• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a method for operating a print finishing installation (1) for producing and processing product units, in particular finished print products (D) such as magazines and newspapers, preferably consisting of a jacket product (A) and a plurality of partial products and / or inserts (a, b, c, d) are assembled and proposed a corresponding print finishing plant (1). The final printed products (D) are produced in accordance with the route according to a predetermined production plan and processed by means of at least one stacking device (70, 70.1) to form a sequence of standard packages (N) and tip packages. If errors occur during the production of the product units (P) of a route (R), which necessitate the subsequent correction or subsequent production of product units (P), and if these can no longer be produced within the product sequence of this route (R), this occurs to errors in the sequence of product units for this and the subsequent route. These errors are corrected by delivering these corrected or post-produced product units via a dispensing station (80) and merging them into a final package (E), which is subsequently added to the remaining packages (N, S) of the route. The correct sequence or sequence of the products within the packages is ensured by the fact that the product units are personalized, preferably addressed, only immediately before or first in the at least one stacking device (70, 70.1). Waiting times in the stacking devices (70, 70.1) can be largely avoided according to the invention and the print finishing unit can be operated at maximum speed.
    公开号:CH710714A1
    申请号:CH00197/15
    申请日:2015-02-13
    公开日:2016-08-15
    发明作者:Gallati Rudolf
    申请人:Ferag Ag;
    IPC主号:
    专利说明:

    The invention relates to a method for operating a print finishing plant for the manufacture and processing of printed products, in particular for forming stacks or packages of printed product collections comprising completed printed products such as magazines and newspapers, preferably from a shell product and a plurality of partial products and / or supplements are compiled. The present invention also relates to a print finishing plant for carrying out the method.
    At the postpress processing ever increasing demands are made with increasing regionalization and / or personalization of the editorial content of the products, but especially the advertising supplements. On the one hand, the processing capacities must be increased to increase profitability, on the other hand, the products must be made ready for dispatch even for small distribution routes or regions flawlessly with the least possible manual effort.
    In the highly competitive advertising market increasingly high demands are made on the providers of print advertising and thus to the postpress and tolerated fewer and fewer errors. Since advertisers only accept very low error rates in the low per thousand range, errors in the compilation of the products must be avoided or laboriously and costly corrected by hand.
    Various methods are known from the prior art to ensure that the products are assembled in the correct order or sequence to minimize the manual repair effort.
    Thus, WO 2013/159 238, for example, proposes a method and a device for creating a product stream from a plurality of product units in a predetermined sequence, by means of which defective product units of a sequence are corrected without production interruption and in compliance with the predetermined sequence can. In this method of obtaining a pulsed product stream of product units in a given sequence, in a first step products are fed to the grouping line of a first conveyor, then a clocked product stream of product units from the supplied products along the grouping line is created in a predetermined sequence and the product units become passed in the predetermined sequence to a removal device and conveyed away in a pulsed product flow.
    If there are errors when creating the products, they can be subsequently corrected by discharging individual products of the product unit or the whole defective product unit at a discharge station, and completing the product unit or completely rebuilt. In particular, however, it is proposed that in the absence of only individual products in the product unit, the incomplete product unit of the grouping line be fed and completed again.
    The missing or defective product unit is therefore created subsequently in the grouping section correctly and then handed over to the removal device. In order to subsequently insert this product unit for restoring the predetermined product sequence to the correct position within this sequence, a bridging device is provided in WO 2013/159 238, which allows the product gap to be supplied to the path-conveying device by bridging a conveying path section in time. In this way, the predetermined sequence of product units in the removal conveyor is provided in a fully sorted sequence for further processing. The product units are preferably individualized and assigned, for example, to a specific recipient or to a specific recipient address.
