EP1354703A2 - Sheet guiding device - Google Patents

Abstract

Sheet-guiding device used in a sheet delivery device and/or under sheet-guiding cylinders of printing machines comprises a container (13) containing a liquid separating agent (10). The container has on the side facing the sheet (6) a sheet-guiding surface (11) provided with openings (12) through which the separating agent is transported from the container onto the sheet-guiding surface. Preferred Features: The sheet-guiding surface has a hydrophilic surface consisting of a nanosol layer containing inorganic nanocrystalline particles modified with additives. The nanocrystalline particles are silicon oxide, titanium oxide, aluminum oxide, or mixtures of the above.

Description

The invention relates to a sheet guiding device in sheet delivery and / or under sheet guiding cylinders of printing machines.

In printing machines, the sheet is transported in the sheet delivery with the help of grippers, which grasp the sheet at its front edge and feed it to the individual function groups. Only the front part of the arch, which is fixed by means of the grippers, moves along the straight or curved gripper impact path, while the rear region can deviate considerably therefrom. The deflection of the arc from its prescribed path can be caused by gravity, centrifugal forces, inertial forces and the wide range of fluid mechanical influences such as pressure differences and turbulence.
As a result of its deviation from the prescribed gripper impact path, the sheet, particularly if it has been printed in face and reverse printing, can be lubricated on machine parts below the sheet conveying path. The same applies to the sheet guiding elements between the printing units.

It is known from DE 43 41 566 A1 to apply a release agent layer to sheets that are conveyed to the delivery stack using solid release agent particles. The release agent layer in the form of powder is intended to prevent the sheets that are stacked on top of one another in the delivery stack from smearing each other. The same applies to the sheet guiding elements between the printing units.
The release agent layer does not provide protection for the moving printing sheet which touches the stationary guide device. If the sheet touches the guide device, the sheet smears in the printed image.

The document DE 197 16 424 A1 discloses a device for avoiding depositing of ink on cylinders of printing machines. The sheet lies with a printed one Area on the cylinder. There is therefore a risk that the freshly applied on the sheet Color deposits on the surface of the cylinder and there is color on the cylinder can build up. To avoid dropping, the outer surface of the cylinder with a closed color-repellent silicone rubber layer. Also the cylinder cooled.

According to the document DE-OS 21 27 021, the deposition of color and the build-up of color should be avoided by applying a layer of moisture on the cylinder jacket. The moisture layer acts as a separating layer. To apply the moisture layer, the jacket of the impression cylinder is cooled below the dew point of the air surrounding the impression cylinder. Air enriched with water vapor is supplied to the cooled cylinder jacket, so that the amount of moisture contained in the air can be deposited on the printing cylinder jacket as a damp film.
The application of the water layer proves to be energy-intensive due to the cooling required.

In the arrangements shown in the documents, there is no relative movement between the arch and the outer surface. The pamphlets do not teach what measures are necessary to move in the case of moving sheets and fixed sheet guide Fine and reverse printing operation to smear ink on the sheet guide avoid.

Based on this prior art, it is an object of the invention to provide a lubrication-free To create sheet guide, with damage to the printed image of the moving sheet is largely avoided.

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

Further advantageous refinements are contained in the subclaims.

By designing sheet guiding device, consisting of a container for receiving of a liquid release agent, the sheet guide surface on the side facing the sheet has, are provided in the openings through the release agent from the inside of the Container can be conveyed to the sheet guide surface, a release agent film in an energy-saving manner be generated. This effectively prevents smearing of paint. As Release agent is water. Additives e.g. in the form of surfactants be added, which lower the surface tension of the water. The Release agent film also acts in the manner of a coefficient of friction Sheet guiding device and printed sheet-reducing lubricant, whereby the mechanical stress on the printed sheet is reduced.

The release agent can be conveyed from the interior of the container to the sheet guiding surface under the effect of capillary effects, the suction effect of wicks arranged in the openings of the sheet guiding surface or under the effect of an overpressure that can be generated in the container.
The distribution of the release agent conveyed onto the sheet guide surface depends on the interactions between the release agent molecules and the molecules of the surface of the sheet guide surface. In a preferred embodiment, the sheet guide surface is therefore provided with a hydrophilic surface. This ensures that a separating layer of constant thickness is formed. By designing the hydrophilic surface in the form of a layer of modified inorganic nanocrystalline particles, the hydrophilicity of the surface can be increased in such a way that even a small amount of release agent produces a closed release agent film of the smallest layer thickness covering the entire sheet guiding surface. Even a few molecular layers thick aqueous release agent film between the sheet guiding device and the side of the sheet printed with color is sufficient to largely avoid the problems of ink smearing on sheet guiding devices in the sheet delivery and in the printing unit with sheets printed on both sides.
The hydrophilicity of the sheet guide surface also acts as a transport mechanism for condensed water along the sheet guide surface. This effect proves to be particularly advantageous if the release agent film is partially disturbed by contact with a series of sheets. Due to the strong hydrophilicity of the sheet guide surface, the release agent layer is completely regenerated until the subsequent sheet arrives.

