, 2007, the subject matter of which is incorporated herein by reference.
The invention relates to a sheet feeder for supplying a conveying device with folded signatures, comprising a gripper drum with at least one gripper for removing the signatures individually from a stack. In such a device, a peripherally arranged stopping device on the gripper drum includes a stop element against which the signatures can be aligned, respectively, with the fold forward. An opening mechanism opens the individual signatures aligned against the stopping device and deposits the signatures on the conveying device while also reversing their direction.
Sheet feeders of this type have long been used, for example in gathering and wire-stitching machines. These sheet feeders use a gripper drum to pull folded signatures individually from a stack, to open the signatures and deposit them, for example on a gathering chain. Sheet feeders of this type must meet the requirement of ensuring a trouble-free deposit of the signatures, even if different formats and different types of paper are used.
One essential parameter which limits the production speed is the speed at which the signature impacts the stop element. The impact causes a compressing and buckling of the signatures, especially with thin signatures, or causes the signatures to rebound from the stop element, which causes problems when the signatures are opened with the aid of the opening drums. This problem has long been known and several solutions have already been proposed.
German patent document DE-A-30 35 497 discloses a sheet feeder of the aforementioned type, which is embodied with a movable stop element. The stop element respectively takes over the signatures with a synchronous movement and then slows the signatures down, which is designed to prevent a compressing of the signatures that arrive at high speed at the stop element.
German patent document DE-A-197 38 920 discloses a sheet feeder having a belt arranged upstream of the stop element, which forms a wedge-shaped intake opening for the signatures. The goal is to achieve a stabilization of the signatures during the impact with the end stop by using the friction between the signatures and the belt.
European patent document EP-A-0 716 995 discloses a sheet feeder, for which a guide arrangement that is connected to a stop element for signatures is automatically adjusted and displaced by the supplied signature and for which the stop element itself is made of rubber or a rubber mixture that dampens the impact of the signature.
Especially with heavy signatures, it is difficult even with the aforementioned, proposed devices to sufficiently reduce the kinetic energy at high speeds when the signatures impact with the stop elements, to prevent excessive deformations that would interfere with the further processing.
The above and other objects are accomplished according to one aspect of the invention wherein there is provided a sheet feeder for supplying a conveying device with folded signatures from a stack of folded signatures, the sheet feeder comprising gripper drum including at least one gripper to individually remove respective signatures from the stack; a stopping device including a stop element peripherally positioned on the gripper drum to stop the signatures and to align the signatures with the fold of the signatures in a forward direction; an opening device to open the individual signatures, to deposit the signatures on the conveying device, and to reverse the forward direction of the signatures; a delay element moving in the same direction as the gripper drum and at a conveying speed less than a speed of the gripper drum; and a press-on device arranged upstream of the stop element to press the signatures released by the gripper against the delay element and to slow down the individual signatures upstream of the stop element to an approximate speed of the delay element prior to the signatures hitting the stop element.
With the sheet feeder according to the invention, the speed of the signatures is therefore reduced gradually through the transfer to a delay element with substantially lower speed. As a result, the signatures can be slowed down, for example to half the peripheral speed of the gripper drum. Upon impact with the stop element, the signatures in that case move at only half the speed and can be controlled more securely. In particular thin signatures can thus be processed at high capacity without the signatures being compressed noticeably at the stop element. Thick and heavy signatures, which have correspondingly high kinetic energy, can be controlled easier.
A press-on device according to one modified embodiment of the invention is arranged on the stopping device itself, thus providing a simple and yet stable support for these press-on devices. The press-on devices simultaneously stabilize the signatures in the area of the stopping device.
The press-on device may comprise at least one press wheel which fits against one outside of the delay element. This press wheel presses the individual signatures against the outside of the delay element, just prior to the impact, thereby considerably reducing the conveying speed of the signatures. Two press wheels, arranged at a distance to each other, may be provided to allow for a broad and secure support and stabilization of the signatures when these impact with the stop element.
The press-on device according to a different modification of the invention may be arranged on one arm of the stopping device and pressed with tension against the delay element, wherein the tension may be adjustable. The signatures can thus be slowed down securely to the lower conveying speed.
The delay element according to a different modification of the invention is driven by the gripper drum, which can be realized particularly easily from a structural point of view by using a friction wheel that moves along with the gripper drum, at a distance to the axis of rotation. The friction wheel in this case can be driven with the aid of a toothed belt, which is engaged in a locally fixed belt pulley.
According to a different modification of the invention, the delay element is provided with at least one ring positioned along the periphery of the gripper drum, wherein the individual signatures are pressed against an outside surface of this ring before reaching the stop element. A particularly secure and stable slowing down of the signatures is ensured if two rings of this type are provided, which respectively have one outside surface. The radius of the outside surfaces is equal to or smaller than the radius on which the grippers transport the signatures to the stopping device.
