Paper web folding and cutting apparatus

Information

  • Patent Grant
  • 6669617
  • Patent Number
    6,669,617
  • Date Filed
    Thursday, September 24, 1998
    26 years ago
  • Date Issued
    Tuesday, December 30, 2003
    20 years ago
Abstract
A paper web folding and cutting apparatus for a form printing machine includes a paper web traveling path which enables a continuous paper web to travel at a predetermined traveling speed. A cut portion forming device is disposed on the paper web traveling path and is adapted to form a cut portion formed in a line of a plurality of cuts. Each line of the cuts has at least one uncut portion, at every top and bottom directional dimension of the continuous paper web to be folded. Also, an oscillatory shooter assembly is disposed on the paper web traveling path on a downstream side of the cut forming means in a paper web traveling direction. The oscillatory shooter assembly is provided with a counter roller and a nozzle roller at a lower end portion thereof. The rollers are rotated at a peripheral speed which is faster than the paper web traveling speed, and the nozzle roller is movable into and out of contact with the counter roller. The oscillatory shooter assembly performs an oscillatory motion in a bilateral direction with the continuous paper web interposed between the nozzle roller and the counter roller so as to fold, in a zigzag fashion, the continuous paper web along the cut portions. According to this structure, the continuous paper web is cut along the cut portions by pressing the nozzle roller against the counter roller at a timing when the cut portion to be cut approaches an upstream side portion of both the nozzle roller and the counter roller.
Description




BACKGROUND OF THE INVENTION




The present invention relates to a paper web folding and cutting apparatus particularly for a form printing press.




In a form printing press, a continuous web of paper is fed in a predetermined direction and, during this feeding, the continuous web of paper is sequentially printed and worked. Thereafter, the continuous web of paper is folded in a zigzag fashion by a folding and cutting apparatus including an oscillatory shooter assembly and is then cut into a predetermined number of pieces, of having a sheet or strip shape, and are then discharged.




The folding and cutting apparatus has a structure in which the continuous web paper is swung bilaterally by the oscillatory shooter assembly which swings bilaterally like a pendulum in a perpendicular plane, and according to such motion of the oscillatory shooter assembly, the continuous web of paper is worked or bent in a zigzag fashion at the folded portion, and then the paper is then piled.




The folded and piled continuous web of paper is thereafter cut into a predetermined number of sheets such as 500 sheets in one set, discharged on a conveyer, then packaged and shipped.




In a conventional form printing press, in order to fold the continuous web of paper, it is always required, at the working section, to form a cross line of perforations to top and bottom positions for folding of the continuous web paper for one sheet or strip before feeding to a folding apparatus and it is then folded by the folding apparatus. For example, Japanese Patent Publication No. HEI 8-18750 discloses a technique such that the continuous web of paper is automatically cut by means of a cutter knife along the cross line of perforations with a timing coincident with the folding of the continuous web of paper in the predetermined number of sheets, or Japanese Utility Model Laid-open Publication No. HEI 5-41811 discloses a technique such that the continuous web of paper is folded in a predetermined number of sheets and, then, the folded continuous web paper is cut along the cross line of perforations by pressing, against the continuous web of paper, a press roller and a tension roller rotating at a peripheral speed which is faster than a traveling speed of the continuous web of paper and then pulling the continuous web of paper to cut the same. Furthermore, Japanese Patent Laid-open Publication HEI 9-76460 discloses a technique in which cuts or notches are formed on and along the cross line of perforations of the continuous web of paper in an overlapped manner in coincidence with a timing of every predetermined number of sheets of the folded continuous web of paper. And, thereafter, a roller rotating at a peripheral speed which is faster than a travelling speed of the continuous web of paper is pressed against the continuous web of paper to thereby cut along the cut and the cross line of perforations.




As mentioned above, in the conventional folding and cutting apparatus of the form printing presses, it is always necessary to form cross lines of perforations to in the continuous web of paper, and then fold and cut the web along the cross lines of perforations.




However, in the conventional techniques mentioned above, the folding line coincides with the cross line of perforations, and hence, the thickness of the folded portion becomes larger than a combined thickness of two sheets of the continuous web of paper (called hereinlater, continuous paper web or simply paper web). Therefore, a set product of the folded and discharged continuous paper web has a protuberant portion at the folded portion along the cross line of perforations (i.e. both ends in the width direction of the folded paper web) and an upper surface of the product will be curled. If such curled product is fed for the next working such as bookbinding working, a certain trouble will be caused. Accordingly, in order to eliminate such trouble, it has been required to press down the curled portion manually or with pressing means so as to flatten the upper surface of the set product.




