This application claims the priority of European Patent Application No. 04405697.6-2304, filed on Nov. 12, 2004, the entire content of which is incorporated herein by reference.
The present invention relates to an apparatus for processing flat articles, in particular, print products. The apparatus comprises a first conveying agent for conveying the flat articles in a product flow, as well as separating means for dividing the product flow into at least two partial flows.
In the print processing industry, flat articles of this type are produced in particular by gathering and collating signatures (e.g., one or more sheets ready to be encased) in a gathering and wire-stitching machine. The gathered signatures are then processed further, for example, by trimming them in a trimming apparatus and subsequently laminating them. The processing speed of the gathering and wire-stitching machine generally exceeds that of the trimming apparatus and the laminating machine. It is known from International Publication No. WO 96/32293 to divide the product flow into two partial flows to increase the capacity. This is designed to allow the time-parallel processing of two spatially separated partial flows of print products along two parallel-extending processing sections. The print products are conveyed with a conveying chain along a conveying loop section to form the partial flows. Arranged along the conveying chain are grippers which respectively grip the individual print products. After processing, the partial flows are recombined.
German Patent Application No. DE 29 17 250 A discloses an apparatus in which an overlapping flow of print products is divided into two partial flows. Two rows of grippers circulating continuously along endless paths are assigned to the edges of the overlapping flow. With this type of apparatus, the print products in the overlapping flow to be divided must be offset to the side, such that they can be gripped by the grippers.
Dividing an overlapping flow into two partial flows with the aid of grippers is also known from European Patent Application No. EP 1 431 222 A. With the disclosed apparatus, the grippers do not grip the individual print products along the edge, but rather, grip them in a central region where the individual print products are not overlapped by adjacent print products.
The respective print products in the aforementioned partial flows no longer overlap, but rather, are conveyed one behind the other. The print products in the partial flows can then be processed in a different apparatus, for example, in a trimming apparatus or a laminating machine. By dividing the product flow into two partial flows, the processing time for the print products in the partial flows can at least be doubled. A higher-quality processing is furthermore possible since more time is consequently available for the processing. As an alternative to dividing the product flow into partial flows, it is also possible to arrange the print products in intermediate buffer storage areas. In this case, the print products are arranged in an overlapping flow on rollers. Intermediate buffer storage areas of this type make it possible, for example, to operate printing machines at maximum capacity. A comparatively high expenditure is required, however, to form such intermediate buffer storage areas, as well as to arrange print products at these intermediate storage areas.
It is an object of the present invention to provide an apparatus that permits a secure and simple division of a product flow into partial flows.
According to one exemplary embodiment, the present invention provides an apparatus for processing flat articles, comprising: a first conveyor adapted to convey the flat articles in a product flow; and a separator adapted to divide the product flow into at least two partial flows, the separator comprising a plurality of containers arranged in a row, the containers adapted to accommodate flat articles; wherein the containers move substantially transverse to the product flow and substantially parallel to the product flow to form the partial flows.
The apparatus of the present invention can eliminate the need to grip the flat articles with a gripper to form the partial flows. Instead, the articles can be deposited in containers that move transverse to the conveying direction, and simultaneously, in the conveying direction, to form the partial flows. A very reliable handling of the flat articles is thus possible, as well as a secure and precise guidance of the flat articles in the area where the flow is divided.
According to one exemplary embodiment of the invention, the containers can be repositioned in the dividing area from a slanted or perpendicular position relative to the horizontal line to a substantially horizontal position. The flat articles can thus be transferred in the horizontal position, for example, onto takeover belts. The horizontal positioning provides the advantage that the flat articles can always be spaced apart with the same timing, regardless of the product format, which simplifies further processing, for example, the laminating operation.
A further advantage of the apparatus according to the present invention is that additional flat articles (e.g., inserts), can easily be added to the containers in the area where the flow is divided.
According to another exemplary embodiment of the present invention, the individual flat articles can be dropped from the first conveying agent downward and into the slanted and/or vertically arranged containers. The flat articles can thus drop as a result of the gravitational force into the containers. According to yet another exemplary embodiment, the containers can comprise pockets that are open on the top. The flat articles can be conveyed securely and precisely aligned inside the pockets.
According to another exemplary embodiment of the invention, the individual containers can be positioned on a guide element that permits displacement for the movement transverse to the conveying direction. These guide elements can be guide rods. The containers located on the guide rods can be positioned crosswise, and in particular, can be repositioned from a slanted and/or perpendicular position to a substantially horizontal position. The repositioning can be realized, for example, with the aid of control cams. Movement of the containers to the side can also be realized with the aid of control cams.
