DE2052943A1 - Imaging process - Google Patents

Description

Patent attorneys Dipl.-Ing. F. Weickmann,

Dipl.-Ing. H. Weickmann, Dipl.-Phys. Dr K. Fincke Dipl.-Ing. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, POST BOX 860 820

XBA MÖHLSTRASSE 22, NUMBER 48 39 21/22

<983921/22>

XEROX CORPORATION, Rochester, N.Yo 14603, V.St.

Imaging process

The invention relates to an imaging method with selective layer transfer of an image material from a donor surface to a receiving surface and a device for Implementation of the procedure.

There is already an imaging process known as "multilayer process ¹¹ , which enables imaging with a layer of imaging material sandwiched between a donor face and a receiving face This different adhesion of the image material results from exposure to electromagnetic radiation as well as from the action of an electric field ·

As the image material, there is generally used a material containing electrically photosensitive parts dispersed in a binder. When the two layers are separated, the image is cohesively soft or frangible structural condition. This means that the cohesive force of the image material is lower i3t than the adhesive force on the donor or receiving

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ORiGiNAL INSPECTED

flea. In most cases the artwork will have stronger adhesive force on the donor area, which makes this lh « re designation * After the image material has been irradiated with image-wise distributed electromagnetic radiation and is exposed to an electric field, the adhesion between it and the receiving surface is greater in the irradiated area parts, which makes the receiving surface its Description has »Voltages are switched on to the donor area and the receiving area when both of them are separated, and the image material layer is between distributed them so that a positive image and a negative image results. The polarity of the voltages and the shape the electromagnetic radiation (or the shape of the electric field) determine which of the two surfaces one positive image and which one receives a negative image

There is a theory to explain the stronger adhesion of the image material to one of the two surfaces in that the parts irradiated and not irradiated with electromagnetic radiation, for example with light of a photosensitive material under the influence of an electric field in opposite directions Since the material is breakable when the two surfaces are separated, it is selectively shown in the form of complementary images on the donor surface or the receiving surface transferred «A detailed description of this • 'multi-layer process" already took place elsewhere

The object of the invention is to provide a method and an arrangement with which a simple and Safe execution of a multi-layer process is possible · In particular, the intimate contact between to be maintained by the individual sons " The entire process flow should be for an automated

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see implementation suitable.

A mapping method of the type mentioned is for This object is achieved according to the invention in such a way that the dispenser and the receiving surface are between a document and a band electrode are pressed together to produce an adhesive contact between the image material layer and the receiving surface, and this pressure effect is carried out an electric field generated between the electrodes is reinforced by removing the tape electrode from the backing electrode is attracted that an electromagnetic | Radiation to change the adhesion between the image material layer and donor and receiving area is generated and that the electrodes from each other and the receiving area be separated from the donation surface, whereby the image material layer in the irradiated and from the electrical Field affected areas divides and generated complementary images on donor and receiving surface

A device for carrying out this method can be designed in such a way that the donor and the receiving area with an intermediate layer of image material between one Backing and a tape electrode are arranged and that a printing device for pressing the tape electrode " is provided on the substrate electrode and an irradiation device for irradiating the image material layer with electromagnetic radiation

The backing electrode may be in the form of a flat plate, while the flexible tape electrode may be in the form of a roll is unwound and wound onto a roll. A donor tape, which is provided with the picture material, is over the A receiving tape is pushed into the gap between the tape electrode with pressure rollers

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and the backing _{electrode o} The roll on which the electrode tape is wound is moved to be twisted and thus encircles the receiving tape and the donor tape between the electrodes, thereby forming the multilayer arrangement. While the roll is being passed over the backing electrode, the Andruok drives the band electrode releases the gases between the two electrodes, creating a vacuum that brings atmospheric pressure to effect o The atmospheric pressure acts in the same direction as the mechanical force of the roller and the force of attraction created by the electric field, so that the different layers of the multi-layer arrangement stay in intimate contact «. The backing electrode and the donor tape are transparent in order to allow the image material to be irradiated with activating electromagnetic radiation in an image-wise distribution Where complementary images are created on the receiving tape and on the donor tape · A device is provided to dispense the used parts of the donor tape and the receiving tape, which also supplies new material for subsequent image production

