The present invention relates to an automatic folding machine. More particularly this invention concerns such a machine for length- and cross-folding of large-format documents.
A typical folding machine for processing large-format documents has a housing with an intake slot for the documents and a document chute extending from the intake slot to an internal roller-type folding unit that delivers the folded document to an output tray. Such folding machines are used, for example, for the longitudinal folding of large-format documents, which can be fed in either by an on-line printer or manually by an operator.
The use of large-format documents, in particular printed paper strips, for example for use by industrial and blueprinting service providers to record assorted technical documentation or other large datasets, is known. The width of such paper strips is standard up to 914 mm (36″). The length of the paper strip—and thus the documents—can vary, and may be as much as 100 meters or more depending on the application.
It is known to fold such large-format documents for simplified handling or archiving. The standard-compliant folding of technical drawings is specified in Germany in DIN 824, which basically entails converting the document into a stack of folded pages having a footprint corresponding to a standard format size, for instance A4. Folding standards vary accordingly by country.
Such folding of large-format documents is usually automated as much as possible. Folding machines can perform both a longitudinal and a cross fold, and can operate, for example, using roller or belt folding.
U.S. patent application Ser. No. 14/415,505 filed 16 Jan. 2015 discloses a fully automatic folding machine, in which a large folding roller as well as two small folding rollers act together in a folder. This machine operates by initially folding a portion of a paper web supplied to the machine into a first stack of continuous sheets. After reaching a threshold value of the thus created first stack, the first stack is moved into a tray while leaving it connected to a further portion of the paper web via a folded trailing sheet. A section of the folded trailing sheet is used as a basis for a further subsequent stack of continuous sheets to be folded thereupon. The folded trailing sheet from the folding station is withdrawn from the first already folded stack before moving the first stack into the tray. The folded trailing sheet is fed back into the folding station while the first stack is moved into the tray and then the already folded trailing sheet fed back into the folding station is used as the basis for the subsequent stack to be folded. The process of withdrawing the folded trailing sheet is repeated after reaching a threshold value of the subsequent stack until the whole paper web supplied is completely folded.
In longitudinal folding, a large-format document such as a printed paper strip is transported to the folder and folded by repeatedly reversing the folding rollers. If the document is only to be folded longitudinally, it is transported and stored after completion of the folding process in the longitudinal output tray.
U.S. Pat. No. 5,785,638 discloses a feeder for laminar articles, in which multiple groups of drivable components can be controlled and transported by a special controller. Although a folder for mail is also mentioned here, on-line as well as off-line operation of the feeder is not mentioned.
In today's folders the customer must decide when purchasing whether he would like to have an off-line folding machine with manual feeding of the item to be folded by an operator, as described in the brochure ROWEFOLD 721 (February 2004) from ROTH+WEBER GmbH, or an on-line folding machine with direct automated feeding of the items to be folded by a sheet-processing device, for example a printer, plotter or copier according to the brochure ROWEFOLD 721-4/Digital (February 2004) from ROTH+WEBER GmbH. The on-line folding machine can optionally be provided with an additional makeshift off-line intake slot, as will be described below with reference to
To convert such a folding machine from an off-line to on-line operation, the existing, permanently installed off-line intake must be removed and a procured on-line intake device installed in its place. The effort, procurement, conversion time, incurred costs, etc., for this is so great that it cannot be done by the customer.
In the case of on-line machines, the possibility of off-line input usually exists, as will be explained below with reference to
In principle, in all technical solutions for off-line intake of an on-line folding machine, the existing transfer device between printer and folding machine is used to feed in paper. Thus a user can manually feed a document in off-line, even though a document is currently being processed on-line. The result is a paper jam, resulting in machine failure. In the worst case, a technician must put the machine back in service.
It is therefore an object of the present invention to provide an improved folding machine.
Another object is the provision of such an improved folding machine that overcomes the above-given disadvantages, in particular that avoids the disadvantages described above so that it can be used on-line as well as off-line.