Furthermore, in a case where the cuts or notches are newly formed on the cross line of perforations, it is necessary to prepare, in addition to a cross line perforation forming means, a cutting means for forming the cuts and a control means for controlling the operations of contacting or separating the cutting means to or from an impression cylinder of a printing press, which will result in an undesired increase in costs.




SUMMARY OF THE INVENTION




An object of the present invention is to substantially eliminate defects or drawbacks encountered in the prior art mentioned above and to provide a folding and cutting apparatus of a form printing press, without the necessity of forming cross lines of perforations, capable of preventing a formation of a protuberant portion at a folded portion of a set product, which is then cut and discharged to thereby prevent any curled portion from being formed and easily cutting a continuous web of paper at predetermined positions.




This and other objects can be achieved according to the present invention by providing a paper web folding and cutting apparatus, comprising:




a paper web traveling path enabling a continuous paper web to travel at a predetermined traveling speed;




a cut portion forming means disposed on the paper web traveling path and adapted to form a cut portion formed as a line of a plurality of cuts, having at least one uncut portion, at every top and bottom directional dimension of the continuous paper web to be folded; and




an oscillatory shooter assembly disposed on the paper web traveling path at a portion downstream side of the cut forming means in a paper web traveling directions. The oscillatory shooter assembly is provided with a counter roller and a nozzle roller at a lower end portion thereof. The counter roller and nozzle roller are rotated at a peripheral speed that is faster than the paper web traveling speed. The nozzle roller is contacted to and separated from the counter roller, and the oscillatory shooter assembly performs an oscillatory motion in a bilateral direction in a state that the continuous paper web is interposed between the nozzle roller and the counter roller so as to fold, in a zigzag fashion, the continuous paper web along the cut portions.




The continuous paper web is cut along the cut portions by pressing the nozzle roller against the counter roller at a timing just prior to when the cut portion to be cut approaches an upstream side portion of both the nozzle roller and counter roller.




In a preferred embodiment, the cut portion forming means for forming a cut portion comprises a paper web cut path disposed on an upstream side of the oscillatory shooter assembly and a cut cylinder assembly composed of an impression cylinder and a cut cylinder which are arranged on both sides of the paper web cut path in an opposed manner. The impression cylinder and the cut cylinder have substantially the same diameter and are rotated at the same peripheral speed in a paper web traveling direction with the continuous paper web being interposed therebetween. A cutting blade is mounted on the cut cylinder so as to extend in a longitudinal direction thereof for forming a line of cuts as the cut portion along which the continuous paper web is folded and cut. The cutting blade is formed with at least one cutout for forming at least one uncut portion at the cut portion.




The nozzle roller is supported by a frame member through a bearing means so as to be rotatable and a rotational center of the bearing means with respect to the frame member is offset from a rotational center of the nozzle roller.




The folding and cutting apparatus further includes a controller for controlling the timing for pressing the nozzle roller against the counter roller. The nozzle roller is pressed against the counter roller at a timing when a plurality of set sheets of the continuous paper web are folded by the oscillatory shooter assembly.




The folding and cutting apparatus of the characters described above is particularly applicable to a form printing press.




According to the present invention of the structures described above, the portion of the continuous paper web to be folded by the oscillatory shooter assembly is composed of a cut portion of a line having a long cut-in length and a small uncut portion in comparison with the formation of a cross line of perforations, which is a line composed of continuous fine holes, so that the continuous paper web can be bent and folded with no protuberant portion at the bent portion. The set of products discharged after the cutting do not produce any expanded or protuberant portion as well as no clearance, in which air may stay, between the piled folded portions, thus providing a product with no curl. Accordingly the operations and workings can be made easy and simple and members or parts to be used, such as a perforated cross line forming device, can be effectively reduced.




Furthermore, the continuous paper web can be easily cut at a predetermined portion along the long cuts.











The nature and further characteristic features of the present invention will be made more clear from the following descriptions with reference to the accompanying drawings.




