Method and device in particular for packaging flat objects

Information

  • Patent Grant
  • 6425227
  • Patent Number
    6,425,227
  • Date Filed
    Friday, November 12, 1999
    25 years ago
  • Date Issued
    Tuesday, July 30, 2002
    22 years ago
Abstract
The invention relates to a method and apparatus for the handling of individual flat articles coming out of a production machine (3). The articles may be particularly letter envelopes, which are assembled and, if needed further processed and packaged. The core of the invention resides in that initially a plurality of flat articles or letter envelopes (2, 2a) are lifted as partial stacks (8, 8a) and then are deposited at another location, and in that the partial stacks, during lifting and/or depositing (rearranging), are moved in such a way that the flat articles or letter envelopes (2, 2a) are standing, following the deposition, on the same side or edge (b) as originally or on another side or edge (a).
Description




FIELD OF THE INVENTION




The invention relates to a method and apparatus for handling and more particularly packaging flat articles such as stationery envelopes.




BACKGROUND INFORMATION




Stationery envelopes of paper, that is to say both letter envelopes and also mailing bags, are as a rule produced of single-piece, multi-folded cutouts. It is a known practice to connect together neighboring edges of the folded cutouts with the aid of folded over adhesive flaps. At the openings for filling, the closing flaps which lie flat, are kept in the unbonded condition. After manufacture in a production machine the stationery envelopes are packed in stacks of for instance 500 or 1000 pieces in cartons. In the area of the closing flaps of each stationery envelope in a stack only two paper plies rest on top of each other, whereas in the area of the adhesively bonded side edges three paper plies are resting on top of each other. Thus, one and the same stationery envelope has in the empty state at different locations differences in thickness which amount to a third of the maximum thickness. A stack with many stationery envelopes is for this reason substantially thicker in the area of the bonded flaps than adjacent to edges which are merely folded. In order to compensate for this different thickness of the letter envelopes it is a known practice to manually pack the envelopes in small stacks, which are offset by 180°, directly in shipping cartons.




Furthermore, the European Patent Publication EP 0 506 606 B1 discloses a method and a device for packaging stationery envelopes in boxes, wherein the stationery envelopes coming from a production machine as an upright endless stack are first divided up into partial stacks and then pushed off the conveyor belt into an auxiliary device while maintaining their position. The auxiliary device holds the partial stack pushed off the conveyor belt until it is accepted by a movable entraining carrier, which deposits the stack in a movably arranged collecting basket, which is at least alternatingly able to be turned about a basket axis which is perpendicular to the stack. In this collecting basket the partial stacks in different positions are then first collected and then jointly removed from it, then pressed together and pushed into a box held ready.




This method and the respective device are expensive and complicated. The device comprises a plurality of different components, which are not only expensive to produce but are also problematical in operation and liable to failure. A particular problem is the ever recurring need for resetting to different stationery envelope formats.




SUMMARY OF THE INVENTION




The invention aims at providing a simple, reliable, low-cost method for a positionally accurate turning over of flat articles and more particularly stationery envelopes. The method shall be easily adaptable to different formats. The invention also aims at providing a suitable device for these purposes with a compact construction for the handling of articles or stationery envelopes coming from a production machine. They can then be further processed or preferably put in stacks and packaged. At least in the case of stationery envelopes the articles will have the same or a different thickness of their material at the same positions.




In order to achieve this object the invention provides, that first a plurality of flat articles or stationery envelopes are lifted up as partial stacks and then deposited at another location and that the partial stacks on raising and/or lowering (rearranging) are so moved that the articles or stationery envelopes after depositing stand on the same side or edge as originally or on another side or edge.




In accordance with the invention the stationery envelopes are no longer first collected in groups of partial stacks in a collecting basket serving as an intermediate storage, with, respectively, different alignments and then directly transferred to a shipping carton. Rather, the articles are placed immediately after the production machine in groups of partial stacks selectively on any desired edge or, respectively, selectively on one of their margins. Stacks of any desired size may be then formed from the partial stacks, for example for packing and after reaching the intended size may for example be transferred to a packing station.