The invention is described below with reference to the figures

Fig «1 the thematic representation of a donor layer, a picture fabric sheet and a receiving sheet one Multi-layer arrangement as well as the division of the image material in the separation of donor and receiving layer,

FIG. 2 shows a schematic illustration of an arrangement for Implementation of the method according to the invention,

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FIG. 3 shows an aohematic representation of the unwinding of FIG Bandelectrodeι

Mg · 4 is a schematic representation of the winding of FIG Tape electrode and the process of separating a donor tape and receiving tape,

Figo5 the section 5-5 from Figo2 and

! ige6 a device for storing the roll on which the strip electrode is wound _e

Fig. 1 shows a multi-layer arrangement 1 with which the multi-layer process can be carried out. It contains a transparent base or donor layer 2 to which a layer of an image material 3 is applied The image material 3 contains photosensitive parts 5 which are dispersed in a binder 6. In general, the image material has high strength in order to facilitate its handling and storage. In these cases, the strength Yor is the formation of the Mehrsohiohtanordnung reduced by softening of the material by heat or by a solvent "in Figure" 1 is a duroh Λ solvent softens the image spraying material 8 with a sprayer. 9 The material is softened until its strength has been reduced sufficiently so that the action of an electric field combined with the action of activating radiation on the electrically light-sensitive substances causes the image material layer to break when the multi-layer arrangement is separated The picture material is softened until its strength is less than the adhesive force on the donor sheet or the receiver sheet.

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After this softening, fabric is also called structural breakable bezeiohnet

The receiving BBchioht and the donor layer are electric insulating An electric field is generated on the multi-sole arrangement by the receiving sole and the spen dersohioht with electrically conductive electrodes to which a voltage is switched on, can be touched · The electrical PeId can also be touched by applying a charge with a corotron on one layer and applying a grounded electrode to the other layer The receiving layer and the donor layer themselves can be conductive, so that the voltage can then be applied directly to it · This is possible because the binding agent 6 is normally electrically insulating ·

The image material 3 can duroh the donor layer or the Reception layer through the electromagnetic radiation In Fig. 1 the arrows 10 represent the electromagnetic radiation which is directed through the dispenser rail onto the image material. the image material divides between them · The duroh radiation The affected image material adheres to the receiving surface, while the non-irradiated parts remain on the donor layer electric field carried out «A theory to explain the division of the image material between the two layers consists in "that the light-sensitive particles 5 are moved under the action of radiation and the influence of an electric field." This tendency to movement creates tensions within the image substance, which change the adhesive force on that surface from which the parts move away · Dl · cohesive-white nature of the picture explains why the BreohTorgang over practically the entire strength of the image

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stoffsohioht takes place

The compounds and substances suitable for forming a multi-layer arrangement are listed elsewhere. The following substances are only examples of use. for example, polyethylene coated paper and mixtures thereof. suitable Aktivierungsflüasigkeiten, d "ho solvents are those substances which meet the strength of the image material layer i Terri Gern · Typisohe such substances are kerosene, carbon tetrachloride, petroleum ether, silicone oils, etc · the image" fabric layer may be any suitable Contain photosensitive substance in a binder «Typical photosensitive substances are photoconductors such as substituted and unsubstituted phthalocyanine, quinacridones, zinc oxide, mercury sulfide, etc. Binders can be insulating resins, for example Polyethylene, polypropylene, etc _e

In Pig x 2 an arrangement is shown, which includes a base electrode 12 and a strip electrode 13 on einer.Rolle 14 · The Mehrsohiohtanordnung the donor contains λ ribbon 15 and the reception band 16, and is formed between the electrodes, an electromagnetic radiation and an electrical Field exposed as well as separated again in order to generate a positive image and a negative image «

