DE1497060B2 - ELECTROPHOTOGRAPHIC PROCESS AND IMAGE RECEIVER FOR THE PRODUCTION OF SCREENED HALFTONE IMAGES - Google Patents

Description

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mean, but not mandatory, an even turns, or they can be dispersions of Spaced and can be round, diamond-shaped or made of photoconductive pigments, one of which is against another Be form. Zinc oxide is used in similarly working pressurized units, in one An image with continuous tint can be electrically insulating, film-forming binding through a pattern of lines are reproduced, 5 are medium dispersed. A spray charge device which can be straight or curved and whose I ^ with its high voltage source 14 is pre-thickness see themselves on their length according to the one that has an electrostatic charge of some The degree of darkness of the artwork changes. Im a hundred volts on the surface of the drum 10 The scope of the present invention will apply to all, such as this in the electrophotographic this process is referred to as halftoning, io practice is common.

regardless of whether it is playback A projector 15 projects an image onto the

a gray tint by means of a pattern of dots, drum 10, after this from the spray loading

Lines or other shaped elements. device 13 is charged, whereby on the

The electrophotographic processes in which a drum 10 forms a charge image. Preferably

Charge image due to the mechanical deformation 15, the projector 15 projects a moving image, the

a surface is made visible, resemble the synchronous with the running of the drum 10-

Printing process, since lines and points are moved with them. The drum 10 first passes through a

can be reproduced well, but no gray contact point with a band of deformable material

; Intermediate tones and no large, continuous image receiving material 16 from a supply roll

tinted surfaces. It has already been proposed that 20 17 is supplied and that with the help of an electrically

the knowledge of printing technology use to conductive transfer roller 18, which is from a

h by feeding gray values or large areas of DC voltage source 19, in closer is maintained as a continuous pattern of surface contact with the drum 10. That Represents deformations. It is suggested that image receiving material 16 can be any insulating material been able to do this by being the 25 substance that can easily be found by applying mechanical properties' of deformable heat or solvent vapors or the like on layer changed from point to point, but this has given way. Polystyrene is a particularly suitable one to a complex structure and unsatisfactory- substance, but most natural and man-made the results. Resins, waxes or the like are sufficiently suitable been hit, a halftone screen or the like. 30 The image receiving material 16 can also have a during the exposure phase. Only have a layer support, which is shown in FIG. 1 does not represent procedures according to the invention brings but is very posed and a mechanical support for the simpler Feasibility forms the desired effect formable layer. This support is the flawless reproduction of intermediate - preferably pliable, but can also be in some tints in the deformation image. 35 cases be stiff; it is said to be an electrical insulator The invention is described below with reference to and its mechanical properties under Figures of exemplary embodiments shown in more detail for the softening of the image receiving material 16 purifies. It shows necessary conditions to be maintained. Under the F i g. 1 a schematic representation of a device, suitable fabrics is characterized by polyethylene teredas to carry out procedures according to the er- 40 phthalate by its excellent electrical Finding is suitable, and properties, its strength and great cons-F i g. 2 different forms of a transferability against heat and all the usual materials applicable to the invention. Solvent off. The potential that the over-F i g. 1 shows an apparatus that applies the invention to the support roll 18 from the DC voltage source 19 several ways of performing allowed. It includes 45 is impressed, generates a strong electrical an electrophotographic recording medium 10 field between the transfer roller 18 and the in the form of a drum, which by means of a non-drum 10. This is shown in the embodiment shown Drive is rotatable about its axis. The form preferably grounded; this can be done via a The drum consists of a mechanically supporting power source 20 connected to the drum 10 Base 11, which is preferably connected in an electrically conductive 50 and grounded. It is noteworthy that and the desired tension between the drum 10 is made of various metals, such as aluminum minium or the like. Can exist. You can also from and the transfer roller 18 is formed in that Glass or another transparent material is either one or both of the energy sources 19 and 20 stand on which a coating of an electrical supply a potential.

conductive layer, preferably a transparent 55 The potential difference between the transmission

conductive layer, such as tin oxide or copper iodide, roll 18 and the drum 10 superimposed on the

is upset. The base 11 is electrically formed with a photographic drum 10 from the charge image.

