EP0567807A1 - Poste de traitement actif pour un courant de produits imprimés en formation imbriquée - Google Patents

Poste de traitement actif pour un courant de produits imprimés en formation imbriquée Download PDF

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Publication number
EP0567807A1
EP0567807A1 EP93105576A EP93105576A EP0567807A1 EP 0567807 A1 EP0567807 A1 EP 0567807A1 EP 93105576 A EP93105576 A EP 93105576A EP 93105576 A EP93105576 A EP 93105576A EP 0567807 A1 EP0567807 A1 EP 0567807A1
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EP
European Patent Office
Prior art keywords
deflection
stream
interface
conveyor belt
straightening
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.)
Granted
Application number
EP93105576A
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German (de)
English (en)
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EP0567807B1 (fr
Inventor
Walter Reist
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.)
Ferag AG
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Ferag AG
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Filing date
Publication date
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Publication of EP0567807A1 publication Critical patent/EP0567807A1/fr
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Publication of EP0567807B1 publication Critical patent/EP0567807B1/fr
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    • 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
    • B65H29/66Advancing articles in overlapping streams
    • B65H29/6645Advancing articles in overlapping streams buffering an overlapping stream of articles
    • 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
    • B65H29/66Advancing articles in overlapping streams
    • B65H29/6654Advancing articles in overlapping streams changing the overlapping figure
    • 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
    • B65H29/66Advancing articles in overlapping streams
    • B65H29/6654Advancing articles in overlapping streams changing the overlapping figure
    • B65H29/6663Advancing articles in overlapping streams changing the overlapping figure reversing the overlapping figure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2511/00Dimensions; Position; Numbers; Identification; Occurrences
    • B65H2511/20Location in space
    • B65H2511/22Distance

