EP2739482A2 - Dispositif et procédé de production et éventuellement d'expédition d'objets plats, en particulier d'écrits ou d'imprimés - Google Patents

Dispositif et procédé de production et éventuellement d'expédition d'objets plats, en particulier d'écrits ou d'imprimés

Info

Publication number
EP2739482A2
EP2739482A2 EP12772197.5A EP12772197A EP2739482A2 EP 2739482 A2 EP2739482 A2 EP 2739482A2 EP 12772197 A EP12772197 A EP 12772197A EP 2739482 A2 EP2739482 A2 EP 2739482A2
Authority
EP
European Patent Office
Prior art keywords
processing
document
flat
printing
documents
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP12772197.5A
Other languages
German (de)
English (en)
Inventor
Heiner Kudrus
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ikudrus GmbH
Original Assignee
Ikudrus GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ikudrus GmbH filed Critical Ikudrus GmbH
Publication of EP2739482A2 publication Critical patent/EP2739482A2/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J13/00Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in short lengths, e.g. sheets
    • B41J13/10Sheet holders, retainers, movable guides, or stationary guides
    • B41J13/12Sheet holders, retainers, movable guides, or stationary guides specially adapted for small cards, envelopes, or the like, e.g. credit cards, cut visiting cards
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J3/00Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
    • B41J3/44Typewriters or selective printing mechanisms having dual functions or combined with, or coupled to, apparatus performing other functions
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07BTICKET-ISSUING APPARATUS; FARE-REGISTERING APPARATUS; FRANKING APPARATUS
    • G07B17/00Franking apparatus
    • G07B17/00459Details relating to mailpieces in a franking system
    • G07B17/00508Printing or attaching on mailpieces
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07BTICKET-ISSUING APPARATUS; FARE-REGISTERING APPARATUS; FRANKING APPARATUS
    • G07B17/00Franking apparatus
    • G07B17/00459Details relating to mailpieces in a franking system
    • G07B17/00508Printing or attaching on mailpieces
    • G07B2017/00516Details of printing apparatus