Instead of stationery envelopes it is however also possible for hygienic articles and other flat articles, in the case of which there may be similar problems, to be processed using the intermediate steps in accordance with the invention and then further processed and/or packed in any desired fashion. This possibility-covers cases in which the articles or, respectively, stationery envelopes are not made ready for a boxing device but also for a bundling device, where they may be provided with a band and held together, whereupon they are either packaged as a small partial stack in cellophane or boxed as a larger stack.




For lifting and lowering the partial stacks a turning station is employed in accordance with the invention, which comprises at least one movable carrier, which may be a movable arm. At the free end of this arm or carrier at least one also movable gripper is arranged, which is capable of gripping a partial stack and after the rearrangement releasing it again.




As a further development of the invention it is possible for the gripper to be movable about a gripper axis parallel to a pivot or rotation axis of the carrier and/or about a gripper axis perpendicular thereto, whereby it is possible to satisfy any conceivable requirements.











BRIEF DESCRIPTION OF THE DRAWINGS




The invention will be described in more detail with reference to embodiments, which are shown in the drawing, wherein:





FIG. 1

is a side view of a principle sketch of a device for packaging;





FIG. 2

shows a plan view of the device according to

FIG. 1

on a smaller scale;





FIG. 3

shows a view as in

FIG. 1

of a modified embodiment;





FIG. 4

is a plan view of the device in accordance with

FIG. 3

on a smaller scale;





FIG. 5

is a lateral facing view of a turning device of a further example embodiment;





FIG. 6

is a plan view of the turning device in accordance with

FIG. 5

;





FIG. 7

is a side view of the turning device in accordance with

FIGS. 5 and 6

with the gripper and its drive in a position lowered to a level below a stacking plane;





FIG. 8

is a view similar to that of

FIG. 7

with the gripper and its drive in a position raised above the stacking plane;





FIG. 9

is a view as in

FIG. 8

with a gripper raised still higher;





FIG. 10

is a lateral view as in

FIG. 7

of a further example embodiment having two grippers;





FIG. 11

shows a plan view of the turning device according to

FIG. 10

; and





FIG. 12

is a principle sketch of a gripper and its drive.











DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS AND OF THE BEST MODE OF THE INVENTION




A device


1


for packaging flat articles and, in the actual embodiment for stationery envelopes


2


, comprises, following a production machine


3


, a transfer and separating station


4


, a turning station


5


and a packaging station


6


(FIG.


1


).




The stationery envelopes


2


coming separately and continuously at a high speed from the production machine


3


are deposited with the aid of a compartmented wheel


7


in the transfer and separating station


4


, held there and finally as a partial stack


8


passed on to a turning device


9


of the turning station


5


. For holding the stationery envelopes


2


and for the formation of partial stacks


8


the transfer and separating station


4


possesses horizontally and vertically moving holding and supporting elements


10


in the form of forks, separating blades or the like. These holding and supporting elements


10


are movable in step with the machine by basically known pneumatic and/or hydraulic drives, not illustrated in the drawing, in a horizontal and vertical direction or, respectively, in a direction parallel and/or perpendicular to a stacking plane


11


. From this stacking plane


11


the turning device


9


takes one partial stack


8


at a time and places or conveys it into a station


12


(collecting station) associated with the packing station


6


, in which collecting station the partial stacks


8


, rearranged by the turning device


9


, are formed into a stack


13


of a predetermined size.




The turning device


9


comprises, in accordance with the embodiment depicted in

FIGS. 1 and 2

, a carrier


16


movable about an axis


15


, which at its free end bears a gripper


17


for one respective partial stack


8


. The gripper


17


is pivotally mounted on the carrier


16


for movement about a gripper axis


18


, which extends in parallel to the axis


15


of the carrier


16


. The gripper


17


is furthermore provided with its own drive so that it is not only able to take up partial stacks


8


of different size and deposit same again but is also selectively movable about the gripping axis


18


relative to the carrier


16


.




The carrier


16


is finally pivotable out of a position, in the working example of

FIGS. 1 and 2

, facing the compartmented wheel


7


(full lines) through 180° into a position facing the packing station


6


(dashed lines) and is able to again be pivoted back from there. Its axis


15


is consequently a pivot axis. It further comprises two arms arranged spaced from each other and forming a pivoting arm. (FIG.


