EP0023985A1 - Dispositif de brochage pour machines d'impression - Google Patents

Dispositif de brochage pour machines d'impression Download PDF

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Publication number
EP0023985A1
EP0023985A1 EP80104178A EP80104178A EP0023985A1 EP 0023985 A1 EP0023985 A1 EP 0023985A1 EP 80104178 A EP80104178 A EP 80104178A EP 80104178 A EP80104178 A EP 80104178A EP 0023985 A1 EP0023985 A1 EP 0023985A1
Authority
EP
European Patent Office
Prior art keywords
wire
cylinder
stitching
male
die
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
EP80104178A
Other languages
German (de)
English (en)
Other versions
EP0023985B1 (fr
Inventor
Godber Petersen
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.)
Manroland AG
Original Assignee
MAN Roland Druckmaschinen AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by MAN Roland Druckmaschinen AG filed Critical MAN Roland Druckmaschinen AG
Publication of EP0023985A1 publication Critical patent/EP0023985A1/fr
Application granted granted Critical
Publication of EP0023985B1 publication Critical patent/EP0023985B1/fr
Expired legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • B41F13/54Auxiliary folding, cutting, collecting or depositing of sheets or webs
    • B41F13/64Collecting
    • B41F13/66Collecting and stapling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B42BOOKBINDING; ALBUMS; FILES; SPECIAL PRINTED MATTER
    • B42BPERMANENTLY ATTACHING TOGETHER SHEETS, QUIRES OR SIGNATURES OR PERMANENTLY ATTACHING OBJECTS THERETO
    • B42B4/00Permanently attaching together sheets, quires or signatures by discontinuous stitching with filamentary material, e.g. wire
    • B42B4/02Rotary type stitching machines

