Title of Invention

A METHOD AND A SYSTEM FOR PROCESSING PRINTED PRODUCTS

Abstract A system for processing printed products includes a transfer station which is provided with an infeeding location for infeeding printed products to the transfer station from a delivery station. The transfer station further comprises a number of connecting locations and a removal location. To each of the connecting locations is connected a processing station. An output station is connected to the removal location. The transfer station is further provided with a transporting device for moving the printed products within the transfer device between the infeeding location, the various connecting locations and the removal location. The printed product infed to the transfer station at the infeeding location is transported in any sequence from the transfer station to one of the processing stations. After completion of the processing operation in a particular processing station, the printed product is moved back to the transfer station. The finished printed products are removed from the transfer station at the removal location.
Full Text WO 2007/008434 PCT/US2006/025279
A METHOD AND A SYSTEM FOR PROCESSING PRINTED PRODUCTS
BACKGROUND OF THE INVENTION
1. Technical Field
The present invention relates generally to processing
printed products and more particularly to a method and a
system for processing printed products, such as books and
parts thereof.
2. Description of the Related Art
Known systems for processing printed products comprise a
number of processing stations which are arranged one after
another along a given processing path. The products to be
processed are transported along the processing path, processed
at the various processing stations and finally removed from
the processing path at a removal location. A typical example
of a system of this kind is disclosed in U.S. published patent
application US 2002/0061238 A1 which shows, an apparatus for
producing books.
In systems of this type with the processing stations
being fixedly arranged along a predetermined processing path
(so-called "in-line systems") the processing steps have to be
carried out in a predetermined sequential order defined by the
mutual arrangement of the processing stations.

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SUMMARY OF THE INVENTION
In a first aspect of the present invention, a printed
product is fed to a first infeeding location of a transfer
station, then transported in any sequence from the transfer
station to one of a number of processing stations connected to
the transfer station and processed at the respective
processing station. The processed printed product is
transported back to the transfer station after completion of
the processing step at one of the processing stations.
According to a further embodiment of the present
invention, a printed product fed to a first infeeding location
of a transfer station is moved within the transfer station to
a first outfeeding location of the transfer station. From this
first outfeeding location the printed product is transported
to a first processing station connected to the transfer
station. At this first processing station the printed product
is processed. After being processed at this first processing
station, the printed product is transported back to a first
receiving location of the transfer station. The processed
printed product is then moved within the transfer station to a
first removal location of the transfer station and finally
removed from the transfer station at the first removal
location.
Preferably the processed printed product infed to the
first receiving location of the transfer station is
subsequently transported to further processing stations
connected to the transfer station and processed in these
further processing stations. After completion of the
processing step in one of the processing stations the
processed printed product is transported back to the transfer
station.
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In a still further embodiment the printed product is
temporarily stored or buffered in the transfer station between
the various processing steps carried out at the further
processing stations.
In a further aspect of the present invention a system for
processing printed products comprises a transfer station which
is provided with at least a first infeeding location for
infeeding printed products to the transfer station, at least a
first removal location for removing processed printed products
from the transfer station and at least a first connecting
location. A first processing station is operatively connected
to this first connecting location of the transfer device. The
transfer station is further provided with a transporting
device for moving the printed products within the transfer
device between the first infeeding location, the first
connecting location and the first removal location.
According to a still further embodiment of the present
invention a system for processing printed products comprises a
transfer station which is provided with at least a first
infeeding location for infeeding printed products to the
transfer station, at least a first removal location for
removing processed printed products from the transfer station
and a number of connecting locations. A processing station is
operatively connected to each of the connecting locations.
In a further aspect of the present invention the transfer
station comprises buffer means for temporarily storing printed
products. Preferably these buffer means comprise shelving
means for temporarily shelving printed products.
In general the present invention provides for a central
transfer station to which the articles to be processed are
fed. A number of processing stations are connected to the
transfer station. The articles fed to the transfer station are
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transported in sequence to the various processing stations.
After termination of the processing step in a particular
processing station, the articles are always transported back
to the transfer station and from there to the next processing
station or to a removal location. The transfer station serves
as a kind of interchange for the processing stations.