BRIEF DESCRIPTION OF THE DRAWINGS




The present invention will become more under-standable from the following detailed description and with reference to the accompanying drawings representing a preferred embodiment of the present invention. Further, the embodiment shown in the drawings does not limit the present invention and is provided merely for the explanation and easy understanding of the present invention.




In the accompanying drawings:





FIG. 1

is schematic view showing a structure of one embodiment of a paper folding and cutting apparatus of a form printing press according to the present invention;





FIG. 2

is a front view of an oscillatory shooter assembly of the apparatus of

FIG. 1

;





FIG. 3

is a schematic structural view of a nozzle roller of the apparatus of

FIG. 1

;





FIG. 4

is a horizontal sectional view of the nozzle roller;





FIG. 5

is a schematic structural view of a cut cylinder assembly of the apparatus of

FIG. 1

;





FIG. 6

is a sectional view of the cut cylinder assembly;





FIG. 7

is a sectional view taken along the line VII—VII in FIG.


6


:





FIG. 8

is a plan view showing a cutting blade of the apparatus of

FIG. 1

;





FIG. 9

is a front view of a portion of a continuous web of paper formed with a line of cuts; and





FIG. 10

is a timing chart for operation of the apparatus of FIG.


1


.











DESCRIPTION OF THE PREFERRED EMBODIMENT




A paper folding and cutting apparatus according to one preferred embodiment of the present invention preferably applicable to a form printing press will be described hereafter with reference to the accompanying drawings.




In the drawings, reference numeral


1


denotes a continuous web of paper (called hereinafter, continuous paper web, or simply, paper web), on which a predetermined picture pattern or the like is printed at a printing section not shown. Cut marks are marked to positions of every predetermined numbers of sheets for cutting, each consisting of a portion between one and next positions to be folded of the continuous web paper, by a marking member, not shown. The continuous paper web has no perforated cross lines as in the prior art.




Reference numeral


2


denotes a paper folding and cutting apparatus for folding the continuous paper web


1


with predetermined top and bottom dimensions and cutting the paper web


1


at the portion to be folded, at which the marking is made.




The continuous paper web


1


is fed along a paper web traveling path at a predetermined traveling speed.




The folding and cutting apparatus


2


is provided with an oscillatory shooter assembly


3


, which is swingable in a pendulum motion in a perpendicular plane about a rotation fulcrum O


1


by a driving means, not shown. As shown in

FIG. 2

, a counter (pressure receive) roller


4


and a nozzle roller


5


opposed thereto are mounted on a front end portion of the oscillatory shooter assembly


3


.




The nozzle roller


5


and an associated structure is shown in

FIG. 3

or

FIG. 4

in which the counter roller


4


is supported by a shooter frame


6


. The nozzle roller


5


is rotatably supported by the shooter frame


6


through a bearing box


7


. The rotational center O


2


of the bearing box


7


with respect to the shooter frame


6


is slightly offset by an amount δ


1


of eccentricity, for example, about 1 mm, with respect to the center of a bearing


7




a


received in the bearing box


7


, that is, the rotational center O


3


of the nozzle roller


5


.




An arm member


8


is provided for the bearing box


7


and an operation (working) cylinder


9


is coupled to the arm member


8


. In the structure mentioned above, when the operation cylinder


9


is expanded or contracted, the bearing box


7


is rotated and the nozzle roller


5


is moved in a contacting direction contacting to (towards) or a separating direction (away) relative to the counter roller due to the existence of the amount δ


1


of eccentricity.




That is, when the operation cylinder


9


is contracted, the nozzle roller


5


is moved to a position separated from the counter roller


4


by a small distance such as a distance further smaller than a thickness of the continuous paper web


1


, this position being a called “first position”. On the other hand, when the operation cylinder is extended, the nozzle roller is moved to a position forcibly contacting the counter roller


4


, this position being called a “second position”.




As shown in

FIG. 2

, a driven (follower) pulley


10


is secured to one end of a shaft to which the nozzle roller


5


is mounted, and the driven pulley


10


is coupled to a driving pulley


11


, through a belt


12


, which is disposed coaxially with the rotation fulcrum O


1


of the oscillatory shooter assembly


3


. The driving pulley


11


is coupled to a power shaft of the folding and cutting apparatus


2


by means of a coupling member, not shown, in a manner such that the nozzle roller


5


is rotatably driven at a peripheral speed that is faster than the traveling speed of the continuous paper web


1


.