According to yet another exemplary embodiment of the invention, the containers can be arranged on an endless conveying agent. The conveying agent can be a link chain. The chain can be fitted around a drive wheel and/or a reversing wheel.
According to another exemplary embodiment of the invention, the containers can be arranged circumferentially around a wheel, such that the containers can be moved in the conveying direction as well as transverse to the conveying direction. The wheel can comprise a pocket wheel. The containers can be loaded at approximately the 12 o'clock position, and unloaded at approximately the 3 o'clock position. This permits a division of the product flow within a comparatively short conveying region. With a wheel of this type, it can also be possible to recombine two partial flows into a single flow.
According to another exemplary embodiment of the invention, an additional, or third, conveying agent can be provided, which takes over the partial flows, for example, using takeover belts. The additional conveying agent can operate with a similar, or slower, speed than the speed in the area where the flow is divided. This can provide the advantage of allowing a variable adjustment for the product spacing. Consequently, the product spacing can be optimized for the further processing requirements.
The flat articles can be print products, such as brochures, magazines, newspapers, and the like. The print products can be laminated during the time that the flow is divided, although alternative and/or additional types of processing are possible as well. The print products can be produced in a gathering and wire-stitching machine, although other methods for producing the print products are also possible.
The apparatus according to the invention can also be used for combining two partial flows to form a single product flow. Therefore, another exemplary embodiment of the invention provides an apparatus for combining two partial flows.
These and other features and advantages of the invention will be further understood from the following detailed description of the preferred embodiments, with reference to the accompanying drawings, to which reference is made for all details not expressly mentioned in the text.
Referring to
The products on the first conveying agent F1 can be released to a separating means T that functions to divide the product flow S into two partial flows S1 and S2. The separating means T includes a plurality of containers 4 that are arranged on a second conveying agent F2. The containers 4 can comprise open-topped pockets that are dimensioned and configured to accommodate one print product 3 each.
The containers 4 are each positioned on a guide element 6 attached to an endless conveying agent, such as a conveying chain 5. The guide elements 6 can comprise guide rods. The individual containers 4 can be displaced transverse to the conveying direction along the guide elements 6. The containers 4 can be attached to the guide elements 6 by hinges 13 (shown in
A separate print product 3 is deposited into each of the containers 4 before they are divided into the partial flows S1 and S2.
Each of the containers 4 respectively comprises a bottom 4a, two side walls 4b, and one rear wall 4c. The bottom 4a, the side walls 4b, and the rear wall 4c keep the respective print product 3 inside the container 4 which, as previously mentioned, can be shaped like a pocket or similar to a pocket. To facilitate receiving the products 3, the pockets 4 can be slightly tilted back, as shown in
Referring to
As shown in
As shown in
The containers 22 can be filled as soon as they are positioned upright, for example, in the vertical and/or approximately the 12 o'clock position. The containers 22 move continuously in the clockwise direction for the loading operation. When respective print products 3 are positioned in the region of containers 22, the respective gripping means 2 open up to release the print products 3, such that they drop into the respective containers 22 as a result of gravity. Following the release of the products 3, the gripping means 2 again move away from the pocket wheel 20, as shown in
During movement of the containers 22 from the 12 o'clock position to the 3 o'clock position, the containers are displaced transverse to the conveying direction along the guide elements 21, so that two partial flows form. For example, the containers 22 are preferably displaced alternately to the left or to the right, so that they are completely separated, however, other configurations are possible. For example, two containers can be displaced simultaneously to the left or the right. The containers 22 are thus divided into the two partial flows over an angular region of approximately 90°, and the products 3 are consequently divided into the partial flows S1, S2. Once the products 3 are in the horizontal position, they are taken over by an upper conveying belt 23 and a lower conveying belt 24 and are conveyed horizontally.
Referring to
According to an alternative embodiment of the invention, the pocket wheel 20 can be used to recombine two partial flows S1 and S2 into a single flow. This essentially involves reversing the direction of operation. For example, in
The above-mentioned apparatuses are described in connection with dividing a single flow into two partial flows. However, alternative embodiments are possible that can be used to divide a flow into more than two partial flows. For example, three partial flows can also be formed using a first container that is not displaced transverse to the movement direction, a subsequent second container that is displaced to the left, and another subsequent container that is displaced to the right, etc. According to another alternative embodiment, a partial flow can be further divided into two additional partial flows. Conversely, an alternative embodiment of the invention can be used to recombine more than two partial flows to form a single flow.
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.
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