Definitions

  • the invention is in the field of further processing of printed products and relates to an interface and its operation according to the preambles of the corresponding independent claims.
  • the interface according to the invention is active, it processes a shingled stream of printed products or other flat objects and can be used between a device that interprets a shingled stream and a device that processes a shingled stream further or converts it into another transport formation.
  • Scale streams of printed products are laid out, for example, by rotary presses, from unwinding stations from winding or from investors from stacks.
  • a shingled stream is either further processed as such in a process station or it is first converted into another transport formation for further processing, for example into a transport stream in which each printed product is transported in a hanging manner by means of a clamp.
  • a shingled stream designed has certain properties.
  • Each device that processes a shingled stream or converts it into another transport formation places certain demands on the properties of the shingled stream supplied.
  • scale-shedding and shingle-absorbing devices can be combined as freely as possible, they must be configured or configurable in such a way that the laid-out stream corresponds to the requirements of further processing in any case, or additional devices for adapting the shingled stream between the shingled stream-laying and shingled stream must be used - Receiving device can be switched on.
  • the required configuration or configurability of the shingled stream designing and shingled stream processing devices either increases the number of necessary device variants or makes the devices more complex and therefore more expensive.
  • the intermediate switch of additional devices takes up a lot of space, especially if more than one additional device is required.
  • the interface should be designed and active in such a way that the shingled stream flows through it and that the shingled stream that emerges from the interface differs from the shingled stream that enters the interface in terms of properties and / or quality.
  • the scale flow is adapted by the interface for the scale flow-receiving device.
  • the interface should be space-saving, simple and can be used for as many applications as possible, that is, it should be able to change as many properties of a shingled stream as possible within a wide range.
  • the shingled stream S is conveyed in the conveying direction F on a moving conveying means FM, for example on a conveyor belt on which the products lie freely or pressed against one another in an overlapping manner.
  • the shingled stream S is characterized by parameters that relate to each individual product (product parameters) and by parameters that relate to the movement of the products and their relative arrangement in the stream (stream parameters).
  • product parameters are mainly length L, width B and thickness D of the products.
  • the current parameters which relate to the movement of the products, are the current speed v and the distance a between the same product edges lying transversely to the conveying direction F of successive products, the quotient v / a representing the current output l in products per unit of time.
  • the flow parameters which relate to the relative position of the products in the flow, are the position p of the products on the conveyor (center, left or right, or otherwise), the type of overlap u (front edge above, as shown in FIG. 1b) , or leading edge at the bottom, as shown in FIG. 1c) and the orientation o of the products relative to the conveying direction (for example fold at the front or fold at the rear).
  • the product and current parameters (L, B, D, v, a, p, u, o) mentioned are ideally constant over a production time.
  • a shingled stream is also characterized by irregularities, defects and time fluctuations occurring therein.
  • FIG. 2 now shows very schematically an interface 1 according to the invention, which between a device 2, which interprets a shingled stream, and a Device 3, which processes a shingled stream or converts it into another transport formation, is arranged.
  • a device 2 which interprets a shingled stream
  • a Device 3 which processes a shingled stream or converts it into another transport formation.
  • printed products P i flow in the form of a shingled stream S i (input stream) into an input I of the interface 1.
  • printed products P o flow in the form of a shingled stream S o (output stream) into the device 3 .
  • the active interface converts the input current S i into the output current S o by changing current parameters, that is to say by changing (a, p, u), comparing ( ⁇ a, ⁇ p), correcting (f) and / or decoupling ( ⁇ l) acts.
  • the only change to the products that the interface can bring about is a pressing, by means of which, for example, folded products in the area of the fold are easily changed.
  • the active interface differs from a processing point in that it essentially changes only current parameters, no product parameters.
  • FIGS. 3a to 3d now schematically show functional elements that the interface according to the invention can contain with the current parameters that can be changed as a result.
  • the basic functional element GE transfer element
  • Figure 3b illustrates a deflection UE.
  • a deflection UE Caused by the deflection of an incoming imbricated stream S i a leaking imbricated stream S o, with the two streams with respect to u distinguish the current parameter by a stream with overhead leading edge, a stream with underlying leading edge (or vice versa ) arises.
  • a deflection element UE consists in a known manner, for example of a deflection roller 31 and a deflection belt 32 which runs around the deflection roller.
  • the printed products are guided between the deflection roller and the deflection belt during the deflection.
  • the deflection element can also also always take on the function of a transfer element, that is to say it can also refer to the current parameters v, a and p act.
  • the operation of a deflection element can be reversed as desired.
  • FIGS. 5a and b An advantageous embodiment of a deflection element UE for the interface according to the invention is described in connection with FIGS. 5a and b.
  • Figure 3c shows a buffer element PE.
  • This essentially consists of two conveyor belts and a buffering means 37. Shifting means can be used as buffering means 37, with which the transfer point between the two conveyor belts, which have different speeds, is locally shifted (extension of the transport route at lower speed when filling the buffer), or stacking means with which a stack of products is formed between the two conveyor belts.