Definitions

  • the invention relates to a wire stitching device for printing presses with a revolving stitching cylinder, onto which a cut piece of wire is transferred and formed into a clamp by means of a die and a patrix which can be moved relative to one another and inserted into the product to be stapled, the patrix being designed as a driver for the piece of wire to be transferred .
  • a wire stitching machine with automatic staple formation on printing presses with a rotating stitching cylinder in which a stitching part can be moved in and out depending on the rotation and a circular knife for cutting the stitching wire is fastened.
  • the stapling is carried out in such a way that the stitching to be formed is inserted into a gap between a stitching horn and the stitching cylinder, grooves in the stitching horn serving as a guide in conjunction with a resilient tongue.
  • a staple piston moves up and down in the stapling cylinder during each revolution.
  • a stapling horn is disadvantageous for several reasons. Once the forming staple is pressed against the stationary stapling horn at full paper speed with the force required to bend the stapling wire. Mainly the edges of the hacking horn are exposed to high friction and are therefore subject to wear. The booklet horn must therefore be hardened and ground, which causes considerable manufacturing costs. It has to be very precisely adapted to the staple fork over its entire length. A strip of the plunger fork causes heat and seizure. Furthermore, the top of the Hefthorn is very prone to breakage in paper stoppers.
  • a second cylinder was used to form the staple, which contains controlled plungers which push the staple wire between the plunger forks.
  • a stapling device for rotary printing presses is known, for example, from DE 15 15 092.
  • the piece of wire drawn off a roll and cut to the stretched length of the clip to be automatically formed is transferred to a circumferential stitching cylinder, which serves to form the die and the patrix, which causes the clip to be stapled into the product to be stapled
  • Stitch cylinder contains radially displaceable driver tappet by cam control.
  • the cut piece of wire is transferred by a driver to the stapling cylinder, which is designed as a male.
  • This known stapling device has the disadvantage that considerable shocks and vibrations can arise through the use of a driver's plunger and that a control movement for transferring the wire piece onto the stapling cylinder and a control movement for driving the staple into the product to be stapled are required to carry out a stapling operation are.
  • Another disadvantage is that it is not possible to staple products of different thicknesses with this device without special adjustment measures.
  • the stapling device With the stapling device according to the invention, high-speed stapling operations can be carried out without using a stapling horn guide, but during the Stitching of the favorable stapling effect when staple formation was maintained. Another advantage is that the stapling device in existing cylinders, for. B. cutting cylinder can be installed. Furthermore, unnecessary through the use of a fixed, but height-adjustable bridge connected to one end of the four-bar linkage, the bracket is defined by the counter-rotating due to the rotation of the stapling cylinder and the G egenzylinders in the booklet product inserted, a separately to be controlled driver plunger.
  • a further significant advantage results from the combined setting of the bridge arranged on a common support and one end of the four-bar linkage, since this enables adaptation to different-sized stapling products with regard to both the distance between the bridge and the stapling product and also the time management with a single simple setting when the clip is handed over by the patrix.
  • the staple legs are guided through the die and male part until the piercing process, so that buckling of the staple legs is avoided.
  • the wire stapling device in the wire stapling device according to the invention, an adaptation of the staple legs to products of different thicknesses is possible, so that they can be stapled safely without the risk that, for example due to too long staple legs, they will pierce through the paper back during the closing process or that For example, if the clip legs are too short, the clip cannot be closed properly.
  • the design of the wire stitching device according to the invention offers a simple and safe switching option that can be automated with conventional devices.
  • the housing 5 is mounted radially fixed but axially displaceable on a hollow spindle 6 which is driven by a stitching cylinder 136 (FIG. 2).
