DE2046004A1 - Device for photoelectropnore tables image generation - Google Patents

Description

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Patent attorneys Dipl.-Ing. F. "Weickmann, Dr. Ing.A.Weickmann

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

XPR

8 MUNICH 27, DEN

MÖHLSTRASSE 22, CALL NUMBER 48 3921/22

XEROX CORPORATION,
Rochester, NY14605 / USA

Photoelectrophoretic imaging apparatus

The invention relates to a device for photoelectrophoretic Image generation with two electrodes connected to an electrical voltage and movable relative to one another, between which a photoelectrophoretic image material is exposed to an image-wise distributed electromagnetic radiation will.

A detailed description of the photoelectrophoretic imaging process can be found in US patents 3,384-488, 3,384,566 and 3,383,993. In this case images are made from an image suspension, which consists of a non-conductive carrier liquid and photosensitive particles suspended therein. That Image is created by placing the image material between an indexing and a blocking electrode one of which is at least partially transparent, and that this electrode prevents it from being

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generation of electrical damage between the electrodes is exposed to an image. One theory of the process involved says that the particles in suspension have an intrinsic charge in the carrier liquid and are therefore attracted to the electrodes by the electric field will. Those particles that are bound to the injecting electrode and irradiated with light experience a change in their self-cargo polarity and are affected by the Locking electrode attracted, so that a positive image is created on the injecting, a negative image on the locking electrode. The barrier electrode has the property that it prevents the charge exchange with the attracted particles. These The property results from coating the barrier electrode with a dielectric material. The procedure occurs either monochrome or multicolored, which depends on whether the particles in the carrier liquid for one or different parts of the visible spectrum are sensitive. A natural color production results for example, when cyan, magenta and yellow particles are used, which represent red, green and are sensitive to blue light.

For some photoelectrophoretic image substances it has been shown that the images produced by the photoelectrophoretic process can be improved if the image substance is subjected to a force during exposure and the action of the electric field. Therefore, the images are generally created by moving the barrier electrode over the injecting electrode, thereby providing some minimum exposure to the image material. In most cases, one of the electrodes is designed as a roller for this purpose, so that the image material is to a certain extent due to the rotary and displacement movement of the roller

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being affected.

The object of the invention is the photoelectrophoretic Method by a novel device to improve its implementation, which is a particularly good Influence of the image material between the electrodes made possible. This influence should be controllable in its degree be. Furthermore, a device is to be created that the introduction of image material between the injecting and the barrier electrode of a photoelectrophoretic system and the removal of excess image material ensure j,

A device of the type mentioned is designed according to the invention to solve this problem in such a way that on a charging device is provided in a gap formed between the two electrodes, the photoelectrophoretic Bringing image material into the gap under pressure. An existing pressure generating device can also can be used to remove unused image material between the electrodes. The moving electrode is pressed against the stationary electrode, creating a gap. The image material fed to this gap is pressed onto the stationary electrode by the moving electrode. The photosensitive particles in the image material are drawn into the gap by the electric field between the two electrodes, while through a pneumatic system a pressure is exerted on the image material. The images are made by the photosensitive particles generated at the gap where electromagnetic radiation acts on them. The amount of storage possible at the gap of image material and the degree of action on the image material can be regulated by changing the pressure applied v / earth. For switching between different pressure values, for starting and interrupting the flow of image material and for

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Flow valves are used to maintain a predetermined amount of image material as it is applied to the electrodes. According to one embodiment of the invention, the movable electrode is designed as a rolling element that is in contact with the stationary electrode. The image material is formed before that between both electrodes Gap fed, while the excess image material is discharged through a number of holes in the electrode, which with are connected to a vacuum source. Another embodiment works with a vibrator for oscillatory movement the rolling electrode, whereby the image material is additionally influenced. The rolling electrode is a new type Configuration for a photoelectrophoretic imaging process. According to a third embodiment, the pneumatic image material feed is movable Electrode combined in the form of a roll.

Further advantages and characteristics of the invention emerge from the following description of exemplary embodiments of the figures. Show it:

Fig. 1 is a perspective view of a photoelectrophoretic Imaging device according to the invention with a novel rolling electrode,

Fig. 2 is a schematic representation of a photoelectrophoretic Image forming apparatus according to the invention with a roller electrode and

Fig. 5 is a schematic representation of a photoelectrophoretic Imaging apparatus according to the invention comprising a rolling electrode and a pneumatic arrangement for feeding and discharging image material.

The photoelectrophoretic image forming apparatus shown in FIG includes an exposure mechanism 1, one

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stationary electrode 2, a movable electrode 3 and an image material feed 4. In this and in the still to Descriptive embodiments of the invention, the stationary electrode 2 is the injecting electrode for the photoelectrophoretic process and consists of an optically transparent glass 6, which is covered with an optically transparent, conductive material 7 such as tin oxide is coated. Tin oxide-coated glass of this type is commercially available available under the name NESA glass. The movable one Electrode 3 is the blocking electrode, its dielectric part 8 consists of a material with a specific Volume resistivity, which is preferably of the order of magnitude

10
of 10 (or more) ohm cm, while its conductive part 9 is preferably an elastic material, for example conductive rubber, which gives flexibility to the entire electrode. The movable electrode is mounted in such a way that the dielectric material 8 touches the conductive layer 7 and creates a rolling gap 19 there. The electrodes are provided with connections 11 and 12 for a supply voltage 13 which generates an electric field between them.

