Former

Information

  • Patent Grant
  • 6544160
  • Patent Number
    6,544,160
  • Date Filed
    Friday, November 17, 2000
    24 years ago
  • Date Issued
    Tuesday, April 8, 2003
    21 years ago
Abstract
A former is used to fold webs longitudinally. During the web drawing-in process, the individually incoming paper webs in a group of paper webs are conveyed smoothly to a folding mechanism at the end of the former. This is accomplished by using a number of upper and lower transport elements which are located above and next to each other at least inside the boundaries of the upper surface of the former. These upper and lower transport elements can be brought together and can be separated. They can be driven as desired.
Description




FIELD OF THE INVENTION




The present invention relates to a former for folding one or a plurality of paper webs which are placed on top of each other. The former has at least one lateral guide element in addition to a former plate.




DESCRIPTION OF THE PRIOR ART




A device for the automatic feeding of a start of a paper web is known from DE 196 12 924 A1, wherein the paper web is guided over turning bars or is fed to a former by means of endless driven conveyor belts.




DE-AS 11 41 650 describes a former with conveying rollers for webs of material.




JP 06-247622 A discloses a former with rotating guide elements for reduction of the friction between the former and the web.




GB 862 296 A and EP 0 415 077 A1 each disclose a former with driven conveying means located in the interior. These conveying means convey sheets or webs in the conveying plane of the not yet folded sheets or webs.




SUMMARY OF THE INVENTION




The object of the present invention is based on providing a former. This object is attained by providing a former for longitudinally folding one or several webs which are placed on top of each other. The former has one or two lateral guide elements in addition to the former plate.




The advantages which can be achieved by means of the present invention lie, in particular, in that in the course of the draw-in process of a paper web into the web-fed rotary printing press, the paper webs of a paper web train are automatically fed to the folding unit. Introduction or re-introduction of individual paper webs can take place at the speed of the press. In the course of this, the paper webs are each guided with prestress between conveyor belts or conveying devices. These conveying devices act on both sides of the outer paper web, so that the interiorly located paper webs are carried along, clamped by the conveyor belts or conveying devices. A displacement of the paper webs themselves and therefore a blockage in the area of the former inlet is avoided by this. It is moreover advantageous that the paper webs can be conveyed up to the folding rollers, even as a train, where they are grasped by the latter and fed to the folding unit.




The paper webs guided by the belt guide devices have a stabilized running direction, so that a lateral excursion, and therefore interruptions of the sequence are prevented. The belt guide device of the present invention can also be employed for removing malfunctions with the running of the webs in the paper web feed device, or in the course of malfunctions with the running of the paper during the draw-in of the paper webs in the folding area.




The conveying means are aligned so they work in, or approximately in, the production direction.




In accordance with a variation of the present invention, lateral guide elements are provided, and extend on both sides of the lateral boundaries of the former surface as far as, or into the vicinity of the respective former roller.




A number of upper and lower conveying means, which are arranged above each other, are provided within the boundaries of the lateral guide elements.




Here, the upper and lower conveying means can be brought into and out of contact with each other and can be selectively driven.




In accordance with a first preferred embodiment of the present invention, a number of conveyor belts, which point in the direction of the surface of the lateral guide elements and which can be charged with suction air, are provided within the boundaries of the lateral guide elements.




In accordance with a second preferred embodiment, the conveying means consist of driven or of non-driven conveying rollers. In this embodiment, the lower and upper driven conveying rollers can act together, for example, or upper conveying rollers can work together with lower suction belts.




In accordance with a third preferred embodiment, the conveying means consist of driven driving or conveying chains.




In accordance with a fourth preferred embodiment, the conveying means can also consist of driven V-belts, flat belts or toothed belts.




A cover, which has slits for the lower conveying means, is suitably provided between the boundaries of the former.




Slits which expose the lower conveying means are also provided in the surfaces of the lateral guide elements.




It is advantageous if an outer paper guide plate is assigned to each of the lateral guide elements and is spaced apart from them. In this configuration, slits are provided in the outer paper guide plate for making access of the upper conveying means to the lower conveying means possible.




It might possibly be sufficient if a paper deflection device, which surrounds the lateral boundaries in the form of a shell, is provided along the lateral boundaries of the former and is spaced apart from them.