Definitions

  • the invention relates on the one hand to a device for producing and dispatching flat items, particularly documents or printed matters, with electronic order processing and with a processing machine controlled by the electronic order processing, which comprises a printing machine and a mechanical shipping preparation. Also, the invention relates to a device for creating and sending Fl achsachen, in particular documents or pamphlets, with an electronic rule order processing and controlled by the electronic order processing processing machine comprising at least two processing facilities, wherein between the electronic order processing and egg nem customer an interface is arranged.
  • the invention likewise relates to a method for producing and dispatching flat items, in particular documents or printed matters, in which flat items are produced in at least one letter center on the basis of electronic order data records, prepared for shipment and subsequently sent and provide customers with electronic order data records via an interface to the letter center can, or a method for creating flats, especially documents or printed matter.
  • Such devices and methods for creating and dispatching flat items are well known in the art and are used in particular in large companies but also in corresponding service centers of the automated production of documents by means of conventional printing machines, the corresponding paper to be printed by a printing unit , For example, from at least two opposing rollers, lead and print, and to their shipment, for which purpose the paper in accordance with suitable folders and inserters, so egg ner mechanical shipping preparation, ready for shipment.
  • flats should be regarded as a generic term for “flats” and “envelopes” and envelopes “flats”.
  • flat pieces correspond to the "flat goods”, the latter, however, being enveloped before being shipped, which is not provided for in the former.
  • "Flat goods” or “flat items” may in particular be documents, supplements or even cards.
  • a device for producing and dispatching flat items with an electronic order processing and a processing machine controlled by the electronic order processing which includes a printing press and mechanical mailing preparation
  • the printing press between the printing press and the mechanical shipping preparation a locally effective document preparation is arranged.
  • the locally effective document preparation allows a high degree of customizability of a document which is produced on the printing press. This customizability is made possible by an additional processing of the document, which is usually not executable on the printing press. For example, these may be other printing operations, such as the local stamping of a stamp, or mechanical processing, such as local cutting operations, of the document, which accordingly prepare a document locally.
  • a device for creating and sending documents with electronic order processing and with a processing machine controlled by electronic order processing comprising a printing machine and a mechanical shipping unit, can be characterized in that between the printing press and the mechanical shipping a stationary document preparation is arranged.
  • the stationary document preparation can perform complex writing and editing operations, which by means of conventional printing machine and mechanical shipping or by known from the prior art processing machines from printing press and mechanical shipping not available.
  • Both aforementioned embodiments are based on the common inventive basic idea, in a designed for large throughput machine environment or process management, as given in particular by a mechanical shipping preparation, in particular mechanically, so without manual intervention, with the finished flat matters are loaded from the printing press and subject to electronic order processing, a very slow process step, namely a stationary residence of the flat object to be processed or a purely locally effective so only effective at individual points document preparation to provide for customization.
  • Such locally effective and / or stationary document preparations are known per se, for example, as signature machines or also as plotters. However, these are usually fitted manually or manually and therefore not used in generic environments. In particular, their involvement in a machine work process, for example in the context of continuous continuous paper, which is mechanically described and then formatted appropriately separated, or in the context of mechanical sorting, inserting or other paper processing equipment, not previously known.
  • a "document” is the physical form of a message, which is regularly in paper form, such as a letter, a flyer, a postcard, business cards or similar forms of a message or information carrier , a piece of writing is not limited to paper only It is also possible to use a document made of other substances, such as As of plastics or textiles to produce.
  • the "electronic order processing” here consists of any type of hardware or software, by means of which order data for creating a flat thing, i ok a document or a printed matter, or receive data on the flat matter or the document itself, changed, assigned This also applies to all side information of an order, a flat matter or a document, if customer data, billing data or recipient data cling to the order.
  • Electronic order processing is not exclusively as an automatic routine, which is processed by computer, server or router but also for any manual intervention on the order data or on the document, in which case electronic order processing may include intervention by an operator, a composer, a copywriter or an accountant.
  • the term "shipping” includes, in particular, shipping.
  • the actual shipping may well comprise further process steps, for example manually or semi-manually performed, and not necessarily have to be performed each time, such as a manual sorting, egg compilation of several flat items in transport boxes or letter insert.
  • shipment necessarily includes only the shipping situation so far that the flat article, for example in its format or in its form and sufficiently addressed, can be delivered and shipped.
  • sending in the present case thus refers to the final provision process of a flat object in such a way that it can be transported in a targeted manner.
  • the "printing press” refers to any device which can apply typed fonts, graphics or other signs and symbols to a piece of writing or to a typeface and are collectively referred to herein as "printing devices".
  • a “printing machine” refers to any type of device which, in addition to the application of ink, can also provide a graphic design of the workpiece with tools It is also possible for a plurality of printing devices to be arranged in series or in parallel, which then form the printing press as a whole.
  • the printing press may comprise a further printing device, wherein it is particularly advantageous if between the further printing device and the mechanical shipping preparation
  • the further printing device is a global printing device, such as a laser printer or even an offset printer be prepared quickly and in herkömmajiwei se documents on the other printing device, which are then individualized in the locally effective and / or stationary document preparation.
  • the or ei ne other further printing device can be provided after the locally effective and / or stationary document preparation, in which case, however, should be ensured that, for example, ei n seal not damaged by the subsequent further printing device and - if applicable - a documentary character of the document so produced is forged.
  • mechanical mail refers to any device for preparing a document for subsequent mailing, such as folding, inserting or franking machines It should be noted that ei n used for shipping the envelope for the document can not only be edited by the mechanical cal shipping preparation, but also by a printing press to apply, for example, address data or advertising on the envelope.
  • the allocation means in particular enable a transition from a manual process, in which, in particular, a high susceptibility to errors exists, if a signature machine equipped accordingly and the cover letters must be manually afterwards enveloped, to a machine procedure, in which on the one hand processed high quantities and on the other hand, a low error rate can be guaranteed.
  • a "document preparation" represents a subgroup of a printing press or printing device, which, however, is designed only for processing the flat article by means of a tool.
  • a "tool” in the sense of the invention may, for example, be a stamp, a pin, a knife, a spraying device, an embossing device or any other tool guided by a tool guide.