    EP 0 511 159 describes a method and a device which serve to assemble predetermined sequences of complex product units by inserting partial products into a main product, it being intended to prevent erroneous groups arising. In this case, various products supplied as continuous streams are combined into groups along at least one grouping section realized by a belt conveyor. Each group should have a given sequence of products. To avoid errors in the discharged product stream due to feed faults, it is proposed to still buffer the products in the feed streams prior to delivery to the grouping line, e.g. by means of appropriate intermediate conveyor. The delivery should only take place if there is a sufficient number of products in all buffers to create a complete group. If necessary, the creation of a group is delayed until this is the case. This essentially takes place with three process steps: a supply control of the individual feeders, a supply buffering of the individual feeders and a controlled delivery of the individual products into a clocked grouping. With the feed control errors or gaps are detected in the feeds of the products. With the controlled delivery, which is subject to the same tact as the grouping, the delivered products are delivered into the grouping according to the predetermined composition of the individual groups and corresponding to the detected errors. Feed buffering allows for continuous delivery despite non-continuous delivery.
    The aforementioned devices for correcting defects in Durckendprodukt production and to ensure the correct product sequence make the systems for print finishing more expensive and make them much more complex in terms of mechanics, but also on the controller.
    Accordingly, they are often dispensed with and corrected or post-produced, personalized final printed products must be subsequently inserted manually to the correct position within their route sequence. For print finishing systems that have an automatic repair function, for example, incomplete collections can be added in a further run. However, this requires that at least the stacking device must wait for the duration of the repair cycle on the corrected or, in the case of complete post-production, on the post-produced end products. This waiting time significantly reduces the performance of the system.
    It is an object of the present invention to provide a method and an apparatus for creating a packetized product stream from a plurality of product units in a given sequence, in which with the simplest possible construction and low equipment cost correct routed packetized product units can be produced in a predetermined sequence. Whereby the elimination of errors in the creation of the product units is made possible without the overall performance or the processing speed of the print finishing plant has to be significantly reduced.
    According to the present invention, these objects are achieved by the elements of the independent claims. Further advantageous embodiments are also evident from the dependent claims and the description.
    The above-mentioned objects are achieved by the present invention in particular by the fact that the product units - preferably printed products - according to a given production plan are routed but still not personalized. The production plan defines a production sequence (target) that contains the product types and the number of product units to be produced for all routes. For each route, a predetermined number of identical product units of the route-specific type are produced. Thus, if a number x identical but for the route specifically composed of main, partial products and supplements Druckendprodukte or product units (according to the route type) is required for a particular distribution route, it must only be ensured in a first step that a sufficient number x complete product units be made of this type for this route. The sequence of the individual product units within the route is not yet relevant because the product units are not yet personalized.
    If errors occur during the production of the product units, then the product units assembled incorrectly are recognized and corrected or eliminated in a known manner. If defective product units are removed, a corresponding number of further product units of the same type must be produced so that the required number of product units or final printed products are available for the route.
    If the errors in the production of the product units occur towards the end of a route in the production sequence, this can lead to the actual product sequence (actual) deviating from the planned production sequence (target). It may happen that one or more product units of the type of a previously established route come to lie between product units of a different type, as is required for a subsequently produced route.
    Thanks to the present invention, such deviations in the actual sequence of the products after their manufacture (ie the product sequence) from the intended sequence (ie the production sequence) do not lead to faulty product sequences or sequences in the finished packages made for distribution to the end customer become.
    The personalization, for example in the form of addressing by an address imprint, according to the present invention, not already before or during the production of the product units, but only immediately before creating the stack in or on delivery to the stacker. This ensures, at the moment of personalization, that only correctly assembled product units or final printed products are addressed. The addressing determines the exact route, or the exact sequence of sequences, since the address determines the position within the route or sequence.
    In the inventive method for operating a print finishing plant for the manufacture and processing of product units, in particular of completed Druckendprodukten such as magazines and newspapers, which are preferably composed of a shell product and a plurality of partial products and / or supplements, the product units according to a predetermined production plan route-compatible, that means in the desired number for the route and in the desired type for the route. The product sequence is processed by means of at least one stacking device into a sequence of packets, the product units being personalized, preferably addressed, directly before or first in the at least one stacking device and by means of a dispensing station capable of personalization, preferably addressing all product units not belonging to the same route in the at least one stacking device are personalized and provided for packaging.