  • the gearbox required to drive the cutting device is described below. As shown in FIG. 5, the drive comes via bevel gears from the axis 7 of the stitching cylinder 136 via a spindle 135 into the gear housing 8.
  • the spur gears 10 and 11 mounted on a hollow spindle 9 mesh with the firmly connected but radially loosely on one Spindle 12 mounted spur gears 13 and 14.
  • the spur gears 10 and 11 can be fixedly connected to the hollow spindle 9 by a pulling wedge 16 connected to a linkage 15 via a pinion 17, optionally by turning a crank handle 18.
  • the hollow spindle 9 rotates once per revolution of the stitching cylinder 136 and, due to the translation of the spur gears, the hollow spindle 6 in FIG. 1 by bevel gears 19 and 20 twice.
  • two pieces of wire are cut off per cylinder revolution, since the cutting roller 4 moves past the cutting nozzle 3 twice.
  • the spindle 9 rotates one and a half times and the spindle 6 once. In this case, only one piece of wire is cut off per cylinder revolution.
  • the wire feed is adapted to the non-collective production or the collective production of the folding apparatus which cooperates with the stitching cylinder 136.
  • the stapling device staples two sheets per cylinder revolution. It therefore carries two stapling elements on the circumference of the stapling cylinder 136 and requires two pieces of wire per revolution.
  • For collective production is per Zylinderumwindun g at the periphery only one stapler and a piece of wire needed.
  • stapling cylinder 136 For a suitable stapling, two staples are generated per sheet on the axis 7 of the stapling cylinder 136, with which the staple is stapled. In Fig. 1, therefore, stitching and cutting device are available in duplicate.
  • the stapling cylinder 136 bears between four stapling organs, of which two diagonal, are arranged on the stapling cylinder 136 therefore offset by 180 0th
  • two stapling elements lying next to each other are then stopped in order to reduce wear.
  • a piece of wire is fed only once around the circumference, if they are not deactivated, they cannot form brackets.
  • the length of the staple In order to staple paper of different thickness, the length of the staple must be changed.
  • the process for cutting wire pieces to form the brackets with a selectable leg length is described below.
  • the center of the clip to be formed is indicated by line 21. Seen from this line 21, the length of the right half and the left half of the wire section must be selectively changeable.
  • a housing 25 is supported in mirror image fashion axially displaceably on a housing 33 via bearings 23.
  • the housing 22 or the housing 25 is thus axially fixed in relation to the housing 5 or to the housing 33.
  • the linkages 27 and 28 shown in FIG. 4 connect the housings 22 and 25 to the eccentrics 29, 30.
  • the rods 27 and 28 lead to 180 0 offset eccentrics 29 and 30 which are arranged on a spindle 31st
  • the spindle 31 can be rotated by means of a hand crank 32 (FIGS. 1 and 5).
  • a hand crank 32 FIGS. 1 and 5
  • staples with three legs of different lengths should be able to be produced. This is possible by rotating the eccentrics 29 and 30 in three defined positions and a corresponding determination of three transport speeds for the transport roller 2.
  • the eccentricity of the eccentrics 29 and 30 is then directly proportional to the variable wire length.
  • three switching positions are fixed by the hand crank 32.
  • the housings 22 and 25 are moved in opposite directions to one another in the axial direction by the differently acting eccentrics 29 and 30 on the spindle 6 and can assume three defined positions analogously to the position of the hand crank 32.
  • the housings 22 and 25 are axially displaced by the hand crank 32, the housings 5 and 33 associated therewith are likewise carried axially in opposite directions via the fixed bearings 23.
  • the position of the cutting nozzle 3 relative to the cutting roller 4 remains unchanged and the cutting conditions, once set, remain the same.
  • the cutting roller 4 is advantageously seated on a shaft 34 which is easily rotatably mounted in the housing 5 or in the second cutting and stapling device in the housing 33. It is pressed against a stop 36 by a compression spring 35. This stop is set so that the cutting roller 4 resiliently runs onto the cutting nozzle 3 provided with a spherical running surface when the housing 5 rotates. This creates a scissor-like cut.
  • the resilient design allows self-adjustment in the event of wear and the rotating cutting roller ensures even wear on the circumference.
  • spur gears 37, 38, 39 (FIG. 5), which are seated in the gear housing 8 on the hollow spindle 9. With these spur gears 37, 38 and 39 mesh spur gears 40, 41 and 42 loosely seated on the shaft 12.
