DE1220254B - Electrophotographic process and device for its implementation - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

G03!

German class: 57 e- 1/02

Number: 1220254

File number: E 20992IX a / 57 e

Registration date: April 26, 1961

Opening day: June 30, 1966

The invention relates to an electrophotographic process for the production of pictures or planographic printing forms, one of which reduces its electrical resistance when exposed to heat Electrostatically charged layer, irradiated with heat in contact with a master copy, with a electrophotographic developer developed and optionally fixed or in a planographic form is converted, as well as a device for performing this method.

It has been proposed to use a copy material for such a method in which on one Underlay, which consists of a material with sufficient electrical conductivity, one of yours Specific electrical resistance applied to the action of heat reducing plastic layer is to put the plastic layer under the master copy after the electrostatic charging and irradiate with heat. The disadvantage here is that a two-layer copying material is required is, and in particular that the plastic layer is always removed from the master for developing must be, which is disruptive for a continuous reproduction process.

The object of the invention is to provide a simpler, continuously running reproduction process To create a method and a device for its implementation.

The object of the invention is based on an electrophotographic method of manufacture of pictures or planographic printing forms, one of which has its electrical resistance when exposed to Heat-reducing layer electrostatically charged, in contact with a master copy with Irradiated with heat, developed with an electrophotographic developer and optionally fixed or is converted into a flat printing form, and is characterized in that a transparent, A layer on a master copy that reduces its electrical resistance when exposed to heat places, electrostatically charges and irradiated with heat from the free side of the layer.

Preferably, a hydrophilic, transparent, its electrical resistance on exposure of heat reducing layer and a developer with a hydrophobic toner are used.

Another object of the invention is a device for carrying out the method, which is characterized by the combination of a rotating drum with a device for electrostatic charging, a device for irradiation with heat, a device for the de-electrophotographic process and
Device for its implementation

Applicant:

Eastman Kodak Company, Rochester, N.Y.

(V. St. A.)

Representative:

Dr.-Ing. W. Wolff and H. Bartels,

Patent attorneys, Stuttgart N, Langestr. 51

Named as inventor:
James Gordon Jarvis, Rochester, NY
(V. St. A.)

Claimed priority:

V. St. v. America April 27, 1960 (25 108) - -

wrap with a toner and a device for stripping off the master copy and the layer of the drum and for separating the layer from the master copy, in this device is the To see the invention in the combination of the facilities known per se.

Preferably the apparatus contains between the means for developing and the means an optionally usable movable radiation source for stripping off the master copy and the layer.

By using a single-layer, transparent copy material, its arrangement on the A copy template and its irradiation with heat from the free side of the layer are not just achieved simpler and suitable for a continuous reproduction process, what for the Economy is essential, but it also gives rise to the advantages that the transmission method is observable in all phases and that the copy material during development can lie on the master copy, whereby a large image sharpness can be achieved. The procedure offers also the possibility of producing planographic printing forms in a simple way.

Foils made of such substances can be used as copying material, the electrical resistance of which

609 587/257

surface charge flow only during irradiation the layer with heat, but not at room temperature and which allows high permeability have for these rays. The permeability is important because the heat rays must penetrate the copy material before they generate a thermal image on the copy master can, which then through thermal conduction in the tightly fitting copy material, the same thermal image evokes. Layers of polyethylene terephthalate, cellulose acetate, cellulose triacetate, Polyethylene, polypropylene, vinyl chloride, vinylidene chloride or polystyrene are suitable.

In the following the invention is based on the embodiments shown in the drawing explained in detail. Show it

F i g. 1A to 1D individual process steps one Embodiment of the method according to the invention,

2A to 2F method steps of a modified one Embodiment,

Figs. 3, 4 and 5 manufacturing devices of copies according to the method according to the invention,

6A to 6C process steps of the process, whereby a planographic printing form from one produced by the method according to the invention Copy is made,

Figs. 7A and 7B process steps of the modified Method whereby a planographic printing form from a according to the method according to the invention produced copy is produced.

