The invention pertains to a device for gathering printed sheets, particularly signatures and/or individual sheets.
During the gathering process in a book binding system, an individual signature is respectively withdrawn from several collections of identical signatures, wherein the various decollated signatures are delivered to a collecting conveyor in order to form stacks.
A gathering machine with feed stations according to the longitudinal withdrawal principle is known from DE 196 16 047 A1, wherein this gathering machine comprises a conveyor belt that carries a signature stack in a magazine such that a region of the folded edge remains exposed and respectively advances the bottom signature in a correspondingly cyclic fashion, as well as a withdrawal conveyor system that serves for receiving and additionally transporting the advanced signatures and is composed of acceleration rollers. Before the advance, the bottom signature is taken hold of by a suction element in the exposed region of the folded edge and tilted away from the signature stack. Blast air nozzles generate an air cushion between the tilted signature and the following signature. A clamping conveyor consisting of an upper and a lower conveyor belt is arranged downstream of the withdrawal conveyor system and inclined toward the collecting conveyor, wherein this clamping conveyor deposits the decollated signatures on the stack being formed with a synchronous transport movement upstream of a pusher of the collecting conveyor. The signatures decollated by the feeder stations are delivered to the collecting conveyor without a change of direction.
Another decollating device for feeding sheets in the longitudinal direction is known from EP 1 520 817 A1. The separating device for lifting the exposed edge region of the bottom signature off the signature stack and the transport element for delivering the signature are arranged in a combined fashion on a withdrawal unit. This withdrawal unit features a feed surface that extends along the exposed edge region and is provided with suction openings, wherein this feed surface lifts the exposed edge region off the signature stack by means of a rotational movement due to its rolling contact with the respective signature. Before the withdrawal unit feeds the signature to an additional conveyor for delivering the signature to the collecting conveyor in the form of a transport movement perpendicular to the separating movement, the edge region is fixed on the feed surface with the aid of pressing elements. The withdrawal unit with the magazine arranged thereon and the additional conveyor are arranged in a straight line and inclined toward the collecting conveyor in the transport direction such that the signature transported over the magazine bottom is delivered to the collecting conveyor in a straight fashion.
One disadvantage of these known decollating devices can be seen in that head-folded signatures cannot be decollated if they are stacked in the magazine such that the head side points rearward. The separating elements are unable to collectively lift the at least two sheet sections of the signature off the signature stack in the front region of the magazine such that an upper sheet section is held back on the retaining element of the magazine and the signature cannot be pushed out. The known decollating devices feature a plurality of successively arranged transport devices, wherein a few of these transport devices carry out intermittent or pendulum-type movements and therefore have a complicated design. The gathering capacity of known decollating devices is limited due to the fact that an ensuing decollating process can only be initiated once the preceding signature is completely withdrawn from the magazine.
The present invention is based on the objective of developing a device for gathering printed sheets, particularly signatures and/or individual sheets, that has a simple construction and allows a high processing speed. Another objective to be attained is the reliable decollating of head-folded signatures.
Characteristics of the present invention are described in greater detail below with reference to one preferred embodiment that is illustrated in the enclosed figures. The respective figures show:
A feeder station 15 essentially consists of a magazine 20 for accommodating the signature stack 4, a separating device 50 for tilting away at least one corner of the bottom signature 3 lying in the magazine 20 and a gripper chain 30 that serves as the transport device for withdrawing the signature 3 from the magazine 20 and delivering the signature to the collecting conveyor 10.
The magazine bottom 24 of the magazine 20 is inclined toward the collecting conveyor in the transport direction F of the collecting conveyor 10, as well as inclined transverse to the transport direction F such that it descends toward the vertical channel wall 11a. Due to this inclined arrangement, the signature stack 4 respectively adjoins a lateral and a front magazine wall 21 and 22, wherein an additional guide in the form of an angled fence 23 is provided that can be adjusted with respect to the signature format. The adjusting means for the angled fence 23 are not illustrated in detail in the figures, but rather merely indicated with arrows SFH and SFB drawn with broken lines. The spine 3a of the signatures 3 adjoins the lateral magazine wall 21.
A recess 24a is provided in the magazine bottom 24 along the lateral magazine wall 21 such that an edge region 3b of the bottom signature 3 is exposed, wherein this edge region can be taken hold of by a suction element 51 of the separating device 50 and tilted relative to the remaining stack lying thereon. The suction element 51 is accommodated on a lever 52 that carries out a reciprocating pivoting movement in the corresponding cycle with the aid of not-shown driving means. The suction element 51 can be adjusted on the lever 52 (SFH) with respect to the format height in order to enable the separating device to tilt the rear, upstream corner of the exposed edge region 3b of all signature formats.