  • the different pairings of the spur gears give different ratios by means of which the speed of the wire feed is changed.
  • the respective spur gear pairs 37-40, 38-41 and 39-42 are always firmly engaged.
  • One of the spur gears 40, 41 or 42 can now be firmly connected to the shaft 12 via a pull wedge 43 connected to a linkage 44.
  • the transport roller 2 is driven at a speed which can be determined by the selection of one of the spur gears 40 to 42 from the shaft 12 via spur gears 45 and 46, the shaft 47 mounted in the hollow spindle 9, the bevel gears 48 and 49, the spur gears 50, 51 , 52, 53 and the bevel gears 54 and 55 to the transport roller 2, which in turn is firmly connected to the spur gear 56 and thus drives the spring-loaded transport roller 65 via a corresponding spur gear.
  • a spindle 57 which is mounted in the hollow spindle 6, transmits the drive to the left side of the stapling device to the second pair of transport rollers.
  • the linkage 44 is moved by a pinion shaft 58, which in turn is connected to the spindle 31 via spur gears 59, 60 and 61.
  • the housings 5 and 25 can be axially displaced on the hollow spindle 6, whereby the desired distance on the right side of the center line 21 from the latter to the cutting nozzle 3 and the cutting roller 4 can be adjusted, and on the other hand the corresponding one Selection of the spur gear pairs made on the hollow spindle 9 and the drive shaft 12 so that the wire feed takes place at a speed which defines the wire length to the left of the reference line 21 to a dimension which is identical to the wire length to the right of the center line 21. This enables a simple and safe changeover according to the products to be stapled.
  • the hollow spindle 9 can be switched via the spur gears 10 and 11 or 13 and 14 in the sense of collecting-non-collecting, the wire feed also takes place depending on the operating mode collecting or non-collecting. As stated at the beginning, this is a further essential advantage which additionally increases the security of the stapling device.
  • the spur gear 53 is widened compared to the other spur gears.
  • the longitudinal displaceability of the housings 22 and 25 is made possible in the case of fixed tooth engagement and, on the other hand, the shaft 62 is thereby displaceable in the longitudinal direction.
  • the removal of the transport roller is thus facilitated in that, after a cover 63 has been removed, the bevel gear 54 which is firmly seated on the shaft 62 is pressed in the axial direction against the force of the spring 64.
  • the bevel gear 55 is thus free and can be easily removed together with the transport roller 2 for exchange.
  • FIG. 4 shows the mounting of the second transport roller 65, which is mounted on the bolt 66, which in turn is carried by the housing 22 in a longitudinally displaceable manner and presses the transport roller 65 against the transport roller 2 with the aid of the spring 67.
  • This will transport the stitching wire.
  • the wedge lock 69 of the bolt 66 is released by actuating a lifting magnet 68.
  • the spring 67 can now relax and the transport roller 65 is no longer pressed against the transport roller 2.
  • the wire transport is interrupted.
  • the Bolt 66 by means of a button 70 by hand, the spring 67 is tensioned again and the wedge lock engages, as a result of which the wire transport is resumed.
  • the stitching wire When cutting, which is done here at a relatively low cutting speed, the stitching wire cannot penetrate forward during the engagement of the cutting roller. However, it is continuously advanced by the transport rollers 62 and 65 and must be able to evade. As FIG. 4 shows, an arcuate recess 71 is therefore provided in the housing 22, which is only slightly deeper than the stitching wire thickness. This forces the wire to dodge in only one plane, which is mandatory due to the recess.
  • the recess is dimensioned so that on the one hand the buckling is supported by the cutting pressure of the cutting roller, d. H. the cutting pressure supports the bulge, on the other hand the wire does not get any permanent deformation and can relax elastically after removing the cutting roller. In the event of faults, the recess 71 is accessible via a flap 72.
  • the stitching wire is pushed between the rigid tongue 73 and the resilient tongue 74 before cutting.
  • the carrier 76 connects the gear housings 8 and 26 to a unit which is fastened to the walls 77 and 78 of the folding device (FIG. 1) and is easily exchangeable.
  • the cut piece of wire is taken over by a gripper consisting of a rigid tongue 79 and a resilient tongue 80, wherein it is pulled out of the tongues 73 and 74 and clamped between the tongues 79 and 80.
