前苏联专利SU1581213A3 Device for fitting folded printed sheets

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权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
Collation of folded printed signatures or sheets is accomplished by a rotating collating cylinder or rotary collator which is rotatably driven about its longitudinal axis of revolution. The rotary collator comprises a plurality of collating conveyors arranged substantially parallel to this longitudinal axis. These collating conveyors are substantially annularly positioned about this longitudinal axis and extend substantially parallel to the longitudinal axis of the rotary collator. The folded printed signatures or sheets are fed or conveyed by three feeding conveyors or infeed devices and are deposited to straddle the collating conveyors or the respective folded printed signatures or sheets already straddling the collating conveyors. The folded printed signatures or sheets are displaced in the direction of conveyance of the rotary collator while revolving about the longitudinal axis of the rotary collator. The printed signatures or sheets are thus conveyed along a path which has the shape of a helix or coiled spiral. The end products are gripped at a product withdrawal location by a withdrawal conveyor or device and conveyed to a different location.
公开号:SU1581213A3
申请号:SU864027711
申请日:1986-06-26
公开日:1990-07-23
发明作者:ХЭНШ Эгон
申请人:Фераг Аг (Фирма)；
IPC主号:

专利说明:

The invention relates to the printing industry, in particular to equipment for the selection of folded printed sheets in sets.
The aim of the invention is to reduce the size of the device for the collection of folded printed sheets.
Figure 1 shows a diagram of a device for the selection; figure 2 - diagram of the pickup node, top view; FIG. 3 shows a rotor with a selection conveyors, front view; ka figure 4 - the same, the view from the side of its drive, a partial section; Fig, 5 - section of the collecting conveyor from the side of its drive, top view; figure 6 - section aa in figure 5; Fig. 7 shows the device in a direction parallel to the axis of rotation of the rotor.
The device for the selection of folded printed sheets (Fig. 1) has a frame 1 with support brackets 2 in which a shaft 3 of a rotor 4 is mounted, formed by bearing disks 5 and 6, between which several collection conveyors 7 are placed, each of which is mounted rotatably around its longitudinal axis. These collecting conveyors 7 are mounted on the rotor 4 parallel to the shaft 3 and are evenly placed around it.
On the shaft 3 there is a sprocket 8 (Figures 1 and 4), through which the chain 9 passes, passing through the next sprocket 10, which sits on the output shaft of the drive 11. With this drive. 11 rotor 4 together with the sub-clad
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Transverse conveyors 7 are provided: rotation in the direction of the arrow A.
In the direction of the longitudinal axis of the shaft 3 (as viewed in the direction of arrow B in FIG. 4), one after the other three transport vehicles are arranged in the form of conveyors 12-14 for folded printed sheets 15-17. Behind the conveyors 12-14, there is a diverting conveyor 18 carrying the grippers 19, which are intended to grip the compilations 20 of the printed products and transfer them to the station for further processing.
Each pick-up conveyor 7 carries saddle elements 22 for printed sheets 15-17 and gripping 2 elements 23 arranged at a predetermined interval and designed to interact with the rear edges of the transported sheets.
Chain 21 is guided through two sprockets (figure 4-6 shows only 2 one drive wheels 24). This wheel 24 sits on a shaft 25 mounted in bearings 26 and 27, which are mounted in the side walls 28 and 29 of the support box 30 (FIGS. 5 and 6). This box 30 with its walls 28 and 29 is connected to the carrier tube 31, along which the branch 32 of the chain 21 passes.
Each support box 30 at its ends carries trunnions 33, by means of which it is mounted on carrier disks 5 and 6. At one of the trunnions 33 of each box 30 there are two sprockets 34 and 35 (FIG. 3-5), which are designed to ensure rotation through endless chains 36 and 37 and a stationary sprocket 38 mounted on support bracket 2, boxes 30 as the rotor 4 rotates.
The gear mechanism formed by the sprockets 34, 35 and 38 and the endless chains 36 and 37, the rotation mechanism of each pick-up conveyor 7 around its longitudinal axis ensures the rotation of the conveyor 7 with an angular velocity that is the same as the angular velocity of the rotor 4 direction. As a result, all the selection vehicles 7, when the rotor 4 rotates, always retain such a position where the working branch of their chain 21 is located above the driven branch 32.