  • a buffer element PE acts on the current parameter f by closing gaps and can act on the current parameter ⁇ a when the printed products are re-clocked in the buffer element.
  • the buffer element PE acts as a decoupling with regard to power fluctuations ( ⁇ l) between the input side and the output side.
  • the buffer element can also take over the functions of a transfer element.
  • the operation of a buffer element is not reversible.
  • Buffer elements which can be used in an interface according to the invention are known, for example, from the two patent specifications No. EP-0259650 and CH-667258 from the same applicant. In both cases, these are buffer elements with a locally movable takeover point. A buffer element with stacking means is described in connection with FIG. 6.
  • Figure 3d shows a directional element RE.
  • a straightening element RE the printed products are aligned transversely to the conveying direction with the aid of stops.
  • the directional element has a comparative effect on the current parameter p, that is, it reduces the irregularities ⁇ p.
  • the current parameter p is changed.
  • the directional element RE can simultaneously serve as a takeover element GE for changing the current parameters v, a and p.
  • the current parameter p can be changed or maintained.
  • the interface according to the invention now represents a serial arrangement of functional elements according to FIGS. 3b to 3d (UE, PE, RE), which is designed according to the following construction principle:
  • the number of conveyor belts is as possible small, in that each conveyor belt serves two elements, its start as an interface input or exit from a functional element, its end as an entry into a subsequent functional element or as an interface output.
  • the functional elements are arranged one above the other as possible and thus save space.
  • Functional elements that only have a comparative effect for example a straightening element
  • the interface can be configured for different applications by setting or simple assembly.
  • the shingled stream can be set up in each functional element with respect to the current parameters v, a and p for the following functional element.
  • this setting is generated at the input of the interface, which forms a transfer element between the feeding conveyor belt of the upstream device and the first conveyor belt of the interface.
  • the parameters v, a and p required at the output of the interface are set in the last functional unit, which contains a transfer, so that the current no longer has to be changed at the output of the interface, which in turn is a transfer element.
  • the quality of the current especially if it has been improved by straightening in a last functional element, is no longer impaired at the output.
  • the arrangement of the functional elements one above the other is achieved by a corresponding arrangement of deflection elements.
  • the interface according to the invention has at least one deflection element.
  • the order of the functional elements is such that deflecting elements (UE) alternate with other functional elements (PE, RE).
  • Configurability is achieved through multiple inputs and outputs.
  • the interface according to the invention is further characterized in that different embodiments of the same functional elements can be used in accordance with the requirements of a specific application to the shingled stream, which is equivalent to a further, rather qualitative configuration.
  • Figures 4a to 4c show, in the schematic representation of Figures 3a to 3d, some exemplary embodiments of the interface according to the invention.
  • FIG. 4a shows an interface with two deflection elements UE.1 and UE.2, a buffer element PE and a directional element RE, which can be designed with or without a transfer function.
  • the serial order of the functional units is according to the construction principle: input I, UE.1, PE, UE.2, RE, output O.
  • the interface works with four (or five) wedding sport bands, of which a first (input band 41) the print products Input I to the interface takes over from a means of transport of the upstream shingled stream-laying device, and a last one (output belt 42) transfers the printed products to a means of transport of the downstream shingled stream-picking device.
  • Both input band 41 and output band 42 take on additional functions.
  • the input band 41 guides the printed products, for example, into the first deflection element UE.1
  • the output band 42 guides the printed products from the second deflection element UE.2 through the directional element RE if this works without transfer.
  • Two further conveyor belts 45 and 46 are arranged between the input belt 41 and the output belt 42, both of which also each have two different functions.
  • the conveyor belt 45 is simultaneously the conveying belt of the first deflection element UE.1 and the feeding belt of the buffer element PE.
  • the conveyor belt 46 is at the same time a discharging conveyor belt of the buffer element PE and a feeding conveyor belt of the second deflection element UE.2.
  • the straightening element RE is also a transfer element, an additional conveyor belt is necessary.
  • the straightening element is advantageously arranged directly in front of the outlet O as the last functional element in front of the outlet, so that the printed products cannot be displaced out of their aligned position in any functional element following the straightening element RE.
  • the output current S o flowing out of the interface according to FIG. 4a is more uniform than ⁇ p compared to the input current S i .
  • the two currents are decoupled with regard to power fluctuations ⁇ l.
  • the type of overlap u is the same (two redirections).
  • the output current S o has no gaps and can (depending on the design of the buffer element PE) be even with respect to ⁇ a.
  • the current parameters v and a can be changed, essentially depending on the relative speeds of the conveyor belt of the upstream device and the conveyor belt 42.
  • the current parameter p can be changed depending on the arrangement of the conveyor belts.
  • the interface has a buffer element PE, which processes a shingled stream whose stream parameter u (type of overlap) is different from u of the incoming and outgoing shingled stream.
  • FIG. 4b shows a further exemplary embodiment of the interface according to the invention. It has a deflection element UE.1, a buffer element PE and three conveyor belts (41, 45, 46), each conveyor belt forming the output of a functional element and the input of a subsequent functional element.
  • the scale flow is decoupled with regard to power fluctuations ⁇ l.