The method and the system for processing printed products
according to the present invention provides for many different
production paths along which the products to be processed can
be moved. This results in a great flexibility in the sequence
of the various processing operations. This means that the
sequence of the various steps in the processing of a printed
product can easily be optimized.
The printed products can anytime be buffered or
temporarily stored in the transfer station until the products
are needed for the next processing step or the removal.
The system can still operate even if a processing station
is temporarily out of service.
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BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will be readily understood by the
following detailed description in conjunction with the
accompanying drawings, wherein like reference numerals
designate like structural elements, and in which:
Fig. 1 is a schematic illustration of a system for
processing printed products according to the present
invention,
Fig. 2 is a top plan view of an embodiment of the present
invention,
Fig. 3 is a side elevational view of one embodiment of the
transfer station,
Fig. 4 is a top plan view of the transfer station shown in
Fig. 3, and
Fig. 5 is a cross-sectional view taken along line A-A of
Fig. 3.
DETAILED DESCRIPTION OF THE INVENTION
The following description is provided to enable any
person skilled in the art to make and use the invention and
sets forth the best modes contemplated by the inventor for
carrying out the invention. Various modifications, however,
will remain readily apparent to those skilled in the art. Any
and all such modifications, equivalents and alternatives are
intended to fall within the spirit and scope of the present
invention.
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Figure 1 illustrates the basic concept of a system for
processing printed products and other articles according to
the present invention. As shown in this Fig. 1 such a system
comprises a transfer station 1 which is provided with an
infeeding location 2, a number of connecting locations 3, 4, 5
and a removal location 6. A delivery station 7 is connected to
the infeeding location 2 and delivers printed products to be
fed to the transfer station 1. Processing stations 8, 9 and 10
are connected to an associated connecting location 3, 4, 5,
respectively. These processing stations 8, 9, 10 receive
printed products from the transfer station 1 and process these
printed products. After the completion of the processing step
in one of these processing stations 8, 9, 10, the processed
printed products are transported back to the transfer station
1. An output station 11 is connected to the removal location 6
and receives the processed printed products from the transfer
station 1.
The basic mode of operation of the system shown in Fig. 1
is an follows:
A printed product (or another article to be processed) is
fed to the infeeding location 2 of the transfer device 1. The
product is then moved within the transfer station 1 to a first
connecting location, e.g. to connecting location 3. From this
first connecting location 3 the printed product is transported
to the processing station connected to the first connecting
location, i.e. in our example to processing station 8. After
the processing step in said processing station 8 is finished,
the processed printed product is fed back to the transfer
station 1. If no further processing is required, the finished
printed product is moved within the transfer station 1 to the
removal location 6 and from there to the output station 11. In
case the printed product needs further processing, the product
is moved within the transfer station to a second connecting
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location, e.g. to connecting location 5, then transported to
the associated processing station, in our example to
processing station 10, processed in this processing station
and subsequently transported back to the transfer station 1.
If a further processing of the printed product is required,
the latter is moved to a third connecting location, in our
example to connecting location 4, processed in the associated
processing station (processing station 9) and then moved back
to the transfer station 1. The finished processed product is
then moved within the transfer station 1 to the removal
location 6 and from there to the output station 11.
In an alternative embodiment the printed product fed to
the infeeding location 2 is directly moved within the transfer
station 1 to the removal location 6. In this embodiment no
processing of the infed printed product takes place.
If required, the printed products can temporarily be
buffered or stored within the transfer station 1 between the
processing steps carried out at the various processing
stations as well as after being infed to the transfer station
1 or prior to the removal from the transfer station 1.
Since all the processing stations 8, 9, 10 are connected
to the transfer station 1 which serves as a kind of
interchange for the processing stations 8, 9, 10 the products
to be processed can be fed to the various processing stations
in any possible sequence or order. In other words, the
products can for example be processed first in the processing
station 8, then in the processing station 9 and finally in the
processing station 10.
Alternatively the printed product can first be processed
in the processing station 10, then in the processing station 8
and finally in the processing station 9 without changing the
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physical layout of the system. It is also possible to route
the product through only part of the processing stations.