2


).




The compartmented wheel


7


deposits all stationery envelopes


2


in the same manner in the transfer and separating station


4


so that respectively the same edges “a” of the stationery envelopes


2


are at the top and all edges “b” parallel thereto are at the bottom (FIG.


1


). If now a partial stack


8


is rearranged by the carrier


16


and its gripper


17


only to the side of the packaging station


6


, the edges a of the stationery envelopes


2


will be at the bottom and the edges b of the stationery envelopes will be at the top. If flat articles other than stationery envelopes


2


are rearranged, the same applies for corresponding sides of the articles.




For a stack


13


to be formed in the station


12


, of partial stacks


8


, whose stationery envelopes


2


have their edges a and b alternatingly at the bottom and at the top, the respective next partial stack


8


will be additionally pivoted by its gripper


17


about the gripper axis


18


through 180° in the direction of rotation of the carrier


16


or opposite thereto and then deposited in this position in the station


12


. In this manner it is possible to form a stack


13


with technically simple means, in which the partial stacks are respectively offset relative to each other.




The station


12


(collecting station) serving for the formation of the stack


13


essentially comprises a channel-shaped stacking path


19


with a movable clamping and holding mechanism


20


arranged thereabove. This clamping and holding mechanism


20


includes two holders


21


and


22


movable relative to each other and adjustable in their spacing from each other. A clamping sheet metal


23


or


24


is arranged on the respective holder in a vertically up and down movable manner. In its lowered position the clamping sheet metal


23


forms the rear wall of the channel-shaped stacking path


19


, on which the stack


13


′ being formed is supported.




For the transfer of the partial stacks


8


from the turning device


9


a receiving device


25


is provided, having a gripper carriage


26


, which has a backing element


27


which is fixed in the horizontal direction but can be lowered in the vertical direction. Associated with the backing element


27


there is a horizontally movable clamping element


28


mounted on the gripper slide


26


. With the aid thereof it is possible for a deposited partial stack


8


to be pressed against the backing element


27


and after release by the gripper


17


, same may be moved against the stationery envelopes


2


of the stack


13


to be formed and pressed on.




As soon as a partial stack


8


is pressed against the stack


13


′ to be formed, the backing element


27


, which may be very thin, is lowered so that the gripper carriage


26


can be moved back into its starting position (on the left in FIG.


1


). The stack


13


′ to be formed in this case is held between the side walls of the channel-shaped stacking path


19


with the aid of profiled elements or the like.




Adjoining the stacking path


19


there is the actual packaging station


6


, wherein the stack


13


is packaged in a carton cutout


14


. A stored stack


29


of carton cutouts


14


is located offset to the side next to the packaging station


6


(FIG.


2


).




As soon as the stack


13


′ in the stacking path


19


has reached the desired size, the clamping sheet metal


24


on the holder


22


is lowered and the holder


22


is moved toward the holder


21


so that the stack


13


is compressed between the two clamping sheet metals


23


and


24


. In this position the stack


13


is pushed onto the carton cutout


14


(

FIG. 2

) in the packaging station


6


. Now the side flaps


30


and


31


of the carton cutout


14


are erected in a basically known manner, as also appears from FIG.


1


. Simultaneously the stack


13


is held between the now vertical side flaps


30


and


31


. As soon as this packaging step is completed the two clamping sheet metals


23


and


24


are raised again so that the clamping and holding mechanism


20


can be moved back into its starting position above the channel-shaped stacking path


19


. Simultaneously the clamping sheet metal


23


is lowered till the stack


13


is encased with the carton cutout


14


in the packaging station


6


until a complete package has been produced.




The device


1




a


shown in

FIGS. 3 and 4

shows a modified embodiment, whereby like parts being in principle denoted by the same reference numerals with the addition of a letter “a”.