In the case of the FIGS. 1A to 1D illustrated embodiment of the method according to the invention is first one of its electrical resistance The action of heat-reducing transparent layer 10 is placed on a master copy 13 so that there is contact between the image parts 14 and the layer 10.

As FIG. 1A shows, the original is then 13 placed with the layer 10 on an electrically conductive, grounded base 17 so that the master copy 13 lies on the base 17, and everything is fed together by a voltage source 19 Corona discharge electrode 18 passed. The free layer side of the layer 10 is the electrode 18 and receives the potential of the electrode 18 through the corona discharge surface charge 15 of the same name, while that accumulates on the other side of the layer Charge has the opposite sign. The small circles on the two surfaces of the Layer 10 in FIGS. 1A to ID are intended to do this Represent charges. As shown, the electrode 18 has a negative potential. However, it can also have a positive potential. The electrostatic charge causes the layer 10 to Copy master 13 and this adheres to the base 17. No additional pressure is necessary however possible.

The materials move in the direction of the arrows and shown in FIGS. 2A to 2D come after also the one in Fig. 2A as still Part of the layer 10 shown not provided with charges has been charged, under an intense condition Heat radiation source, for example an infrared lamp 20 with a reflector. The heat rays penetrate the layer 10 and are absorbed by the image parts 14 of the master copy 13 beer. The remaining parts of the master copy reflect the heat rays. This becomes the layer 10 heated practically only in the places that over: the image parts 14 are. As a result, nui At these points the surface charges flow off or are extinguished and there are charge-free surfaces 21 form. The irradiation times and the heat radiation intensity are chosen so that no noticeable

ίο borne scatter in the heat transfer from the image parts 14 occurs on the layer 10 and the surfaces 21 are practically completely free of charge. The cooling off the layer 10 immediately after being passed over the lamp 20 has the advantage that the charge remains practically undisturbed on the remaining parts of the layer.

The charge image on the layer 10 is now produced by one of the known electrophotographic development processes developed into a positive or negative image of the master copy. Like F i g. 1C shows a cascade development is envisaged, in which a negatively charged toner 25 is applied to the layer 10. Since the charge image is also negative, the toner only adheres to the charge-free areas 21 while it is removed from the remaining charged parts of the layer is repelled and unrolls. The areas covered with toner 26 correspond to the image parts 14 of the master copy, so that a positive image on the layer arises.

The toner 25 is, as shown in FIG. 1 shows, because of a certain distortion of the electric field in Drainage or erasure of the charges at the edges 27 of the surface parts 26 are increasingly attracted. the end For the same reason, a toner deposit 28 is often found directly on the edge of the layer 10. This toner deposition 28 can be avoided in that no on the edge zone of the layer 10 Toner is applied. The strong edges 27 of the surface parts 26, however, are very advantageous because they achieve a particularly high resolution and very clear reproduction. The copies often even have a better quality than the original.

A modified one shown in Figures 2A to 2D Embodiment of the method according to the invention is simpler than the embodiment according to Figs. 1A to ID. The quality of the copies is but less. Layer 10 is how

Fig. 2A shows passed over a grounded roller 31 and thereby provided with surface charges 15 ′ by means of a corona discharge electrode 18. Then the charged layer 10 is placed on the master 13 so that its image areas 14 in contact stand with layer 10. These materials are passed under an infrared lamp 20 so that the areas 21 located above the image parts 14 are discharged. A grounded pad for the master copy 13 is not absolutely necessary during the heat irradiation. Preferably, however a grounded electrode or roller during the process step following the heat treatment the separation of the layer 10 from the master 13 is pressed against the latter in order to generate a static charge the master copy and the layer due to the separation and thus a distortion of the charge image on the layer to reduce to a minimum.