Thus, in one embodiment, the system consists of a dynamic
system allowing for the production of books with virtually no
setup costs, totally automated production, high level of
reliability as a system (without the single point of failure
inherent to an inline system), high throughput, and the
ability to easily add or modify processes.
The system starts with the software that accepts orders
and sends the jobs to be produced to the print engines. The
information on the job is contained in the software, as is
various methods for tracking the product through the
production process. Multiple print engines are used to gain
high levels of throughput with high print quality (high
quality is preferred in most cases, but not needed in some
cases).
The print engines are connected by very fast robots
(typically on a track, to allow for the highest speed and
precision) allowing for any number of print engines to be
connected to multiple finishing devices (although it could be
multiple print engines to one finishing device, or one print
engine to multiple finishing devices). When the book block is
finished, the robot accepts the book from each print engine
and brings it to the next step in the production process. The
process of bringing it from one step to another can be
repeated multiple times, until the final step of the robot
bringing it to the completion area, which in most cases is a
shipping station (it could be an inventory area, or many other
locations).
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Figures 2-5 show an embodiment of the system
represented in Fig. 1 in greater detail. In Figs. 2-5 the
same reference numerals are used as in Fig. 1 for like
structural elements.
The system shown in Fig. 2 comprises also a transfer
station 1, which is shown in greater detail in Figs. 3-5.
This transfer station 1 comprises a first infeeding location
2, first, second and third connecting locations 3, 4, 5
respectively and a first removal location 6 - as the transfer
station 1 of the system shown in Fig. 1. In addition thereto,
the system of Fig. 2 is provided with a second infeeding
location 12 and a second removal location 17. As in the system
shown in Fig. 1 a first delivery station 7 is connected to the .
first infeeding location 2. First, second and third
processing stations 8, 9, 10 are connected to the connecting
locations 3, 4, 5, respectively. An output station 11 is
connected to the first removal location 6.
A second delivery station 13 is connected to the second
infeeding location 12 of the transfer station 1. A conveyor
device 18 is connected to the second removal location 17. This
conveying device 18 serves to remove the printed products
leaving the transfer station 1 at the second removal location
12. .
As shown in Fig. 2 the first, second and third connecting
locations 3, 4, 5, respectively, comprise an outfeeding
location 14 and a receiving location 15. The third connecting
location 5 has a second outfeeding location 14'. The printed
products transported from the transfer station 11 to a
processing station 8, 9, 10 are leaving the transfer station 1
at an outfeeding location 14, 14'. The printed products
processed in a processing station 8, 9, 10 are fed back to the
transfer station 1 at the associated receiving location 15.
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Further shown in Fig. 2 is a supply station 16 connected
to the first processing station 8.
As mentioned earlier the construction of the transfer
station 1 is shown in greater detail in Fig. 3-5.
The elongated transfer station 1 has a central shelve 19
extending in the longitudinal direction of the transfer
station 1. This shelve 19 is divided into a number of
compartments 19a. Each compartment 19a is-provided with a
number of storage locations 20 arranged one upon another. The
compartments 19a of the shelve 19 are accessible from both
sides.
The transfer station 1 further comprises handling devices
21, 22, 23, 24 arranged on both sides of the shelve 19. The
handling devices 21 and 22 are provided on one side of the
shelve 19 and are travelling along a linear track 25 extending
in the longitudinal direction of the shelve 19. The handling
devices 23 and 24 are located on the other side of the shelve
19 and are also travelling along a linear track 26 extending
in the longitudinal direction of the shelve 19. Each handling
device 21, 22, 23, 24 is provided with a drive system (not
shown) for moving the associated handling device 21, 22, 23,
24 along the track 25, 26, respectively.
It is evident that only one handling device or even more
than two handling devices can be arranged on each side of the
shelve 19.
The handling devices 21, 22, 23, 24 take over the printed
products at an infeeding location 2, 12 or at a receiving
location 15, move the products within the transfer station 1
and release the products at a removal location 6, 17 or at an
outfeeding location 14. If a buffering or storing of a product
is required, the handling devices 21, 22, 23, 24 place the
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product- into a storage location 20 of the shelve 19 and remove
the stored products from the shelve 19.