While most parts of the device la are constructed exactly as the parts of the first described embodiment, the turning device


9




a


has an additionally provided axis


40




a


in the form of a pivot and/or rotational axis for the gripper


17




a


. The gripper


17




a


is accordingly tiltable about a gripper axis


18




a


and about an axis


40




a


perpendicular thereto. The gripper axis


18




a


in turn extends in parallel to the axis


15




a


of the carrier


16




a


. In addition or as an alternative the gripper


17




a


is also tiltable about the second gripper axis


40




a.






The carrier


16




a


may, as more particularly illustrated in

FIG. 4

, be an arm extending perpendicularly to the axis


15




a


, or a pivotal arm, whose longitudinal axis coincides with the gripper axis


40




a.






For the control of the gripper


17




a


and to produce rotary or, pivotal movements there is, just like for the gripper


17


, a separate drive, which in the case of the gripper


17




a


makes it possible to deposit received partial stacks


8




a


or stationery envelopes


2




a


, on any desired edge in the transfer device


25




a


. The function of the turning device


9




a


is consequently not limited to deposit on two edges, and in fact allows selective deposit on all four edges of a stationery envelope.




Furthermore, the additional axis


40




a


increases the possibility to process differently formed stationery envelopes


2




a


. If necessary, the side walls


41




a


and


42




a


of the channel-shaped stacking path


19




a


must be adjustable. In the same way the gripper


17




a


may be adjustable to different formats.




A further example embodiment of a modified turning device


9




b


is illustrated in

FIGS. 5

to


9


and comprises a machine frame


50




b


, in which a lifting frame


51




b


is arranged at least for the carrier


16




b


and its gripper


17




b


in an elevation adjustable fashion. In this example embodiment corresponding parts also bear the same reference numeral as in the first described cases, with the addition of the letter b.




The lifting frame


51




b


is mounted on the machine frame


50




b


with the aid of a plurality of holding and guiding elements


52




b


. For an elevation adjustment there is a drive


53




b


and a threaded spindle


54




b


, which adjust the lifting frame


51




b


through a spindle nut in a manner not illustrated in detail.




On the guided side parts


55




b


and


56




b


of the lifting frame


51




b


, the carrier


16




b


for its gripper


17




b


is mounted for pivotal and/or rotary movement about an axis


15




b.






On a transverse beam


57




b


in the bottom region of the lifting frame


51




b


the drive


58




b


and its control and power transmission components are arranged for the shaft or axis


15




b


. According to this example embodiment the transmission of power from the drive


58




b


to the carrier


16




b


is accomplished with the aid of a belt


59




b.






The sense and purpose of the vertically adjustable lifting frame


51




b


mounted and guided in the machine frame


50




b


, is to be able to lower the carrier


16




b


together with its gripper


17




b


as shown in

FIG. 7

till it is underneath a stacking plane


11




b


, defined for instance by a stacking sheet metal, or to position it at different levels above the stacking plane


11




b


, as is shown in

FIGS. 8 and 9

.




According to

FIG. 7

the turning device


9




b


is shown lowered below the level of the stacking plane


11




b


so that instead of an automatic operation a purely manual one is possible.




The arrangement of the carrier


16




b


and of its gripper


17




b


at different elevations above the stacking plane


11




b


as illustrated in

FIGS. 8 and 9

, enables the carrier


16




b


and its gripper


17




b


to accept-partial stacks placed in the area of the transfer station


4




b


with quite different formats and after rearranging may deposit same in the area of the take-up device


25




b.






According to the example embodiment of the invention illustrated in

FIGS. 5

to


9


the gripper


17




b


is preferably tilted back and forth between the transfer station


4




b


and the take-up device


25




b


. Thereby the stationery envelopes are lifted and then put down again or rearranged and set on the same or a different edge. In order to return to its starting position the gripper


17




b


may, however, also-describe a complete circular motion of 360°. For this purpose the lifting frame


51




b


must be U-shaped at least in the area of the gripper


17




b


. In order to obtain a sufficient rigidity it is possible for it to be closed at the top in a U-shaped fashion, (not shown in FIG.


5


).




It will be further understood that for a complete rotary movement of the gripper


17




b


about the axis


15




b


, the belt


59




b


must be outside of the path of movement of the gripper


17




b.







