EP1352742A1 - Sheet supply control method - Google Patents

Abstract

Method for controlling sheet supply to a sheet processing machine with a sheet feeder, which is driven by a number of individual drive elements that are controlled by processing electronics that are connected to the controller of the subsequent machine. In order to remove a sheet stack from the feeder, e.g. if a sheet mis-feed has occurred, synchronization of the different feeder drive elements is interrupted by the processing electronics allowing them to be controlled as required.

Description

The invention relates to a method for controlling the sheet feed to a sheet processing Machine with a sheet feeder, which has a sheet separator for separating the sheets from a stack and supported by clock rollers for transporting the isolated Has sheet in a transport direction to a belt table or suction belt table, from which the sheets are transported to the machine, with regard to double, missing or skewed sheets be checked and if such a sheet is present or in the event of faults in the downstream machine is stopped the sheet feed, one of which is the height level of the stack detecting scanner is provided and the drive of the Sheet feeder is carried out by individual drives, which by means of processing electronics is linked to a control device of the downstream machine can be controlled.

In such sheet-processing machines, in particular in sheet-fed printing presses, there is the fundamental problem that, in the presence of a double, missing or inclined sheet, the sheet feeder, including the belt table, is separated from the sheet-fed press by a drive and stopped within one work cycle in order to prevent faulty sheets from entering the sheet Prevent sheetfed press. It is disadvantageous that after the sheet feeder has been stopped with the belt table, the entire sheet scale between the system and the clock rollers must be removed in addition to the defective sheet. The entire sheet stack must also be removed if there are malfunctions in the downstream printing machine, e.g. in the sheet run or in the sheet delivery, since in these cases the entire printing machine and the sheet feeder are brought to a standstill with the belt table within one work cycle.
Removing the sheet relay by hand is time-consuming and leads to waste sheets.

In order to eliminate the disadvantages, a control method is described in DE 195 05 560 C2 described the sheet feed to sheet printing machines. This procedure will only Double or missing sheet detected. For this purpose, a double or missed sheet check is in the Area of the clock rollers, that is provided in the upper area of the conveyor table. If found a double or missed sheet is the removal of additional sheets from the sheet stack stopped and the number of double or in the sheet transport direction on the conveyor line Missing preceding sheet determined and still fed into the printing press. Before the missed or double sheet arrives, the sheet transport is stopped and the faulty sheet can be removed.

This method has the disadvantage that it occurs only with a small number of Disruptions come into play. Disorders that are caused by double or missing sheets occur when operating sheet-fed printing machines in relation to other faults infrequently, so that a reduction in paper waste due to the removal of the Sheet scale after a machine stop, is possible to a small extent.

The object of the invention is to develop a generic method such that with a sheet of time from the area in a short amount of time and without waste the sheet feeder can be removed.

According to the invention the object is achieved by a method according to the features of claim 1 or claim 3.
The solution according to the invention makes it possible, regardless of whether a stop is caused by an error in the sheet processing machine or by an error in the sheet feeder, to transport the sheets already on the belt table or suction belt table back to the stack and to process them.