Each handling device 21, 22, 23, 24 is provided with at
least one releasable gripper for seizing the printed products.
The shelve 19 and the handling devices 21, 22, 23, 24 are
enclosed in a housing 27 (Fig. 5).
The mode of operation of the system shown in Figs. 2-5
is the same as the mode of operation already explained in
connection with Fig. 1. This means that the printed products
fed to the transfer station at the infeeding locations 2, 12
are moved within the transfer station 1 to the outfeeding
location 14 assigned to a first processing station 8, 9 or 10.
After completion of the processing operation the printed
product is moved back to the associated receiving location of
the transfer station 1 and moved within the transfer station 1
to either a removal location 6, 17 or to a second outfeeding
location 14 assigned to a second processing station 8, 9 or
10. Prom this second processing station the processed printed
product is transported back to the related receiving location
15 and then either moved within the transfer station 1 to a
removal location 6, 17 or - in the manner as explained earlier
- to the third processing station 8, 9 or 10.
If required the products are temporarily stored or
buffered in the shelve 19 between the various processing
operations or after the infeeding or before the removal. The
transport of the products within the transfer station 1 is
taken over by the handling devices 21, 22, 23 and 24 as
explained earlier.
In a preferred embodiment the system shown in Figs .2-5
is used for processing or producing books. In this embodiment
the delivery stations 7 and 13 are printing stations and the
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output station 11 is a packaging station, whereas the first
processing station 8 is a binding station, the second
processing station 9 a trimming station and the third
processing station 10 a shrink wrapping station. The supply-
station 16 delivers book covers to the binding station 8.
The printing units 7, 13 are used for printing book
blocks which are transferred to the transfer station 1 and
then transported to the binding station 8. In this binding
station 8 the covers supplied by the supply station 16 and the
book blocks are bound together. The bound components are then
transferred back to the transfer station 1 and then
transported to the trimming station 9, where excess margins
are cut. The books processed in the trimming station 9 are
transferred back to the transfer station 1 and then either
transported to the removal location 6 in order to be packed in
the packaging station 11 or fed to the shrink wrapping station
10 and from the latter back to the transfer station 1. The
shrink wrapped books are then either transported to the first
removal location 6 for packaging or to the second removal
location 17 for being transported away by the conveying device
18.
The book blocks delivered to the transfer station 1 by
the printing stations 7, 13 can be stored in the shelve 19
prior to being transported to the binding station 8. Equally
the bound components transported back to the transfer station
1 can be temporarily stored in the shelve 19 prior to being
delivered to the trimming station 9 and/or the shrink wrapping
station 10. The finished books can also be temporarily stored
in the shelve 19 prior to the removal at the removal locations
6 and 17.
It is understood that additional processing stations can
be provided, e.g. a drilling station for drilling holes or an
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inserting station for inserting products, such as for example
CDs, into the books.
The system shown in Pigs. 1-5 allows for a great
flexibility in the order or sequence the various processing
steps are carried out. Furthermore, any number of processing
stations, infeeding locations and removal locations is
possible.
Various modifications of the system shown and described
above are conceivable, a few of which will now be referred to.
If required the products fed to the transfer station 1
can be moved directly to a removal location 6, 17 without
undergoing a processing operation in one or more of the
processing stations 8, 9, 10.
The product processed in a processing station can be
transported away directly from this particular processing
station without first being transported back to the transfer
station 1.
The transfer station 1 itself can be of a construction
different from the one shown in Figs. 2-5.
The shelve 19 of the transfer station 1 can be designed
to be open only at one side which results in a shelve 19 which
is accessible from one side only.
Instead of the handling devices 21, 22, 23, 24 other
suitable systems for transporting the products within the
transfer station 1 are possible. For example a conveying
system can be used which comprises one or more conveyors
equipped with controllable grippers for seizing the printed
products.
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Although the system described above is preferably used
for processing printed products, in particular books and
components thereof, it is also conceivable to process other
types of articles in the described manner.