    As already mentioned, in case of errors in the production of the product units or final printed products, the defective products are eliminated and re-produced, or corrected. Both can lead to the fact that the post-produced or corrected final printed products in the product sequence are no longer within their route. This can be accepted according to the present invention, so that waiting times can be avoided by starting the production of the final printed products for a subsequent route, even if one or more defective products of the previous route still have to be corrected or post-produced.
    In the stacking device, all transported product units or final printed products of a route are addressed and stacked in the correct sequence. The last units of a route from the delivered product stream, which no longer result in a standard package, are usually processed in the stacking device into a top package. Tip packages accordingly always include a smaller number of product units than standard packages.
    Alternatively, they can also be combined automatically or manually into a package in a delivery station. In this embodiment, the last product units of a route which together do not form a standard package, i. no package with the maximum number of product units in the package, more yield, delivered via the delivery station and also addressed in this station. These product units forming the route end are delivered at the delivery station and automatically or manually combined into a package and automatically added as a top package or preferably added manually as the last package of the package sequence to be produced to the remaining packages of the route. In this way, the stackers are completely relieved of the production of tip packages and can work with maximum processing capacity.
    The one or more corrected or post-produced products of the route, which can no longer be delivered within the product sequence within their route, but only late from the production, are not processed in the stacking device, but transported to the delivery station, where addressed ( for example, by printing the recipient's address or pasting a recipient's label) and combined into an end package. This can be done automatically or manually. Subsequently, this end packet is added as the last packet of the packet sequence to the remaining packets of the route. This avoids the need for the stacker to wait for these products, and it can begin packet-setting the next route as soon as the last package of a route has been made.
    In order to operate the system for print processing with the highest possible speed, so on the one hand waiting times of the stacking devices can be avoided and on the other hand, the number of manufactured tip packages can be reduced.
    The present invention enables the production of packages with correct, route-compliant product sequences, whereby even with error correction or post-production of products of the route, only one end package has to be manually added to the remaining packages of the route. The manual processing is limited to a minimum, preferably on the feeding of the end package to the other packages of the route.
    It is also possible by the present invention according to another embodiment, the at least one stacking device to operate constantly at the maximum speed, since only standard packages are made using the full package size.
    With the help of the stacking device, an integer number x / n standard packets is automatically produced in this case, where x corresponds to the total number of product units for the route and n to the number of product units in the standard package. The rest r needed to reach the complete number x of the route is addressed and delivered in the delivery station. It is thereby achieved that only standard packages with the correct product unit sequence are produced in the stacking facilities by utilizing the full capacity, while the remaining product units likewise occur in the correct sequence in the delivery station in a residual package.
    If it requires the capacity of the print finishing unit, more than one stacker can be used. The production of the standard packages and possibly the tip packages is then carried out in a known manner by utilizing the capacity of both stacking devices. The correct sequence of product units in a single stack is ensured by addressing just prior to stacking. The division of the addresses for particular packets and thus the sequence sections which are produced in a specific stacking device can be carried out in various ways. Depending on the positioning of the stacking device and depending on the further transport possibilities of the finished standard packages, the standard packages can be obtained in alternating order from the stacking devices to be assembled in the correct order for further transport. The same applies to the one or more top packages. However, it is also possible to package a first section of a route completely with a first stacking device and to process a second, third, etc. section of the route with a second, third etc. stacking device. While in the first case the standard packets are alternately compiled to the correct packet sequence, in the latter case, the plurality of packages, each forming a route section and, for example, together on one or more pallets, for shipment only in sections, for example, palette wise in the right Order to be brought.