conductive layer 12 coated which made one of the Irish fields an evenly distributed electrical

in the electrophotographic technology known photographic field, whereby the previously on the drum 10 dissipative Substances. These substances are generally charged images on the image receiving material

characterized in that it passes into the darkness 16, so that on this a facsimile of the

Insulate sufficiently to create an electrostatic original charge image. However has

Charge over a useful period of time, the transfer roller 18 is not smooth and cylindrical

to be able to keep that it is sufficiently conductive drical surface, but instead it contributes when they activate light or some other- 65 pattern of grooves and depressions so that their

The radiation is exposed to the charge surface of the image receiving material 16 in one

to drain. Photoconductive layers can be touched by multiple points, parallel patterns

include glassy substances, of which selenium is formed a lot of lines, crossed lines or the like. By

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one that is sufficiently strong for image transmission in FIG. 1 shows a further energy source 24 which

electric field creates a transmission that is connected to such a conductive layer

speaking of the raised surfaces and the verden can.

depressions is distributed. Accordingly, Fig. 2A shows one form of image receiving on the image receiving material 16 transferred 5 material 16 having a conductive layer and Charge image is a halftone pattern modified from the original in accordance with the invention. It is ample an electrically insulating layer carrier 25 produced and continuously produced on the drum 10, borrowed pattern is overlaid. The deformable picture - which in turn is made of polyethylene terephthalate or Receiving material 16 then runs through an oven to other mechanically tough, insulating materials 21, where it is softened and where the electro- io stands, the opposite to heat or solvent static The image of the charge in the softened material is dampened or resistant to both influences Causes deformation. The size of a single are. The layer carrier 25 is covered with a thin, nen deformation surface is of course covered after the electrically conductive layer 26, which with Amount of a layer 27 of deformable material transferred to the respective surface Straighten charge, making a continuous 15. Layer 27 is preferably, but not Tinting effect arises. You can just as well be transparent. If it is transparent, Use a vapor chamber that can generate the charge image and the vapors a solvent for the image receiving material transfer can be effected by a light-16 is filled. After it scans the oven 21 through the transparent image receiving material has run, the material cools, solidifies and projects through instead of through the drum 10 can then by means of a Schlieren optics or the like. Pro is then, and the projection of the image can then with projected or taken on a continuous instead of reflected light for later use22 be wound up. follow. In the arrangement according to FIG. 1, this can be so

It is also possible for the spray charge device to be designed with a magnification

13 and not using the projector 15, then 25 replaces the device with the transfer roller

the base 11 is transparent and occupies 18 described in FIG. As shown in Fig. 2A, the

Way covered with a conductive layer. A conductive layer 26 is not a continuous layer,

Projector 23 is then customary in the interior of drum 10, but instead has a

arranged and projected through the supporting sub-pattern of intersecting lines. If this

layer 11 through on the photoconductive layer 12 30 material in the device of FIG. 1 or in a

an image in the area where the layer 12 of the overlying apparatus is used is that in the

supporting role 18 faces. Between the drum deformable layer 27 and on the drum 10

10 and transfer roller 18 are not uniformly displaced by an electric field or

both energy sources 19 and 20 have an electrical shared field, but changes over the surface

Field generated that the transfer of the charge image 35 of the layer 27 away in accordance with the

from the drum 10 onto the image-receiving material pattern of the layer 26. Accordingly, the

16 caused in an image-wise distribution, namely charge transfer from the drum 10 to the

at the same time as the exposure of the drum 10 to layer 27, since it is controlled by the field, in one

the image pattern. Again, they are on the image grid and not in a continuous distribution,

receiving material 16 effective fields only there- 40 The pattern with crossed lines in FIG. 2 A is

strong enough to cause a charge transfer not the only suitable pattern for the conductive one

act where the image receiving material 16 is effective. Layer 26. This can, for example, also act

Lich contact with the transfer roller 18 is, pattern with straight lines parallel to each other,

and again the transferred charge image is shown as in FIG. 2 B, or a sample from

Halftone pattern superimposed. 45 zigzag lines according to Fig. 2C included, in advance