5 0 5

five
Each drive sprocket 24 pick-up conveyor receives rotation from the respective sprocket wheels, 34 and 35 through bevel gears 39 and 40, the first of which is fixed on the trunnion 33, the sprocket 41, the chain 42 and the sprocket 43, which sits on the shaft 25 of the chain wheels 24.
The bevel gear 40 and the sprocket 41 are mounted on the shaft 44, which is mounted on the support box 30 perpendicular to the axis of the trunnion 33.
Thus, as the rotor 4 rotates, the chains 21 are forced to move in the direction of the arrow B,
It is quite obvious that the drive of the chains 2 of the collecting conveyors 7 is not limited only to the described embodiment and can be carried out in another known way.
The described device also includes mechanisms for opening printed sheets before they are thrown onto saddle-shaped elements 22 pick-up conveyors 7. The number of these mechanisms corresponds to the number of feed conveyors 12-14. Each such mechanism is an endless transport body 45 located under the respective feed conveyor 12-14, on which guided grippers 46 are mounted at a predetermined interval. When the printing sheets 15-17 are fed to the rotor 4, these grips 46 capture the protruding edge 47 (the so-called valve) is longer than the upper part 48, the lower part 49 of the folded sheet and holds it on the transport body 45 when the latter is directed around the front deflecting wheel 50, resulting in between the upper 48 and the lower 49 parts of the sheet form a gap sufficient for the saddle element 22 to enter into it. When the printing sheet 15, transported, as before, by the feeding conveyor 12 in the direction of the arrow D and freed from the grip 46 of the transport member 45, is somewhat higher than that already entered By its parts 48 and 49 of the saddle-shaped element 22, the corresponding gripper 51 of the feeding conveyor 12 is unfolded and the printed sheet, freeing, lies down
X on the saddle element 22 and adjacent rear edge to the gripping element 23 of the collecting conveyor 7.
The printed sheets 15 supplied by the feeding conveyor 12 are folded in the area of transfer to the collecting conveyors 7. At that, said printed sheets 15 lie in the area of their fold 52 on the saddle-shaped elements 22 and adjoin to the side walls 28 and 29 of the supporting box 30 of the collecting conveyors 7. driven circuit 21 pick-up conveyors 7 printed sheets 15 move forward in the feed direction of pick-up conveyors 7. At the same time, the printed product 15 together with the corresponding pick-up conveyor 7 rotates around shaft 3 by moving along the trajectory Referring helical line or helix (Figure 2).
After one revolution of the rotor 4, the printing sheet 15 is in the transfer zone of the next feed conveyor 13, which moves the printing sheets 16 to this transfer zone. These printing sheets 16 (Fig. 7) unfold and fold onto the printing sheet 15 already located on the pick-up conveyor 7. Both the printed printing sheets 15 and 6 lying one above the other now move forward together in the transport direction with the chain 21 and rotate around the shaft 3. In the transfer zone, the next printing sheet 17 is now laid on both printed sheets 15 and 16 lying one on another, fed by the feeding conveyor 14 and opened in the same manner as described. The final product printed sheets 15-17 rotate about the axis of the shaft 3 and at the same time move forward in the direction B of transport. Attached on chains 21 pick-up conveyors 7, the elements 23 ensure that the three printing sheets 15-17 are oriented one relative to the other.
At the designated recess site, the kg of the production 20 is captured by the sunsets 19 of the discharge conveyor 18, lifted from the collecting conveyors 7 and diverted in the direction of the arrow F (Fig. 1). The final product 20 can be further processed in a variety of ways. For example, it is possible to feed the final product 20 to a cutting and / or stitching machine or to wind it in a known manner in the form of a roll.
However, three lying on one another 15 - 17 sheets can form only the first part of the final product and can be fed to the pick-up drum of the second pick-up device of the described type with the help of the diverting conveyor 18 of the first input point. Then, in this second selection device, the following printing sheets are laid on the printed sheets 15-17 already lying one on top of the other in the manner described.
Instead of individual sheets, two or more printing sheets already nested in one another can be fed and folded onto a collecting conveyor 7. The transfer or loading points may also be offset in the circumferential direction of the selection rotor 4 relative to each other. Instead of the described continuous conveyors 12-14, devices of a different kind can be used, for example, conventional feeders, in which the printed sheets are removed from the stack. However, the use of such self-cardholders entails the disadvantage that from the applicants in the normal case in the form of cash. A stack of printed sheets must first be stacked.
The described drive of the chains 21 of pick-up conveyors 7 allows continuous advancement of the printing sheets I5-17. In addition, additional links, such as couplings, can be used in the drive mechanism, which allow periodic interruption of the feed movement. Interrupting feed movement allows processing operations, such as labeling or stitching.