  • a "tool guide” is therefore any device which can guide a tool in a desired, that is to say in an individualizable or programmable manner, for machining the flat object or the document.
  • An advantageous embodiment of the device described above results when the document preparation comprises a vector-controlled tool guide.
  • the high degree of customizability is achieved by the possibility of programming the tool guide in a programmable manner, as a result of which inter alia multidimensional processing of the document can take place.
  • a coherent image for example, consisting of two-dimensionally drawn symbols or graphics created.
  • signatures but also brushing lines can be used as individualizing feature accordingly in document preparation, since motion sequences, in particular, for example, the motion sequences of a nib, a brush or a knife, can be specified in a particularly simple manner by a vector-controlled tool guide.
  • a vector-controlled tool guide is a far More complex processing of a document is possible, for example, in the case of a brush, a different contact pressure or, in the case of nibs and pens, a different setting angle of the respective tool is specified or. can be.
  • a vector-controlled tool guide is not limited to a two-dimensional machining, but can also be used for three-dimensional machining. This can then lead, for example, to a different contact pressure which, depending on the specific application, leads, for example, to a permanent deformation of the paper or other surface and thus to the typical character of a flat object or to different brush thicknesses.
  • a device according to the invention with a three-dimensional tool guide, if on the three-dimensional tool guide ei n essentially one-dimensional effective tool, such as ei ne pen, a brush, a pen, a knife, a spray head and / or a stamp , is arranged.
  • one-dimensional is to be understood in this context mathematically, since, of course, each of the above-mentioned tools generates at least two-dimensional typeface and has a three-dimensional extent must, but in this case any impu lsbetätigter or air-operated tool, such as an airbrush spray gun, may be.
  • a device according to the invention also an alternative to a three-dimensional tool guide - if the document preparation comprises an embossing station.
  • the document preparation comprises an embossing station.
  • an image pickup is arranged in the area of the document preparation or in front or behind it.
  • An image capture such as a camera with appropriate software, can checked documents still during the processing or un indirectly after the work carried out and adjust the required number of l to edit documents accordingly, if documents must be sorted out due to lack of quality.
  • a camera offers the possibility for customers to directly verify the quality of their documents themselves, by granting access to the respective images corresponding to the documents of those customers.
  • Such a control is of considerable advantage, in particular in highly individualized processes, such as in a brushstroke or a signature, since this can create confidence.
  • a camera can cumulatively or alternatively serve to acquire control codes, in particular integrity control codes, but also areas used as control codes, such as an address field, a flat item, and then to obtain information for the subsequent method step.
  • this can be done directly by providing information in a control code directly on the type of tool to be used, be it a brush or a quill, for example, and / or the sequence of processing, such as writing a signature or a symbol, for example. are contained, wherein in the processing device even then the corresponding machine commands are generated via a database.
  • this can be done indirectly by ei ne corresponding assignment to a job from the control code or the address by then the corresponding information is stored.
  • the document preparation has at least two identically designed processing stations or processing devices and a distributor is arranged between the printing machine and the two processing devices or processing stations.
  • a document preparation which has a lower throughput than a document preparation upstream printing press, the maximum utilization of the printing press can not regularly achieve by the above-described embodiment. Therefore, a processing of the document by means of two or more processing equipment or processing stations on the one hand advantageous for the rapid processing of all requested documents and on the other hand advantageous for the utilization of the respective printing press.
  • a different processing is possible if, for example, two coherent but differently to be individualized documents are produced in a common printing press.
  • a first page of a letter or document may be provided with a painted logo of a company, while a last page of a letter or document may be provided with a signature and a seal stamp.
  • an apparatus for producing and shipping flats, in particular documents or printed matters, having a processing machine controlled by electronic order processing, comprising at least two processing devices or stations is also advantageous , which is characterized in that the two processing facilities or stations are each identical and / or two different locally effective and / or stationary Schri ft Community washer.
  • the two processing facilities or stations are each identical and / or two different locally effective and / or stationary Schri ft Community washer.
  • the two identical locally effective and / or stationary document preparations can in particular be activated with double use, whereby correspondingly double processing speeds can be achieved.
  • the two processing stations can be arranged in particular in distri ler, which assigns the individual flat matters each one or the other document preparation. Possibly. However, especially if the medium, which is actually the flat thing, such as the paper, also nachträgl I can be separated, the double or Mehrnutzmaschine also be implemented by the fact that first a corresponding larger, quasi endless flat thing double or. processed multi-useful and only then separated accordingly.
  • the device for creating flat objects in such a way that the one or more document preparations work on continuous paper, which is then severed elsewhere. If necessary, the latter can also be carried out on a separate unit by rewinding the continuous paper after document processing, transporting it to a separate unit and unrolling and processing it again.
  • a control code which is applied to the continuous paper, are removed by the separation process, if during and after the separation of the necessary integrity, that is, an adequate allocation of egg nzelnen Flachsache to an order, is ensured.
  • a “distributor” is any device for assigning the documents coming out of the printing press to the respective processing station
  • processing station refers to any subunit of a document preparation in which a processing step can be performed.
  • a device for producing and dispatching flat items, in particular documents or printed matters, with electronic order processing and with a processing machine controlled by electronic order processing can be provided at least two processing facilities u masst, being between the electronic order processing and an interface is arranged for a customer, characterized in that the interface contains a parameter matrix with at least two parameter vectors, the first of the two parameter vectors being parameters for a first processing instruction for the flat object or the document and the second of the two parameter vectors being parameters for a second Processing instruction for the flat matter or the document include.
  • this can be on the Thomasstel le, especially a customer to write several editing instructions for the document to be created and according to their own wishes, the different processing facilities of features of features of features of features of features of features of features of features of features of featurese separately control or trigger, so as to vidual al the document to indi , [44]
  • this approach also allows the inventive idea to individualize a mass business, since the interface ultimately enables anyone to interact with a printing process, which has hitherto been the case with devices for creating and sending documents with electronic order processing is not provided with a controlled by the electronic order processing processing machine, which except for the provision of the actual print template beispielswei se in egg nem corresponding file format only intervention by specially trained personnel or by the respective Maschi allow nencast.
