DE102022117434A1 - Sheet feeding device - Google Patents

Abstract

A device for feeding sheets lying on top of one another in scales to a printing press, comprising a feed table (7), a suction belt (10), a deflection roller (11) over which the suction belt (10) runs, and a blowing device (20) which comes from below Blown air blows against the bow. A flow path (26) of the blown air is delimited by an arcuate surface section (24) of the suction belt (10) or the deflection roller (11).

Description

The present invention relates to a device for feeding sheets lying on top of one another in scales to a printing press, comprising a feed table, a suction belt, a deflection roller over which the suction belt runs, and a blowing device which blows air against the sheets from below.

In DE102014207446A1 Such a device is described in which a blowing nozzle is integrated into the feed table. This is to prevent the sheets from fluttering and lifting.

A problem not addressed in this document is that the sheets may hit an edge of the feed table.

The object of the invention is to create a sheet feeding device in which the risk of collision is minimized.

This object is achieved by a device for feeding sheets lying on top of one another in scales to a printing press, comprising a feed table, a suction belt, a deflection roller over which the suction belt runs, and a blowing device which blows air against the sheets from below, characterized in that a flow path of the blown air is limited by an arcuate surface section of the suction belt or the deflection roller.

An advantage of the device according to the invention is that the blowing device supports the detachment of the front edge of the sheet from the suction belt in the area of the deflection roller. This prevents the suction belt from pulling the edge of the sheet so far below the level of a sheet support surface of the feed table that the edge of the sheet could collide with an edge of the feed table.

An additional advantage is that the device according to the invention works reliably even at high sheet conveying speeds and thin, unstable sheets.

• Der Strömungsweg der Blasluft kann von einem Keil begrenzt sein. Eine Spitze des Keils kann zu der Umlenkwalze weisen. Die Blaseinrichtung kann eine Blasrichtung haben, die in die Förderrichtung der Bogen geneigt ist.
• Alternativ kann die Blaseinrichtung eine Blasrichtung haben, die entgegen der Förderrichtung der Bogen geneigt ist.
• Die Blasluft kann durch eine Perforation des Saugbands hindurch auf den Bogen wirken.

Various further training courses are possible:

• The flow path of the blown air can be limited by a wedge. A tip of the wedge can point towards the deflection roller. The blowing device can have a blowing direction that is inclined in the conveying direction of the sheets.
• Alternatively, the blowing device can have a blowing direction that is inclined opposite to the conveying direction of the sheets.
• The blown air can act on the sheet through a perforation in the suction belt.

• 1 eine Druckmaschine mit einer Bogenzuführvorrichtung in Gesamtdarstellung und
• 2 - 4 verschiedene Varianten der Bogenzuführvorrichtung aus 1 im Ausschnitt.

Further developments of the device according to the invention also result from the following description of an exemplary embodiment and the associated drawing, in which show:

• 1 a printing press with a sheet feeding device in an overall view and
• 2 - 4 different variants of the sheet feeding device 1 in the cutout.

In the 1 - 4 the same reference numbers are used for the same elements.

In 1 A printing machine is shown, which includes a sheet feeder 1 and at least one printing unit 2, for example for offset printing. A suction head 3 of the sheet feeder 1 separates the sheets 4 from a stack 5. The isolated sheets 4 form a shingled stream 6 on a feed table 7. On this, the sheets 4 are transported in a conveying direction FR to a pre-gripper 9. A belt conveyor 8 of the feed table 7 has a suction belt 10 which runs around a front deflection roller 11 in the conveying direction FR and a rear deflection roller 12 in a circulation direction UR.

In 2 is shown that the suction belt 10 has a perforation 13 and runs over a suction chamber 14, which is open to the suction belt 10. The suction chamber 14 is connected to a vacuum generator (not shown in the drawing), and the vacuum prevailing in the suction chamber 14 acts through the perforation 13 on the sheet 4 in order to pull it onto the suction belt 10. The feed table 7 has a support surface 15 for the sheets 4, which is composed of several parts that are arranged flush with one another. The parts include a first wedge 16, which forms an edge of the support surface 15. A second wedge 17 is arranged opposite the first wedge 16 and delimits the suction chamber 14. The two wedges 16, 17 are strips with a wedge-shaped profile. The front deflection roller 11 projects into a space between tips 18, 19 of the two wedges 16, 17.