  • the type of overlap u changes.
  • the interface does not affect the current parameter ⁇ p. It may or may not act on the current parameters v, a, p and ⁇ a.
  • the buffer element PE used processes a scale stream with the same type of overlap u, which also has the output stream S o .
  • the interface according to FIG. 4b is also conceivable as a configuration of the interface according to FIG. 4a, in that the conveyor belt 46 leads to a second output O 'which can be activated by configuration.
  • FIG. 4c shows a further embodiment of the interface according to the invention, which differs from that according to FIG. 4b by a directional element RE and thus has a comparative effect with respect to ⁇ p.
  • the buffer element PE used processes a shingled stream with the same type of overlap u as the input stream S i .
  • This embodiment is also conceivable as a configuration of the embodiment according to FIG. 4a with two inputs I and I '.
  • FIG. 4d shows a very simple embodiment of the interface according to the invention, which is also conceivable as a configuration of one of the embodiments shown above, in that its buffer element is not active or replaced by a conveyor belt 45 'and the second output O' is used. Only the current parameter u is changed in this interface. It cannot act on the current parameters ⁇ a, ⁇ p, f, ⁇ l.
  • Figures 4a to 4d each show a scale flow pattern in the interface, which is directed from bottom to top. It is also possible to operate the interfaces with a general conveying direction from top to bottom if the functional elements are set up accordingly.
  • the function of pressing the printed products mentioned at the outset can be carried out, for example, by a press roller arranged opposite one of the conveyor belts of the interface, by the transverse conveyor of the straightening element or by one of the deflecting elements.
  • FIGS. 5a and b show an embodiment of the deflection element UE which is advantageous for the interface according to the invention, as a side view with viewing direction parallel to the deflection axis (FIG. 5a) and as a top view (FIG. 5b, without return of the belts).
  • the deflection element has a deflection roller 51, a deflection belt 52 and two conveyor belts (53 and 54).
  • the deflection roller 51 and the deflection belt 52 are significantly narrower than the printed products. This can be clearly seen in the plan view (FIG. 5b), in which the printed products running out around the deflection roller 51 and out of the deflection point are indicated by dash-dotted lines.
  • the two conveyor belts 53 and 54 are designed as double belts and are arranged on both sides of the deflection roller in the area of the transfer between the deflection roller 51 or deflection belt 52 and the conveyor belt (54 or 53). This is clearly visible in Figure 5b for the conveyor belt 54, which has two sub-belts 54.1 and 54.2.
  • the printed products are sufficiently stable in the area of the deflection, despite the small width of the deflection roller 51 and deflection belt 52, since the deflection radius is chosen to be so small that the printed products are stabilized by their curvature and thus held firmly between the deflection roller 51 and the deflection belt 52 over their entire width take defined position.
  • the operation of the deflecting element can be reversed as desired.
  • the deflection belt 52 is usually driven and the deflection roller 51 is towed.
  • the drive of the deflection belt 52 which runs around the deflection roller 51, is arranged in such a way that the belt is pulled around the deflection roller in the conveying direction, that is to say that in the conveying direction shown, for example a roller 55 is driven, in the opposite conveying direction a roller 56 is driven.
  • the speed of the deflection belt 52 is greater than the speed of the conveyor belt 54.
  • deflection elements can also be used in the interface unit according to the invention, which have a wider deflection roller and a wider deflection belt, which can then also take over the function of one conveyor belt. In this case, it is also possible to use the deflection point to press the printed products. Additional belts arranged parallel to the deflection belt are also conceivable, for example, for pressing a laterally folded product.
  • FIG. 6 shows an embodiment of a buffer element PE, which is advantageous for the interface according to the invention, looking in the direction transverse to the conveying direction F. It is a buffer element with a stack between the two conveyor belts.
  • the buffer element shown is special advantageous for the device according to the invention because it is very simple and compact to implement.
  • the buffer element has an infeed conveyor belt 61 (only shown as a section) and an outflow conveyor belt 62. In between there is a stationary support 63. Inlet conveyor belt 61, support 63 and outlet conveyor belt 62 are arranged in such a way that the support surface for the printed products increases in steps in the transition from one to the other. A transport roller 64 is arranged and driven between the infeed conveyor belt 61 and the support 63 in such a way that it accepts the printed products from the infeed conveyor belt 61 and lifts them slightly.
  • a deflection roller 65 for an auxiliary belt 66 is arranged and driven above the takeover point between the infeed conveyor belt 61 and the transport roller 64 in such a way that the auxiliary belt 66 together with the infeed conveyor belt 61 forms a conveying channel 67.1 which narrows against the transport roller 64 and which in the region of Transfer from the infeed conveyor belt 61 to the conveying roller 64 opens into a conveying gap 67.2, which essentially has a width corresponding to the thickness of the incoming stream of flakes.
  • the printed products conveyed through the conveyor gap 67.2 are lifted onto the support 63 and pushed under printed products already on it until they strike a stop 68.
  • the stop 68 is arranged such that a product hits it when its rear edge is being conveyed through the conveying gap 67.2.
  • the auxiliary band 66 equipped with an adhesive surface lifts this rear edge of a printed product in contact with the stop 68 along the circumference of the deflection roller 65 up to a second stop 69, whereby rear edges of printed products already resting on the support 63 are further lifted along the stop 69.
  • a continuous stack of printed products is inserted through the conveyor gap 67.2 between the stops 68 and 69. Gaps in the incoming stream of shingles are closed and its cycle stopped.