The counter roller


4


and the nozzle roller


5


are coupled together by means of gears


4




a


and


5




a


so as to rotate together in the traveling direction of the paper web


1


at the same peripheral speed. Further, it is to be noted that although the gearing conditions of these gears


4




a


and


5




a


are changed by the eccentric motion of the nozzle roller


5


, it causes substantially no problem because of extremely small change of the gearing condition.




As shown in

FIG. 1

, a pair of beaters


13


,


13


and a pair of screws


14


,


14


are arranged, respectively, on both sides of the swinging direction of the oscillatory shooter assembly


3


. The beaters


13


,


13


and the screws


14


,


14


are operated in synchronism with the oscillatory motion of the oscillatory shooter assembly


3


so as to fold the continuous paper web


1


delivered from the shooter assembly


3


. These structures are substantially the same as conventional structures. Further, reference numeral


15


denotes a conveyer.




An upstream side of the oscillatory shooter assembly


3


on the paper web traveling path is constructed as a paper web cut path


17


having a perpendicular structure from the oscillatory shooter assembly


3


to a pull roller


16


. An impression cylinder


18


and a cut cylinder


19


, which constitute a cut cylinder assembly


20


, are arranged in an opposing manner with the paper web cut path


17


being interposed therebetween.




The cut cylinder assembly


20


has a structure shown in

FIGS. 5

to


7


, in which both end portions of the impression cylinder


18


and the cut cylinder


19


are respectively supported by front and rear frames


23


so as to be rotatable through bearing boxes


21


and


22


in which bearings


21




a


and


22




a


are housed. In the illustrated example, the impression cylinder


18


and the cut cylinder


19


have the same diameter. Gears


24


and


25


are mounted on the impression cylinder


18


and the cut cylinder


19


, respectively, and the gear


24


mounted on the impression cylinder


18


is meshed with a driving gear


26


. The impression cylinder


18


and the cut cylinder


19


are rotatably driven by driving gear


26


through the gears


24


and


25


at the same peripheral speed in the traveling direction of the paper web


1


in a manner such that opposing surfaces of cylinders


18


and


19


clamp the paper web


1


therebetween. The bearings


21




a


and


22




a


supporting the impression cylinder


18


and the cut cylinder


19


may be arranged so as to be directly supported by the frames


23


,


23


.




The cut cylinder


19


is provided with a groove


28


formed in a peripheral surface thereof so as to extend in a longitudinal, i.e. axial, direction of the cut cylinder. Also, a full-edge-type cutting blade


27


, having a length extending over the full length of the cut cylinder


19


, is fitted in the groove


28


and secured by a push plate


29


and a push bolt


30


. The cutting blade


27


projects outward from the peripheral surface of the cut cylinder


19


by a length corresponding to a clearance S between the impression cylinder


18


and the cut cylinder


19


.




The cutting blade


27


has a structure shown in FIG.


8


and is provided with a blade edge


27




a


formed along the entire length of the blade


27


with at least one, for example, two in the illustration of

FIG. 8

, cutout


31


having a depth that is greater than the projecting length S of the blade


27


.




Grooves


32


are formed in the peripheral surface of the cut cylinder


19


at positions corresponding to the cutouts


31


of the blade


27


.




A paper web guide assembly


33


, for guiding the traveling of the continuous paper web


1


running along the paper web cut path


17


, is arranged to a portion perpendicular to the cut cylinder assembly


20


.




The paper web guide assembly


33


is composed of two guide wires


34




a


and


34




b


arranged oppositely to each other with respect to the paper web cut path


17


which is interposed therebetween. The guide wires


34




a


and


34




b


are disposed in the cutouts


31


formed in the cutting blade


27


, respectively, as shown in

FIGS. 5

to


8


.




Guide roller assemblies


35




a


and


35




b


are provided on upstream and downstream sides of the cut cylinder assembly


20


, respectively. Each roller assembly includes a pair of rollers arranged on opposite sides of the paper web cut path


17


, respectively. Also, a guide device


36


is provided by arranging a plate member between the oscillatory shooter assembly


3


and the lower guide roller assembly


35




b.






A paper web guide path


40


is arranged on the upstream side of the paper web cut path


17


, and the paper web guide path


40


includes pull rollers


16


,


37


, a compensation roller


38


, and guide rollers


39




a


,


39




b


. A mark sensor


41


is disposed at a position close to the guide roller


39




b


between the pull roller


16


and the compensation roller


38


of the paper web guide path


40


.