  • These tongues sit on a holder 81 which is clamped on the hollow spindle 6 and thus rotates with the hollow spindle 6.
  • the clamping allows an adjustment in the circumferential direction to ensure the cyclical transmission to the stapling elements.
  • the cutting roller 4 lies just before the gripper consisting of the rigid tongue 79 and the resilient tongue 80, since it first has to cut the wire.
  • the position of the cutting roller 4 can be adjusted in the circumferential direction by a clamp connection 82 (FIG. 1).
  • the cutting and transfer device can thus be optimally coordinated with the stapling device.
  • FIG. 2 shows the device for stapling and for inserting the staple into the paper web.
  • the right picture shows the stapling device ready for taking over the piece of wire from the gripper 79, 80. It consists of an "open four-bar linkage", the suspension points of which are the control spindle 83 and the eccentric bolt 84.
  • Levers 85 and 86 carry, via bolts 87 and 88, a tongue 89 acting as a male part, which is arranged such that it can be rotated easily on the bolts 87 and 88 via bearings 90.
  • the levers 85 and 86 enclose the tongue 89 in a fork shape.
  • a cam roller 92 scanning a control cam 91 controls the spindle 83.
  • the control movement is transmitted from the cam roller 92 via the roller lever 93, the control spindle 94 and the tappet levers 95 and 96 with tappet 97 (FIGS. 5 and 1). .
  • the acting as a template plate 98 sits on small piston 99 and 100 (Fig. '3) which run in guides 101 and 102, which in turn are fastened on spring sleeves 103 and 104. Compression springs 105 support the pistons 99 and 100. As can be seen most clearly from FIG.
  • the tongue 89 together with the plate 98 does this on a circular path by the cutting device above a desired length cut-off piece of wire by the gripper 79, 8 0, the gripper with its tongues 79 and 80 at a lower peripheral speed than the plate 98 and the tongue 89 is rotated in opposite directions.
  • the tongue 89 and the plate 98 are in the rest position during the takeover process.
  • the wire piece is therefore only taken over as a result of the greater peripheral speed of the tongues 89 and the plate 98, the wire piece being pulled out of the tongues 79 and 80 of the gripper.
  • the tongue 89 acting as a patrix leads to a rapid downward movement due to the shape of the control cam 91, i. H. into the interior of the cylinder, with the tongue 89 pulling the piece of wire between the legs of the plate 98 which serves as a matrix and is still in the rest position.
  • the springs 105 form the abutment.
  • the plate 98 is provided with grooves 106, which serve as leg guides during the staple formation. The plate 98 remains at rest until the temporary end of the rapid downward movement of the tongue 89, while the tongue 89 swivels slightly and pulls the wire into the grooves 106 of the plate 98 with its lower slope.
  • the bracketing is now complete.
  • the middle picture in FIG. 6 represents this point in time.
  • the back of the clamp comes to rest on the bridge 107, which has a corresponding groove.
  • the staple now formed approaches with the guides enclosing it on all sides, internally through the tongue 89 and externally through the plate 98, the paper web 112, which rests on a counter cylinder 108 (FIG. 2) preferably out as a collecting cylinder forms is located.
  • the downward movement of the tongue 89 has been greatly reduced.
  • it takes the plate 98 into the interior of the stitching cylinder 136.
  • the stops for driving form the rollers 109, which sit on the elongated pin 87.
  • the rollers 109 approach the stops 110 on the pistons 99 and 100 and take them with them as gently as possible and, by rolling, compensate for the relative movement between the circular path of the pin 87 and the straight path of the pistons 99 and 100.
  • the stops on the tongue 89 extend over the largest possible angle of rotation of the stapling cylinder 136, starting from the rapid downward movement immediately after taking over the piece of wire until it hits the paper web 112 (FIG. 6).
  • the rollers 109 for damping are preferably made of an elastic, but high-strength, tough plastic.
  • the wire feed is offset by 180 ° from the puncture points, as shown in FIG. 2.
  • FIG. 6 shows the course of the insertion into the paper web 112. H. into the inside of the stapling cylinder 136. It can clearly be seen how the clamp legs 111 are supported on the inside by the tongues 89 and on the outside by the plate 98 in the form of a male-female guide. This support or guidance is available until just before the puncture end point. It effectively prevents the legs from buckling during the piercing process.