It is moreover practical that a paper guide device is provided which is also spaced apart from the former surface and covers it either completely or partially. In this case, the paper guide device arranged in the area of the former surface is provided with suitable slits for making access of the upper conveying means to the lower conveying means possible.




In accordance with a last preferred embodiment, it is also possible that the outer paper guide plate, which covers the lateral guide elements, and the portion of the outer paper guide device covering the former surface, are connected in the area of the lateral deflection elements, or adjoin each other without being connected.











BRIEF DESCRIPTION OF THE DRAWINGS




Preferred embodiments of the present invention are represented in the drawings and will be described in greater detail in what follows.




Shown are in:





FIG. 1

, a front plan view of a former with a paper draw-in system in the position of rest in accordance with the present invention,





FIG. 2

, a lateral view in accordance with

FIG. 1

, partially in section, and without the conveying rollers in the left former cheek,





FIG. 3

, a section view taken along line III—III in

FIG. 1

,





FIG. 4

, an enlarged representation of the former outlet in accordance with

FIG. 1

,





FIG. 5

, a lateral view of a further preferred embodiment of the conveying devices in the position of rest and,





FIG. 6

, a sectional representation taken along line VI—VI of

FIG. 1 through a

longitudinal former analogous to

FIG. 3

, but with the further variation of the conveying devices and in the working position.











DESCRIPTION OF THE PREFERRED EMBODIMENTS




A longitudinal former, identified as former


1


in what follows, is seen in FIG.


1


and for example consists of a triangularly designed former plate


8


, which tapers in the running direction of a paper web


2


,


3


,


4


or


5


in the direction toward the former nose


7


and has a surface


10


. The former plate


8


has generally conventional deflecting elements


15


,


20


, which are arranged on both sides, which can be charged with blown air, and which contain bores


9


. The bores


9


in the deflecting elements


15


,


20


are directed against the paper webs


2


to


5


inside of a deflecting surface


67


of approximately 90°, as seen in

FIG. 3

, and which is in the form of a segment of a circle and points in the direction of the paper webs


2


to


5


. The deflecting elements


15


,


20


consist of a hollow profile, for example a tube, preferably a metal tube. Viewed in the running direction A of the paper webs


2


to


5


, a former inlet roller


14


is arranged directly in front of the former inlet, is seated in lateral frames


11


,


12


and can be driven by means of a motor


13


. Moreover, two known, former folding rollers


18


,


19


, which are rotatably seated in a frame


16


,


17


, as seen in

FIG. 2

, are arranged offset by 90° in relation to the former inlet roller


14


at the end of the former


1


close to the former nose.




In accordance with a first preferred embodiment, left and right lateral guide elements


21


,


22


, each of which enlarge the former surface and extend parallel with the former folding rollers, are arranged, in addition to the former plate


8


, on both sides of the former plate


8


and on the other side of the deflecting elements


15


,


20


. Each one of the lateral guide elements


21


,


22


is designed to be approximately triangular and, viewed in the running direction A of the paper webs


2


to


5


, has a maximum width b, as seen in

FIG. 2

, in the vicinity of the left or right former folding rollers


18


,


19


. This maximum width b is greater than a maximum width of a longitudinally folded paper web


2


to


5


. The lateral guide elements


21


,


22


extend in the running direction A of the paper webs


2


to


5


. The paper webs


2


to


5


rest against the lateral guide elements


21


,


22


.




In addition to the former plate


8


, the former


1


has at least one lateral guide element


21


,


22


, which is arranged approximately vertically in relation to the former plate


8


.




Driven endless conveying belts


23


,


24


,


25


,


26


, for example, are shown in FIG.


1


and are arranged a few millimeters below the surface


10


of the former plate


8


. Pairs of these conveyor belts


23


to


26


have different lengths and extend, spaced apart from each other, approximately in the running direction A of the paper webs


2


to


5


. The term approximately means, that ends of the conveyor belts


23


,


24


which are close to the former folding rollers and are arranged on the left side of the former plate


8


can be offset toward the left by up to 10°, and the conveyor belts


25


,


26


on the right side can be arranged mirror-reversed offset toward the right by up to 10°—in relation to the conveying direction A, all as shown in FIG.