Fig. 1:

die schematische Darstellung einer Bogenleiteinrichtung in einem Bogenausleger mit Auslageverlängerung;

Fig. 2:

die Ausführung einer Bogenleiteinrichtung bei der die Förderung des Trennmittels durch Überdruck erfolgt;

Fig. 3:

die Ausführung einer Bogenleiteinrichtung bei der die Förderung des Trennmittels durch die Saugwirkung von Dochten erfolgt.

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

Fig. 1:

the schematic representation of a sheet guide device in a sheet delivery with delivery extension;

Fig. 2:

the execution of a sheet guide device in which the release agent is conveyed by overpressure;

Fig. 3:

the execution of a sheet guide device in which the release agent is conveyed by the suction of wicks.

The invention is to be described with the aid of a sheet guiding device in a sheet delivery 1 become. However, it can also be used under sheet-guiding cylinders in the printing unit, if shows a printed side of the sheet 6 to the sheet guide.

Fig. 1 shows a schematic representation of a side view of a sheet delivery 1 with delivery extension. The front and rear chain guide wheels 2, 3 are shown, via which the closed gripper chain 4 with the grippers 5 is guided. The grippers 5 are used to convey the printing material, for example sheets 6 to the delivery stack 7. The suction roll 8 and the front sheet stops 9 are also shown. In the sheet delivery 1, dryers 10 are arranged above the conveyor run of the delivery chain.
The sheet guide device according to the invention, which has the structure described below, is provided under the gripper chain 4 below the sheet conveying path.

The sheet guiding device, which extends over the width of the sheet conveying path, has a smooth sheet guide surface 11 on the side facing the sheet 6. As shown in Figure 2, a flat container 13 is provided for receiving the liquid release agent 10. This is connected via lines 16 to a storage tank 14 from which the container 13 is fed by means of a pump 15 with release agent 10. In addition to the storage tank 14 can a device for processing the release agent (not shown in the drawing) is provided his. The sheet guide surface 11 forms the top of the container 13 and is of openings 12 perforated, which are arranged regularly. These openings 12 can in a first embodiment with a correspondingly small diameter as capillaries be so that the release agent 10 under the action of capillary pressure on the sheet guide surface 11 is promoted.

In another preferred embodiment, the openings are enlarged executed. A pump 15 is provided to promote the release agent 10 an overpressure is generated in the container interior 13. To regulate the pressure can Line path 16 can also be arranged a valve 19. Alternatively, the overpressure can also be adjusted by regulating the delivery rate of the pump 15.

In a further embodiment, shown in Figure 3, are in the openings 12 of the sheet guide surface 11 stopper 17 made of elastic material. These have a continuous Opening, in each of which an absorbent wick 18 under the clamping action of the elastic Material is fixed. At the end of each plug facing the bend 6 a step is formed which in corresponding recesses in the sheet guide surface 11th is insertable.

In all the embodiments described, the sheet guide surface 11 can have a hydrophilic surface. This consists of inorganic nanocrystalline particles modified with additives or another suitable material. The modified inorganic nanosols consist of two components. The first component includes inorganic oxidic nanoparticles of elements from II. - V. main and sub-group of the periodic table or their mixtures. These are preferably nanoparticles consisting of SiO ₂ , TiO ₂ ; Al ₂ O ₃ or mixtures thereof in aqueous, alcoholic or mixed solvents.
The second component consists of the coating material of admixable additives to achieve the hydrophilic behavior and increase the surface energy of the coating.