The layer 10 separated from the master is now developed. It can do so, as shown in FIG. 2C and FIG. 2 D show a toner 25 which adheres only to the discharged areas 21 can be used. Since the Copy master 13 was removed from layer 10 prior to development, have those covered with toner Surface parts 26 do not have a reinforced edge.

For development, however, a spray 32 can also be used, the particles of which are uncharged or have a potential opposite to the surface charges 15. Like Figure 2E and FIGS. 2 and 2 show F, this results in areas 33 covered with a precipitate, which form a negative image the copy template.

Particularly durable copies can be made with a 0.05 mm thick acetate film as a layer, if during charging by means of a negative corona discharge the original is on a grounded The conductor lies, the charge pattern develops in a cascade after the heat radiation, the free one Layer side is covered with a thin, non-adhesive protective film made of polyethylene and the Materials can then be guided past an infrared lamp for fixing. One made in this way Copy is also sharp and has a high density. Equally good results can also be achieved with a 0.025 mm thick polyethylene terephthalate film instead of the acetate film.

An embodiment of a device according to the invention for producing copies according to the The method according to the invention is shown in FIG. 4 shown. A large one made from an electrically conductive one Fabric existing drum 40, which is preferably grounded, is driven by an electric motor 41 coupled via a belt 42. On an input device 43 assigned to the drum the master copy 13 and the layer are placed on top of one another and guided onto the drum in such a way that the master is between the layer 10 and the drum surface. Conveyed by the drum 40 Immediately thereafter, the master copy 13 and the layer 10 pass under a device for electrostatic charging with spray electrodes 45. The layer 10 is charged with a surface Mistake. In addition, the charge has the consequence that the layer 10 on the master copy 13 and these are held on the drum surface.

The drum 40 then transports the materials under an infrared lamp 46, whereby, in the manner already described, on the layer 10 the charge image corresponding to the master copy is produced. The drum 40 then feeds the materials into a developing device, in which a liquid developer 51 is applied to the free layer side by means of a rotating brush 50 will.

A second infrared lamp 52 is provided for fixing, under which the materials after development be passed through. The toner is fused onto the layer with this infrared lamp 52. However, fixing is also possible in other ways; for example, the liquid Developer 51, an adhesive can be added. Very good results were obtained with a layer 10 of a 0.04 mm thick polyethylene terephthalate film and a liquid developer made from cyclohexanol as Carrier liquid, a small amount of a styrene-modified alkyd resin as a fixing agent and a negatively charged toner.

After the surface parts 53 covered with toner have been fixed on the free layer side of the layer 10, the materials are lifted off the drum 40 by means of a stripper 54 and, if necessary separated in a separator.

A somewhat different embodiment is shown in FIG. 4. The parts corresponding to FIG. 4 are identical Reference numbers used. The difference is that after being developed in of the developing device 50, 51 in a second revolution of the drum 40 at the spray electrodes 45 which may be on or off, a second time under the infrared lamp 46 to fix the toner on the layer 10. One in the direction of the double arrow 57 displaceably arranged scraper 56, which is withdrawn during the first revolution, lifts during the second cycle, the materials are removed, which are then separated.

Another, shown in FIG. 5 illustrated embodiment, compared to the embodiment according to FIG F i g. 4 some improvements. A drum 60 driven by the electric motor 41 is provided with a thin insulating layer 61 provided, which is charged by an auxiliary spray electrode 62. Through this the master copy 13 adheres particularly firmly to the drum when it is placed together with the Layer 10 is pressed on by means of a pressure roller 63. The input device 43, via which the materials the pressure roller 63 are supplied, is electrically conductive and preferably grounded, which is the adhesion of the master copy 13 on the layer 61 is still improved. The drum 60 transports the materials past a spray electrode 64, the potential of which is opposite to that of electrode 62 is. The materials then pass under an infrared lamp 65 with an elliptical reflector 66. After the very rapid heating of the image parts of the master copy and those above them Areas of the layer 10 are again cooled very quickly, resulting in a maximum Contrast is achieved. A liquid developer 70 is provided for developing, which is taken from a storage container 71 through a pipe 73 onto the surface of the drum and when the materials reach the developing device pass through, is passed to the surface of the layer 10 when a valve 72 in the pipe 73 is open. The overflow is pumped back into the storage container 71 by means of a pump 74.