    Starting from the previously defined route production plan and the maximum package size, ie the maximum number of product units and / or collections in a standard package, a packet sequence of standard packages and the size of the tip package is calculated for the one or more stacking devices , The production plan includes the information about the type and number of product units in each package, their addressing and the sequence of the packages for shipment, loading or storage. Does it come to errors in the production of the printed end products that occur towards the end of a route sequence. Thus, at first all correctly produced final printed products are processed via the stacking devices at best via the delivery device to standard and tip packages. Immediately afterwards, the printing devices of the next route are processed by the stacking devices. The subsequently transported corrected or post-printed Druckendprodukte are no longer processed through the stacking devices, as they do not "wait", but addressed and delivered via the dispensing devices.
    A print finishing plant according to the present invention for the production and processing of product units, in particular of printed product collections of completed printed products such as magazines and newspapers, which are preferably composed of a jacket product and a plurality of partial products and / or supplements routed right, comprises a device for routing Producing the product units according to a predetermined production plan and a transport device for transporting the product units to at least one stacking device and / or to a dispensing station. The cladding products are preferably major products, signatures or envelopes. In the transport direction immediately before or in the at least one stacking device and the delivery station, a personalization unit is arranged in each case.
    Preferably, the personalization unit comprises an addressing unit, which in turn is preferably a printer, for example an inkjet printer, or a labeling unit.
    The device for the route-compliant manufacture of the product units comprises according to preferred embodiments, a collection line with a first conveyor, preferably a belt conveyor or a conveyor with feedback and correction function, as described by the applicant under the names «Rollstream» and «Flystream» for years successfully manufactured and sold, and a plurality of feeders for preferably partial products and / or supplements. This will produce collections of partial products and / or supplements.
    According to further preferred embodiments, the device for routeing the product units comprises a plug-in device, preferably a plug-in drum, or a wrapping device in which the collections of partial products and / or supplements are inserted or wrapped in a jacket product.
    Preferably, the transport device is a gripper conveyor, which transports the jacket products from a feeder to the insertion device and after inserting the collection of partial products and / or supplements the product units to the stacking device and / or the dispenser. The cladding products can also be conveyed to the insertion device in a different manner. The person skilled in the art is aware of other conveying means known from the prior art and the jacket products can also be dispensed directly from a feeder into a plug-in device.
    According to a further advantageous embodiment, the standardized packets produced in the stacking devices are provided with readable information about their content and preferably a packet identification for the route. This additional information may be printed on a cover sheet placed on the package in the stacker, or may be printed or attached directly to an outside of the package, preferably an outermost and thus visible side of a lowermost or topmost final printed product in the package or glued on.
    The inventive method has proven to be robust against output gaps that arise due to rejected defective Druckendprodukte in the flow. Since only the correctly produced Druckendprodukte are personalized when entering the stacking devices in the correct order, it does not matter if there are gaps between these Druckendprodukten. In the package, the gaps are closed and the correct sequence in the stack is always guaranteed.
    According to further embodiments of the inventive method and the system, the dispensing device comprises a stacking device.
    BRIEF EXPLANATION OF THE FIGURES
    The invention will be explained in more detail with reference to embodiments in conjunction with the drawings. Show it:<Tb> FIG. 1 <SEP> is a schematic side view of a first embodiment of a print finishing plant according to the invention with a collection lines with four feeders and a belt conveyor, a plug-in drum and a feeder for jacket products, two stacking devices and a dispenser;<Tb> FIG. 2a is a schematic side view of a gripper conveyor with two different types of final printed products for two different routes according to a predetermined production plan on the way to the stacking devices, respectively to the dispensing station;<Tb> FIG. 2b is a schematic side view of a gripper conveyor with two different types of final printed products for two different routes according to another predetermined production plan on the way to the stacking devices, respectively to the dispensing station, with a gap between the final printed products for the second route;<Tb> FIG. 3a <SEP> is a schematic representation of the product packages which have been produced from the printed end products for the two different routes which have been transported in FIG. 2a, wherein the arrow m symbolizes the manual addition of an end packet to its route; and<Tb> FIG. 3b shows the schematic representation of the product packages, according to the example from FIG. 2b, wherein in turn the arrow m represents the manual addition of the end package to the correct route.