The invention is explained in more detail using an exemplary embodiment. In the accompanying drawing a sheet feeder 1 is shown with a belt table 2. The belt table 2 is as Suction belt table 2.1 formed. The solution according to the invention is on a sheet feeder 1 with a suction belt table 2.1, in the sheet 8 by means of vacuum on suction belts 26.1 are explained, the solution according to the invention also being used in a sheet feeder 1 can be realized with a belt table 2, in which the sheet 8 on known Way by pressing rollers arranged on a bar grid against conveyor belts 26 of the conveyor table. The suction belt table 2.1 is a feed table 3 with Front brands 4, a vibrating system 5 and a feed cylinder 6 of a system printing unit 7 downstream of a sheet printing machine. In sheet feeder 1 is an existing sheet 8 Stack 9 positioned on a stacking plate 10. The stacking plate 10 is on means of transport 11 attached, which are connected to an elevator, not shown. The top a sheet separator 12 is assigned to the stack 9. The sheet separator 12 has a suction cup 13 and transport suction device 14 and rear edge stops 15. The bow separator 12 is provided in the sheet feeder 1 in a height-adjustable manner by means of an actuator 16. About that In addition, the sheet separator 12 can be used to adapt the format in or against a transport direction 17 are moved. The sheet separator 12 is one in the embodiment associated with the height level of the stack 9 scanning device 18. The scanner 18 can also be provided at any other point on the sheet feeder 1. The sheet separator 12 is driven by means of a first individual drive 19 which e.g. as Electric motor can be formed. On the back and possibly on the sides of the stack 9 Blowers 36 are also provided for pre-loosening the sheets 8 on the stack 9 and to blow off the sheet 8 during transport. Around an air cushion carrying the sheet 8 to be able to form, 9 side plates 20 are arranged laterally on the stack. It is also possible to only assign laterally delimiting guide elements 20.1 to the stack 9.

At the front of the stack 9, a flap shaft 21 extends across the width of the stack 9 and is driven by a third individual drive 31, followed by a blowing rod 22, the blowing direction of which runs approximately counter to a transport direction 17.
The suction belt table 2.1 arranged downstream of the blowing rod 22 consists of a drive roller 23 and a deflection roller 24, between which a suction box 25 is provided, the rollers 23, 24 being wrapped around by at least one suction belt 26.1. The suction belt 26.1 is tensioned by tensioning rollers 27. The suction belt 26.1 is provided in a known manner with suction openings, which come into operative connection with suction bores provided in the suction box 25 during their movement in the transport direction 17, driven by the drive roller 23. The drive roller 23 is driven by a second individual drive 28, for example by an electric motor. Clock rollers 29 correspond to the drive roller 23 and are periodically controlled against the drive roller 23 within one work cycle.
Against the feed table 3 downstream of the suction belt table 2.1, the front marks 4 are controlled into a working position from a latching position located below the feed table 3. A control device 32 is assigned to the feed table 3. The vibration system 5 arranged downstream of the feed table 3 has a sheet holding system 30 and carries out a pivoting movement between the feed table 3 and the feed cylinder 6 of the feed printing unit 7.
The sheet separation and sheet conveying means driving individual drives 19, 28, 31, the actuator 16 and the control device 32, whereby further drives or measuring and control devices can be provided in the sheet feeder 1, are connected to processing electronics 33 of the sheet feeder 1, which are connected to a controller 34 of the downstream sheet-processing machine is linked. The sheet feeder 1 is tracked synchronously to the machine via the machine control 34 and the processing electronics 33.