  • the interface may in particular also be designed such that a corresponding access via modern communication devices, such as computers, tablets or smartphones, is possible, which on the one hand egg nen use for mass production but also a very i ndi viduelle design of the respective Flat things possible.
  • modern communication devices such as computers, tablets or smartphones
  • the parameters may include editing instructions for a font, a watermark, a stamp, an embossing, a punching, a scent, images, or advertising.
  • These different editing instructions which can be performed by various processing facilities, thus individually on the interface, and thus for example, of computers, tablets or smartphones, selected by the customer and assigned to the document.
  • a "processing device” is understood to mean a sub-unit of the processing machine, which in turn may have a processing device of a processing machine, whereby several processing stations of this processing device carry out different embossing processes, for example If the processing stations and the processing devices are preferably the aforementioned printing devices, however, assemblies of the mechanical shipping preparation or other units can accordingly be processing stations or devices.
  • the "interface” refers to a connection of the processing machine or the electronic order processing to an external system, by means of which the processing machine can be controlled.
  • This external system is vorzugswei se a customer, the order data or the document with all necessary Accordingly, the interface, with the appropriate activation, also makes it possible to take over from computers, tablets or smartphones or via similar modern communication devices from a customer entered data.
  • the "parameter matrix” preferably contains all relevant data of the transmitted order or the flat item or the document so that, if possible, further intervention by operating personnel, such as, for example, by a dispatcher of the corresponding provider, is not necessary or necessary
  • This parameter matrix which may also be a multi-dimensional matrix, if the respective data are sorted in some way, includes parameter vectors, which in turn have parameters for the respective processing instructions
  • the interaction of all parameter vectors in the parameter matrix leads to the complete definition of the flat matter commissioned or the document ordered in the process, which passes through the egg in the processing machine can be created by the parameter vectors controlled processing facilities. It can immediately be seen that a parameter vector can in turn also contain parameter vectors and thus the term "vector" is not reserved exclusively for a one-dimensional data space.
  • a "processing instruction” preferably the information for a single processing device, which is necessary for processing the flat object or the document, is included.
  • the two parameter vectors have at least one different processing instruction for different processing steps Different processing steps can also be performed by different tools.
  • a "pressure instruction" in the present case in particular also the processing of a Document by means of a stamp, ei nes pen, a knife, egg ner embossing or punching may include, wherein a text to be printed or egg n to be printed Bi ld is possibly housed in a single coordinate of the parameter vector or the parameter matrix.
  • the first of the two parameter vectors is processing instructions for driving the first one of the two processing means and the second of the two parameter vectors has processing instructions for the second of the two processing devices.
  • this embodiment enables the separate control of the respective processing device on the part of the customer, who independently selects and defines the processing steps required for the production of the flat object or the document.
  • a process for creating and dispatching flat items, in particular documents or printed matter in which flat items, in particular documents or printed matter, are generated in at least one mail center based on electronic order records can be prepared for dispatch and subsequently dispatched, and Via an interface customers can give electronic order data records to the letter center, characterized in that a flat matter or a document in the letter center is processed with a displaceable at least in two dimensions, essentially one-dimensionally effective tool.
  • a large-capacity facility such as this is a letter center, which may even be networked with other letter centers located in other places or in other countries, and is usually centrally located To locally print out a bulk mail prepared to a customer in large quantities, then insert it locally and then send it to the lowest possible port costs, with a tool which contradicts this basic idea, which works slowly and laboriously, in order to ensure a high degree of individuality with regard to the respective To allow flats or documents.
  • a "letter center” can receive electronic order data records and these to a processing machine forward and beyond either include the necessary processing machine or forward the receiving order data to ei n another letter center, which includes the corresponding processing machine.
  • This tool may be, for example, a nib, a pen, a brush, a knife, a spray head and / or a stamp.
  • this method allows a high degree of customizability when creating and dispatching flat items or documents. This customizability is due to the fact that with the tool used, on the one hand, a creation of the flat object or of the document can be done individually by means of the tool used and, on the other hand, a further customizability is possible by using a plurality of different tools.
  • a method for producing and dispatching flat items, in particular documents or printed matter, in which documents are generated in at least one mail center based on electronic order data sets can be prepared for shipment and then sent and By means of an interface, customers can provide electronic order data records to the letter center, characterized by the fact that the flat item or the document is described mechanically.
  • This method advantageously solves the problem at hand and transposes the present basic idea, since a mechanical description of flats or documents is currently not known, especially in the case of individual flats or documents which are specified externally.
  • a method for creating and dispatching flat items, in particular documents or printed matter can be distinguished by the fact that the flat item or the document has at least two processing operations, of which at least one processing operation a mechanical writing, a machining device with a displaceable at least in two dimensions, essentially one-dimensionally effective tool or ei ne editing with egg ner locally effective and / or stationary document preparation is processed before it is prepared for shipping.
  • these processing operations may be, for example, a printing operation, a writing operation and / or a further processing operation.
  • a flat matter is assigned to an order in an electronic machine control.
  • This assignment can take place, for example, via a machine-internal assignment, by which it is ensured that the processing steps to be carried out on a flat object are also carried out on the correct flat object.
  • a control code can be provided on the flat matter, which can be read by the machine and ensure a corresponding integrity. Possibly.
  • such a control code can be applied via a printer, for example via a conventional printer.
  • a control code applied by such document preparations for example a control code applied with a nib or a brush, can be reliably detected can.
  • control code is removed prior to shipment, which may be done, for example, in a cutting or separating operation in which an edge, which otherwise serves to guide the flat material, is severed or in which two or more benefits are separated.
  • Figure 2 is a detail view of the featuressmaschi ne of Figure 1 with a writing robot and a cutting robot;
  • FIG. 3 is a detail view of the cutting robot of Figure 2;
  • Figure 4 is a detail view of the writing robot of Figure 2;
  • FIG. 5 shows a detailed view of a robot with spray head for a processing machine
  • FIG. 1 A first figure.
  • FIG. 6 shows a processing machine with an embossing machine in an overall view
  • Figure 7 is a detail view of the embossing machine of Figure 6;
  • FIG. 8 shows a further detail view of the embossing machine according to FIG. 6;
  • Figure 9 is a detail view of a positive and a negative type
  • FIG. 10 shows a detailed view of a stamping ring of the stamping machine according to FIGS. 7 and 8;
  • Figure 1 1 a stamping robot for a bedssmaschi ne of Figure 1;
  • Figure 12 is a detail view of a stamp with a color station and a cleaning station of a stamping robot according to Figure 1 1;