  • auxiliary belt 66 can also be equipped like a normal conveyor belt, but narrower than the printed products and narrower than the deflecting roller 65. Those parts of the deflecting roller 65 that are not covered by the auxiliary belt 66 and thus come into contact with the printed products come, in this case have an adhesive surface. The printed products are then conveyed from the roll 65 to the stop 69.
  • a removal roller 70 is arranged and driven in such a way that it rests on the stack and conveys the uppermost printed product of the stack from the stack onto the outlet conveyor belt 62, which produces the one produced by the removal roller 70 Shingled stream S o promoted.
  • the removal roller 70 can only convey away printed products whose front edges lie above the level of the stop 68.
  • the stop 68 essentially has the task of stopping printed products pushed under the stack and of preventing the stack from being displaced in the conveying direction F by pushing new printed products underneath. To be able to perform this task, it must have a height that is greater than the thickness of a printed product. In other words, the stack must have a minimum of printed products at all times, namely as many as it takes to achieve a stack height that is greater than the height of the stop 68.
  • the removal roller 70 can be provided with an adhesive surface to prevent slippage between the roller and the printed product to be pushed away, or with openings through which air is sucked off, in such a way that the printed product to be pushed is sucked onto the removal roller and thereby held.
  • the shingled stream S i entering the buffer element described must have underlying front edges.
  • the stack is created from below and removed from above.
  • the shingled stream S o running out of the buffer element also has lower front edges.
  • the quality of the shingled stream S o generated with respect to clock regularity is independent of the quality of the incoming stream S i .
  • At least two vertically arranged, driven worm screws can be provided, which have a corresponding height as specified for the stop 68.
  • the front edge of a printed product pushed under the stack is then pushed into one turn of the worm screws and raised by their rotary movement until it reaches the upper end of the worm screws and the printed product thereby becomes part of the stack that can be removed from the removal roller.
  • the stack of the buffer element described can also be removed with an investor function.
  • Devices that perform a feeder function are known and, for example, in the American Patent No. US-5042792 or the European patent application EP-OS-0368009 from the same applicant.
  • the scale spacing a of the scale flow produced is so uniform, that is, ⁇ a so small that the scale flow meets all requirements.
  • the buffer element is then no longer very simple.
  • a further possibility of generating scale streams for higher requirements with regard to uniformity of the scale distance ( ⁇ a) is to use buffer elements which have displacement means for displacing the transfer point between the infeed conveyor belt and the outflow conveyor belt. As already heated, such buffer elements are known. The advantage of such buffer elements is that the cycle of the incoming shingled stream is not canceled, but only changed. A regular shingled stream is created again from a regular shingled stream. Buffer elements of this type process scale streams with leading edges lying at the top.
  • FIGS. 7a and b show an embodiment of a straightening element RE which is advantageous for the interface according to the invention, as a top view (FIG. 7a) and as a side view with a viewing direction transverse to the conveying direction (FIG. 7b).
  • the straightening element essentially consists of a conveyor belt 71 which guides a stream of shingles in the conveying direction F through the straightening element, a transverse conveyor (not shown) for displacing the printed products transversely to the conveying direction F and a stop unit 72. It is a one-sided straightening element by moving the printed products transversely to be moved to the conveying direction in only one direction against only one stop unit.
  • the printed products are conveyed into the straightening element with a conveying direction F i , are conveyed there transversely to the main conveying direction F so that a conveying direction F r arises and are finally conveyed out of the straightening element with a conveying direction F o which is parallel to the conveying direction F i runs.
  • a stop unit 72 parallel to the incoming shingled stream is provided at a distance x therefrom, which is at least as large as a maximum expected deviation ⁇ p from the position p of the incoming shingled stream.
  • transverse conveying means such as, for example, conveyor rollers or conveyor belts angled to the conveying direction or a stop arranged at an angle to the conveying direction, can be used as the transverse conveying means of the straightening element.
  • a series of straightening columns 73.1 to 73.6 is advantageously used as the stop unit 72.
  • the straightening columns have a round floor plan and are arranged in a row in the area of the cross conveyor in a row parallel to the conveying directions F i and F o at a distance x from the side edge of the incoming stream of shingles and are driven in such a way that their surface directed against the shingled stream moves at current speed moved in the direction of conveyance F.
  • the surface of the straightening columns is advantageously rough, for example cross-knurled, so that the printed products not slide on it, but be moved along.
  • the straightening columns can be driven, for example, with a drive belt 74 which is arranged below or above the conveyor belt 71 and is guided for deflection around the straightening columns 73.1 to 73.6, for example around deflection rollers 75.1 to 75.5 arranged between the straightening columns.
  • a drive belt 74 which is arranged below or above the conveyor belt 71 and is guided for deflection around the straightening columns 73.1 to 73.6, for example around deflection rollers 75.1 to 75.5 arranged between the straightening columns.
  • stop plates 76 are advantageously provided between the straightening columns intended. These stop plates are angled and reach under the conveyor belt 71.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Separation, Sorting, Adjustment, Or Bending Of Sheets To Be Conveyed (AREA)
  • Auxiliary Devices For And Details Of Packaging Control (AREA)
  • Burglar Alarm Systems (AREA)
  • Glass Compositions (AREA)
EP93105576A 1992-04-27 1993-04-03 Poste de traitement actif pour un courant de produits imprimés en formation imbriquée Expired - Lifetime EP0567807B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH132592 1992-04-27
CH1325/92 1992-04-27