For this purpose, a rotation angle sensor 35 can be assigned to the feed cylinder 6, for example, which is connected to the machine control 34. The individual drives 19, 28, 31 run synchronously with each other both over 360 ° of a single-turn shaft and within a unit of time.
When the sheet feeder 1 is clocked in synchronism, the separating suction devices 13, driven by the first individual drive 19 assigned to the sheet separator 12, separate the uppermost sheet 8 from the stack 9 and transfer it to the transport suction device 14, which conveys the separated sheet 8 in the transport direction 17. The separation of the sheets 8 is supported by the fact that the stack 9 is loosened by blowers 36 and the sheet 8 conveyed by the transport suction devices 14 is blown through by further blowers 36. The sheets 8 conveyed by the transport suction devices 14 are guided against the drive roller 23 by the cycle rollers 29, which are applied in cycles, and are then released by the transport suction devices 14. The flap shaft 21, driven by the third individual drive 31, is pivoted out of the path of the sheet 8 and the blown air supply to the blow rod 22 is interrupted. The sheets 8 guided by the timing rollers 29 against the drive roller 23 are picked up by the suction belts 26.1, which are constantly subjected to negative pressure via the suction box 26, and are transported underlaped on the feed table 3 and with the front edge against the front marks 4 in the working position. In the exemplary embodiment, the feed table 3 is provided with a control device 32 which detects the sheets 8. It is also possible to provide a plurality of measuring devices which control the sheets 8 and to arrange them over the path of the sheets 8 which they cover from the sheet feeder 1 to the front marks 4.
If the control device 32 does not detect any sheets 8 with errors, the sheets 8 lying against the front marks 4 are taken over by the sheet holding system 30 of the vibration system 5 and transported to the feed cylinder 6, the front marks 4 being pivoted into their position under the feed table 8. If the control device 32 detects a sheet 8 with errors, the control device 32 feeds a signal to the processing electronics 33, thereby releasing the link to the machine control system, and all the individual drives 16, 19, 28, 31 of the sheet feeder 1 are clocked, that is, within one Work cycle stopped.
After the defective sheet 8 has been removed from the feed table 3, the sheets 8 located on the suction belt table 2.1 are initiated by a start signal which is fed manually to the processing electronics 33. For this purpose, the blowing and suction air supply to the sheet separator 12 and the blowing air supply to the blowers 36 are interrupted and the blowing rod 22 is supplied with blowing air. At the same time, the actuator 16 is activated and the sheet separator 12 is raised thereby. The second individual drive 28 and the third individual drive 31 are also activated, the direction of rotation of the second individual drive 28 and thus the direction of rotation of the drive roller 23 leading the suction belts 26.1 being reversed. Thus, the sheets 8 held on the suction belt table 2 by the suction belts 26.1 are conveyed counter to the transport direction 17 and are thus returned to the stack 9. The return of the sheets 8 is supported by the clock rollers 29 being clocked against the drive roller 23, the clock rollers 29 either being assigned a further individual drive, which is controlled by the processing electronics 33, or the clock rollers 29 being connected on the drive side to the drive roller 23 , When it is transported back to the stack 9, the sheets 8 are guided through the blown air stream emanating from the blowing rod 22 and pushed onto the stack 9 by the pivoting movement of the flap shaft 21.

The sheets 8 transported on the stack 9 are separated by the rear edge stops 15 and centered by the side plates 20 or guide elements 20.1. By returning the sheet 8 on the stack 9 changes the height level of the stack 9, the is constantly detected by the scanner 18. If a limit is exceeded a signal is generated in a known manner by the scanning device 18 and the Processing electronics 33 supplied, which drives a drive through which the Stacking plate 10 is lowered until a working level is reached. After that, the bow 8 again from the stack 9 by the separating suction device 13 and with the help of Transport suction device 14 are conveyed in the transport direction 17. This is done by the Actuator 16 of the sheet separator 12 lowered into its working position, the suction and Blown air supply to the sheet separator 12 and the blown air supply to the blowers 36 are activated and the blowing air supply to the blowing rod 22 is interrupted. At the same time, the Individual drives 19, 28, 31 activated, the original direction of rotation of the second Single drive 28 is restored so that the sheet 8 in the stack 9 in Transport direction 17 transported and the front brands 4 can be fed. To the alignment of the first sheet 8 to the front marks 4 becomes the link between the processing electronics 33 and the machine control 34 restored and the sheet feeder 1 is switched on with the suction belt table 2 within one working cycle.

If a fault occurs in the sheet processing machine, it stops Usually the entire system is brought to a standstill within one work cycle. Should the sheets 8 located on the suction belt table 2 be returned to the stack 9 will also be the link between the machine control 34 and the processing electronics 33 solved and then proceed as shown above.