    WAYS FOR CARRYING OUT THE INVENTION
    In Fig. 1, a first embodiment of a print finishing unit 1 according to the invention is shown in side view. In a device 10 for the production of product units P in the form of completed printed products D such as magazines and newspapers, which are composed of a jacket product A and a plurality of partial products and / or inserts a, b, d are the final printed products D according to a predetermined production plan routed.
    Along a collection line 30 four feeders 31, 32, 33, 34 are arranged, which can deliver each sub-products and / or supplements of one type a, b, c and d on the belt conveyor 36 of the collection line. In the example shown, collections K with partial products and / or inserts of the type a, b and d are produced in the collection line. The complete collections K are conveyed by the belt conveyor 36 to a insertion drum 40, where they are inserted into jacket products A.
    In the example shown, the cladding products A come from a feeder 60 and are transported by means of a gripper transporter 21 isolated to the insertion drum 40. Schematically it is shown that three jacket products A with the sequence positions 11, 12 and 13 are conveyed to the insertion drum. In the insertion drum 40 is already the first jacket product of the product sequence, not shown, into which the already completed and conveyed on the belt conveyor 36 collection K1includes the partial products a1, b1 and d1 and is completed to the final product.
    This finished Druckendprodukt is the first product unit, which is prepared for this route with the composition: shell product A with inserted partial products and / or supplements a, b and d. Depending on the length of the route, a number x of identical route-specific final printed products D are produced with the structure A (a, b, d), where x corresponds to the number of printed end products required for the route.
    From the insertion drum 40, the completed finished Druckendprodukte D1bis Dxmit the same gripper conveyor 21, which has supplied the jacket products A, weggefördert and promoted to Paketherstellung.
    In the illustrated embodiment, two stacking devices 70, 70.1 along the conveying path are arranged one behind the other. From the gripper conveyor 21, the final printed products D can be delivered by opening the respective gripper to an infeed conveyor 71 of the stacking device 70. During or after depositing on the infeed belt 71, the outer jacket product of the final printed product is printed on the lower side surface with an address and thereby personalized. Since the addressing takes place only after production of the complete final printed product, it is ensured that all addressed final printed products, which get their fixed place in the route sequence with the addressing, are compiled correctly.
    The address printing is done in the example shown with a arranged under the infeed belt 71 printer 51, which is preferably designed as an ink jet printer and printed by the between the individual conveyor belts of the inlet belt 71 open spaces the predetermined address to a corresponding address field.
    After printing the address, the final printed product is personalized and thus its position is determined within the route sequence. Now only the short distance in the stacking shaft of the stacking device has to be conveyed into and delivered to the stacking shaft. The likelihood that this will still lead to an error that would in turn confuse the sequence in the stack, is extremely low. By the late printing of the address is thus ensured that the packets can be made using the full power of the stacking devices 70, 70.1, while maintaining the route sequence. There is no need for a delay to repair or wait for the delivery of repaired or remanufactured finished products.
    If, as shown in FIG. 1, two stacking devices 70, 70.1 are available, the delivered product flow can be distributed to both stacking devices 70, 70.1. Whether the standard packets produced in the two stacking devices 70, 70.1 in each case follow one another in the route sequence or whether a subsequence of the route sequence to be produced is formed independently in each stacking device 70, 70.1 can be chosen freely.
    The delivery of final printed products, their addressing and the formation of standard packages takes place in the stacking devices 70.1 as well as for the stacking devices 70 described.