  • FIG. 13 shows a further detail view of the stamp and the color station according to FIG. 1 2;
  • FIG. 14 shows an additional processing machine with several writing robots in an overall view
  • Figure 15 is a schematic overview of an order, production and dispatching a document
  • Figure 16 is a schematic flow diagram of a order, manufacture and dispatch process of a document
  • FIG. 17 shows a schematic process sequence in a letter center according to FIGS. 15 and 16;
  • FIG. 18 shows a schematic process sequence in another letter center according to FIGS. 15 and 16;
  • FIG. 19 shows a further detailed process sequence for a single-sheet production in the letter center according to FIG. 18;
  • FIG. 20 shows a detailed procedure for handwriting selection for the method according to FIG. 19;
  • Figure 21 is a detailed schematic process flow for creating a signature of Figure 19;
  • Figure 22 is a schematic overview of an interface for the acquisition of order data
  • FIGS. 23 to 26 show an interface overview for the interface point "letter parameters" according to FIG. 22;
  • FIGS. 27 to 31 show an interface overview for the interface point "B called write” according to FIG. 22;
  • FIG. 32 shows a further schematic overview of the interface according to FIG. 22;
  • FIG. 33 shows an alternative processing machine for creating documents in an overall view
  • Figure 34 is a detail view of the processing machine of Figure 33;
  • FIG. 35 shows a further detail view of the processing machine according to FIG. 33;
  • Figure 36 is a detail view of another processing machine with a brush
  • FIG. 37 shows a detailed view of a processing machine similar to the processing machine according to FIGS. 33 to 35 with a tool magazine;
  • FIG. 38 shows another processing machine in an overall view
  • FIG. 39 shows another processing machine in an overall view.
  • a processing machine 100 according to FIG. 1 has a paper storage 104 from which a printer 102 receives stationery for producing a flat item or a document.
  • the printed paper which is visually inspected on an output of the printer 102 by means of a camera 106, is first fed to a cutting robot 108 and subsequently to a writing robot 110.
  • a control code is detected via the camera, which drives the processing machine 100, for example, with regard to the selection of a tool or with regard to the selection of a specific Ti nte.
  • the filled envelopes 121 are individualized accordingly by also these are passed to respective writing robots 1 10, which also cameras 106 may be provided.
  • both the envelopes 121 and the documents also form flat objects which can be individualized accordingly, it being understood that in one embodiment the envelopes can be processed separately accordingly, in which case u.U. an appropriate integrity that the correct envelopes are fed to the correct slab should be ensured.
  • i n special embodiments waives an enveloping.
  • the robots 108, 110 each have different tools for processing already printed stationery 1 30.
  • the cutting robot 108 has a knife or egg nen cutting head 1 36, mi ttels with which a cutout 138 can be introduced into the stationery 1 30.
  • a punching tool for punching the cutout 1 38 can be used instead of the cutting head 136.
  • the i ndi viduelle character of the processing can be increased because a punching leaves more egg nen impression ei ner machining.
  • a knife or cutting head 1 36 allows a higher variability of the cutting lines, which - as well as any other essentially dimensionally effective tool - also leads to increased customizability.
  • the stationery 1 30 conveyed from the printer 102 on a conveyor belt 132 is fed to the writing robot 1 1 0 after being cut or punched, as shown in detail in FIG.
  • This writing robot 1 10 has a spring 140, mi ttels which, for example, a signature or even an entire handwritten Tex t is applied to the stationery 130.
  • the writing robot 1 10 furthermore has a Ti ntenvorrat 142, which is connected by means of a filling hose 144 with the stylus 140.
  • a pen or a brush can be used accordingly.
  • a changing device may be provided so that the writing robot has various springs 140, brush 141 (see Figure 36) or pens to choose from.
  • a tool magazine 1 1 1 as shown in Figure 37 with respect to envelopes 121, which are described and then output as ready-to-send envelopes 120, is exemplified.
  • the stationery 130 conveyed by means of the conveyor belt 1 32, which rests against a plurality of carriers 134 of the conveyor belt 132, is, as already explained above, by means of the cameras 1 06 respectively after printing in the printer 102 and after processing by the robots 108, 1 10 checked for errors.
  • the spray head 146 is, like the Schreibsti ft 140 also egg neflower verbu by means of the filling hose 144 with the ink supply 142 and nd on the other hand has a compressed air hose 148, by means of which the spraying is controlled.
  • Egg ne866 can be sprayed on the spray head 146, for example, paint or ink.
  • egg n oil or other liquid which changes the transparency of the paper, be sprayed to generate or represent in this way an individual watermark.
  • the cutting robot 108 can be used and, on the other hand, a plurality of robots 108, 110 can be arranged on the conveyor belt 1 32, in addition to a processing by means of the stylus 140 also the Use of the spray head 146 to allow.
  • the robots 108, 110 can also be provided with interchangeable heads, so that the respective tools can be replaced. [77] As can readily be seen, the aforementioned tools are each essentially one-dimensionally effective.
  • the robots 108, 110 each lead at least three-dimensionally, so that on the one hand different movements on the document and on the other hand at least one on and off or different distances for a spray device or different contact pressures for a spring 140 or a brush is possible.
  • other dimensions of the individualization can take place through further dimensions in the tool guide, such as a different orientation of the spring 140 or a knife on the cutting head.
  • the work is preferably carried out by the robots 1 08, 1 10 when the conveyor belt 132 is stationary, so that there is a stationary document preparation here.
  • the processing machine 100 explained in FIGS. 1 to 5, as can be seen from FIG. 6, may have an embossing stitch 50, by means of which the stationery 130 is embossed in the printer 102 after printing.
  • the embossing machine 150 comprises at least two embossing wheels 162 arranged in pairs opposite each other.
  • the embossing wheels 162 each have a plurality of embossing rings 164 which rotate by means of a plurality of toothed wheels 154 which mesh with a toothing 56 of the embossing rings 164. to set desired types 166, 168.
  • the gears 154 are in turn driven via Stel lmotoren 1 52.
  • embossing rings 164 are respectively positive and. negative types 166, 168 arranged on type carriers 170, wherein the positive types 166 are formed with the negative types 168 each complementary acting and are set accordingly complementary.
  • the embossing rings 164 equipped with only positive types 166 are respectively arranged on one side, for example the top, of the letter paper 1 30 and the embossing rings 164 are arranged with the negative types 168 each on the other side of the stationery 1 30.
  • the desired type 166, 168 results here by the rotation of the embossing wheels 164, wherein by the juxtaposition of embossing rings 1 64 with an embossing process a whole line or more types can be coined simultaneously, so that there is a more than locally effective processing, the Nevertheless, it should not be regarded as a printing process known per se in such a processing machine 100.
  • the embossing rings 1 64 combined to the embossing wheels 1 62 are rotatably mounted on a bearing block 160, the bearing block 1 60 guiding the embossing rings 164 in the direction of the stationery 1 30 by means of an embossing cylinder 158 and the types 166 arranged on the respective embossing ring 164 , 168 presses against the complementary types 1 66, 168 on the underside of the stationery 130.
  • a processing machine 100 can also have a stamping robot 180, which processes the stationery 1 30 fed on the conveyor belt 132 by means of a stamp 182, which ultimately is again to be regarded as essentially local.
  • the stamp used 182, which is used instead of a signature or in addition to a signature is first sprayed in a paint station 1 84 by means of a color head 188 with paint.
  • the spraying in the present embodiment is carried out by a technique similar to an inkjet printer, so that the stamp 182 is actually formed as a flat plate, to which only where a stamp image is to be generated, a corresponding color is applied.