The cylinder diameter of the cut cylinder


19


of the cut cylinder assembly


20


is determined by the top and bottom dimension of the continuous paper web


1


to be folded as one sheet, i.e. the folding pitch thereof.




That is, the diameter of the cut cylinder


19


is determined such that the peripheral dimension of the cut cylinder


19


is substantially equal to the top and bottom dimension, i.e. folding pitch of the paper web


1


. Also, the rotational phase of the cut cylinder


19


is determined such that the cutting blade


27


abuts against the continuous paper web


1


and performs the cutting operation with the blade edge


27




a


at the time when the folded portion of the continuous paper web


1


is fed to a portion between both cylinders


18


and


19


.




Further, when it is required to change the top and bottom dimension, i.e. folding pitch, the cut cylinder


19


may be exchanged. For this reason, the cut cylinder


19


may have a cassette-type structure capable of being exchanged with respect to the frames


23


of the folding and cutting apparatus


2


, and in such case, the cut cylinder


19


is exchanged together with sub-frames (not shown) for supporting both the ends of the cut cylinder


19


.




Further, it is to be noted that the operations of the respective members and/or assemblies in association with the traveling of the continuous paper web


1


in the described embodiment can be controlled by a control means or the like which is known in this art field in such a manner, for example, that the cut marks of the continuous paper web


1


are counted by a counter, which generates count signals, and operations signals are then generated to the respective members and assemblies through a controller in association with timings indicated by the counter.




The paper web folding and cutting apparatus of the structure according to the embodiment described above will operate in the following manner.




The continuous paper web


1


is fed along the paper web traveling path at a predetermined traveling speed.




The continuous paper web


1


, which is printed and marked in a printing section but has no perforated cross lines, is pulled into the paper web folding and cutting apparatus by means of the pull rollers


16


and


37


. The continuous paper web


1


is fed to the paper web cut path


17


through the pull roller


37


, the guide roller


39




a


, the compensation roller


38


, the guide roller


39




b


and the pull roller


16


in this order. Then, in the cut cylinder assembly


20


, cuts


42


shown in

FIG. 9

are formed at every top and bottom dimension for folding and/or cutting. Following this operation, portions corresponding to the cutouts


31


of the cutting blade


27


remain so as to provide each at least each uncut portion


43


with respect to one line of the cuts


42


. That is, the cut portion is composed of the cuts


42


, which each having a long cut-in length, and small uncut portions


43


, whereas, in the prior art mentioned in the introduction of this specification, the cut portion is composed of a cross line of perforations (fine holes) and the cuts formed in an overlapped manner.




The continuous paper web


1


, provided with the cuts


42


, passes the paper web guide assembly


33


composed of the wires


34




a


,


34




b


and is then delivered in a zigzag fashion from the nozzle roller


5


in accordance with the oscillatory motion of the oscillatory shooter assembly


3


. The continuous paper web


1


is then bent and folded along the cuts


42


and is thereafter piled up above the conveyer by the beaters


13


,


13


and the screws


14


,


14


while pressing down the portions at which the cuts


42


are formed.




During this operation, the continuous paper web


1


is bent and folded at the portions at which the cuts


42


are formed and small uncut portions remain, so that the continuous paper web


1


, formed with cuts


42


and uncuts


43


, can be more easily bent in comparison with paper webs formed with the cross lines of perforations, and moreover, can be folded with less expansion because of the existence of the uncuts


43


, thus being substantially completely folded and piled up. Furthermore, because air can be easily discharged through the cuts


42


, the expansion at the bent portions can be effectively prevented without forming curled portions at the upper surface of folded and piled set products.




In the state mentioned above, when a cut mark on to the continuous paper web


1


is detected by the mark sensor


41


, a detection signal is outputted and the counting of an encoder signal due to this detection signal starts to be counted. And, as the cuts


42


approach the nozzle roller


5


, the operation cylinder


9


of the nozzle roller


5


extends and the continuous paper web


1


is pressed against the counter roller


4


by the nozzle roller


5


.




According to such operation, the portion of the continuous paper web


1


on the downstream side of the cuts


42


thereof is pulled under tension by the nozzle roller


5


and the counter roller


4


and the uncuts


43


are therefore torn. Accordingly, the continuous paper web


1


can be cut along the cut portion formed with the cuts


42


and uncuts


43


.




