DE10056018A1 - Device used in sheet-fed printing presses for supporting the sheet feed and sheet tray comprises a sheet feed element housing a deionization device and blowing a blast of air on the sheet - Google Patents

Abstract

Device for supporting the sheet feed and sheet tray in sheet-fed printing presses in the region of the sheet conveying path (18) using a deionization device comprises a sheet feed element (14) housing a deionization device (17) and blowing a blast of air (21) on the sheet (8). Preferred Features: The sheet feed element is provided above and/or below the sheet conveying path and consists of an air chamber and a jet aimed at the conveying path for targeted blowing of air onto the sheet.

Description

The invention relates to a device for supporting the sheet guide and sheet storage in printing machines.

In sheetfed presses it depends on the type of material, moisture and temperature temperature of the material, climatic room conditions, design and condition of Sheet guiding devices and the printing process itself to more or less strong elec trostatic charges on the substrate sheets. The largest charges occur at the Processing of plastic materials.

During transport, the electrostatic charges lead to the creation and alignment of the Sheets to and in the sheet line, when the sheets are transported through the printing press and to a considerable extent also when placing the sheets in the sheet delivery Problems (Teschner, offset printing technology, Fachschriften-Verlag GmbH & Co, Fellbach, 9. 1995, pp. 16 / 49-16 / 52).

In the area of the sheet delivery it comes from the electrostatic charging of the pressure bo often cause the sheet to be misaligned before the sheet stops remains lying and not because of the existing facilities for sheet alignment can be moved more. This leads to poor stacking, problems in batch processing or machine stoppers.

In order to counteract the negative effects of electrostatic charges, developed the various deionizing devices. These deionizers build up an electric field that should neutralize the charge on the printed sheets. It Deionizing bars are known, for example, which are usually in the immediate vicinity across the Bo be installed. Deionizing blowers are also known, which are in something larger distances can be installed due to the fact that they Transport charged air particles over greater distances, a greater impact have rich.

A disadvantage of this deionizing device is due to the long distance from the sheet conveyor because of its low efficiency and the high degree of pollution in the bow boom through powder and paper dust.

Based on the disadvantages of the prior art, it is an object of the invention to create a facility for supporting the sheet guide and sheet storage, with the effective deionization of the sheets conveyed on the sheet conveying path becomes.  

According to the invention, this object is achieved by the features of claim 1.

The invention is based on the knowledge that a known blowing device makes more sense Can be combined with a known deionizer and thereby the Advantages for the sheet guidance through support by means of blowing air for the elimination of the electrostatic charging of the bow can be used.

It is essential that the deionizing device is integrated into the air chamber of the blowing device is built and is located close to the nozzle so that the ioni by the electric field Air particles are entrained with the blown air immediately after their generation and get to the surface of the bow. This has a high impact.

The device effectively eliminates the electrostatic charge on the sheets. As a result, the sheet can safely pass through the machine with the help of blown air promoted and stored in the sheet delivery.

The solution created has great advantages, particularly in the sheet delivery. Although Blas Devices for sheet guiding and deionizing devices have been known for a long time have never thought of combining them in a meaningful way ren and blowing air, which is intended for sheet guidance and / or sheet transport, with for the transport of ionized air for the electrostatic discharge of moving sheets.

The invention will be described in more detail below using an exemplary embodiment the.

In the accompanying drawings

Figure 1 is a schematic representation of a printing machine in side view to explain the location of the invention.

Fig. 2 assignment of a sheet guide element to the guided by the gripper carriage Bo gene;

Fig. 3 Assignment of a sheet guiding element to the sheet, the sheet having already been gripped by the suction roll.

Fig. 1 shows a side view of a printing press in a schematic representation. A sheet feeder 1 , a feed table 2 , a sheet feed drum 3 and two order plants 4 are shown . A printing cylinder 6 and a rubber cylinder 7 are shown from the applicator unit 4 . The impression cylinders 6 are connected by a sheet guiding cylinder 20 .

The application units 4 can be designed as a paint and / or lacquer application unit 4 . The Bo gene 8 is moved on the sheet conveyor path 18 from the sheet feeder 1 to the sheet delivery 5 . The chain circle 9 with the gripper carriages 10 , which are arranged at a constant distance on the chain circle 9 , are shown from the sheet delivery 5 . In addition, the sheet stack 11 and the suction roller 12 acting on the rear edge of the sheet stack 11 can be seen.

In the area of the sheet conveying path 18 (see FIG. 1), several sheet guide elements 14 are provided, as are shown in detail in FIGS. 2 and 3. The sheet guide elements 14 consist of an air chamber 15 which are connected via an air connector 16 to a compressed air generator, not shown. The sheet guiding elements 14 furthermore have a blowing strip which extends over the width of the sheet conveying path 18 and whose nozzle 13 is directed with its opening onto the conveyed sheet 8 for the exit of the blowing air jet 21 . A deionizing device 17 is provided between the air chamber 15 and the nozzle 13 . The Entionisiereinrichtung 17 - here formed as extending over the sheet guide member 14 Entionisierleiste 17 - per se structure and function with respect to known and not the subject of the invention.

The assignment of the sheet guiding elements 14 to the sheet conveying path 18 is shown in FIG. 1. The sheet guiding elements 14 can be arranged above and / or below the sheet conveying path 18 .