Those skilled in the art will appreciate that various
adaptations and modifications of the preferred embodiments
described above can be configured without departing from the
scope and spirit of the invention. Therefore, it is to be
understood that, within the scope of the appended claims, the
invention may be practised other than as specifically
described herein.
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1 1. A method for processing printed products, the method
2 comprising:

3 feeding a printed product to a first infeeding
4 location of a transfer station;
5 transporting the printed product in any sequence from
6 the transfer station to one of a number of processing
7 stations connected to the transfer station;
8 processing the printed product at the processing
9 station;

10 transporting the processed printed product back to
11 the transfer station after completion of the
12 processing step at one of the processing stations.
1 2. A method according to claim 1, wherein the printed
2 product is removed from the transfer station at a
3 first removal location of the transfer station.
1 3. A method for processing printed products, the method
2 comprising:
3 feeding a printed product to a first infeeding
4 location of a transfer station;
5 moving the printed product within the transfer
6 station to a first outfeeding location of the
7 transfer station;
8 transporting the printed product from the first
9 outfeeding location of the transfer station to a
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10 first processing station connected to the transfer
11 station;
12 processing the printed product at the first
13 processing station;
14 transporting the printed product processed at the
15 first processing station back to a first receiving
16 location of the transfer station;
17 moving the processed printed product within the
18 transfer station to a first removal location of the
19 transfer station; and
20 removing the processed printed product from the
21 transfer station at the first removal location.
1 4. A method according to claim 3, wherein the processed
2 printed product removed from the transfer station at
3 the first removal location is transferred to an
4 output station connected to the transfer station.
1 5. A method according to claim 3, wherein the printed
2 product fed to the first infeeding location of the
3 transfer station is temporarily stored in the
4 transfer station prior to its transport from the
5 first outfeeding location of the transfer station to
6 the first processing station.
1 6. A method according to claim 3, wherein the processed
2 printed product transported back to the first
3 receiving location of the transfer station is
4 temporarily stored in the transfer station prior to
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5 its removal from the transfer station at the first
6 removal location.
1 7. A method according to claim 3, wherein the processed
2 printed product infed to the first receiving location
3 of the transfer station is moved within the transfer
4 station to a second outfeeding location of the
5 transfer station, subsequently transported to a
6 second processing station connected to the transfer
7 station, then processed at the second processing
8 station and afterwards transported back to a second
9 receiving location of the transfer station.
1 8. A method according to claim 3, wherein the processed
2 printed product infed to the first receiving location
3 of the transfer station is subsequently transported
4 to further processing stations connected to the
5 transfer station and processed in these further
6 processing stations, whereby the processed printed
7 product is transported back to the transfer station
8 after completion of the processing step in one of the
9 further processing stations.
1 9. A method according to claim 8, wherein the processed
2 printed product is temporarily stored in the transfer
3 station between the various processing steps carried
4 out at the further processing stations.
1 10. A method according to claim 3, wherein the printed
2 products are fed to the first infeeding location of
3 the transfer station from a delivery station.
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1 11. A method according to claim 3, wherein the printed
2 products are fed to the first infeeding location of
3 the transfer station from a printing station.
1 12. A method according to claim 3, wherein a further
2 printed product is fed to a second infeeding location
3 of the transfer station.
1 13. A method for processing printed products, the method
2 comprising:
3 feeding a printed product to a first infeeding
4 location of a transfer station;
5 moving the processed printed product within the
6 transfer station to a first removal location of the
7 transfer station; and
s removing the processed printed product from the
9 transfer station at the first removal location.
1 14. A method for processing workpieces, the method
2 comprising:
3 feeding a workpiece to a first infeeding location of
4 a transfer station;
5 transporting the workpiece in any sequence from the
6 transfer station to one of a number of processing
7 stations connected to the transfer station;
8 processing the workpiece at the processing station;
9 transporting the processed workpiece back to the
10 transfer station after completion of the processing
11 step at one of the processing stations.