A sheet-folding machine has according to the invention a housing having an off-line intake slot and, offset therefrom, an on-line intake slot, a manual sheet-input table on the housing juxtaposed with the off-line intake slot for feeding of a sheet manually into the off-line intake slot, and an automatic sheet feeder juxtaposed with the on-line intake slot and capable of cooperating with a sheet-processing device to receive a sheet therefrom and feed it into the on-line intake slot. Respective off-line and on-line guide chutes in the housing each have an upstream end at the respective slot and a downstream end. The downstream ends meet at an intersection. A roller-type folding unit in the housing receives a sheet to be folded at the intersection and folds it.
In other words, the housing of this invention has two intake slot for sheets with respective document chutes, the document chutes merge at an intersection, and the first intake slot has a manual feed table for off-line intake of documents and the second intake slot has a feeder for on-line intake of documents.
Thus the folding machine according to the invention can be delivered to a customer and subsequently converted in a few steps from an off-line folding machine to an on-line folding machine, or to an off-line/on-line folding machine that can process in immediate succession a document delivery from, for example, an on-line printer, as well as a manual document feed from an off-line operator.
The on-line intake slot in accordance with the invention is on a different side of the normally parallepipedal or box-shaped housing from the off-line intake slot.
Hence on-line intake from a printer takes place from one side, for instance the front of the folding machine, during which time off-line intake takes place from the back of the folding machine, which is easily accessible for the operator as it is not blocked by the printer.
The housing of the folder advantageously holds a folding unit comprised a pair of feed rollers, a document chute, as well as a plurality of folding rollers, of which at least one is drivable, disposed in the direction of sheet travel downstream of the intersection.
According to the invention, the off-line document chute and the on-line document chute can be in an interchangeable guide module of the folding machine.
Thus, in addition to a folding machine with a base model which has both document chutes integrated, a folding machine with a base model with no document chutes can also be offered. The base model without document chutes can be supplied with a first guide module which only has the off-line document chute, or with a second guide module which only has the on-line document chute, and one or the other module would be easily and cost-effectively exchanged for the guide module according to the invention, which has the off-line document chute and the on-line document chute.
The guide module according to the invention can advantageously be releasably attachable to the manual feed tray and/or the interface.
It has proven to be advantageous if the manual feed tray is designed as an intake-slot cover for the manual document intake slot which is foldable against the housing (16) when the off-line document chute is not in use.
According to the invention, the intake slot cover for the manual document intake slot can be designed such that the off-line intake slot, the off-line document chute and the document chute are in alignment, so that an optimal, wrinkle-free manual document feed is ensured.
Advantageously, a pair of intake rollers can be provided at the off-line intake slot for collecting and transporting a manually fed document into the off-line document chute.
A paper jam can be reliably prevented if a sensor is provided in the area of the off-line intake slot for the collection of a manually fed document, by means of which the pair of intake rollers can be switched on.
A document jam can be even more reliably prevented if sensors are provided in the area of the off-line intake slot as well as in the area of the on-line intake slot, which are coupled with a control device which controls at least one pair of intake rollers as well as at least one pair of interface rollers. Thus the controller prevents documents from being conveyed simultaneously into the off-line document chute and into the on-line document chute.
If the guide module and/or the interface and/or the manual feed tray and/or the intake-slot cover and/or the off-line intake slot tray can be retrofitted as a module, an off-line and/or on-line folding machine may be conveniently formed from a base folding machine without the need to produce various folding machines.
The above and other objects, features, and advantages will become more readily apparent from the following description, reference being made to the accompanying drawing in which:
Here, the same intake is used, such that a full and independent unrestricted usability of the machine features is not assured. With this system, it is possible for the operator to not notice that a document has just been outputed by the printer 10, so that both documents collide and a paper jam results in the folding machine 9. The operator must also feed the document by bending over the printer 10 or the folding machine 9, or else from the side, so that use is obstructed, for example by the printer 10, the folding machine 9 or the feeder 11.
The
The off-line/on-line folding machine 15 according to
Through the connection of the printer 10 with the off-line/on-line folding machine 15 via the interface 20, it can happen that the off-line intake slot 12 is blocked in the case of a document delivery via the printer 10, as for example the pair of feed rollers 23 are not driven and the document is thereby not grasped as long as a document delivered from the printer 10 is still in the folder. Conversely, a document delivered from the printer 10 can also be held back by the interface 20 and stored here, if necessary, as the pair of interface rollers 21 is not driven if the rollers 23 are conveying an off-line document.