  • a matrix of metal pins which may be similar to a matrix printer head, can be used, which then form individual elevations on which color, possibly also via an ink pad, can be accommodated.
  • the stamp 182 is pressed onto the stationery 130 after being sprayed with paint by the stamping robot 1 80. To generate a new Stempelbi ldes the punch 182 is moved to a cleaning station 186, in which the stamp 1 82 freed of paint residues and then re-sprayed.
  • a three-dimensional or relief-like stamp can also be used in conjunction with an ink pad, provided that the job to be processed in the processing machine 100 has a sufficiently large number of documents to be produced.
  • the above-described individually sprayable flat stamp 1 82 or a matrix die similar to the printhead of a dot matrix printer offers a good compromise between the cost and customizability of the particular document.
  • the processing machine 100 can also be operated in a multi-purpose manner by equipping the robots 108, 110, for example, with the same tools and only processing every second flat item or every second sheet, as described for example in the case of the processing machine shown in FIGS the envelope 121 is shown by way of example.
  • the focussmaschi ne 100 is also a multi-use arrangement of the writing robot 1 10 possible.
  • map sheets 190 produced, for example, in the printer 102 can be processed simultaneously with four writing robots 110.
  • the card sheet 190, on which several postcards can be printed side by side printed, is thus, after being fed by a turning station 192, further processed by means of the writing robot 1 10 quickly.
  • Nutzu ng multiple writing robot 1 10 thus a good utilization of the printer 102 is guaranteed, which does not have to wait to a large extent for the further processing of the card sheets 190 and printed with his full capacity ner card sheets 190.
  • the finished card sheets 190 can after writing medium s of the writing robot 1 10 collected on a tray 194 on the processing machine 100 and jointly a further processing, for example egg ner cutting station, are supplied.
  • the continuous paper after passing through the processing machine 100 rolls up again to a continuous paper roll 103, which can then optionally be unrolled elsewhere and cut in the desired manner, the featuressmaschi ne 100 according to Figure 39 ei ne Trennei nrichtu ng 101 on which the continuous paper, after it has been past egg ner variety of writing robots 1 10, separates and deposits on egg nem paper stack 105.
  • the paper of the paper stack can, if desired, then be processed further, in the first instance a scan of an address or a control code or an inversion into envelopes with a viewing window.
  • the processing machine 100 according to FIG. 38 works only in a pass-through direction, wherein, depending on the specific process control, a clocked pass is performed so that each individual writing robot 10 completely processes a benefit, or a continuous run through, if the machining operation is completed ng only briefly, for example, only for a signature, is provided, or if the writing robot successively work on each s a document parts, can be provided.
  • the processing machine 100 according to FIG. 39 operates in the feedthrough direction, so that, compared to the processing machine 100 according to FIG.
  • the procedure for creating, manufacturing and sending a dispatch-ready document 220 has, as shown in FIGS. 15 to 21, at least one customer interface 200, a central letter center 208, the letter service A, and a decentralized one Briefcenter 210, the letter service B.
  • the customer via a bel iebiges input device 202 via a network connection 204 and via a network 206 data to a central computer 214 of the central letter center 208 to send.
  • a central computer 214 of the central letter center 208 to send.
  • the Central computer 214 takes over the administration of customer and order data as well as all payment transactions and on the other hand the order coordination.
  • the central computer 214 sends the order data via a further network connection 204 to jewei time production computer 216 of a single or multiple decentralized letter center 210.
  • the control of the decentralized letter center 210 via the determination of the respective letter recipient.
  • the individual decentralized letter centers 210 are arranged in different shipping regions 222 in order to ensure a shortest possible shipping time and the most cost-effective shipping possible between a processing machine 21 8 of the decentralized letter center 210 and the physical recipient of the dispatchable document 220.
  • decentralized call centers 210 are located on the east and west coasts of the United States of America in order to supply regional mailmen there on a regional basis.
  • individual decentralized letter centers 2 10 can also supply a number of smaller mailing regions 222.
  • a shared decentralized letter center 210 is responsible for the mailing of two neighboring single states, such as Luxembourg and Belgium or Lichtenstein and Switzerland, or two states of a low-volume continent, such as Liberia and Malawi ,
  • a user query 240 is started, which checks whether the customer is already registered. If this is not the case, a registration 242 takes place with a corresponding invitation or request to the customer.
  • a user query 260 is made in the decentralized letter center 210, after which a sample letter 262 is started and a sample letter is sent to the new customer Paper patterns and patterns for handwriting, embossing, punching, the stamp and the like are sent via a model letter mailer 264.
  • a record allocation 244 wherein the matching to the present order decentralized letter center 2 10 is selected. Subsequently, the present order data record is sent to the decentralized letter center 2 1 0 via a data record transmission 246.
  • the decentralized mail center 210 is first a Briefer ein 266 and a subsequent mail delivery 268.
  • the letter 268 takes place, as already explained above, by the appropriate choice of the decentralized letter center 210 on the one hand cost for a customer sitting abroad, as ledigl I to pay the domestic postage fees si nd, and on the other hand, a relatively accurate termination of the letter to be sent is possible, as by means of the regional decentralized letter centers 210 the required shipping times are known with great accuracy.
  • a customer sitting abroad, for example, greetings cards for holidays the reception time very easy to determine.
  • an image query 270 is made, which determines whether the client has requested a photograph of the finished document 220 ready for despatch. Depending on the positive or negative query in the image query 270, a status report 272, 274 takes place, by means of which a feedback is sent to the central letter center 208.
  • a status report 272, 274 takes place, by means of which a feedback is sent to the central letter center 208.
  • an invoice creation 248 and an invoice dispatch 250 are initiated in the central mail center 208, with a status display 236 being made at the customer interface 200 about the individual steps.
  • the corresponding documentary photo can also be interrogated here, which can be recorded, for example, via the cameras 106, it being understood that an entire film may also be provided over the writing process if necessary.
  • a data record distribution 302 is initially performed according to a data record distribution 300, the order data records being transmitted from the customer to central mail center 208 to be shipped.
  • a receiver determination 304 ensues, followed by a first receiver query 306.
  • the first receiver query 306 checks whether there is a decentralized letter center 210 in the recipient country. If this is not the case, there is a recipient assignment 308 with an assignment of the order data to a decentralized letter center 210, which lies on the continent of the recipient country.
  • a recipient query 3 10 follows, in which the presence of several decentralized letter centers 2 10 in the recipient country is checked. If the check is negative, then a recipient assignment 31 2 takes place in which the order data record is assigned to the respective decentralized letter center 210 in the recipient country. In the case of a positive receiver query 310, a receiver assignment 3 14 takes place, in which the regionally closest decentralized letter center 210 to the recipient location is determined. Before a record transmission 31 8 to the decentralized letter center 210 takes place, several existing order records are combined in a record merge 3 16 to a job package in order to use synergy effects and increase the effi ciency of the shipping and creation process.