Publications (2)

Publication Number Publication Date
EP0567807A1 true EP0567807A1 (fr) 1993-11-03
EP0567807B1 EP0567807B1 (fr) 1997-06-18

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EP93105576A Expired - Lifetime EP0567807B1 (fr) 1992-04-27 1993-04-03 Poste de traitement actif pour un courant de produits imprimés en formation imbriquée

Country Status (4)

Country Link
US (1) US5443254A (fr)
EP (1) EP0567807B1 (fr)
AT (1) ATE154569T1 (fr)
DE (1) DE59306763D1 (fr)

Cited By (6)

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US5419678A (en) * 1992-10-05 1995-05-30 Ferag Ag Control arrangement for an apparatus for delivering printing products
EP0806391A1 (fr) * 1996-05-06 1997-11-12 Ferag AG Dispositif pour l'alimentation de produits imprimés vers un autre poste de travail
FR2763057A1 (fr) * 1997-05-06 1998-11-13 Realisations Etudes Et Commerc Colonne modulaire autonome de montee/descente pour une nappe de cahiers
CH689773A5 (de) * 1995-02-16 1999-10-29 Ferag Ag Vorrichtung zum Vergleichmaessigen des Abstandes zwischen aufeinanderfolgenden flaechigen Produkten.
DE10347807A1 (de) * 2003-10-10 2005-05-25 Syspro Gmbh System Produktionstechnik Vorrichtung zum Fördern von in Schuppenformation vorliegendem flachem Stückgut, insbesondere von Druckereierzeugnissen
US7677559B2 (en) 2007-01-12 2010-03-16 Ferag Ag Apparatus for laterally aligning printed products