The signatures may be gripped simultaneously by two grippers, which are respectively arranged directly adjacent to the aforementioned outside surfaces of the rings. The spacing between the outside surfaces is thus the same or insignificantly smaller than the spacing between the grippers, which are respectively arranged in pairs.
According to another modification of the invention, the delay element is provided with at least one endlessly circulating belt, which is arranged at the very least in the region of the stopping device and is driven with a speed that is considerably lower than the conveying speed of the aforementioned grippers.
According to yet another modified embodiment of the invention, the signatures can be slowed down to an especially low conveying speed if the delay element is provided with two or more than two members that operate at different conveying speeds. The signatures can thus be slowed over the course of two or more stages to an especially low speed. As a result, the speed at which the signatures impact with the stop element can be reduced even further and thus also the danger of damage to the signatures.
The sheet feeder is particularly suitable as a feeder for a gathering chain, but other conveying devices can also be equipped with a sheet feeder of this type.
The present invention will be more readily understood from the following detailed description when read in conjunction with the accompanying drawings, in which:
The sheet feeder 1 shown in
According to
Two opened grippers 6 are shown at the top of
Each wheel 13a and 13b is provided with respectively one ring 14, driven with the aid of a drive 34 (See
The drive 34 comprises a belt pulley 18, which is positioned on the shaft 19 and is fixedly connected to the housing 5 with the aid of a bracket 38. The belt pulley 18 is therefore immovable, relative to the housing 5. Arranged at a distance to the shaft 19 is a different belt pulley 21 that is connected non-rotating to a shaft 16, wherein this shaft is mounted with the aid of a holder 17 on the gripper drum 13, parallel and at a distance to the shaft 19. A toothed belt 20 moving in a direction represented by the arrow 23 is fitted around the belt pulleys 18 and 21, which can be tensioned with a belt tensioning device 22. If the gripper drum 13 rotates on the shaft 19 around the axis 11, then the shaft 16 moves along a circular orbit around the axis 11, in a manner similar to a planet. As a result of the engagement of the toothed belt 20, the shaft 16 simultaneously rotates around its axis. For driving the two rings 14, two friction wheels 24 are mounted at a distance to each other on the shaft 16, wherein
The peripheral speed and the rotational direction of the rings 14 can be influenced by correspondingly selecting the transmission ratio of the pulleys 18 and 21, as well as the diameter of the friction wheels 24 and the inside diameter of the inside surface 25 of the rings 14. For example, the transmission ratio is preferably selected such that the peripheral speed of the two rings 14 amounts to approximately 20 to 40% of the peripheral speed of the gripper drum 13. In place of the frictional transfer of the rotational movement from the wheels 24 to the rings 14, a different method of transfer can also be used, for example using a toothing. Furthermore conceivable is an embodiment where the rings 14 are driven separately, for example with a suitable motor.
The individual signatures 7 that are pulled from the stack 8 are then transported preferably with a uniform conveying speed v1 to the stopping device 32. Shortly before a fold 7a (
The signature 7 is then conveyed further with correspondingly reduced speed, until the fold 7a comes to rest against the stop element 10 and the signature 7 is aligned accordingly. The stop element 10 preferably consists of a resilient material, which for the most part prevents the printed product from bouncing back. The exposed edges of the signature 7, which extend parallel to the fold 7a, are then gripped by the B-shaft 3 and the C-shaft 4 and the signature 7 is opened, so that it can be deposited on the gathering chain 15 as shown in
Before the signature 7 is gripped by the B-shaft 3 and the C-shaft 4 and is opened, the signature 7 is aligned with the stop element and, as a result of the frictional force, remains aligned with the stop element 10 and the two rings 14. This frictional force is overcome when the signature 7 is pulled from the stopping device 32.
The two rings 14 together with the press wheels 12 form a delay element 36 for conveying the signatures 7 in the same direction as the grippers 6, but with considerably reduced speed.
The gripper drum 13, which is not shown in
A different suitable press-on element, e.g. an endlessly circulating belt 12′ that is guided over deflection rollers 47 as shown in
The course of the speed during the transport of the signature 7 in the region of the stopping device 32 is explained in further detail in the following with the aid of the diagram shown in
The curve K3 in
In
It will be understood that the above description of the present invention is susceptible to various modifications, changes and adaptations, and the same are intended to be comprehended within the meaning and range of equivalents of the appended claims.
Number | Date | Country | Kind |
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07405131 | May 2007 | EP | regional |
Number | Name | Date | Kind |
---|---|---|---|
5100116 | Graushar | Mar 1992 | A |
5511769 | Wamsley et al. | Apr 1996 | A |
5921546 | Herman | Jul 1999 | A |
Number | Date | Country |
---|---|---|
30 35 497 | Apr 1981 | DE |
198 21 022 | Dec 1998 | DE |
197 38 920 | Mar 1999 | DE |
19738920 | Mar 1999 | DE |
0 716 995 | Jun 1996 | EP |
Number | Date | Country | |
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20080272537 A1 | Nov 2008 | US |