    The four final printed products Dx-3 to Dx belong to a previously processed other route and had to be replicated as a result of a mistake in assembling the supplements. They were conveyed past the two stackers 70, 70.1 and are on the way to the discharge station 80. In this they are delivered to a conveyor belt 81 and in turn can be provided with an address and personalized by printer 53. From the four final printed products Dx-3 to Dx, a final package for the previous route is formed. This is done in the illustrated embodiment by hand. The final packet is also manually moved to the correct position in the sequence of standard packets of the pre-made packets for that route. This completes the packet sequence for this route, and at the same time, the full speed stackers can already make the next route packets. Of all the packages of the route that includes the finished Dx-3 to Dx finished press products, only one manual end package must be added by hand to the packages automatically produced in the stackers.
    Since only those final printed products are addressed that have been compiled completely and correctly, the risk that an error still occurs after addressing and thus the product sequence has to be corrected manually or mechanically decreases considerably.
    When creating the production plan, the number of required product units is known. In the present example, these are final printed products D in the form of jacket products A with inserted collections of partial products and / or inserts a, b and d (short [A (a, b, d)]). The required number of final printed products x is divided according to the production plan to an integer number of standard packages and, if necessary, to a tip package, which are produced with the aid of the two stacking devices 70, 70.1. For example, if the route requires 807 end-of-print products D of type [A (a, b, d)], and the thickness of end-of-print products D of type [A (a, b, d)] is no more than 20 products per standard package the production of 40 standard packages with 20 final printed products and a top package with the last 7 final printed products in the stacking devices 70, 70.1 planned. If an error occurs in the production of the final printed products and if final printed products have to be corrected or re-produced, this is irrelevant as long as this can still take place within the current production of the number of 807 printed end products for the route; such a case is shown in FIG. 2b and will be explained in more detail below.
    However, if the error does not occur until towards the end of the production of the product sequence, production of the final printed products for the next route is already started in order to avoid waiting times. The corrected or reproduced final printed products, which are taken over by the gripper transporter, are located correspondingly between final printed products of a foreign route. This is illustrated in FIG. 2a, which shows a schematic side view of a gripper conveyor with two different types of final printed products for two different routes R1 and R2 according to a predetermined production plan on the way to the stacking devices, respectively to the dispensing station.
    Above the gripper transporter is the affiliation of the Druckendprodukte D to the respective standard packages N, a tip package S or a final package E shown. In the production of the shown sequence of printed products D for the route R1kamam error and three finished products DxR1bis and with Dx-3R1mussten be reproduced and are now promoted between end products of the route R2, ie in a wrong sequence in the gripper conveyor.
    In the example shown, the size of the standard packages N is 10 products. The 10 final printed products (starting with DX-15R1 and ending at Dx-6R1) for the last standard stack NxR1 of the route R1 are shown in the conveying direction F on the far right. They are followed by two final print products Dx-4R1, Dx-5R1 from which a tip package is produced in the stacking device. This is followed by the first three final printed products for the next route R2, beginning with D1R2, which are fed to a stacker.
    The reprocessed finished products DxR1 to Dx-3R1 follow within the product sequence for the route 2, but this is not a problem because they are not delivered in the stacker, and thus not land in the wrong route, but promoted to the delivery station and addressed there and for a final packet for their route R1.
    On the other hand, the following further seven printed end products of the route R2 are delivered to the same stacking device as the final printed products D1R2 to D3R2 and, together with these, form the first standard packet of the second route N1R2.
    The packages prepared according to this example for the first and the second route are outlined in Fig. 3a. The packet sequence of route R1 ends with the peak packet SxR1 following the last standard packet NxR1. The end package ER1 subsequently produced in the delivery station, as indicated in the figure by means of the arrow m, is manually brought to the correct package sequence position within the route R1. This also ensures that the sequence of the first two standard packets N1R2 and N2R2 of the second route is correct.
    If errors in the production of the final printed products not only lead to errors in the sequence of the final printed products but also to gaps, so even those sequences according to the present invention can be easily processed to sequence correct packets.