1


.




By means of respective slits


27


in the surface


10


, the conveyor belts


23


to


26


have contact in the direction of the surface


10


and have holes


28


. The endless conveyor belts


23


to


26


can be motor-driven and their speed can be controlled, and they are each conducted over belt guide boxes


29


.




In accordance with a further preferred embodiment, conveying means also extend at the left and right lateral element


21


,


22


, for example respectively two conveyor belts


31


,


32


,


33


,


34


conducted on belt guide boxes


29


which are shown in FIG.


3


. By means of pipe lines


36


, the belt guide boxes


29


are connected with each other, as well as with at least one suction air feed line


37


. An upper belt guide surface


41


, i.e. facing the surface


10


of the former plate


8


or the surface


38


,


39


of the lateral guide elements


21


,


22


, of each belt guide box


29


has perforations, for example longitudinal slits


42


arranged next to each other and behind each other.




The surfaces


10


,


38


,


39


of the former plate


8


, as well as of the lateral guide elements


21


,


22


, are surrounded by a paper guide device


43


, which is located at a distance c of, for example between 10 and 100 mm, from it, or a paper guide plate of a thin flat material, for example sheet metal, so that a conduit


68


of a width c is formed for receiving the paper webs


2


to


5


. In the area near the former folding rollers, the paper guide device


43


can also have slits


69


, as seen in FIG.


2


.




Conveying roller systems


46


to


49


, each having conveying rollers


44


, are located above the conveyor belts


23


to


26


of the former plate


8


. Furthermore, conveying roller systems


51


,


52


and


53


,


54


are arranged above the conveyor belts


31


,


32


or


33


,


34


of the left or right lateral guide elements


21


,


22


. In

FIG. 3

, the conveying roller systems


51


,


52


are shown in the position of rest. Each of the conveying roller systems


46


to


49


and


51


to


54


have holder brackets


56


fastened on the paper guide device


43


, which holder brackets


56


support a number of hinged levers


57


. A conveying roller


44


is seated at each free end of the levers


57


by means of shafts


55


. Each lever


57


bearing a conveying roller


44


can be pressed against the respectively associated conveyor belt


23


to


26


,


31


to


24


, for example by means of a controllable work cylinder


58


that is only depicted in FIG.


2


. To make possible the contact between the conveying rollers


44


and the conveyor belts


23


to


26


,


31


to


34


, appropriate cut-outs or slits


59


have been cut into the jacket-like paper guide device


43


.




The paper guide device


43


can also consist of a grating, for example a fine-meshed wire grille, arranged at a distance c above the surfaces


10


,


38


,


39


.




The respective conveying roller systems


46


to


49


,


51


to


54


can also be designed in such a way that all conveying rollers


44


of a system can be placed against the conveyor belts


23


to


26


,


31


to


34


by means of a common actuating means.




The former


1


furthermore has a paper web feed device


61


in the of the former inlet roller


14


. This paper web feed device


61


is arranged upstream of the former


1


, as viewed in the running direction A of the paper webs


2


,


3


,


4


,


5


, all as shown in FIG.


2


. This paper web feed device


61


can consist of upper and lower guide tongues


64


,


66


, also as shown in

FIG. 2

, which extend at a distance d, for example 50 to 250 mm, from each other in the running direction A of the paper webs


2


to


5


. These guide tongues


64


,


66


are guided around the former inlet roller


14


approximately at a radius of the former inlet roller


14


and an arc of wrap of between 30° to 90°. The guide tongues


64


,


66


are arranged respectively spaced apart next to each other in the axial direction of the former inlet roller


14


.




On their ends near the former folding rollers, each of paper guide devices


43


arranged above the lateral guide elements


21


,


22


has several paper web guide tongues


63


, which project into the former folding roller inlet nip


62


. Forced guidance of the paper webs


2


to


5


into the former folding rollers


18


,


19


is achieved by means of this.