The gripper chain 30 for withdrawing and transferring the bottom signature 3 features a traction mechanism in the form of a chain 31 that revolves around (deflection) chain wheels 35a, b and is continuously driven by a driving chain wheel 35a, wherein several grippers 32 are anchored on said chain such that they are spaced apart from one another by defined distances, and wherein the special arrangement of the grippers results in the formation of several gripper sets 33 that respectively feature first, second and third grippers 32a, b and c. A separating wedge 34 is respectively anchored on the chain 31 upstream of the first gripper 32a and penetrates into the intermediate space between the tilted corner of the signature 3 and the signature stack 4 lying thereon in the corresponding cycle such that the exposed edge region 3b is completely lifted off the signature stack 4 as the penetration of the separating wedge progresses.
The edge region 3b is pulled down from a small shoulder 21a on the lateral magazine wall 21 that is offset in height referred to the magazine bottom 24. The signature stack 4 consequently lies in the magazine 20 in an angled fashion while the tilting of the exposed edge region 3b results in the bottom signature 3 being arranged in a leveled fashion for the withdrawal from the magazine 20. This supporting shoulder 21a could also be realized in the form of individual support needles. After lifting off the exposed edge region 3a, a stack lifter 53 that is pivoted into position in the corresponding cycle ensures that the signature stack 4 is securely supported, wherein a blast nozzle 54 arranged on the end of the stack lifter 53 generates an air cushion between the bottom signature 3 to be withdrawn and the signature lying thereon.
The grippers 32 that follow the separating wedge 34 move along the raised edge region 3b in the opened position, wherein an upper stationary gripper jaw 40 is situated in the intermediate space being formed. A lower gripper jaw 41 is movably received on the stationary gripper jaw 40 and prestressed by a torsion spring. The movable gripper jaw 41 is held in the open position against the force of said spring by means of a spring-loaded notch lever. The clamping process of the grippers 32a, b, c is triggered by actuating a trigger bolt. Additionally provided stationary closing cams 37a, b and c are arranged parallel to one another and act upon a cam roller 46 of the grippers 32a, b and c that is arranged on the trigger bolt 45 and correspondingly offset in a parallel fashion.
Since the closing cams 37a, b and c are offset in the transport direction F by the spacing between the grippers, all grippers 32a, b and c of a gripper set 33 are simultaneously closed. The distances between the grippers 32a, b and c are chosen such that a small format is taken hold of by at least two grippers 32a and b while a large format can be taken hold of by all three grippers 32a, b, c, wherein the distance between the first gripper 32a and the third gripper 32c is larger than half the format height of the signature 3. This means that the bottom signature 3 transported out of the magazine 20 through an opening 22a in the front magazine wall 22 can be withdrawn without being displaced.
The gripper chain 30 transports the signature 3 with a transport speed vG that is only slightly slower than the transport speed vS of the collecting conveyor 10. Due to the inclined arrangement of the gripper chain 30 parallel to the magazine 20, the signature 3 is withdrawn in a straight fashion over the magazine bottom 24 and delivered directly in front of the respective pusher 13 of the collecting conveyor 10. The opening of the grippers 32 results in a nearly synchronous transfer of the signatures 3 to the pushers 13, namely without having to drop the signatures 3 over a significant distance.
A stationary opening cam 38 is provided for opening the grippers 32, wherein the opening cam acts upon a cam roller 42 of the movable gripper jaw 41 and presses the movable gripper jaw away from the stationary gripper jaw 40 against its prestress until the notch lever 44 engages with the movable gripper jaw 41. The individual grippers 32a, b, c are opened successively such that the signature 3 to be transferred is transported by the gripper chain 30 as long as possible.
The design of a gripper 32 is shown in
The feeder station 15 according to the invention is characterized in that it only comprises few moving components. The transport device in the form of a gripper chain 30 for withdrawing and transferring the signature 3, in particular, is simply realized in the form of a driven revolving conveyor, and the opening and closing of the grippers 32 is realized with the aid of stationary control cams 37a, b, c and 38. As soon as the rear corner of the next signature 3 is exposed during the withdrawal of a signature 3, the next decollating process can already begin by pivoting the suction element 51 into position. The signatures 3 therefore can be withdrawn from the signature stack 4 within minimal distances from one another or even in the form of a shingled arrangement.
The feeder station 15 according to the invention makes it possible, in particular, to process head-folded signatures 3 that are stacked in the magazine 20 such that their head side points rearward and therefore do not have a closed folded edge on the lateral magazine wall 21. The feeder station 15 may be utilized in the form of an exchangeable module in a flexibly equipped gathering machine 1.
Number | Date | Country | Kind |
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10 2005 035 332 | Jul 2005 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
893510 | Juengst | Jul 1908 | A |
6328297 | Antonelli et al. | Dec 2001 | B1 |
6367794 | Godwin et al. | Apr 2002 | B1 |
7232122 | Mayer et al. | Jun 2007 | B2 |
20060097440 | Bokamper | May 2006 | A1 |
Number | Date | Country |
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196 16 047 | Oct 1997 | DE |
1 520 817 | Apr 2005 | EP |
Number | Date | Country | |
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20070023991 A1 | Feb 2007 | US |