The invention is based on a rotating set that these lines are electrically galvanized with one another Electrophotographic recordings are bound to keep them on the same thing carrier and a transfer roller 18 described remain potential. A spiral can also be provided but of course can be the same as those shown in FIG. 2D is shown. In any case Process steps are then also carried out, 5 °, these patterns are suitable for a locally when one intermittently creates a flat electro- changing electric field between the image photographic Recording medium and a flat receiving material 16 and the drum 10 to be erleitbaren Plate in place of the transfer roller 18 testify. Namely, the field changes along the used. Surface of the image receiving material 16, and this

The idea of the invention can also be used for modification.

application of new forms for the image receiving material capable layer 26, but is in general

16 can be used. It is already known that figurative elements also contain a pattern that is derived from

receiving materials originates, for example, from a structure of the image exposure.

may consist of a layer of an insulating The transfer roller 18 can by means of a Carrier, a thin, preferably transparent 60 conventional etching process can be made. So can Layer of a conductive material and a top - an originally smooth roller with a layer of a Surface layer made of a deformable material encompassing etching which can optionally be influenced by light. With such a structure, the over-protective material such as chrome gelatin may be coated Carrying roller 18 is omitted because the one for the transfer. This layer is then applied with a light transmission of the charge image required for the required half-tone pattern Fields corresponding to the application of controlled patterns, and the unexposed material da-potentials to the conductive layer of the image receiving after washed out. Then the transfer material 16 can be produced. Accordingly, roll 18 is immersed in an acid bath that

surface in the areas that are no longer covered by the etch protection material, etch away. Last will Finally, the remaining etch protection material is removed, and the desired relief pattern remains on the transfer roller 18. If desired, the depressions can also be made with a plastic or another insulator to create a smooth surface. Various others Methods can still be used to form a pattern on the transfer roller 18, and these, as well as the method described above, can also be used to create useful surface patterns to be applied to flat plates or other technical equivalents for the transfer roller 18.

If the image receiving material 16 includes a conductive layer, it can be in a number of ways be made of different fabrics. For example, conductive layer 26 can be a metal layer be applied as a film, evaporated in a vacuum or chemically deposited. If it is sufficiently thin, such a metal layer will be transparent. When the substrate 25 consists of glass or a similar difficult-to-melt material, can be known by known Method a transparent and conductive layer of tin oxide can be applied to it. If the Layer support 25 consists of a plastic or a similar non-heat-resistant material, that cannot withstand the heat required to apply the tin oxide coating can instead a transparent and electrically conductive coating made of copper iodide can be provided.

The desired pattern can be applied to all of these layers by various methods will. One such method is to apply the coating to the substrate 25 by a layer To apply stencil through. Another method is to put parts of the layer 26 after it was applied evenly, selectively removed using the same etching technique used in conjunction with the manufacture of the transfer roller 18 was described. As is well known, you can too Portions of a thin film, such as conductive layer 26, in one by controlled electron bombardment Remove high vacuum. After applying the conductive layer 26 in the desired pattern has attached the layer support 25, a layer 27 of deformable material by means of a customary coating technology can be applied. In a further embodiment, the conductive layer 26 comprise two superimposed layers, one of which is an extreme thin and even layer of relatively great electrical resistance, the other a patterned one Layer of higher conductivity from that

xo type described above. In this embodiment, the charge transfer effecting changes electric field does not abruptly move from point to point along the surface of the image receiving material 16 how this happens when the conductive layer 26 mainly areas with very high electrical conductivity mixed with areas where the conductivity is practically zero. Other methods of creating a grid pattern by changing the conductivity in the conductive one Layer 26 can also be used to provide a more gradual local change in the electric field that is used to transfer charge. It was found that such a gradual field change rather gives a higher resolution in the final deformation image than one would with very abrupt field changes can achieve that arise in a conductive layer 26, which at one point either is present or completely absent.

In some examples it has been found advantageous to use the drum 10 or the image receiving material 16 with an electrically insulating liquid such as silicone oil. One of those Oil film fills the space between the drum 10 and the image receiving material 16, creates a more even contact and increases the mobility of electrical charges between the two elements. It has been found that the for an electrical potential required for transmission is significantly reduced.

The methods described above are suitable for reproducing halftone effects in the Transfer of electrical charge images, regardless of whether these charge images are on a deformable surface or transferred to other types of surfaces.