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DE19514859C1 (de) * 1995-04-27 1996-09-19 Licentia Gmbh Vorrichtung zum radialen Umlenken von Sendungen in Transportanlagen
ATE197033T1 (de) * 1995-07-20 2000-11-15 Heidelberger Druckmasch Ag Verfahren und vorrichtung zur auslage bögenförmiger produkte
US5882006A (en) * 1995-10-06 1999-03-16 Baldwin Technology Corporation Apparatus and method for turning and orienting articles within an article pathway
US6193227B1 (en) * 1997-04-28 2001-02-27 Grapha-Holding Ag Continuously feeding sheets with coil unwind control
US6062372A (en) * 1997-08-13 2000-05-16 Heidelgerg Web Press, Inc. Post-folder diverting apparatus using parallel drives
DE19839314B4 (de) * 1998-02-18 2007-03-01 Heidelberger Druckmaschinen Ag Verfahren und Vorrichtung zum Transport von Bogen mittels mindestens eines Transportbandes, an welchem die Bogen auf dem Transportweg fixiert werden
DE10004533C1 (de) * 2000-02-02 2001-06-07 Agfa Gevaert Ag Vorrichtung zum Transport von Einzelblättern durch eine Einrichtung zum Belichten oder Bedrucken der Einzelblätter
US6477950B1 (en) 2000-04-12 2002-11-12 Michael Alan Feilen Apparatus and method for duplex printing of a sheet-like substrate
TW552233B (en) * 2002-08-29 2003-09-11 Veutron Corp A transmission mechanism of auto document feeder
US7206532B2 (en) 2004-08-13 2007-04-17 Xerox Corporation Multiple object sources controlled and/or selected based on a common sensor
US7310108B2 (en) * 2004-11-30 2007-12-18 Xerox Corporation Printing system
US7305198B2 (en) * 2005-03-31 2007-12-04 Xerox Corporation Printing system
US8002689B2 (en) * 2006-03-06 2011-08-23 Goss International Americas, Inc. Folder with signature removal and slowdown process

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US1883889A (en) * 1931-01-23 1932-10-25 Daniel Manson Sutherland Jr Apparatus for feeding and aligning sheet material
FR2343675A1 (fr) * 1976-03-10 1977-10-07 Jagenberg Werke Ag Dispositif destine a faire chevaucher regulierement des objets plats arrivant en un flot irregulier, notamment des flancs ou tranches d'un materiau rigide
EP0281887A2 (fr) * 1987-03-09 1988-09-14 Hagen Gämmerler Dispositif de transport pour produits en papier, notamment pour produits imbriqué

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US5054767A (en) * 1987-03-09 1991-10-08 Gaemmerler Hagen Conveying apparatus for paper products, in particular in stream form
JPH085582B2 (ja) * 1987-05-25 1996-01-24 大日本印刷株式会社 シ−トの瀬切り装置

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US1883889A (en) * 1931-01-23 1932-10-25 Daniel Manson Sutherland Jr Apparatus for feeding and aligning sheet material
FR2343675A1 (fr) * 1976-03-10 1977-10-07 Jagenberg Werke Ag Dispositif destine a faire chevaucher regulierement des objets plats arrivant en un flot irregulier, notamment des flancs ou tranches d'un materiau rigide
EP0281887A2 (fr) * 1987-03-09 1988-09-14 Hagen Gämmerler Dispositif de transport pour produits en papier, notamment pour produits imbriqué

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Publication number Priority date Publication date Assignee Title
US5419678A (en) * 1992-10-05 1995-05-30 Ferag Ag Control arrangement for an apparatus for delivering printing products
EP0591659B1 (fr) * 1992-10-05 1996-07-17 Ferag AG Système de commande pour un dispositif d'alimentation de produits imprimés vers une station de traitement ultérieur
CH689773A5 (de) * 1995-02-16 1999-10-29 Ferag Ag Vorrichtung zum Vergleichmaessigen des Abstandes zwischen aufeinanderfolgenden flaechigen Produkten.
EP0806391A1 (fr) * 1996-05-06 1997-11-12 Ferag AG Dispositif pour l'alimentation de produits imprimés vers un autre poste de travail
FR2763057A1 (fr) * 1997-05-06 1998-11-13 Realisations Etudes Et Commerc Colonne modulaire autonome de montee/descente pour une nappe de cahiers
DE10347807A1 (de) * 2003-10-10 2005-05-25 Syspro Gmbh System Produktionstechnik Vorrichtung zum Fördern von in Schuppenformation vorliegendem flachem Stückgut, insbesondere von Druckereierzeugnissen
US7677559B2 (en) 2007-01-12 2010-03-16 Ferag Ag Apparatus for laterally aligning printed products

Also Published As

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DE59306763D1 (de) 1997-07-24
EP0567807B1 (fr) 1997-06-18
US5443254A (en) 1995-08-22
ATE154569T1 (de) 1997-07-15

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