Fig. 2 shows the arrangement of the sheet guide member 14 above the Bogenförderwe ges 18 in the region of the curved boom 5. The blown air jets 21 are directed against the sheet conveyed by the gripper 10 against the sheet conveying direction.

Fig. 3 shows in the arrangement of the sheet guide members 14 below the sheet conveying path 18, another embodiment of assignment of the nozzle 13 to the sheet 8. The suction roll 12 are shown and which extends over the width of the sheet conveying path 18 flächi ges sheet guide element 19th

In the sheet guiding element 19 , the nozzle 13 of the sheet guiding element 14 is integrated pointing against the sheet conveying direction, the jet angle w for the exit of the blown air jets 21 being kept small.

Fig. 2 and Fig. 3 show the arrangement of the sheet guide member 14 in the sheet delivery 5. However, it is also possible to arrange the sheet guiding element 14 on the printing cylinder 6 and / or the sheet guiding cylinder 20 or elsewhere on the sheet conveying path 18 . Several sheet guiding elements 14 can be arranged one behind the other.

The effect of the device for supporting the sheet guidance and sheet storage is as follows:
From the sheet feeder 1 via the feed table 2 and the sheet feed drum 3 to the structures 4 fed to sheet 8 are transferred from the last applicator 4 to the sheet delivery 5 and placed on the sheet stack 11 . The sheet conveyance is supported by the sheet guide elements 14 . The air chamber 15 is acted upon by compressed air via the air connector 16 by the air generator. At the same time the Entionisiereinrich device 17 is put into operation. The sheet guiding element 14 acts through the blowing air jet 21 emerging from the nozzles 13 in a known manner as a pneumatic Leitein device which, depending on the place of use, depresses the sheet 8 , applies it, crosses it out and / or prevents it from smearing.

In addition, the sheet guiding element 14 eliminates any electrostatic charging of the sheet 8 .

The deionizing device 17 is arranged in the air chamber 15 in such a way that the electric field generated is located directly in front of the nozzle 13 .

This arrangement achieves a very uniform distribution of ionized air particles over the width, which are entrained by the exiting blown air jet 21 . The emerging blown air jet 21 serves as a transport medium for the ionized air particles, which has the consequence that this device also acts over a greater distance and thus bridges the overall height of the gripper carriage 10 without problems.

According to the embodiment according to FIG. 3, the nozzle outlet is designed in such a way that the exiting air emerges flat at the jet angle w on the existing sheet guiding element 19 and moves in the opposite direction to the sheet travel. The sheet 8 is thus discharged particularly effectively. Furthermore, the blowing air under the arch 8 causes the formation of the hydrodynamic paradox that the arch 8 is drawn in the direction of the arch guiding element 19 , but does not touch it, but hovers at a short distance above the arch guiding element 19 . This improves the supply of the sheet to the suction roll and also reduces or reduces the risk of smearing a printed sheet back or damaging or scratching the sheet back.

Due to the constant air outlet from the nozzle 13 , contamination of the Entionisierein device 17 and an associated reduction in performance is excluded.

The invention has been described with reference to a sheet guiding element 14 arranged in a printing press. The use of such sheet guide elements 14 is not limited to printing presses, but also in other sheet processing machines, such as punching machines, laminating machines, bookbinding machines, among other things, possible.

REFERENCE NUMBERS

1

sheet feeder

2

feed

3

Sheet feed drum

4

commissioned

5

sheet delivery

6

pressure cylinder

7

rubber cylinder

8th

arc

9

chain circle

10

gripper carriages

11

sheet pile

12

suction roll

13

jet

14

Sheet guiding element

15

air chamber

16

Manifold

17

Deionizing device, deionizing bar

18

sheet conveying path

19

sheet guide

20

Sheet guiding cylinder

21

air jet
w angle

Claims (7)

1. Device for supporting the sheet guide and sheet storage in printing machines, in particular in sheet delivery ( 4 ) in the vicinity of the sheet conveying path ( 18 ) by means of a deionizing device, wherein
a blown air jet ( 21 ) on the sheet ( 8 ) blowing sheet guide element ( 14 ) is provided and
the sheet guiding element ( 14 ) inside the deionizing device ( 17 ) closes. 2. Device according to claim 1, wherein the sheet guide element ( 14 ) is provided above and / or below the sheet conveying path ( 18 ). 3. Device according to claim 1, wherein the sheet guide element (14) acted upon by blown air plenum (15) and on the sheet conveying path (18) for the zielge oriented impingement of the blown air streams (21) to the sheet (8) directed nozzle (13) to include. 4. Device according to claim 1 and 3, wherein the deionizing device ( 17 ) between the air chamber ( 15 ) and the nozzle ( 13 ) is arranged. 5. Device according to claim 1, wherein the nozzle ( 13 ) opens directly into a below the Bogenför derweges ( 18 ) provided sheet guide element ( 19 ). 6. Device according to claim 1, wherein the nozzle ( 13 ) of the sheet guiding element ( 14 ) extends over the width of the sheet conveying path ( 18 ). 7. Device according to claim 5, wherein the nozzle ( 13 ) of the sheet guiding element ( 19 ) and the sheet conveying path ( 18 ) is assigned at a small beam angle (w).