  • the tongue 89 and the plate 98 are returned to the starting position for receiving the next piece of wire, as shown in FIG. 2.
  • the stops 110 FIG. 3
  • This approach to the guide 101 to 102 takes place again, in the opposite manner to the downward movement, at the lowest possible speed in order to mitigate the impact.
  • the largest possible area of the rotation angle of the stapling cylinder 136 is used.
  • the stapling device is adapted to different paper thicknesses only by adjusting the bridge 107 in the longitudinal direction of the staple legs, ie by raising or lowering the position, the center of the stapling cylinder 136 not being changed.
  • the bridge 107 is connected to a carrier 114, which preferably carries two bridges 107 for the two stapling members used, as shown in FIG. 1.
  • the carrier 114 sits on an inclined plane 115 of a holder 116.
  • the holder 116 again preferably has two inclined planes 115, which are offset by 180 ° to one another, so that the carrier 114 required for the second stapling members, the to the two stapling elements shown in FIG. 1 are offset by 180 ° on the stapling cylinder 136, can also be moved.
  • the holder 116 with the inclined plane 115 is moved back and forth via a linkage 117, which is arranged in the cylinder axis 7, with the aid of an adjusting device (FIG. 1).
  • the axial bearing 118 simultaneously permits a rotating movement of the stapling cylinder 136 if the control movement is initiated by a handwheel 119, which can also be automated by means of an electric motor, via the threaded bushing 121 which is supported radially in the housing 120 but is axially movable. It is thus possible to correct the adjustment 136 while the stapling cylinder is running.
  • the carrier 114 is supported laterally by the guides 101 and 102 (FIG. 2); while the spring 123 (FIG. 1), which is held by the bolt 124, presses the carrier 114 onto the inclined plane 115 and thus holds it against the centrifugal force. At higher centrifugal forces, for example, a T-groove-shaped encirclement of carrier 114 and inclined plane 115 is also conceivable.
  • the lower suspension point of the four-bar linkage is mounted in the carrier 114 as an eccentric bolt 84. It therefore takes part in the upward and downward movement when adjusting the carrier 114. This changes the deflection of the tongue 89 so that it is the is also adapted to the changed position of the bridge 107 - and that, in addition, an optimal guidance of the clamp legs adapted to the adjustment is made possible in the area of the piercing.
  • the eccentric bolt 84 allows the tongue to be adjusted to a certain extent.
  • the receiving point for the piece of wire is not changed since the lever 85 and the plate 98 remain at rest.
  • the pivoting of the tongue 89 is minimal since the lower suspension point 84 of the four-bar linkage hardly results in a deflection of the lower suspension point of the tongue 89 during an up and down movement.
  • control cam 91 is slightly rotated after adjusting the various staple leg lengths via the hand crank 32 (FIG. 1) with the help of the extended spindle 31 of the bevel gears 125 and the pinion shaft 126 Clamping ring 127 has been released.
  • the tongue 89 then begins the downward movement a little later, as a result of which the length of the guide during the insertion is lengthened and thus improved. Since the control cam 91 has a radius in the area of the takeover that runs concentrically to the radius of the stitching cylinder 136, the position of the tongue 89 is not changed here.
  • the downward movement of the tongue 89 is designed immediately after taking over the piece of wire so that the clamp with the longest legs are completely drawn into the plate 98 designed as a die. This path is always covered, even when using brackets with shorter legs.
  • the tongue 89 and the plate 98 as a matrix with the grooves 106 are dimensioned accordingly.
  • the devices for stapling and guiding are fastened on the plate 128, which together with the bearing blocks 129 for the control spindle 83 forms an easily exchangeable cassette, which is shown here, for example, in a two-part knife cylinder, the knife bar 131 of which are used.
  • the staple cassette is driven via the cylinder axis 7 of the knife cylinder 136 and works via a gear 130 with the folding knife system, e.g. B. a collecting cylinder, together, while interchangeable cutter bars 131 sit on sleeves 132 and 133 and are connected via a gear 134 to the puncture system of the collecting cylinder 108.
  • the stapling cylinder 136 is fixedly mounted in the side walls 77 and 78.
  • the wire feeder is fastened as a compact unit to a carrier 76 and is easily removable if corresponding plug connections are provided in the spindles 31 and 135 (FIG. 5).