The mode of functioning of the former in accordance with the present invention is as follows: in the course of the sequential draw-in of several paper webs


2


,


3


,


4


,


5


, or when re-introducing one paper web, for example the paper web


3


, the drive mechanisms of the conveyor belts


23


to


26


and


31


to


34


are switched on. At the same time the work cylinders


58


are charged with a pressure medium, so that the conveying rollers


44


of the conveying roller systems


46


to


49


and


51


to


54


act on the conveyor belts


23


to


26


and


31


to


34


, or on the previously drawn-in paper webs


2


,


4


,


5


. The paper web


3


is fed to the former


1


via the paper web feed device


61


, and in the process comes into the draw-in area of the conveyor belts


23


to


26


,


31


to


34


, as well as of the conveying roller systems


46


to


49


,


51


to


54


. These clamp the paper webs


2


,


3


,


4


,


5


and conduct them on the surfaces


10


,


38


,


39


of the former


1


to the former folding rollers


18


,


19


without being backed up.




If necessary, the conveyor belts


23


to


26


can be charged with suction air via the belt guide boxes, the longitudinal slits


42


, as well as the holes


28


. In the process, the lower paper web


5


of the paper web train


2


to


5


is aspirated. The remaining paper webs


2


to


4


are pressed against the lower paper web


5


by the conveying rollers


44


. In the course of this the conveyor belts


23


to


26


,


31


to


41


, which are acted upon by suction air, together with the conveying rollers


44


, form traction areas, which convey the paper web train


2


to


5


, and which also stabilize its direction of running.




In the course of the draw-in process of the paper web, the device in accordance with the present invention can also be switched on in case of web running malfunctions in the paper web feed device, or in case of paper running malfunctions in the folding area. In this case, the conveying rollers are placed on the running paper web and prevent a paper back-up in the paper guide device. Moreover, in case of paper running malfunctions in the folding unit, for example a paper web break during the draw-in process, the paper webs are stabilized in their running direction and cannot drift off laterally.




After the mentioned causes for switching on the device in accordance with the invention have been removed, the conveying rollers


44


will be pivoted back into their position of rest by means of the work cylinders


58


, and the conveyor belts


23


to


26


,


31


to


34


are stopped. Since the tops of the conveyor belts


23


to


26


,


31


to


34


lie slightly below the surfaces


10


,


38


,


39


, they have no contact with one of the paper webs


2


,


3


,


4


or


5


when the belt drive mechanism has been switched off.




In accordance with another preferred embodiment it is possible to provide the conveying roller systems


46


to


49


,


51


to


54


with one motor drive mechanism for each system. It is furthermore also possible to provide each individual conveying roller


44


with a motor drive. The drive mechanisms can be designed to be controllable, so that the circumferential speed of the conveying rollers


44


corresponds to the speed of the conveyor belts


23


to


26


,


31


to


34


, as well as to the speed of the paper webs


2


,


3


,


4


or


5


.




It is, of course, also possible that a partial paper web of only half the paper web width will need to be drawn in. In that case, either only the left conveyor devices


23


,


24


,


31


,


32


, or the right conveyor devices


25


,


26


,


33


,


34


, need to be switched on.




In accordance with a further preferred embodiment of the present invention it is possible to form the paper guide device


43


, which is arranged over the extended plane


10


, only in the area of the deflecting elements


15


,


20


of the paper web feed device


61


.




In accordance with another preferred embodiment which is represented in

FIGS. 5 and 6

, the conveyor belts or conveying devices


71


to


74


,


76


to


79


, which are arranged on the side of the former plate


8


which is remote from the conduit, or the left and right lateral guide elements


21


,


22


, consist of endless, driven lower roller chains


71


to


74


and


76


to


79


. These lower roller chains


71


to


74


and


76


to


79


work together in pairs with conveying systems


81


to


84


,


86


to


89


, each arranged on the side of the paper guide device


43


remote from the conduit. These conveying systems


81


to


84


,


86


to


89


also consist of roller chains


81


to


84


,


86


to


89


. All of these roller chains


71


to


74


and


76


to


79


and


81


to


84


,


86


to


89


are arranged so that they can be respectively moved in pairs


71


,


81


,


72


,


82


,


73


,


83


,


74


,


84


,


76


,


86


,


77


,


87


,


78


,


88


, and


79


,


89


, toward or away from each other, and respectively have deflecting rollers


103


and, if required, support rollers


104


. For this purpose, the upper roller chains


81


to


84


,


86


to


89


, each have actuating devices


91


,


92


. These actuating devices


91


,


92


can support the endless roller chains


86


,


87


,


88


,


89


is pairs, as represented in

FIG. 6

, and can place them into contact or out of contact. Two two-armed levers


94


,


96


are pivotably seated in a support


93


that is fixed in place on the paper guide device. Each first end of the levers


94


,


96


is connected with a piston rod of a work cylinder


100


hinged on the support


93


. Second ends of the levers


94


,


96


support the respective roller chain


86


,


87


,


88


,


89


. It is also possible to use several actuating devices


91


or


92


for one or several of the roller chains which are shown in FIG.