FIG. 5

shows conveyor belts


60




b


and


61




b


serving as carrier elements, which however are used only when the turning device


9




b


is lowered and during manual operation. They are provided as an option and usable when needed and they constitute the stack plane


11




b


, to which an auxiliary table


66




b


also belongs.




It will be also seen from

FIG. 6

that the gripper


17




b


in accordance with example embodiment possesses two fixed abutments


62




b


and two adjustable abutments


63




b


, which together with the fixed abutments


62




b


serve as holding elements. The partial stacks


8




b


are held between the fixed abutments


62




b


and the adjustable abutments


63




b


, as is indicated in dashed lines in FIG.


6


.




For readjusting the adjustable abutments


63




b


in a direction toward the fixed abutments


62




b


and away from them, a respective drive


64




b


may be utilized, which may for example be a pneumatic drive. Further drives


65




b


are respectively provided in order to additionally move the adjustable abutments


63




b


away from each other and toward each other. They move the abutments


63




b


apart, when the gripper


17




b


is pivoted on its way back in the transfer zone behind the compartmented disk over the partial stack


8


. In the rear dead center point of the gripper


17




b


the abutments


63




b


are moved together by their drives


65




b


and then hold the partial stack


8


with the aid of their drives


64




b


and the abutments


62




b.






The embodiment depicted in

FIG. 6

is furthermore significant in that the gripper


17




b


, more concretely a gripping device, may be pivoted or moved with the aid of the carrier


16




b


about a single axis or gripper axis


40




b


, such axis extending perpendicularly to the axis


15




b


about which the carrier


16




b


in the turning device


9




b


is tiltable or respectively movable.




In accordance with a further embodiment of the invention, which is shown in

FIGS. 10 and 11

, it is possible for two grippers


17




c


to be respectively mounted on one carrier


16




c


. Here as well respective identical parts bear the same reference numerals, as previously, with the addition of the letter index c.




The grippers


17




c


are positioned, relative to their circular movement, respectively diagonally opposite each other.





FIG. 10

shows the turning device


9


with grippers


17




c


positioned below the stacking plane


11


so that manual operation is readily possible. It will however be understood that the grippers


17




c


with their carrier


16




c


, just as in the last-described example embodiment, are movably mounted in a lifting frame


51




c


so that they may be moved to the desired elevation above the stacking plane


11




c.






Finally, as indicated in

FIG. 12

a carrier


70


will suitably comprise a differential transmission


71


. Basically the same applies to the example embodiments of the invention depicted in

FIGS. 5

to


11


.




The differential transmission


71


comprises a housing


72


, in which axes or, respectively, shafts


73


and


74


corresponding to the pivot and/or rotational axes of the carrier of the first described example embodiment and at least one gripper axis


75


for a gripper


76


shown in full lines, or also a second gripper axis


77


for a second gripper


78


shown in dashed lines, are mounted.




As shown in

FIG. 12

, each axis or shaft


73


,


74


,


75


and


77


carries a bevel gear wheel


81


,


83


,


82


and


84


, respectively.




A drive element


85


is rigidly secured to the housing


72


of the differential transmission


71


. Such drive element


85


is a belt pulley according to the example embodiment and in conformity with the belt drive of the turning device


9




b


(FIG.


5


). Via a belt


86


the housing


72


and the grippers


76


or


78


are moved for rearranging partial stacks whereby the inherent motion (pivotal and/or rotational motion) of the grippers


76


and


78


are controlled by an electromagnetic coupling


87


. In the case of two or more grippers


76


and


78


or in the case of a rotary movement of the grippers


76


and


78


about the axis


73


and


74


, the belt


86


must be outside the path of the motion of the grippers


76


and


78


.




It will finally be understood that a particularly advantageous and economic construction is produced if one gripper


76


rearranges and turns the partial stacks, while the other gripper


78


only rearranges the partial stacks and does not perform any inherent movement. Inherent motion of partial stacks may in this case basically take place about an axis, positioned in a plane of a letter envelope or article, and/or about an axis intersecting this plane perpendicularly, while the partial stack is being rearranged along a portion of a curve.