1 sheet of drawings

309 514/413

Claims (7)

1 2 an image is reproduced electrostatically by surface deformation. 1. Electrophotographic process in which devices for image generation and enable a photoconductive layer a halftone charge 5 does not reproduce halftone images with gray tones image generated the charge image with the help of a and large tinted areas. electric field on a deformable A modified reproduction process for a Layer transferred and the deformable layer electrostatic deformation image is already provided after removal of the photoconductive layer has been hit, in which a charge image in air is softened, characterized by a conventional electrophotographic image that for the production of a screened halftone drawing carrier or the like on a layer of de- The image is transferred to a malleable and insulating material during the transfer of the charge image the deformable layer becomes a grid-like in which then corresponding to the transferred homogeneous electric field is used. Charge pattern Surface deformations arise. 2. The method according to claim 1, characterized in that the transfer of the charge image over narrow indicates that the grid-like inhomogeneous air gap is also called the TESI process electric field with the help of one which is called deformier- (Transfer of Electrostatic Images) and is bare layer touching, electrically conductive z. Known from U.S. Patent No. 2,937,943. Layer with grid-like depressions produced. This process is suitable for photogenic Rewird. 20 productions and does not require a vacuum system, it 3. The method as claimed in claim 2, thereby also not allowing playback of indicates that as an electrically conductive layer halftone images. This defect is not in the f j the surface of a roller is used. Charge transfer mechanism justified, but 4. The method according to claim 1, characterized in that in the way in which a surface as a result indicates that the grid-like inhomogeneous 25 deforms the electrostatic charges on it. It electric field with the help of one on its back, various proposals have already been made side with a conductive grid layer to overcome these shortcomings, but see deformable layer is generated. these generally require particularly 5. Image receiving material for carrying out the plicated devices or the like. Method according to claim 1 from an isolating 30 The object of the invention is to provide a the substrate, an electrically conductive process that can be carried out easily and cheaply, which the Layer and a deformable layer, there- reproduction of gray tones or intermediate tones characterized in that there is a grid-like, the electrophotographic generation of defor- contains electrically conductive layer (26). mation images enables to produce. 6. Material according to claim 5, characterized in 35 A method of the type mentioned is for distinguishes that the grid-like, electrically conductive solution of this object according to the invention in such a way fromSchicht formed on a very thin layer (25), that for the production of a half-screen, relatively large electrical resistance, tonal image during the transfer of the charge image is brought and with this together the electrical on the deformable layer is a grid-like intric forms conductive layer (26). * o homogeneous electric field is used. 7. Material according to claim 5 or 6, characterized by the invention that the characterized in that the substrate (25), the rasterization during the transfer of the charge electrically conductive layer (26) and the de- image takes place and thus no special additional formable Layer (27) are transparent. borrowed procedural steps are required. The last The deformation image obtained on loan is then a halftone image, which accurately reproduces the intermediate hue levels of the original image. The creation of a grid-like inhomogeneous field is easy to implement, as the following description of The invention relates to an electrophotographic 50 exemplary embodiments still shows. Process in which on a photoconductive layer it seems appropriate here to use the tone printing generated a halftone charge image, discuss the charge image with, since its principle in the invention from help an electric field is used to deform. The usual printing methods, such as bare layer transferred and the deformable letterpress and lithography, can only black layer after removing the photoconductive 55 print white and are therefore not suitable for gray Layer is softened, and an image receiving material to reproduce intermediate tones. There are also to carry out the procedure. other printing processes, such as intaglio, with which only With the usual forms of electrophotographic small black areas and not extensive ones Process will be able to print full black areas through the joint action, an electric field and a light pattern on 60. These problems are caused in printing technology a photoconductive layer of insulating material has been released to create a so-called halftone image generated. The charge image is used later or not in a process, in which the image is in a indirectly thereafter, or in some cases also resolved equally large number of points lying close together transformed into a visible image at an early stage by becoming one whose size is different from that to be reproduced selective attraction, repulsion or redistribution 65 depends on the degree of density. These points are more finely distributed, solid or liquid particles figuratively very small and close together, as the moderate distribution takes place. Point spacing a lower limit for playback Such methods are also known in which image details are set. The points have in general