5


.




Each roller chain


71


to


74


,


76


to


79


,


81


to


84


, and


86


to


89


, has engagement elements


97


fixed on the links on the side facing the paper webs


2


to


5


, i.e. the paper web contact side. On its paper web contact side, each such engagement element


97


has a coating


98


, for example of plastic, with a high coefficient of friction. Note in

FIG. 6

, the representation on the roller chain


73


.




With their sides


99


which respectively extend on the side of the contact with the paper web, i.e. the sides


99


that are close to the conduit, the endless lower roller chains


71


to


74


,


76


to


79


are guided on a slide rail


101


. The slide rail


101


is maintained in a guide device


102


, for example in the shape of a U-shaped profile, fixed in place on the former plate or the lateral plate, wherein the engagement elements


97


with the coating


98


point into the conduit


68


through the slits


27


. The lower roller chains


71


to


74


, and


76


to


79


are each pivotably seated on holders


103


fixed in place on the former.




It is, of course, also possible to omit the left and right lateral guide elements


21


,


22


with the roller chains


76


,


86


,


77


,


87


,


78


,


88


,


79


,


89


. Then only the pairs of roller chain drive mechanisms


71


,


81


,


72


,


82


,


73


,


83


, and


74


,


84


, as well as the paper guide device


43


, become effective.




If in the course of the paper draw-in process, the roller chains


71


to


74


,


76


to


79


,


81


to


84


, and


86


to


89


circulate by means of drive mechanisms, not represented, and the upper roller chains


81


to


84


, and


86


to


89


are moved by means of actuating devices


91


,


92


in the direction of the conduit


68


, the engagement elements


97


will project through the slits


59


in the paper guide device


43


. By means of this, one or several paper webs


2


,


3


,


4


,


5


are held in place between the pairs of roller chains


71


,


81


,


72


,


82


,


73


,


83


,


74


,


84


,


76


,


86


,


77


,


87


,


78


,


88


, and


79


,


89


and are conveyed to the former folding rollers


18


,


19


as seen in the work position depicted in FIG.


6


. At the end of the paper web draw-in, the upper roller chains are moved back into their position of rest which is shown in FIG.


5


. The drive mechanism for all of the roller chains is switched off.




In summary, the concept of the present invention resides in that the conveyor belts


23


to


26


,


71


to


74


of the longitudinal former


1


are arranged approximately in the running direction A of the paper webs


2


to


5


below a plane or surface


10


extending between the deflecting elements


15


,


20


. In the course of this, at least the conveying devices or conveyor belts


23


to


26


, and


71


to


74


work together with conveying systems


46


to


49


, and


81


to


85


, which are arranged above the conveyor belts


23


to


26


, and


71


to


74


and which can be brought into contact with the conveyor belts


23


to


26


, and


71


to


74


. To this end, it is necessary that the former


1


be wholly or at least partially provided with a paper guide device in the area of the running paper webs


2


to


5


, which paper guide device is arranged at a distance c above the running paper web.




It is possible to arrange a paper deflecting arrangement


70


, spaced apart above each one of the left and right deflecting element


15


,


20


, for example at a distance c.




The left lateral guide element


21


is bordered by a left,


106


, and right,


107


, and a lower border


108


, for example a frame. The right lateral guide element


22


is also bordered by borders


109


,


110


,


111


.




A conveying path of the respective conveying means


23


to


26


,


31


to


34


,


44


,


71


to


74


, and


76


to


79


preferably is designed at least approximately straight and is arranged to extend parallel with the conveying plane of the webs


2


,


3


,


4


,


5


.