Although the invention has been described with reference to specific example embodiments, it will be appreciated that it is intended to cover all modifications and equivalents within the scope of the appended claims. It should also be understood that the present disclosure includes all possible combinations of any individual features recited in any of the appended claims.



Claims
  • 1. A method for handling flat articles, each flat article having a first edge (a) and a second edge (b) extending in parallel to said first edge (a), said method comprising the following steps:a) feeding said flat articles as an on-edge row of said flat articles from an article production to a separation location for forming partial stacks (8); b) sequentially gripping said partial stacks (8) of said on-edge row of articles; c) first rotating each partial stack (8) about a first rotation axis (15) extending in parallel to said first and second edges (a, b) of said flat articles; d) second rotating every other partial stack (8) about a second rotation axis (40a) extending at a right angle to said first rotation axis (15) so that upon completion of said first and second rotating said first and second edges (a, b) of said flat articles are located in alternating opposite positions in neighboring partial stacks of said partial stacks to form a completed stack (13); and (e) performing said second rotating of every other partial stack during said first rotating of every other partial stack.
  • 2. The method of claim 1, further comprising performing said first rotating of each partial stack (8) about said first rotation axis (15) so that each partial stack is moved through 180°.
  • 3. The method of claim 1, further comprising performing said second rotating of every other partial stack about said second rotation axis (40a) so that every other partial stack is moved through 180°.
  • 4. A method for handling flat articles, each flat article having a first edge (a) and a second edge (b) extending in parallel to said first edge (a), said method comprising the following steps:a) feeding said flat articles as an on-edge row of said flat articles from an article production to a separation location for forming partial stacks (8); b) sequentially gripping said partial stacks (8) of said on-edge row of articles; c) first rotating each partial stack (8) about a first rotation axis (15) extending in parallel to said first and second edges (a, b) of said flat articles; d) second rotating every other partial stack about a second rotation axis (18) extending in parallel to said first rotation axis (15) so that upon completion of said first and second rotating said first and second edges (a, b) of said flat articles are located in alternating opposite positions in neighboring partial stacks of said partial stacks for forming a completed stack (13); and e) performing said second rotating of every other partial stack during said first rotating of every other partial stack.
  • 5. The method of claim 4, further comprising performing said first rotating of each partial stack (8) about said first rotation axis (15) so that each partial stack is moved through 180°.
  • 6. The method of claim 4, further comprising performing said first rotating in one rotation direction and performing said second rotating in an opposite rotation direction.
  • 7. An apparatus for handling flat articles, each flat article having a first edge (a) and a second edge (b) extending in parallel to said first edge (a), said apparatus comprising:(a) an article supporting stacking surface (11) for receiving an on-edge row of said flat articles, (b) at least one gripper (17a) for sequentially gripping partial stacks (8) out of said on-edge row of said flat articles, (c) at least one gripper carrier (9, 16) including a support and a first rotation axis (15) for rotatably securing said at least one gripper carrier to said support for rotating said at least one gripper carrier about said first rotation axis (15), said first rotation axis (15) of said at least one gripper carrier extending in parallel to said first and second edges (a, b) of said flat articles, and (d) a second rotation axis (40a) operatively securing said at least one gripper (17a) to said at least one gripper carrier, said second rotation axis (40a) extending at a right angle to said first rotation axis (15), and (e) means operatively connected for rotating said at least one gripper carrier about said first rotation axis and said at least one gripper about said second rotation axis (40a).
  • 8. The apparatus of claim 7, wherein said at least one gripper carrier is rotatable about said first rotation axis (15) through an angular range of 360° in a clockwise and counterclockwise direction.
  • 9. The apparatus of claim 7, wherein said at least one gripper (17a) comprises first and second abutments (62b, 63b) movable relative to each other.