After the operation mentioned above, the movement of operation cylinder


9


is immediately reversed in the eccentric manner in the direction to release the pressing force of the nozzle roller


5


on the counter roller


4


. Accordingly, the front end portion of the cut continuous paper web


1


is swung outward by the nozzle roller as it is.




On the other hand, the cut portion of the continuous paper web


1


is quickly pressed by means of the beaters


13


,


13


and the screws


14


,


14


, so that the cut paper web can be folded clearly without being disturbed.




The impression cylinder


18


and the cut cylinder


19


of the cut cylinder assembly


20


are connected to an output shaft of a printing press including the folding and cutting apparatus, the rotational speeds of these cylinders


18


and


19


are set so that the peripheral speeds thereof substantially accord with the traveling speed of the continuous paper web


1


, and as previously mentioned the peripheral length of the cut cylinder


19


is made equal to the interval between the bent portions of the continuous paper web


1


.




In the embodiment mentioned above,

FIG. 10

is a timing chart showing the pressing operation of the nozzle roller after the detection of the cut mark by the mark sensor, the non-pressing (releasing) operation of the nozzle roller, and the operation of the operation cylinder for the nozzle roller.




According to the present invention described above by way of the preferred embodiment, the continuous paper web can be bent and folded with no protuberant portion at the bent portion, and the set products discharged after the cutting do not provide any expanded or protuberant portion, thus providing a product with no curl. According to such merits, the operations and workings can be made easy and simple and members or parts to be used can be effectively reduced.




Further, it is self-evident to a person skilled in the art that although the present invention is described hereinbefore with reference to the exemplary embodiments, it is possible to make various changes, deletions and additions to the disclosed embodiment without departing from the subject and scope of the present invention. Accordingly, it is to be understood that the present invention is not limited to the described embodiments and includes scopes or its equivalent scope defined by the elements recited in the appended claims.