Thus, the conveying means


23


to


26


,


31


to


34


,


44


,


71


to


74


, and


76


to


79


; together with the webs


2


,


3


,


4


,


5


they hold extend along a straight line and are therefore embodied as a linear conveyor.




While preferred embodiments of a former in accordance with the present invention have been set forth fully and completely hereinabove, it will be apparent to one of skill in the art that a number of changes in, for example, the particular type of printing press used to print the paper webs, the specific support for the former, and the like could be made without departing from the true spirit and scope of the present invention which is accordingly to be limited only by the following claims.



Claims
  • 1. A former comprising:a former plate, said former plate having a former plate surface with first and second spaced lateral edges, said former plate surface being adapted to support at least one web during longitudinal forming of the web; means for moving the web along said former plate surface during longitudinal forming of the at least one web; at least one lateral guide element cooperatively positioned with said former plate and arranged extending from at least one of said lateral edges, generally perpendicularly to said former plate surface and approximately parallel with a conveying plane of the web being longitudinally formed; driven conveying means in said at least one lateral guide element and adapted to be engageable with an interior surface of the web during travel of the web on said at least one lateral guide element; a paper guide device arranged in the area of said former plate surface and having web deflecting surfaces spaced from said lateral edges of said former plate; and, an exterior web guide plate on said paper guide device and cooperating with and spaced apart from said at least one lateral guide element.
  • 2. The former of claim 1 wherein said at least one lateral guide element has a first width and further wherein said longitudinally formed web has a second width which is less than said first width.
  • 3. The former of claim 1 further including a second conveying means in said exterior web guide plate, said second conveying means cooperating with said driven conveying means in said at least one lateral guide element.
  • 4. The former of claim 3 further including slits in said exterior web guide plate said slits providing access of said driven conveying means to said second conveying means.
  • 5. The former of claim 1 wherein said former has two lateral guide elements.
  • 6. The former of claim 5 further including one of said exterior web guide plates cooperating with and spaced apart from each of said two lateral guide elements.
  • 7. The former of claim 1 wherein said at least one lateral guide element is generally triangular.
  • 8. The former of claim 1 wherein said driven conveying means includes conveyor belts which can be charged with air at a negative pressure.
  • 9. The former of claim 1 wherein said driven conveying means are driven conveying rollers.
  • 10. The former of claim 1 wherein said driven conveying means are chains.
  • 11. The former of claim 1 wherein said driven conveying means are driven v-belts.
  • 12. The former of claim 1 wherein said driven conveying means are driven flat belts.
  • 13. The former of claim 1 wherein said driven conveying means are driven toothed belts.
  • 14. The former of claim 1 further including slits in said at least one lateral guide element, said slits exposing a surface of said driven conveying means.
  • 15. The former of claim 1 further including upper conveying means and lower conveying means arranged adjacent said former plate surface, said upper and lower conveying means being engageable with and disengageable from each other and being selectively driven.
  • 16. The former of claim 15 further including slits in said paper guide device arranged adjacent said former plate surface, said slits allowing said engagement of said upper conveying means and said lower conveying means.
  • 17. The former of claim 1 wherein several webs are placed on top of each other in said former.
  • 18. The former of claim 1 further including exterior conveying systems, said exterior conveying systems being engageable with said driven conveying means.
  • 19. The former of claim 1 further including a drive mechanism for said driven conveying means, said drive mechanism being a speed-controlled drive motor.
Priority Claims (1)
Number Date Country Kind
198 11 109 Mar 1998 DE
PCT Information
Filing Document Filing Date Country Kind
PCT/DE99/00699 WO 00
Publishing Document Publishing Date Country Kind
WO99/47446 9/23/1999 WO A
US Referenced Citations (5)
Number Name Date Kind
5030193 Breton et al. Jul 1991 A
5037368 Breton et al. Aug 1991 A
5049123 Breton et al. Sep 1991 A
5823569 Scott Oct 1998 A
5851592 Le Riche et al. Dec 1998 A
Foreign Referenced Citations (6)
Number Date Country
AS 1141650 May 1960 DE
196 12 924 Apr 1996 DE
315932 May 1989 EP
0415 077 Jul 1990 EP
862296 Mar 1961 GB
06247622 Sep 1994 JP