The pad electrode 12 consists of an optionally transparent glass plate (it can also be in the form of a drum have) to which an optically transparent base made of electrically conductive tin oxide is applied Glass of this type is commercially available under the name NESA glass. The conductive base made of tin oxide is located on the upper surface facing the strip electrode 13

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area"

The strip electrode consists of a conductive material, because it is flexible and allows repeated winding or unwinding with the roller 14. The ribbon electrode is preferred also elastic bin Example of a suitable elastic and conductive material for use as a tape - electrode is Buna-η, © in synthetic rubber with 30 Durometer units. The ribbon electrode is anchored at its free end with a fastening element 17, so that it can be unwound from the roll 14 · your other End is attached to the circumference of the roll 14 so that it can also be wound onto the roll · The roll is against The pad electrode is pressed along the pad electrode either by hand or with a suitable bearing arrangement moves while maintaining the upward force, doing so will turn the ribbon electrode on the pad electrode applied · A suitable bearing device is, for example, an inclined guide 18 of the in the manner shown in Fig. 6, in which the axis 19 of the roller 14 is guided · The movement of the roller by a motor or by hand along the guide 18 causes the ribbon electrode to rotate and unwind. The angle of inclination of the guide 18 relative to the backing electrode is adjusted so that the roller pushes the tape electrode against the backing electrode presses · The roller and its bearing therefore form a pressure device for pressing the ribbon electrode against the Pad electrode · Is a multi-row arrangement between the two electrodes, the pressure device favors intimate contact between the different ones Views of the multilayer arrangement · This property of a Arrangement according to the invention is described below in connection with FIG.

The dispenser tape 15 contains a donor schioht on the

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an image material is deposited, these are the soles 2 and 3 shown in Fig ₀ a roll 20 (Figo 2) the surface of the image material wetted on the tape 15 and softened it to a degree that it is structurally breakable · the solvent is kept in a container 21 in a sufficient amount so that there is always the circumference of the roll 20 coated. While the tape 15 is being guided past the roller 20, the roller 20 is rotated by frictional contact so that the solvent is applied to the surface of the tape.

The dispenser tape 15 is between a take-up roll 23 and A supply roll 25 guided with the take-up roll is coupled to a drive device which is not used Bring part of the tape 15 to a position near the backing electrode 12. The receiving tape 16 is on the roll 24 saved. A fresh part of the receiving tape is from the roll 24 with the Andruokrolle 26 and 27 discharged. The receiving tape is in the gap (the Beruh « area between the tape and the electrodes) with a Guided tour 29 led. The roller 14 is advanced a small amount so that the tip of the receiving tape between her and the pad electrode is held. The role is then from the left to the right (Fig.2) over the Pad electrode moved away, thereby practically all or at least one strip electrode to cover the area the radiation exposure sufficient part handled isβ The unwinding of the ribbon electrode is sohematisoh shown in FIG.

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The guide 29 is bent downwards at the point 30, whereby a rising part 31 and a falling part 32 is formed. With a spring 33, the guide is so tensioned that the point 30 in a contact of the The direction in which the pad electrode is pressed «, When the roller is moved from left to right, it rests on the rising part 31 and pushes the guide against the action of the spring near the bottom out of its range. The guide is pressed down again when the roller on the part 32 is moved from right to left.

While the roller 14 is being moved from left to right and the ribbon electrode is rolling in the manner shown in Fig. 3, the receiving tape 16 is pulled forward and placed against the image fabric layer on the donor tape 15 · With the axes the pressure rollers 26 and 27 are coupled slipping clutches that feed the receiving tape by the action of the roll 14 · When the roll is moved from right to left and the tape electrode rewinds, will the receiving tape from the multi-tube arrangement with the rolls 26 and 27 withdrawn, since these are now rotated in the opposite direction with a suitable drive device. The winding of the ribbon electrode onto the roll 14 and the separation of the receiving tape from the multi-sole arrangement are shown schematically in Fig. 4. The receiving tape is separated from the multi-layer assembly at substantially the same speed as the roller 14 moves · one Roller 36 is arranged in such a way that the force exerted on the receiving tape with the pressure rollers contains a downward component which becomes vertical component less if you move the roller 14 further to the left, since the angle between the roller 36 and the roller 14 relative to the horizontal decreases