To this end, a sensor 32 is provided adjacent the pair of feed rollers 23 to detect when a document is present on the manual feed tray 2 and another such sensor 33 is provided in the on-line chute 18 to detect if a document is or is not present in the on-line intake slot 22 and yet another such sensor 34 is provided in the feeder 20.
A controller 31 connected to the sensors 32, 33, and 34 and to the feed rollers 21 and 23 can thus easily prevent a collision at the intersection 19 by slowing or stopping the feed of a document in, for instance, the chute 17 when there is a document in the chute 18 or in the feeder 21 or vice versa.
The folder of
For manual document feeding by an operator as shown in
In
Depending on the design of the folding machine, the base model of the off-line folding machine 27 with the base module 28 delivered from the factory to the customer can be supplemented by expansion modules like the interface 20 and/or the guide module 24 and/or the intake-slot cover 25.
According to the concept according to the invention, all folding machines are in principle complete off-line-folding machines and are packaged as such. As an additional package, an on-line intake slot according to the invention can be attached as an expansion module, thereby obtaining an off-line folding machine and an on-line folding machine in one. This system gives manufacturers, dealers and customers maximum flexibility and protection of investment, as one can very easily convert the off-line folding machine at any time in the field into a complete on-line and off-line folding machine by mounting the on-line intake slot extension module. This concept also offers immense advantages in the field of production. The same applies to the off-line folding machine according to the third exemplary embodiment. Here must simply off-line/on-line be selected between the base module 28 and the guide module 24. The same advantages result for all options of other devices for processing large-format documents, for example hole-punches, filing strip machines, etc., these too can be easily upgraded by the customer.
The underlying idea of the invention is to only offer in the future a base folding machine model and to deliver this as a base system, for example as an off-line folding machine, as is shown, for example, in
Contrary to the prior art, the machine can be loaded from two separate paper feed paths, the off-line intake slot 12 and the on-line intake slot 22, so that each is provided full and unrestricted usability of the machine features and full access to the control elements. Thus on conversion from off-line use (
The base or basic machine according to
An additional function for jam prevention is possible here. For instance, the controller 31 and sensors 32-34 can ensure that it is not possible for the user to feed in a document when a document is being fed on-line at the same time. The pair of feed rollers 23 with feed rollers has a separate drive which remains switched off in on-line mode as long as there is a document in the on-line intake slot 22. The reverse case, that the user feeds and folds paper off-line and the printer 10 simultaneously releases a paper strip to the off-line on-line folding machine 15, is also guaranteed by a continuous chain of information from the printer 10 to the off-line on-line folding machine 15, and conversely as well.
Furthermore, the user can feed in against this stationary pair of feed rollers 23 during off-line operation. The document is detected by the sensor 32 and the pair of feed rollers 23 begin running with a time delay in order to draw in the paper. The alignment of the document is thereby particularly simple.
The other version is equipped without the extra pair of feed rollers 23. The functions of jam prevention and comfortable feeding through the stationary pair of feed rollers 23 is dispensed with, however off-line delivery is nevertheless possible. This version is a cost-effective alternative. Off-line intake is done only via the off-line/on-line attached feed tray.
The concept of the entry-level machine provides the option to assemble the machine by selecting individual components. Here one decides whether it will be an off-line or on-line machine. An off-line machine has as a paper feed the off-line intake slot tray or manual feed tray 2, and uses only one of the two feed channels 17, 18. Likewise, the on-line machine uses only one of the two feed channels 18, 17, and has the interface 20 as an on-line intake slot 22. The on-line off-line machine uses both feed channels 17, 18 alternately, and has two paper feeds 4 and 22 with the manual feed tray 2 and interface 20.
The folding unit and the folder, in particular according to
An advantage of the embodiment according to
Number | Date | Country | Kind |
---|---|---|---|
102014211295.8 | Jun 2014 | DE | national |