Claims
  • 1. A paper web folding and cutting apparatus comprising:a paper web traveling path along which a continuous paper web can travel at a predetermined traveling speed and in a paper web traveling direction; a cutting assembly disposed along the paper web traveling path and adapted to form a line of cuts, having at least one uncut portion, at the top and bottom of each portion of the continuous paper web to be folded; and an oscillatory shooter assembly disposed along the paper web traveling path, said oscillatory shooter assembly being located downstream of said cutting assembly with respect to the paper web traveling direction, said oscillatory shooter assembly including a counter roller and a nozzle roller disposed at a lower end portion of said oscillatory shooter assembly, said counter and nozzle rollers being rotatable at a peripheral speed that is faster than the paper web traveling speed, said nozzle roller being movable into contact with said counter roller and away from said counter roller so as to be separated therefrom, said oscillatory shooter assembly being capable of moving in an oscillatory motion with the continuous paper web interposed between said nozzle roller and said counter roller so as to fold the continuous paper web in a zigzag fashion along each of the lines of cuts formed by said cutting assembly so that each fold coincides with one of the lines of cuts, wherein the continuous paper web is cut along one of the lines of cuts by moving the nozzle roller into contact with the counter roller when the one cut line approaches the vicinity of an upstream side of said nozzle roller and said counter roller.
  • 2. A paper web folding and cutting apparatus as claimed in claim 1, wherein said cutting assembly comprises a cutting cylinder assembly disposed upstream of said oscillatory shooter assembly, said cutting cylinder assembly having a cutting cylinder and an impression cylinder disposed on opposite sides of the paper web traveling path, respectively.
  • 3. A paper web folding and cutting apparatus as claimed in claim 2, wherein said impression cylinder and said cutting cylinder have substantially the same diameter and are rotated at a same peripheral speed in the paper web traveling direction with the continuous paper web being interposed between said impression cylinder and said cutting cylinder.
  • 4. A paper web folding and cutting apparatus as claimed in claim 2, wherein said cutting cylinder includes a cylindrical member and a cutting blade extending longitudinally across said cylindrical member and projecting therefrom for forming each line of cuts along which the continuous paper web is folded and cut, said cutting blade being formed with at least one cutout for forming the at least one uncut portion in each line of cuts.
  • 5. A paper web folding and cutting apparatus as claimed in claim 1, further comprising a frame member and a bearing means, wherein said nozzle roller is rotatably supported by said frame member through said bearing means, and a rotational center of said bearing means is offset relative to a rotational center of said nozzle roller.
  • 6. A paper web folding and cutting apparatus as claimed in claim 1, further comprising a control means for controlling the timing at which said nozzle roller is pressed against said counter roller.
  • 7. A paper web folding and cutting apparatus as claimed in claim 6, wherein said nozzle roller is pressed against the counter roller at a timing when a predetermined number of sheets of the continuous paper web are folded by the oscillatory shooter assembly.
  • 8. A form printing press having a paper web folding and cutting apparatus comprising:a paper web traveling path along which a continuous paper web can travel at a predetermined traveling speed and in a paper web traveling direction; a cutting assembly disposed along the paper web traveling path and adapted to form a line of cuts, having at least one uncut portion, at every top and bottom of each portion of the continuous paper web to be folded, wherein said cutting assembly operates continuously as the continuous paper web travels along the paper web traveling path; and an oscillatory shooter assembly disposed along the paper web traveling path, said oscillatory shooter assembly being located downstream of said cutting assembly with respect to the paper web traveling direction, said oscillatory shooter assembly including a counter roller and a nozzle roller disposed at a lower end portion of said oscillatory shooter assembly, said countermand nozzle rollers being rotatable at a peripheral speed that is faster than the paper web traveling speed, said nozzle roller being movable into contact with said counter roller and away from said counter roller so as to be separated therefrom, said oscillatory shooter assembly being capable of moving in an oscillatory motion as the continuous paper web is interposed between said nozzle roller and said counter roller so as to fold the continuous paper web in a zigzag fashion along the cut lines formed by said cutting assembly so that each fold coincides with one of the cut lines, wherein the continuous paper web is cut along the cut lines by moving the nozzle roller into contact with the counter roller when one of the cut lines approaches an upstream side of said nozzle roller and said counter roller.
  • 9. A form printing press having a paper web folding and cutting apparatus comprising:means for feeding a non-perforated continuous paper web along a paper web traveling path such that the continuous paper web travels at a predetermined traveling speed and in a paper web traveling direction; a cutting assembly disposed along the paper web traveling path and adapted to form a line of cuts in the non-perforated continuous paper web, the line of cuts having at least one uncut portion, at every top and bottom of each portion of the continuous paper web to be folded, wherein said cutting assembly operates continuously as the continuous paper web travels along the paper web traveling path; a paper web guide assembly, disposed along the paper web traveling path immediately upstream of said cutting assembly, for guiding the non-perforated continuous web into said cutting assembly; and an oscillatory shooter assembly disposed along the paper web traveling path, said oscillatory shooter assembly being located downstream of said cutting assembly with respect to the paper web traveling direction, said oscillatory shooter assembly including a counter roller and a nozzle roller disposed at a lower end portion of said oscillatory shooter assembly, said counter and nozzle rollers being rotatable at a peripheral speed that is faster than the paper web traveling speed, said nozzle roller being movable into contact with said counter roller and away from said counter roller so as to be separated therefrom, said oscillatory shooter assembly being capable of moving in an oscillatory motion as the continuous paper web is interposed between said nozzle roller and said counter roller so as to fold the continuous paper web in a zigzag fashion along the cut lines formed by said cutting assembly so that each fold coincides with one of the cut lines, wherein the continuous paper web is cut along the cut lines by moving the nozzle roller into contact with the counter roller when one of the cut lines approaches an upstream side of said nozzle roller and said counter roller.
  • 10. A form printing press as claimed in claim 9, further comprising a control means for controlling the timing at which said nozzle roller is pressed against said counter roller.
Priority Claims (1)
Number Date Country Kind
9-269598 Oct 1997 JP
US Referenced Citations (5)
Number Name Date Kind
5076555 Bunch, Jr. Dec 1991 A
5201700 Meschi Apr 1993 A
5348527 Beckwith Sep 1994 A
5616113 Van Den Bergh Apr 1997 A
5800327 Kishine et al. Sep 1998 A
Foreign Referenced Citations (5)
Number Date Country
0 764 492 Mar 1997 EP
5-41822 Jun 1993 JP
8-18750 Feb 1996 JP
9-76460 Mar 1997 JP
09-076460 Sep 1997 JP