    A corresponding example is shown in Figs. 2b and 3b, are to be produced in the standard packages consisting of five Druckendprodukten. From the combination of the two figures it is clear that the faulty and incomplete sequence of Druckendprodukte D can be processed in the gripper conveyor with minimal manual effort to the correct sequence of route-compatible packages with the correct course within the packages.
    The subsequently produced last products DXR1 to Dx-4R1 are in turn not delivered to the stackers, but processed by means of the delivery station to the end package shown in Fig. 3b ER1, which is manually added to the packet sequence for the first route R1. The gap L between the third and fourth print end products D4R2 of the second route is automatically closed in the stacker, and a correct first standard packet N1R2 for the second route R2 is formed, as shown in FIG. 3b.
    If errors occur in the production of the final printed products or the collection of partial products and / or supplements, these defective products are eliminated at stations not shown in the figures and can at most be separated manually into main and partial products and / or supplements and fed again to the feeders 31, 32, 33, 34 and / or the feeder 60.
    In order to ensure that there is a sufficient number of correctly produced printed end products for the route to be produced, known control devices of the applicant can be used. This correct number is either checked during manufacture or, with knowledge of the plant's usual production errors, a corresponding number of additional final printed products are ordered for the route. If the error rate in the production of the printed end products for the route is within the usual percentage, it is ensured that sufficient final printed products can be addressed and packaged. If after production of all required standard packages and of the final package, route-produced, but no longer required printed end products are left over, they can simply be discharged via the delivery station 80, broken down into their components and, since they are not personalized, into the feeders and / or the feeder to be led back.
    权利要求:
    Claims (11)
    [1]
    1. A method for operating a print finishing plant (1) for producing and processing product units, in particular of completed printed products (D) such as magazines and newspapers, preferably from a jacket product (A) and a plurality of partial products and / or supplements (a, b , c, d), characterized in that the product units according to a predetermined production plan produced route and processed by means of at least one stacking device (70, 70.1) to a sequence of packets (N, S), wherein the product units only immediately before or only in the at least one stacking device (70, 70.1) personalized, preferably addressed and by means of a delivery station (80), which is for personalization, preferably for addressing in a position, all not in the at least one stacking device (70, 70.1) processed product units personalized and provided for packaging.
    [2]
    2. Method according to claim 1, characterized in that, when errors occur in the production of the product units (P) of a route (R), which lead to corrected and / or subsequently produced product units (P) in the production sequence outside their route ( R), these corrected or post-produced product units are delivered via a delivery station (80) and combined to form an end package (E), which is then connected to the remaining packages (N, S) of the route by means of at least one stacking device (70 , 70.1) are added to a sequence of packets.
    [3]
    3. The method according to claim 1 or 2, characterized in that from the product units (P) of the product sequence of a route without the corrected or nachproduzierten product units with the at least one stacking device (70, 70.1) an integer number x / n of standard packages (N) where x is the total number of product units for a route minus the corrected or postproduced product units and n is the number of product units in the standard package and where the remainder required to reach the complete number x of product units in the stack unit (70, 70.1) or in the dispensing station (80) is processed into a tip package (S).
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that the packets (N, S) on a stacking device (70, 70.1) or distributed on more than one stacking device (70, 70.1) are produced, wherein the packets (N , S) when using more than one stacking device (70, 70.1) alternately or segmentally to the correct packet sequence comprising the standard packets (N) are compiled.
    [5]
    5. The method according to one of the preceding claims, characterized in that in the stacking devices (70, 70.1) produced packages (N, S) are provided with readable information about their content and preferably a package identification, with information on a cover sheet or printed directly on an outer side of an outer end product of printing in the package (N).
    [6]
    6. print finishing plant (1) for the manufacture and processing of product units (P), in particular of printed products (D) such as magazines and newspapers, preferably from a shell product (A) and a plurality of partial products and / or supplements (a, b, c , d) are compiled according to the route, characterized in that the print finishing unit (1) comprises a device for manufacturing the product units (10) according to a predetermined production plan and a transport device for transporting the product units (P) to at least one stacking device (70, 70.1) and / or to a delivery station (80), wherein in the transport direction immediately before or in the at least one stacking device (70, 70.1) and the discharge station (80) a personalization unit is arranged.