  • 10. The apparatus of claim 7, wherein said at least one gripper comprises two stationary abutments (62b) and two movable abutments (63b), and drive means operatively connected to said movable abutments (63b) for moving said movable abutments relative to said stationary abutments and relative to each other.
  • 11. The apparatus of claim 7, further comprising a collecting station (12) positioned downstream of said at least one gripper carrier, as viewed in a movement direction from said receiving station to said collecting station for collecting said partial stacks from said at least one gripper and for forming a complete stack (13) of said partial stacks, and a packaging station (6) arranged downstream of said collecting station (12).
  • 12. The apparatus of claim 11, wherein said collecting station (12) comprises side walls (41a, 42a) and a bottom forming a channel-shaped stacking path (19, 19a).
  • 13. The apparatus of claim 11, wherein said side walls (41a, 42a) of said channel-shaped stacking path (19, 19a) are adapted for adjusting a spacing between said side walls.
  • 14. The apparatus of claim 11, further comprising a stack clamping and holding mechanism (20) arranged for moving said complete stack (13) out of said collecting station (12) into said packaging station (6).
  • 15. The apparatus of claim 11, further comprising a partial stack transfer station (25) positioned between said at least one gripper carrier and said collecting sation, said partial stack transfer station comprising a partial stack holding slide (26) for moving partial stacks into said collecting station.
  • 16. The apparatus of claim 7, wherein said at least one gripper carrier comprises a differential gear transmission (71) and an electromagnetic coupling cooperating with said differential gear transmission.
  • 17. The apparatus of claim 7, wherein said support of said at least one gripper carrier carrying said at least one gripper comprises means for vertically adjusting an elevational position of said at least one gripper carrier and of said at least one gripper rotatably secured to said at least one gripper carrier.
  • 18. The apparatus of claim 7, comprising at least two grippers (76, 78) operatively secured to said at least one gripper carrier.
  • 19. The apparatus of claim 18, wherein said at least two grippers are arranged diametrically opposite each other on said at least one gripper carrier (70).
  • 20. The apparatus of claim 7, further comprising a third rotation axis (18a) securing said at least one gripper (17a) to said second rotation axis (40a) so that said third rotation axis (18a) extends at a right angle to said second rotation axis and in parallel to said first rotation axis (15a) of said at least one gripper carrier (16a).
  • 21. An apparatus for handling flat articles, each flat article having a first edge (a) and a second edge (b) extending in parallel to said first edge (a), said apparatus comprising:(a) an article supporting stacking surface (11) for receiving an on-edge row of said flat articles, (b) at least one gripper (17a) for sequentially gripping partial stacks (8) out of said on-edge row of said flat articles, (c) at least one gripper carrier (9, 16) including a support and a first rotation axis (15) for rotatably securing said at least one gripper carrier to said support for rotating said at least one gripper carrier about said first rotation axis (15), said first rotation axis (15) of said at least one gripper carrier extending in parallel to said first and second edges (a, b) of said flat articles, and (d) a second rotation axis (18) operatively securing said at least one gripper (17a) to said at least one gripper carrier, said second rotation axis (18) extending in parallel to said first rotation axis (15), and (e) means operatively connected for rotating said at least one gripper carrier about said first rotation axis (15) and said at least one gripper about said second rotation axis (18).
  • 22. The apparatus of claim 21, wherein said at least one gripper carrier is rotatable about said first rotation axis (15) through an angular range of 360° in a clockwise and counterclockwise direction.
Priority Claims (1)
Number Date Country Kind
297 08 542 U May 1997 DE
CROSS REFERENCE TO RELATED APPLICATIONS

This application has been filed under 35 U.S.C. 371 as the national stage filing of International Application serial number PCT/DE98/01310, filed May 12, 1998, and which designated the United States.

PCT Information
Filing Document Filing Date Country Kind
PCT/DE98/01310 WO 00
Publishing Document Publishing Date Country Kind
WO98/51570 11/19/1998 WO A
US Referenced Citations (6)
Number Name Date Kind
3404609 Hartbauer et al. Oct 1968 A
3550349 Kerker Dec 1970 A
3596779 Osteen Aug 1971 A
3700127 Kurk et al. Oct 1972 A
3970202 Speggiorin et al. Jul 1976 A
4481751 Ujhelyi Nov 1984 A
Foreign Referenced Citations (5)
Number Date Country
2018592 Oct 1971 DE
29708542 Jul 1997 DE
0506606 Dec 1994 EP
2089756 Jan 1972 FR
WO-9813263 Apr 1998 WO