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)
  • Dovetailed Work, And Nailing Machines And Stapling Machines For Wood (AREA)
EP19800104178 1979-08-13 1980-07-17 Dispositif de brochage pour machines d'impression Expired EP0023985B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE2932757 1979-08-13
DE19792932757 DE2932757C2 (de) 1979-08-13 1979-08-13 Heftvorrichtung für Druckmaschinen

Publications (2)

Publication Number Publication Date
EP0023985A1 true EP0023985A1 (fr) 1981-02-18
EP0023985B1 EP0023985B1 (fr) 1984-02-15

Family

ID=6078352

Family Applications (1)

Application Number Title Priority Date Filing Date
EP19800104178 Expired EP0023985B1 (fr) 1979-08-13 1980-07-17 Dispositif de brochage pour machines d'impression

Country Status (2)

Country Link
EP (1) EP0023985B1 (fr)
DE (1) DE2932757C2 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1988006563A1 (fr) * 1987-03-03 1988-09-07 Karlsson Karl Olov Dispositif de couture pourvu d'unites de couture mobiles les unes par rapport aux autres
EP1764199A2 (fr) * 2005-09-19 2007-03-21 Heidelberger Druckmaschinen AG Dispositif d'agrafage
CN100415536C (zh) * 2005-12-31 2008-09-03 天津大学 全自动打孔装订设备及其方法

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3226907C2 (de) * 1982-07-17 1986-08-07 M.A.N.- Roland Druckmaschinen AG, 6050 Offenbach Falz- und Klebevorrichtung für eine Rollenrotationsdruckmaschine
DE4227930A1 (de) * 1992-08-22 1994-02-24 Frankenthal Ag Albert Vorrichtung zum Schneiden und Heften von mehrlagigen Druckprodukten in Falzapparaten
WO1996036492A1 (fr) * 1995-05-20 1996-11-21 Koenig & Bauer-Albert Ag Dispositif de brochage
DE19518652C2 (de) * 1995-05-20 1999-08-12 Koenig & Bauer Ag Vorrichtung zum Heften von Signaturen

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1068217B (de) * 1959-11-05 Maschinenfabrik Augsburg-Nürnberg A.G., Augsburg Drahtheftmaschine mit selbsttätiger Klammeibildung an Druckmaschinen
US3040324A (en) * 1960-02-24 1962-06-26 Wood Newspaper Mach Corp High speed stitcher
DE1240890B (de) * 1962-09-14 1967-05-24 Albert Schnellpressen Heftzylinder fuer den Heftapparat von Rotations-Druckmaschinen
DE1561092A1 (de) * 1966-09-27 1970-01-08 Plauener Druckmaschinenwerk Pl Heftvorrichtung fuer Rotationsdruckmaschinen
US3653570A (en) * 1970-05-15 1972-04-04 Strachan & Henshaw Ltd Stitching machine

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2224743A (en) * 1937-10-07 1940-12-10 Goss Printing Press Co Ltd Rotary stitcher

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1068217B (de) * 1959-11-05 Maschinenfabrik Augsburg-Nürnberg A.G., Augsburg Drahtheftmaschine mit selbsttätiger Klammeibildung an Druckmaschinen
US3040324A (en) * 1960-02-24 1962-06-26 Wood Newspaper Mach Corp High speed stitcher
DE1240890B (de) * 1962-09-14 1967-05-24 Albert Schnellpressen Heftzylinder fuer den Heftapparat von Rotations-Druckmaschinen
DE1561092A1 (de) * 1966-09-27 1970-01-08 Plauener Druckmaschinenwerk Pl Heftvorrichtung fuer Rotationsdruckmaschinen
US3653570A (en) * 1970-05-15 1972-04-04 Strachan & Henshaw Ltd Stitching machine

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1988006563A1 (fr) * 1987-03-03 1988-09-07 Karlsson Karl Olov Dispositif de couture pourvu d'unites de couture mobiles les unes par rapport aux autres
EP1764199A2 (fr) * 2005-09-19 2007-03-21 Heidelberger Druckmaschinen AG Dispositif d'agrafage
EP1764199A3 (fr) * 2005-09-19 2008-08-13 Heidelberger Druckmaschinen AG Dispositif d'agrafage
CN100415536C (zh) * 2005-12-31 2008-09-03 天津大学 全自动打孔装订设备及其方法

Also Published As

Publication number Publication date
DE2932757C2 (de) 1982-03-25
EP0023985B1 (fr) 1984-02-15
DE2932757A1 (de) 1981-02-26

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