In the conveying direction FR in front of the front deflection roller 11, a blowing device 20 is arranged, which is connected to a blown air generator (not shown in the drawing) and whose blown air, e.g. B. can be clocked in the sheet conveying cycle by a rotary valve. The blowing device 20 includes a line system 21 for the blowing air, which is inserted into a block 22. The line system 21 opens into a gusset 23, which is formed by the block 22, the first wedge 16 and a band Section 24 of the suction belt 10 is included. The band section 24 wraps around the front deflection roller 11 in a circular arc shape. The blown air flows out of the gusset 23 through a gap 25 between the band section 24 and the tip 18 of the first wedge 16. The line system 21, the gusset 23 and the gap 25 together determine a flow path 26 of the blown air. This flow path 26 is limited in the area of the gap 25 on one side by the first wedge 16 and on the other side by the circular arc-shaped band section 24. The blown air emerging from the gap 25 in the direction of the sheet 4 above it has a blowing direction BR which is inclined against the conveying direction FR. The sheet 4 is peeled off the suction belt 10 by the blown air. This ensures that the sheet 4 does not hit the first wedge 16 with its front edge, which could otherwise cause sheet running problems.

In 3 is a modification of the device 2 shown. Only the features in which the modification differs from the variant in are described below 2 differs. In the modification, the block 22 and the first wedge 16 are formed together in one piece. The flow path 26 of the blown air is first limited by the line system 21 and then by the band section 24 which runs in a circular arc around the front deflection roller 11. In this modification, the blown air does not flow through the gap 25 between the first wedge 16 and the suction band 10. In the case in As the blowing air exits the line system 21 in the blowing direction BR, the blowing air flows into a space which is delimited by the circular arc-shaped band section 24 and the arch 4 located above it. The blown air, which forms an air cushion within the said space under the front edge of the sheet, forces the front edge of the sheet upwards. This makes it possible to safely avoid collisions between the arch 4 and the first wedge 16.

In 4 is another modification of the device 2 shown. Only the features in which this modification differs from the variant in are described below 2 differs. In the modification, the blowing device 20 is arranged after the front deflection roller 11 in the conveying direction FR. For this purpose, the block 22, in which the holes for the line system 21 are made, and a housing 27 of the blowing chamber 14 are made in one piece. A gusset 28, into which the line system 21 opens, is delimited by the block 22, the second wedge 17 and a peripheral section 29 of the front deflection roller 11. The peripheral section 29 is free or not covered by the suction belt 10.

The blown air flows out of the gusset 28 through a gap 30 between the peripheral section 29 and the tip 19 of the second wedge 17. The line system 21, the gusset 28 and the gap 30 together determine the flow path 26 of the blown air. This flow path 26 is limited in the area of the gap 30 on one side by the second wedge 17 and on the other side by the circular arc-shaped peripheral section 29. The blown air emerging from the gap 30 in the direction of the sheet 4 above it has a blowing direction BR which is inclined in the conveying direction FR. The blown air hitting the sheet 4 from below through the perforation 13 causes the sheet 4 to detach itself correctly from the suction belt 10. With those in the 2 and 3 In the variants shown, the band section 24 can also be referred to as the surface section 24 of the suction band 10. At the in 4 In the variant shown, the peripheral section 29 can also be referred to as the surface section of the deflection roller 11.

Reference symbol list

1

Sheet feeder

2

Printing unit

3

suction head

4

arc

5

stack

6

Shed stream

7

Berth table

8th

Belt conveyor

9

Pre-reacher

10

Suction tape

11

deflection roller

12

deflection roller

13

perforation

14

suction chamber

15

Support surface

16

wedge

17

wedge

18

Great

19

Great

20

Blowing device

21

Piping system

22

block

23

gore

24

Band section (surface section)

25

gap

26

flow path

27

Housing

28

gore

29

Circumferential section (surface section)

30

gap

BR

Blowing direction

FR

Direction of conveyance

UR

Direction of circulation

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102014207446 A1 [0002]

Claims (6)

Device for feeding sheets (4) lying on top of one another in scales to a printing press, comprising a feed table (7), a suction belt (10), a deflection roller (11) over which the suction belt (10) runs, and a blowing device (20), which blowing air from below against the sheets (4), characterized in that a flow path (26) of the blowing air is delimited by an arcuate surface section (24, 28) of the suction belt (10) or the deflection roller (11). Device according to Claim 1 , characterized in that the flow path (26) of the blown air is limited by a wedge (16, 17). Device according to Claim 2 , characterized in that a tip (18, 19) of the wedge (16, 17) points to the deflection roller (11). Device according to one of the Claims 1 until 3 , characterized in that the blowing device (20) has a blowing direction (BR) which is inclined in the conveying direction (FR) of the sheets (4). Device according to one of the Claims 1 until 3 , characterized in that the blowing device (20) has a blowing direction (BR) which is inclined opposite to the conveying direction (FR) of the sheets (4). Device according to one of the Claims 1 until 3 , characterized in that the blown air acts on the sheet through a perforation (13) in the suction belt (10).

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