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- 11 -

however, adjusted so that the vertical force component to separate the receiving sheet is also sufficient when the hollow 14 is furthest to the left. The horizontal component of force exerted on the receiving tape is sufficient to pull the tape off the two electrodes when the roller 14 returns to its initial position. The receiving tape is severed with the knife edges of the slave rails 37 and 38, falls onto the sloping part 32 of the guide 29 and is removed from it by gravity or by a conveyor mechanism

The performance of the imaging arrangement described above is improved if the layers of the multi-layer arrangement to be in close contact with each other © This close contact is between the image material and the donor layer ensured, since the image material is applied to this On the other hand, the contact between the image material and the receiving layer depends on the effect of the image-forming arrangement ab · The receiving tape is pressed against the image fabric layer by at least three forces: One Force is the mechanical force exerted by roller 14 on the strip electrode exerted force, another force is the force caused by the electric field generated by the electrodes Force, the third force is the force of "atmospheric" pressure. This latter force results from the fact that between the electrodes and the layers of the multi-solder arrangement existing gases are pressed out by the force generated by the roller 14 between the layers

In Pig x 5 is a cross section of one between a pad electrode and a multi-layer arrangement located on a tape electrode. The dispenser tape 15 contains the donor layer 2 and the image material 3 (corresponding to Pig 1). The widths of the donor ribbon and the receiving ribbon

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12 -

agree. Preferably, the width of the tape electrode 13 is slightly larger than that of the donor tape or of the receiving tape. This creates some misalignment of the different layers of the multilayer arrangement and the electrodes to one another are permissible. In the case of the FIG The arrangement shown, the strip electrode 13 is provided with a thin insulating layer 39, which provides an electrical bridge of the two electrodes. The ribbon electrode forms a seal between the two electrodes, whereby the atmospheric pressure on the multilayer arrangement can act »It should be noted, however, that removes gases between the image material and the receiving layer when the tape electrode is pressed against the backing electrode. Hence the atmospheric causes Pressure is the maintenance of intimate contact between these layers of the multilayer arrangement, even if the width the band electrode is the same as or less than that of the receiving band

The electromagnetic radiation acts on the multi-layer arrangement with a lamp 40 (Pig _e 1), a see- _{through image 4-1 and an optic 42 e.} The radiation generated by the lamp 40 is transmitted with the see-through image 41 in an imagewise distribution and with the optics 42 collected, after which it is projected through the transparent donor layer onto the image material. The electric field is generated with a voltage source 43 which is connected on the one hand to the strip electrode 13 and on the other hand to earth 44, the support electrode 12 is also connected to earth.

After images are created on the donor belt and the receiving belt, the donor belt remains electrostatic or other force to adhere to the pad electrode. It is separated from it by putting a knife edge between it

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both elements is guided or a compressed air flow is generated that lifts the counter electrode. Other separation devices can also be applied ₀ Thereafter, the used donor web is guided onto the take-up reel 23 and a new portion of the tape 15 brought electrode to the Unterlagen- · A new part of the reception band is guided into the gap between the two electrodes, whereby the above-described Processes to generate another image are running _c

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Claims (1)