    [7]
    7. print finishing plant (1) according to claim 6, characterized in that the personalization unit is an addressing unit, preferably in the form of a printer (51, 52, 53) or a labeling unit.
    [8]
    8. print finishing plant (1) according to claim 7, characterized in that the device for the route-compliant manufacture of the product units (10) comprises a collecting section (30) with a first conveyor and a plurality of feeders (31, 32, 33, 34) for preferably partial products and / or supplements (a, b, c, d) for the production of collections (K) of partial products and / or supplements (a, b, c, d).
    [9]
    9. print finishing plant (1) according to claim 8, characterized in that the device for the route production of the product units (10) comprises a plug-in device, preferably a insertion drum (40), or a wrapping device in which the collections (K) of partial products and / or supplements (a, b, c, d) are inserted or hammered into a jacket product (A).
    [10]
    10. print finishing plant (1) according to claim 9, characterized in that the transport device comprises a gripper conveyor (21) of the jacket products from a feeder, preferably a feeder (60), to the insertion device (40) and after insertion of the collection (K ) from partial products and / or supplements (a, b, c, d) the product units (P) to the stacking device (70, 70.1) and / or to the delivery device (80) transported.
    [11]
    11. print finishing plant (1) according to any one of claims 6-10, characterized in that the stacking means (70, 70.1) are provided with means for adding a package identification, wherein this an investor for one with the package identification information printed cover sheet, and preferably a cover sheet printer or a printer that prints the package identification information directly to an outside of an outboard final printed product in the package (N).
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    同族专利:
    公开号 | 公开日
    AU2016200522A1|2016-09-01|
    CH710714B1|2018-08-15|
    US20160236897A1|2016-08-18|
    US10464773B2|2019-11-05|
    EP3056459B1|2017-11-29|
    EP3056459A1|2016-08-17|
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    EP1302418A1|2001-10-15|2003-04-16|Ferag AG|Apparatus and method for feeding sequentially objects during their processing|
    EP1524126A1|2003-10-16|2005-04-20|Müller Martini Holding AG|Method and apparatus for producing selectively gathered printed matter|
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    FR2944270B1|2009-04-10|2013-01-25|Pierre Jost|INSTALLATION AND METHOD FOR PROCESSING PRINTS|
    CH703277A1|2010-06-15|2011-12-15|Ferag Ag|Device and method for producing packages from flexible, flat objects.|
    CH705846A1|2011-12-07|2013-06-14|Ferag Ag|Apparatus and method for assembling of flat products, in particular printing products.|
    CH706437A1|2012-04-25|2013-10-31|Ferag Ag|Method and apparatus for creating a product stream of product units in a predetermined sequence.|CH710809A1|2015-03-02|2016-09-15|Ferag Ag|Process and production device for the production of personalized printing end products.|
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    法律状态:
    2017-09-29| PCAR| Change of the address of the representative|Free format text: NEW ADDRESS: BELLERIVESTRASSE 203 POSTFACH, 8034 ZUERICH (CH) |
    2019-09-30| PL| Patent ceased|
    优先权:
    申请号 | 申请日 | 专利标题
    CH00197/15A|CH710714B1|2015-02-13|2015-02-13|Method for operating a print finishing plant and printing finishing plant.|CH00197/15A| CH710714B1|2015-02-13|2015-02-13|Method for operating a print finishing plant and printing finishing plant.|
    AU2016200522A| AU2016200522A1|2015-02-13|2016-01-29|Device and method for producing packages from flexible, flat objects|
    EP16153862.4A| EP3056459B1|2015-02-13|2016-02-02|Method for operating a post-processing device and post-processing device|
    US15/042,891| US10464773B2|2015-02-13|2016-02-12|Device and method for producing packages from flexible, flat objects|
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