权利要求:
Claims (6)
[1]
1. A device for collecting folded printed sheets, comprising feeding vehicles with a parallel-1 sheet feeding direction, a collecting conveyor, including a flexible endless traction body, its drive and saddle-shaped elements, and mechanisms for opening printed sheets before placing them on the saddle-shaped
elements of a collecting conveyor, characterized in that, in order to reduce its dimensions, it has a rotor, the rotation axis of which is perpendicular to the direction of movement of the printed sheets by the feeding vehicles, and additional collecting conveyors, all of the collecting conveyors mounted on the rotor parallel to the axis of rotation and arranged uniformly around it, and also has a mechanism for rotating each picking conveyor around its longitudinal axis with an angular velocity equal to angular speed Rotor growth, and in a direction opposite the direction of rotation of the rotor, wherein the saddle elements of each collecting conveyor oriented along its direction of movement of the traction organ.
[2]
2, the device according to claim 1, characterized in that the saddle-shaped elements of each collecting conveyor are fixed on its pull body.
ten
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12138
[3]
3. The device according to claim 1 and 2,
characterized in that gripping elements are fixed to the traction organs of the collecting conveyors to interact with the rear edges of the transported tists.
[4]
4. The device according to claim 1, that is, that the rotor is formed by bearing disks fixed on the shaft, with the collecting conveyors placed between the bearing disks.
[5]
5. A device according to claims 1-4, characterized in that the mechanism of rotation of the collecting conveyors
on the rotor is designed as a transmission system with flexible traction bodies for transmitting rotation from the rotor to the pick-ups.
[6]
6. A device as claimed in Claims 1 to 5, characterized in that the driving member of each collecting conveyor is kinematically connected with the mechanism of rotating the collecting conveyors on the rotor.
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类似技术:

公开号 | 公开日 | 专利标题

SU1581213A3|1990-07-23|Device for fitting folded printed sheets

US3951399A|1976-04-20|Article-handling apparatus

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US4684117A|1987-08-04|Method and apparatus for opening printed products which have been folded off-center

US4604851A|1986-08-12|Method and apparatus for the intermediate storage of printed products arriving in an imbricated product formation such as newspapers, periodicals and the like

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US5094438A|1992-03-10|Process for the production of multipart printed products, printed product produced by the process, and device for carrying out the process

US5102111A|1992-04-07|Folder for a printing machine

US4606173A|1986-08-19|Method and apparatus for the intermediate storage of printed products arriving in an imbricated product formation

US7837187B2|2010-11-23|Device for separating individual flat objects from a stack and for transporting away the separated objects

SU1708154A3|1992-01-23|Method and device for forming a cascade flow of printed matter

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US4732374A|1988-03-22|Apparatus for collating folded printed products, especially signatures or sheets

US6375179B1|2002-04-23|Device for opening a folded signature and depositing it onto a running conveyor

US5556087A|1996-09-17|Apparatus for processing printed products

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US4164159A|1979-08-14|Apparatus for feeding signatures from a saddle to a trimmer

US5082256A|1992-01-21|Method and apparatus for forming sheet material assemblages

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同族专利:

公开号 | 公开日

NO862658D0|1986-07-01|

CH667620A5|1988-10-31|

DK309986D0|1986-06-30|

AU5939886A|1987-01-08|

GB2177380A|1987-01-21|

CA1274555A|1990-09-25|

FI81552C|1990-11-12|

NO862658L|1987-01-02|

SE8602913D0|1986-06-30|

NL8601681A|1987-02-02|

FI81552B|1990-07-31|

US4684116B1|1993-05-04|

BR8603040A|1987-02-17|

DE3620945C5|2004-09-02|

JPS6227272A|1987-02-05|

SE461269B|1990-01-29|

IT8620989D0|1986-06-30|

CS268681B2|1990-04-11|

US4684116A|1987-08-04|

NO161846C|1989-10-04|

FI862780A|1987-01-02|

FR2584056B1|1992-02-21|

ATA147586A|1993-08-15|

JPH0717304B2|1995-03-01|

NO161846B|1989-06-26|

AT397370B|1994-03-25|

DK309986A|1987-01-02|

IT1192021B|1988-03-31|

BE905013A|1986-12-29|

DK163656B|1992-03-23|

SE8602913L|1987-01-02|

FR2584056A1|1987-01-02|

DK163656C|1992-08-17|

AU576680B2|1988-09-01|

DE3620945A1|1987-01-08|

DE3620945C2|1995-07-06|

CS459186A2|1989-07-12|

DD251536A5|1987-11-18|

GB8615989D0|1986-08-06|

GB2177380B|1989-11-08|

FI862780A0|1986-06-30|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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DE2512017A1|1975-03-19|1976-09-30|Koenig & Bauer Ag|DEVICE FOR MANUFACTURING THICK FOLDED PRODUCTS IN ROLLER ROTATION PRINTING MACHINES|