Claims Imaging process with selective sole transfer of an image material from a donor surface to a receiving surface, characterized in that the donor and the receiving surface (15, 16) between a base and a strip electrode (12, 13) for production an adhesive contact between the image material layer (3) and receiving surface (16) are pressed together and this pressure effect by a between the electrodes (12, 13) generated electric field is strengthened by removing the tape electrode (13) from the backing electrode (12) is attracted that electromagnetic radiation (10) to change the adhesion between Image fabric layer (3) and donor and receiving area (15, 16) is generated and that the electrodes (t2, 13) from each other and the receiving surface (16) from the donor surface (15) are separated, whereby the image material layer (3) in the irradiated and from the electrical Field-influenced areas divides and images complementary to one another on the donor and receiving surfaces (15, 16) generated. 2 «device for carrying out the method according to claims 1, characterized in that the donor and receiving areas (15, 16) have an intermediate material base (3) are arranged between a base and a strip electrode (12, 13) and that «ine Pressure device (14) for pressing the strip electrode (13) to the substrate electrode (12) and an irradiation device (40 »41» 42) for irradiating the image material layer with electromagnetic radiation is provided 3. Device according to claim 2, characterized in that 109819/1788 that the strip electrode (13) is a conductive and elastic Having material. 4ο device according to claim 2 or 3, characterized net that the strength of the image fabric layer (3) between the electrodes (12, 13) is reduced « Device according to one of claims 2 to 4 »characterized in that the support electrode (12) from a transparent material "and for on a transparent dispenser surface (15) and the image material layer (3) electromagnetic radiation is permeable 6ο device according to one of claims 2 "to 5, characterized characterized in that a device (14, 26, 27, 36) for separating the strip electrode (13) and the backing electrode (12) and the receiving surface (16) and the donor surface (15) is provided 7. Apparatus according to claim 6, characterized in that the separating device (14, 26, 27, 36) the strip electrode (13) and the receiving surface (16) from the pad electrode (12) and the donor area (15) separates " 8. Apparatus according to claim 7, characterized in that further an arrangement for removing the donor surface (15) is provided by the pad electrode (12). Device according to one of Claims 2 to 8, characterized in that the printing device (14) is a roller (14) movable relative to the electrodes (12, 13) includes, which presses one electrode (13) during its movement against the other electrode (12) and between ~ 109819/1788 Bohen the electrodes (12, 15) removed any gases that may be present 1Oo device according to claim 9t characterized, that one end of the band electrode (13) is attached to the roller (14) so that this the band electrode (13) winds up that the free end of the ribbon electrode (13) is anchored at a fixed point (17) and that Wringing off the strip electrode (13) from the roll (14) allows and that a guide device (18) for the rotatable mounting of the roller (14) during its movement relative to the electrodes (12, 13) and to the " press the roller (14) against the pad electrode (12) is provided o 11. Device naoh Anspruoh 10, characterized in that that a force-exerting element (26, 27) is seen on the receiving surface (16) through which the gate Reception area (16) when winding up the ribbon electrode (13) on the roller (14) is separated from the tape electrode (13) and the dispenser surface (15). 12 · Device according to claim 10 or 11, characterized in that a first guide device (23, 25) for guiding the donor surface (15) with the Sildstoffsohioht (3) present on it on the pad electrode (12) it is provided that a second guide device (24, 26, 27) for guiding the receiving surface (16) to the picture material (3) is provided before the Abwiokeln the tape electrode (13) and that the Druokvorriohtung (14) and the electric field the receiving area (16) brings into contact with the image fabric (3), when the strip electrode (13) is turned off the roller (14). . 109819/1788 13o device according to claim 12, characterized in that that the second guide device (24, 26, 27) has a drive (26, 27) for moving the receiving surface (16) to the electrodes (12, 13) before the ribbon electrode (13) is twisted off, so that the receiving surface (16) moved by the roller (H) when the strip electrode (13) is twisted and between the electrodes (12, 13) compressed and when winding the ribbon electrode (13) on the roller (U) is removed from the electrodes (12, 13) c 14. The device according to claim 13, characterized in that a resiliently preloaded guide (29) is also provided is that the backing electrode (12) before unwinding the tape electrode (13) from the roll (14) touches and the guidance of a tape before the tape electrode (13) is twisted off the roller (14) 'η a point in the area of movement of the roller (14) and a storage of a tape near its separation from the electrodes (12, 13) causes » 109819/1788 It Blank page