In the case of highly insulating materials such as polyethylene terephthalate, the charge image can be kept for a relatively long time before it is developed. For example, a charge image could still be developed very well ^{after 2 1 1/2 days.}

If the copy is to be used as a planographic printing form, as shown in FIGS. 6A and 6B, the surface of the layer 10 on which the surface parts 26 covered with toner are located, by treatment hydrolyzed with a reagent applied by means of a brush 80. Which took place Hydrolysis is indicated in FIG. 6B by the dashed area 81.

There are many chemical reagents that cause hydrolysis. For example, sodium hydroxide is used treated cellulose acetate hydrolyzed. With one made from a 0.05 mm thick layer

Cellulose acetate planographic printing form produced in this way several hundred flat-screen images could be produced on an offset printing press.

An offset printing press in which a planographic printing form with hydrophobic surface parts 26 and hydrophilic Areas 81 is used is shown schematically in FIG. 6C. The one on a drum 85 Horizontal planographic printing form is made by means of a roller 86 which is immersed in a water bath or a greasy printing inks repellent Solution 87 dipped, moistened, then by means of a roller 88 with a fat printing ink 89 colored, the printing ink being repelled by the moistened, hydrophilic surfaces 81 and adheres to the surface parts 26. The printing ink is transferred to a rubberized roller 90 and printed by this on a sheet of paper 91 which is pressed against the rubberized roller 90 by means of a pressure roller 92 will.

The conversion of the layer 10 into a planographic printing form can also take place by irradiation. For example, as shown in FIGS. 7A and 7B, the developed and optionally fixed copy can be passed over a grounded roller 96 and thereby exposed to the corona discharge of an electrode 95. Polyethylene, for example, has a surface which is rendered hydrophilic by such a treatment, while the areas covered with toner remain hydrophobic. With a copy made of a 0.05 mm thick polyethylene film treated in this way, several hundred planographic images could also be produced in an offset printing press.

For use as a planographic printing form, only the surface of the layer needs to be hydrophilic, while the rest of the layer can still be highly insulating. For example, a polyethylene film which has been treated with a corona discharge, a hydrophilic surface. Nevertheless, she can still can be used with very good success in the method according to the invention. After developing the copy is then immediately available as a flat printing form. The surface of the layer can therefore can be made hydrophilic during the production of the film.

Claims (4)

Patent claims: 1. Electrophotographic process for the production of pictures or planographic printing forms, at one of which has an electrostatic layer that reduces its electrical resistance when exposed to heat charged, irradiated with heat in contact with an original, developed with an electrophotographic developer and optionally fixed or converted into a planographic printing form, characterized in that that one is transparent, its electrical resistance when exposed of heat-reducing layer (10) is placed on a master copy, electrostatically charged and irradiated with heat from the free layer side. 2. The method according to claim 1, characterized in that one made hydrophilic, transparent layer that reduces its electrical resistance when exposed to heat and a developer with a hydrophobic toner is used. 3. Apparatus for performing the method according to claim 1, characterized by the combination of a rotating drum (40, 60) with a device (45, 64) for the electrostatic Charging, a device (46, 65) for the irradiation with heat, a device (50) for developing with a toner (51, 70) and means (54, 56) for stripping the master copy (13) and the layer (10) from the drum (40, 60) and for separating the Layer (10) from the master copy (13). 4. Apparatus according to claim 3, characterized in that it is between the device (50) -for developing and the device (54, 56) for stripping off the master .and the Layer contains an optionally usable radiation source (52). Considered publications:
German publication No. 1107 680. For this purpose 2 sheets of drawings 609 587/257 6. 66 © Bundesdruckerei Berlin