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CH644814A5|1980-01-08|1984-08-31|Ferag Ag|METHOD AND DEVICE FOR OPENING FOLDED, BINDED OR STAPLED MULTI-SHEET PRODUCTS, IN PARTICULAR PRINTED PRODUCTS.|

CH645074A5|1980-03-11|1984-09-14|Ferag Ag|METHOD AND DEVICE FOR MULTIPLE-LEAF PRINTED PRODUCTS, IN PARTICULAR NEWSPAPERS AND MAGAZINES.|

CH645073A5|1980-03-11|1984-09-14|Ferag Ag|METHOD AND DEVICE FOR GATHERING LEAVES OR BOW TO MULTI-LEAF PRINTED PRODUCTS, IN PARTICULAR NEWSPAPERS AND MAGAZINES.|

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EP0095603B1|1982-06-01|1986-03-12|Ferag AG|Device for collecting folded printing sheets|EP0278286B1|1987-02-11|1993-08-11|Ferag AG|Device for collating folded printed sheets|

ES2037312T3|1988-05-11|1993-06-16|Ferag Ag|DEVICE FOR GROUPING FOLDED PRINTED SHEETS.|

DE58900823D1|1988-05-11|1992-03-26|Ferag Ag|FACILITIES FOR GATHERING, INSERTING AND COLLECTING PRINT PRODUCTS.|

AT85592T|1988-05-11|1993-02-15|Ferag Ag|DEVICE FOR PROCESSING PRINTING PRODUCTS.|

DE58902352D1|1988-06-14|1992-11-05|Ferag Ag|FACILITIES FOR COLLECTING, GATHERING AND INSERTING PRINTING PRODUCTS.|

US5007624A|1989-05-25|1991-04-16|Am International Incorporated|Sheet material handling apparatus and method|

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EP0518064B1|1991-06-10|1995-11-15|Ferag AG|Method and apparatus for handling of printed products|

EP0518063B1|1991-06-10|1994-12-14|Ferag AG|Method and apparatus for opening and placing folded printed products on a saddle-shaped support|

DE59201323D1|1991-07-11|1995-03-16|Ferag Ag|Method and device for opening flexible, off-center folded products.|

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JP3002926B2|1992-05-18|2000-01-24|ホリゾン・インターナショナル株式会社|Body supply device for bookbinding machine|

ES2086852T3|1992-12-04|1996-07-01|Ferag Ag|PROCEDURE AND DEVICE FOR OPENING FOLDED PRINTING PRODUCTS.|

EP0606555B1|1993-01-11|1997-03-19|Ferag AG|Gathering and stitching machine for printed products consisting of folded printed sheets|

EP0647582B1|1993-10-08|1998-05-06|Ferag AG|Device for opening and further conveying printed products|

DE59403252D1|1994-01-10|1997-08-07|Ferag Ag|Device for tacking printed matter|

ES2098854T3|1994-01-19|1997-05-01|Ferag Ag|PROCEDURE AND DEVICE FOR THE ADHESIVE BINDING OF THE PACKAGES OF A PRINTED PRODUCT FOLDED FROM MULTIPLE PAGES.|

CH687459A5|1994-06-23|1996-12-13|Ferag Ag|Method and device for collecting printed products.|

DE59503157D1|1995-01-13|1998-09-17|Ferag Ag|Device for opening printed products and device for processing printed products|

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CH690576A5|1995-06-30|2000-10-31|Ferag Ag|Apparatus for processing printing products.|

CH691058A5|1995-11-01|2001-04-12|Grapha Holding Ag|Device for processing folded printed sheets.|

US5913656A|1997-11-14|1999-06-22|Collins; Michael A.|Method and apparatus for merging shingled signature streams|

US7033123B2|2002-02-28|2006-04-25|Hewlett-Packard Development Company, L.P.|Booklet maker|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

CH2828/85A|CH667620A5|1985-07-01|1985-07-01|METHOD AND DEVICE FOR COLLECTING FOLDED PRINTED SHEETS.|

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