• Tensid-Verbindungen, bestehend aus langkettigen Alkyl- oder Fluoralkylresten mit mehr als 8 Kohlenstoffatomen und ein oder mehreren positiv oder negativ geladenen ionischen Endgruppen (z.B. 8% Cetyltrimethylammoniumbromid CTAB oder 2% Natriumdodecylsulfat oder 15% Perfluoralkylsulfonat FT2)
• Polysiloxan-Verbindungen mit hydrophilen Seiten- oder Endgruppen, vorzugsweise E-thylenoxid- oder Alkoholgruppen (z.B. 16% Polysiloxan NM4 oder 50% Polysiloxan A200)
• organische Polymere mit positiv oder negativ geladenen ionischen Seiten- oder Endgruppen (z.B. 2% Polystyrensulfonat 3000)
• wasserlösliche Mono-, Oligo- und Polysaccharid-Verbindungen und Derivate (z.B. 20% Sorbit)
• anorganische Iso- und Heteropolysäuren (z.B. 20% P₂O₅)

The following are preferably used as additives:

• Surfactant compounds consisting of long-chain alkyl or fluoroalkyl radicals with more than 8 carbon atoms and one or more positively or negatively charged ionic end groups (eg 8% cetyltrimethylammonium bromide CTAB or 2% sodium dodecyl sulfate or 15% perfluoroalkyl sulfonate FT2)
• Polysiloxane compounds with hydrophilic side or end groups, preferably ethylene oxide or alcohol groups (e.g. 16% polysiloxane NM4 or 50% polysiloxane A200)
• organic polymers with positively or negatively charged ionic side or end groups (e.g. 2% polystyrene sulfonate 3000)
• water-soluble mono-, oligo- and polysaccharide compounds and derivatives (e.g. 20% sorbitol)
• inorganic iso- and heteropolyacids (e.g. 20% P ₂ O ₅ )

The additives mentioned above can be used individually or in combination of two or more be used. The nanosol layer can be easily produced using the sol-gel method be generated.

The function of the sheet guiding device is as follows:
The sheets 6 are conveyed through the machine in the gripper closure, so that they reach the delivery stack 7 almost without contact.
The subject matter of the invention becomes effective when the sheet 6 touches the sheet guide surface 11.
For this purpose, release agent 10 is conveyed from the container 13 onto the sheet guide surface 11 and spreads to a release agent film. This forms an ink-repellent separating layer, so that a freshly printed surface does not smear when it contacts the sheet guide plate 11.

REFERENCE NUMBERS

1

sheet delivery

2

front chain idler

3

rear chain idler

4

gripper chain

5

grab

6

arc

7

delivery pile

8th

suction roll

9

sheet stop

10

release agent

11

sheet guide surface

12

openings

13

container

14

storage tank

15

pump

16

cables

17

Plug

18

wicks

19

Valve

Claims (14)

Sheet guiding device in sheet delivery and / or under sheet guiding cylinders of printing machines, in which a printed surface of the sheet (6) conveyed by grippers (5) points to the sheet guiding device, wherein the sheet guiding device consists of a container (13) for holding a liquid release agent (10), the container (13) has a sheet guide surface (11) on the side facing the sheet (6), in which openings (12) are provided through which the separating means (10) can be conveyed from the inside of the container (13) onto the sheet guiding surface (11). Sheet guiding device according to claim 1, wherein the sheet guiding surface (11) is a hydrophilic Surface. Sheet guiding device according to claim 2, wherein a nanosol layer as the hydrophilic surface made of inorganic nanocrystalline particles modified with additives is. Sheet guiding device according to claim 3, wherein the nanocrystalline particles of silicon oxide, Titanium oxide or aluminum oxide or mixtures of these oxides. Sheet guiding device according to claim 3 or 4, wherein as additives surfactant compounds from long chain alkyl or fluoroalkyl radicals with more than eight carbon atoms and one or more positively or negatively charged ionic end groups can be used. Sheet guide device according to claim 3 or 4, wherein as additives polysiloxane compounds with hydrophilic side or end groups, preferably ethylene oxide or Alcohol groups are used. Sheet guiding device according to claim 3 or 4, wherein water-soluble mono-, Oligo and polysaccharide compounds and derivatives are used. Sheet guiding device according to claim 3 or 4, wherein inorganic iso- and Heteropolyacids are used. Sheet guiding device according to one of claims 1 to 8, wherein the openings (12) so are dimensioned such that the release agent (19) is conveyed onto the sheet guide surface (11) under the action of capillary pressure. Sheet guiding device according to one of claims 1 to 8, wherein in the openings (12) Promotion of the release agent (10) causing wicks (18) are arranged. Sheet guiding device according to claim 10, wherein the openings (12) in the sheet guiding surface (11) are lined with plugs of elastic material that have a through opening have in which the wicks (18) are fixed. Sheet guiding device according to one of claims 1 to 8, wherein means are provided, with which an excess pressure can be generated in the container (13), which promotes the release agent (10) on the sheet guide surface (11). Sheet guiding device according to one of the preceding claims, wherein the container (13) is connected to a device for processing the release agent (10). Sheet guiding device according to one of the preceding claims, wherein as a release agent (10) an aqueous solution is provided which lowers the surface tension Contains additives.

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