  • a data record reception 402 initially follows, followed by order planning 404, in which the internal order data is generated and the order is scheduled in the entire production process. Thereupon, a job transfer 406 to the processing machine is performed and an order transfer 408 with the job start coupled thereto is executed.
  • a read-only query 412 is performed, which in the case of a positive query results in the generation of a photo of the order.
  • a creation of a job photograph is a cover sheet query 414 upstream, which leads in a positive case to an image 416, in which a photo is determined from the cover page of the order and stored. If the cover sheet query 41 4 is evaluated negatively, an image production 18 follows from each individual sheet of the order.
  • an image transmission 420 takes place, in which the images produced are linked to the order data. This is followed by the further course of the process with order forwarding 422. This is followed in turn by two further queries, an advertising query 424 and a voucher query 428. If the query is positive in each case, an advertisement generation 426 and / or a coupon generation 430 takes place. [107] If the order (s) of the order have been successfully completed, an insert 432 follows with an envelope output 438.
  • Image query 434 is arranged, by means of which, when the query is positive, a photo of the filled envelope is generated and an image transfer 436 is resolved, which transfers the generated photo to the order controller and links this with the order data.
  • a single-sheet generation 510 in the decentralized call center 210 takes place after an order processing 500, a data record reception 502, an order planning 504, an order transfer 506 and an order transfer 508-analogous to the method described in FIG a print query 512, as can be seen from the diagram of FIG.
  • the print query 5 1 2 first checks whether ei n n print 514, in which text and images are generated by means of the printer 102, should take place.
  • a cursive interrogation 5 16 by means of which, if the query is positive, a text creation 518 takes place.
  • the writing 518 is used cumulatively or alternatively for printing by means of the printer 102 for generating a handwritten text by the writing robot 1 10.
  • the writing robot 1 1 0, if a signature query 520 is positive, also used for a signature generation 522.
  • Processing steps associated therewith, such as an emboss query 524, a stamp query 528, or a stamp query 532 may also be made in alternative sequences in the overall sequence of existing single sheet generation queries 510, as readily apparent.
  • the ultimately selected order depends on the arrangement of the respective cutting robot 108 or writing robot 1 10 or the embossing machine 150 and other machines or processing stations in the Beaibeitungsmaschine 100, in which case if necessary consideration must be taken that certain processing steps by subsequent steps not damaged, for example, that a seal subsequently does not flake off.
  • embossing 526 is preferably performed by means of the embossing machine 150.
  • punching 530 or stamping 534 are also carried out after the respective queries.
  • the punching 530 can also take place by means of the cutting robot 108 when it is equipped with a punching tool.
  • a cutting query with egg nem thereby initiated cutting process can be provided.
  • stamp inquiry which in the positive case triggers stamping 534 by stamp robot 180
  • a watermark query 536 is performed.
  • Watermarking 538 subsequent to this watermark query 536 may optionally use the previously described spray head 146 to generate a watermark.
  • a handwriting query 602 is initially carried out in which it is determined whether an individual handwriting should be used.
  • a handwriting upload 604 and a text sample acquisition 606 are carried out, in which the customer can transmit his own handwriting via the customer interface.
  • the text sample acquisition 606 is immediately followed by a sample analysis 608 and a handwriting optimization 610, in which the font of the Customers or the individual letters are analyzed, optimized and modified if necessary.
  • This ascertained handwriting or the established font of the handwriting are stored in a font generation 612 as a new font and forwarded after a font selection 614 to a font transfer 626.
  • a font collection query 616 is started. If the font collection 616 is positive, a handwriting upload 61 8 is also carried out, followed by a font sample comparison 620, which leads to a customer handwriting-like selection of a handwriting sentence from the font collection by means of the font selection 622. Lastly, if the font collection query 616 is negative, the customer has the option of a manual font selection 624.
  • a signature upload 632 is first performed. After the signature upload 632, a signature capture 634 and a signature analysis 636 take place analogously to the font sample acquisition 606 and the font sample analysis 608. According to the signature analysis 636, a writer control 644 can then be specified.
  • a writing device selection 638 is initially made. With the writing device selection 638, a font selection 640 and, after successful selection of the writing device and of the handwriting sentence, a transfer 642 to the writing device, that is to the writing robot 1 10 or triggered this controlling computer unit t.
  • the signature can then be executed in a signature execution 646 and the method described in FIG. 19 can be continued.
  • a subinterface stationery 708 is to be selected in which paper information 710 can be specified.
  • paper information 710 can be specified.
  • a feedback to the customer also takes place immediately by means of a displayed price for the respective option in the graphical display of the customer interface 200.
  • the total price of the order is in the main level 700 readable.
  • the interface for the letter parameters 704 contains a sub-item to a typewriter 7 12.
  • information can be set to a font option 7 14 and to a group assignment 7 16, wherein concrete font parameters, such as bold or italic font, either for a single field of the letter, such as the sender or the recipient, or for all fields are selectable together.
  • a font option 71 8 and a group assignment 720 for the font of the selected text done. Possibly.
  • a handwriting 722 or a writing instrument option 732 With the selection of a handwriting 722 or a writing instrument option 732, the advantages of the illustrated interface according to the invention are brought to bear, as in this case the customer has the opportunity to select the machining device used for processing concretely.
  • a direct assignment to a writing robot 110 or a writing robot type can be assigned to which both handwriting options 724, 728 and group assignments 726, 730 can be assigned.
  • the group assignments 726 and 730 also show the customer, as well as a sample 734, samples of the selected pleadings.
  • an embossing option 744 with associated embossing text 746 and, on the other hand, an embossing position 748 and an embossing number 750 can be selected. Embossing for selected pages can be specified under the item embossing number 750, while under embossing position 748 a relative position of the selected embossing can be defined on the single sheet produced.
  • stamp options 752 and watermark options 758 with an associated stamp position 756 or watermark position 762 may also be determined.
  • a stamp image or watermark can be selected for a stamp image 754 or a watermark image 760, wherein the stamp image 754 can also be used to determine the width, the inclination or the color of the stamp.
  • punching options 764 may also be defined, with the punching option 764 having a punch selection 766 and a punching position 770 which in turn determines the relative position on the cut sheet.
  • the punch selection 766 further includes preset punch images 768, whereby also at this point information about an individual customer punch image could be made.
  • advertising options 772 and coupon options 778 can also be activated.
  • advertising options 772 and coupon options 778 can also be activated.
  • the chosen advertising option 772 it is possible to get the price of a document over one in an advertising selection 774 select advertisements, whereby a concrete selection can be made via advertising images 776, and on the other hand, for example for celebrations, by means of a coupon selection 780 and associated coupon images 782, to select coupons for the recipient.
  • the customer interface 200 contains further advantageous embodiments according to the invention, since in addition to the timely delivery of the individual document, donations are also made available to the recipient and the client - not only at a great distance to the recipient - with great time and cost savings messages and gifts can.