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1 15. A method for processing workpieces, the method
2 comprising:
3 feeding a workpiece to a first infeeding location of
4 a transfer station;
5 moving the workpiece within the transfer station to a
6 first outfeeding location of the transfer station;
7 transporting the workpiece from the first outfeeding
8 location of the transfer station to a first
9 processing station connected to the transfer station;
10 processing the workpiece at the first processing
11 station;
12 transporting the workpiece processed at the first
13 . .. processing station back to a first receiving location
14 of the transfer station;
15 moving the processed workpiece within the transfer
16 station to a first removal location of the transfer
17 station; and
18 removing the workpiece from the transfer station at
19 the first removal location.
1 16. A system for processing printed products, the system
2 comprising:
3 a transfer station;
4 the transfer station being provided with at least a
5 first infeeding location for infeeding printed
6 products to the transfer station, at least a first
7 removal location for removing processed printed
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8 products from the transfer station, and at least a
9 first connecting location for connecting a processing
10 - device to the transfer station;
11 the transfer station being further provided with a
12 transporting device for moving the printed products
13 within the transfer device between the first
14 infeeding location, the first connecting location and
15 the first removal location;
16 the system further comprising at least a first
17 processing station operatively connected to the first
18 connecting location of the transfer device.
1 17. A system according to claim 16, wherein the first
2 connecting location comprises an outfeeding location
3 for feeding the printed products from the transfer
4 station to the first processing station and a
5 receiving location for receiving the printed products
6 processed in the first processing station.
1 18. A system according to claim 16, wherein the transfer
2 station is provided with at least a further, second
3 connecting location for connecting a processing
4 device to the transfer station, the system further
5 comprising at least a further, second processing
6 station operatively connected to the second
7 connecting location.
1 19. A system according to claim 18, wherein the second
2 connecting location comprises an outfeeding location
3 for feeding the printed products from the transfer
4 station to the second processing station and a
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5 receiving location for receiving the printed products
6 processed in the second processing station.
1 20. A system according to claim 16, wherein the transfer
2 station is provided with a number of further
3 connecting locations for connecting further
4 processing devices to the transfer station, the
5 system further comprising a number of further.
e processing stations, each further processing station
7 being operatively connected to one of the further
8 connecting locations.
1 21. A system according to claim 20, wherein each of the
2 further connecting locations comprises an outfeeding
3 location for feeding the printed products from the
4 transfer station to the associated processing station
5 and a receiving location for receiving the printed
6 products processed in the associated processing
7 station.
1 22. A system according to claim 16, wherein the transfer
2 station comprises buffer means for temporarily
3 storing printed products.
1 23. A system according to claim 22, wherein the buffer
2 means comprise shelving means for temporarily
3 shelving printed products.
1 24. A system according to claim 16, wherein the
2 transporting device comprises at least one handling
3 device movable between the first infeeding location,
4 the connecting location and the removal location.
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1 25. A system according to claim 24, wherein the at least
2 one handling device is movable along a linear path of
3 movement.
1 26. A system according to claims 22 and 24, wherein the
2 handling device serves to feed printed products to
3 the buffer means and to remove the printed products
4 stored in the buffer means from the buffer means.
1 27. A system according to claim 16, further comprising an
2 output station connected to the first removal
3 location of the transfer device.
1 28. A system according to claim 16, further comprising a
2 delivery station connected to the first infeeding
3 location of the transfer device.
1 29. A system according to claim 16, further comprising a
2 printing station connected to the first infeeding
3 location of the transfer device.
1 30. A system according to claim 16, further comprising at
2 least a second infeeding location for infeeding
3 printed products to the transfer device.
1 31. A system according to claim 16, further comprising at
2 least a second removal location for removing printed
3 products from the transfer device.
1 32. A system for processing printed products, in
2 particular books and parts thereof, the system
3 comprising:
4 a transfer station;
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5 the transfer station being provided with at least a
6 first infeeding location for infeeding printed
7 products to the transfer station, at least a first
8 removal location for removing processed printed
9 products from the transfer station, and a number of
io connecting locations for connecting a number of
n processing devices to the transfer station;
12 the transfer station being further provided with a
13 transporting device for moving the printed products
14 within the transfer device between the first
15 infeeding location, the connecting locations and the
16 first removal location;
17 the system further comprising a number of processing
IB stations, each processing station being operatively
19 connected to one of the connecting locations.