List of the reference numerals used

1

sheet feeder

2

belt table

2.1

feed table

3

feed table

4

front lay

5

swing feeder

6

Anlegzylinder

7

Plant printing unit

8th

arc

9

stack

10

stacking plate

11

Mode of Transport

12

sheet separator

13

suction separator

14

transport sucker

15

Rear edge stop

16

actuator

17

transport direction

18

scanning

19

first single drive

20

Page sheet

20.1

guide element

21

flap shaft

22

Blass Tange

23

drive roller

24

deflecting

25

suction box

26

conveyor belts

26.1

suction belt

27

tension roller

28

second single drive

29

synchronizing roller

30

Sheet holding system

31

third single drive

32

control device

33

processing electronics

34

machine control

35

Rotary encoder

36

blowers

Claims (9)

Method for controlling the sheet feed to a sheet processing machine with a sheet feeder, which has a sheet separator for separating the sheets from a stack and supported by clock rollers for transporting the separated sheets in a transport direction to a belt table or suction belt table from which the sheets are transported to the machine and are checked with regard to double, missing or skewed sheets and if such a sheet is present or in the case of faults in the downstream machine, the sheet feed is stopped, a scanning device detecting the height level of the stack being provided and the sheet feeder being driven by individual drives which are by means of processing electronics which are linked to a control device of the downstream machine, characterized in that after the link between the processing electronics (33) and the machine controller (34 ) synchronicity of the individual drives (19, 28, 31) can be canceled and the individual drives (19, 28, 31) can be operated as desired. Method according to Claim 1, characterized in that the individual drives (19, 28, 31) can be operated either in different directions of rotation or brought to a standstill. Method for controlling the sheet feed to a sheet processing machine with a sheet feeder, which has a sheet separator for separating the sheets from a stack and supported by clock rollers for transporting the separated sheets in a transport direction to a belt table or suction belt table from which the sheets are transported to the machine and are checked with regard to double, missing or skewed sheets and if such a sheet is present or in the case of faults in the downstream machine, the sheet feed is stopped, a scanning device detecting the height level of the stack being provided and the sheet feeder being driven by individual drives which are by means of a processing electronics, which is linked to a control device of the downstream machine, are characterized by the following features after the sheet feeder (1) has been stopped and the link between the processing electronics (33) and the machine control (34) has been disconnected, a blowing and suction air supply to the sheet separator (12) and to the blowers (36) provided in the rear region of the stack (9) interrupted the sheet separator (12) is lifted off the stack (9), the third individual drive (31) assigned to a flap shaft (21) provided in the front area of the stack (9) and the second individual drive (28) driving the belts (29, 26.1) of the belt table (2; 2.1) via a drive roller (23) are activated, the direction of rotation of the second individual drive (28) is reversed and the sheets (8) lying on the belt table (2, 2.1) are returned to the stack (9) counter to the transport direction (17). A method according to claim 3, characterized in that the second individual drive (28) drives clock rollers (29) which guide the sheets (8) against the drive roller (23). Method according to claims 3 and 4, characterized in that a blown air supply is provided between the drive roller (23) and the flap shaft (21), through which the sheets (8) transported to the stack (9) are blown out approximately in the opposite direction to the transport direction (17) , Method according to claim 3, characterized in that the sheets (8) conveyed counter to the transport direction (17) by the movement of the flap shaft (21) onto the stack (9) and with the rear edge against rear edge stops located on the rear side of the stack (9) (15) can be transported. Method according to claims 3 and 6, characterized in that the sheets (8) conveyed onto the stack (9) are aligned with the side edges by side plates (20) and / or guide elements (20.1) assigned to the side of the stack (9). Method according to claim 3, characterized in that during the conveying of the sheets (8) back to the stack (9) the height level of the stack (9) is detected by the scanning device (18) and the stack (9) can be lowered. Method according to claims 3 to 8, characterized by the following features after the sheets (8) are returned to the stack (9), the individual drives (28; 31) are stopped and the blowing air supply for blowing the sheets (8) in a direction approximately opposite to the transport direction (17) is interrupted, the blowing and suction air supply to the sheet separator (12) and the blowing air supply to the blowers (36) are switched on and the sheet separator (12) is returned to the stack (9), the individual drives (19, 28, 31) are activated in their original direction of rotation and the sheets (8) are conveyed in the transport direction (17) and before the sheets (8) enter the sheet processing machine, the processing electronics (33) with the machine control ( 34) linked.

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