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  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • General Factory Administration (AREA)
  • Record Information Processing For Printing (AREA)
  • Dot-Matrix Printers And Others (AREA)
  • Accessory Devices And Overall Control Thereof (AREA)

Abstract

L'invention concerne un dispositif de production et d'expédition d'écrits à l'aide d'un traitement électronique des commandes et d'une machine de traitement commandée par le traitement électronique des commandes et comprenant une machine d'impression et un dispositif de traitement mécanique des expéditions. Afin de permettre un degré élevé d'individualité des écrits produits de cette manière, un dispositif de traitement des écrits à action locale est disposé entre la machine d'impression et le dispositif de traitement mécanique.
EP12772197.5A 2011-08-01 2012-08-01 Dispositif et procédé de production et éventuellement d'expédition d'objets plats, en particulier d'écrits ou d'imprimés Withdrawn EP2739482A2 (fr)

Applications Claiming Priority (2)

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DE102011108986 2011-08-01
PCT/DE2012/000773 WO2013017122A2 (fr) 2011-08-01 2012-08-01 Dispositif et procédé de production et éventuellement d'expédition d'objets plats, en particulier d'écrits ou d'imprimés

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EP2739482A2 true EP2739482A2 (fr) 2014-06-11

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US (1) US9346644B2 (fr)
EP (1) EP2739482A2 (fr)
JP (1) JP2014531988A (fr)
CN (1) CN103998247A (fr)
DE (1) DE112012003200A5 (fr)
WO (1) WO2013017122A2 (fr)

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US11658862B2 (en) * 2012-11-14 2023-05-23 Accuzip, Inc. Hardware server and technical method to optimize bulk printing of physical items
US11153146B2 (en) * 2012-11-14 2021-10-19 Accuzip, Inc. Hardware server and technical method to optimize bulk printing of mailing items
US10652403B2 (en) * 2017-01-10 2020-05-12 Datamax-O'neil Corporation Printer script autocorrect
US11449290B2 (en) * 2017-07-14 2022-09-20 Georgia-Pacific Corrugated Llc Control plan for paper, sheet, and box manufacturing systems
US11964497B2 (en) * 2018-09-12 2024-04-23 David Wachs Mechanical handwriting quality control method
US20220266613A1 (en) * 2018-09-12 2022-08-25 David Wachs Mechanical handwriting barcode control method
CA3177040A1 (fr) 2020-12-28 2022-07-07 Hallmark Cards, Incorporated Systeme de transport automatise de cartes de vƒux
CN113306317A (zh) * 2021-06-04 2021-08-27 武梓涵 一种便携式可实现物联网办公的智能印章

Family Cites Families (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7265853B1 (en) * 1997-10-17 2007-09-04 Stamps.Com, Inc. Postage server system and method
US6732152B2 (en) * 1999-04-09 2004-05-04 Amazingmail, Inc. Methods and apparatus for generation and distribution of surface mail objects
US7296791B2 (en) * 2002-02-14 2007-11-20 Canon Kabushiki Kaisha Image forming apparatus, sheet containing device, sheet inserting device, book-binding system, and sheet processing apparatus
CN100453329C (zh) * 2003-04-02 2009-01-21 徐平 一种打印机与信函封装机的连接传输装置
US7637424B2 (en) * 2005-09-19 2009-12-29 Silverbrook Research Pty Ltd Printing audio information using a mobile device
JP4767084B2 (ja) * 2006-05-09 2011-09-07 株式会社日立製作所 情報管理方法及び情報管理システム
US20100143017A1 (en) * 2008-12-09 2010-06-10 Ennis, Inc. System and method for generating business documents
US20110100238A1 (en) * 2009-11-04 2011-05-05 Jeffery Scott Caudle Internet Digital Mail System Inkjet Printer

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2013017122A2 *

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Publication number Publication date
CN103998247A (zh) 2014-08-20
US9346644B2 (en) 2016-05-24
JP2014531988A (ja) 2014-12-04
US20140312564A1 (en) 2014-10-23
WO2013017122A2 (fr) 2013-02-07
WO2013017122A3 (fr) 2013-12-12
DE112012003200A5 (de) 2014-06-26

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