1 33. A system according to claim 32, wherein each of the
2 further connecting locations comprises an outfeeding
3 location for feeding the printed products from the
4 transfer station to the associated processing station
5 and a receiving location for receiving the printed
6 products processed in the associated processing
7 station.
1 34. A system according to claim 32, wherein the transfer
2 station comprises buffer means for temporarily
3 storing printed products.
1 35. A system according to claim 32, wherein the
2 transporting device comprises a handling device
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3 movable between the first infeeding location, the
4 connecting locations and the removal location.
1 36. A system according to claims 34 and 35, wherein the
2 handling device serves to feed printed products to
3 the buffer means and to remove the printed products
4 stored in the buffer means from the buffer means.
1 37. A system for processing printed products, in
2 particular books and parts thereof, the system
3 comprising:
4 a transfer station;
5 the transfer station being provided with at least a
6 first infeeding location for infeeding printed
7 products to the transfer station and at least a first
8 removal location for removing processed printed
9 products from the transfer station;

10 the transfer station being further provided with a
11 transporting device for moving the printed products
12 within the transfer device between the first
13 infeeding location and the first removal location.
1 38. A system for processing workpieces, the system
2 comprising:
3 a transfer station;
4 the transfer station being provided with at least a
5 first infeeding location for infeeding workpieces to
6 the transfer station, at least a first removal
7 location for removing processed workpieces from the
8 transfer station, and at least a first connecting
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WO 2007/008434 PCT/US2006/025279
9 location for connecting a processing device to the
10 transfer station;
11 the transfer station being further provided with a
12 transporting device for moving the workpieces within
13 the transfer device between the first infeeding
14 location, the first connecting location and the first
is removal location;
16 the system further comprising at least a first
17 processing station operatively connected to the first
18 connecting location of the transfer device.
1 39. A system for processing workpieces, the system
2 comprising:
3 a transfer station;
4 the transfer station being provided with at least a
5 first infeeding location for infeeding workpieces to
6 the transfer station, at least a first removal
7 location for removing processed workpieces from the
8 transfer station, and a number of connecting
9 locations for connecting a number of processing
10 devices to the transfer station;
n the transfer station being further provided with a
12 transporting device for moving the workpieces within
13 the transfer device between the first infeeding
14 location, the connecting locations and the first
15 removal location;
16 the system further comprising a number of further
17 processing stations, each further processing station
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WO 2007/008434 PCT/US2006/025279
18 being operatively connected to one of the further
19 connecting locations.
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A system for processing printed products includes a transfer station which is provided with an infeeding location for infeeding printed products to the transfer station from a delivery station. The transfer station further comprises a
number of connecting locations and a removal location. To each of the connecting locations is connected a processing station. An output station is connected to the removal location. The transfer station is further provided with a transporting device for moving the printed products within the transfer device between the infeeding location, the various connecting locations and the removal location. The printed
product infed to the transfer station at the
infeeding location is transported in any
sequence from the transfer station to one of
the processing stations. After completion
of the processing operation in a particular
processing station, the printed product is
moved back to the transfer station. The
finished printed products are removed from
the transfer station at the removal location.

Documents:

http://ipindiaonline.gov.in/patentsearch/GrantedSearch/viewdoc.aspx?id=YYBYSC3ysxnPXZw/MnruNQ==&loc=wDBSZCsAt7zoiVrqcFJsRw==


Patent Number 279972
Indian Patent Application Number 87/KOLNP/2008
PG Journal Number 06/2017
Publication Date 10-Feb-2017
Grant Date 06-Feb-2017
Date of Filing 07-Jan-2008
Name of Patentee EPAC TECHNOLOGIES
Applicant Address 2561 GRANT AVENUE SAN LEANDRO, CA
Inventors:
# Inventor's Name Inventor's Address
1 DOBROVOLSKY SASHA 2327 5TH STREET, BERKELEY, CA 94710
PCT International Classification Number B65H 5/22
PCT International Application Number PCT/US2006/025279
PCT International Filing date 2006-06-29
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 11/175676 2005-07-06 U.S.A.