The exposure mechanism 1 contains a light source, a transparency 16 and an optical system 17. Its task is there in irradiating the image material with electromagnetic radiation. It projects a light image, i.e. image-wise distributed electromagnetic radiation, of the transparency through the transparent and stationary electrode 2 onto the image material in the rolling gap between the both electrodes. A positive image of the see-through image is generated on the stationary electrode in those areas onto which the light image was projected. Included the switch 18 for applying the voltage of the voltage source 13 to the electrodes is closed, eo that the

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Electric field required for image generation is created. Furthermore, the barrier electrode is over from left to right the stationary indexing electrode moved away.

Under the terms "front" and "rear" in the following, the direction of movement is intended for the movable electrode be understood. In the case of left-to-right movement, the term "front" refers to a location on the right side or the front edge 20 of the pitch gap 19, while the term "rear" a point to the left of the edge 20.

The loading device 4 comprises the supply line 21 and a control circuit 22. The feed line consists of two parallel longitudinal lines 23 and 24 covering the entire width of the movable electrode get lost. The feed line 23 forms together with a channel 27 a way through which the image material on the Electrodes flows. The channel 27 is between the leading edge 20 of the movable electrode and a scraper 26 formed over the entire width of the movable Electrode runs. The channel ends in front of the movable electrode, in the illustrated case in front of the rolling element 28 and directs the image material into the nip 19.

The outlet line 24, on which a plurality of holes 30 are provided in the rolling element behind its front edge 20, is a vacuum line through the excess Image material is removed from the rolling element. The holes run over the entire width of the rolling element and are relatively small and arranged close together. If a negative pressure is exerted on them, it becomes more excess Image material discharged from the electrodes.

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Excess image material is understood to mean that part of the image material that is not used to generate the image is used on the stationary electrode. The image material was already made up of a non-conductive carrier liquid and photosensitive particles. The one on the stationary electrode after exposure The resulting positive image is generated from particles of the image material. The one between the electrodes Carrier liquid and the particles adhering to the movable electrode therefore constitute the excess image material . The force exerted on him by the negative pressure is set in such a way that it is necessary to remove at least the Carrier liquid is sufficient without breaking the bond between the particles and the stationary electrode. One assumes that this also enables the particles adhering to the rolling electrode to be removed, since there is a certain amount of pressure on them Washing effect is exerted by the carrier liquid sucked into the holes.

In Fig. 3, the control circuit 22 consists of entry and exit chambers or containers 31 and 32, the image fabric container 33ι the solenoid operated valves 34 and 36, the float 37, the switch 38 and the associated fluid lines or rubber hoses 39 (Fig. 1). The inlet and outlet tanks are with the Image material line 21 and thereby firmly connected to the supply and discharge lines 23 and 24, respectively. The containers 31 and 32 are completely closed and serve as a storage area for image material that can be fed or as Collection area for discharged excess picture material.

The excess image material collected in the outlet container can be returned to the inlet container, by connecting both to each other via line 41

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the. The valve 42, which acts in one direction, allows the image material to flow in a direction only towards the inlet container. The unidirectional valve 43 is on the opening of the outlet container, which is connected to the outlet line 24. It enables a flow of images only in the exit chamber. The inlet chamber 31 receives its supply of image material from the image material container 35 through the opening 44 via a line 45. A valve 46 acting in one direction is at the opening 44 is provided and allows image material to flow only into the entry chamber.

Before a further description should be given some designations be clarified. A vacuum source is a cylinder or other device that is partially evacuated, so that their internal pressure is below atmospheric pressure. Similarly, a source of positive pressure is a cylinder or another device that contains a compressed gas and thus has an internal pressure greater than that of the Atmospheric pressure. A vacuum is understood to mean a negative pressure, i.e. a pressure below atmospheric pressure, which does not require an absolutely vacuum. A liquid is said to be gaseous and liquid Flow media are understood. Gases are preferably to be understood as meaning those substances that are in the atmosphere are present and are commonly referred to as air.

The outlet chamber 32 is connected to a vacuum source or a source of negative pressure -b via the opening 47 and the line 48 connected. The value of the pressure -b is such selected to effect suction of excess image material from the electrodes into the exit chamber.

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The inlet chamber 31 is connected to either the negative pressure source -b or the positive pressure source + a of positive pressure via a resiliently pretensioned valve 34 which can be actuated by an electromagnet and which acts in two directions and has two possible working positions. The inlet opening 39 of the valve 34- is connected to the positive pressure source + a via the line 51, while the inlet opening 52 is connected to the negative pressure source -b via lines 53 and 48. The outlet opening of the valve 34 is connected to the inlet chamber opening 56 via the line 57. The valve 34 is held in its left position when the solenoid 58 is on. As a result, the inlet opening 49 is connected to the outlet opening 54, so that the overpressure + a acts on the inlet chamber. As a result, the image substance is pressed into the supply line (line 23 and channel 27) and conveyed onto the electrodes. The valve 34 is brought into its right position by the spring 59 when the electromagnet 58 is switched off, whereby the inlet opening 52 is connected to the outlet opening 5 ^ and the negative pressure -b acts on the inlet chamber. This keeps the image material in the entry chamber so that it cannot be sprayed onto the electrodes. The deposition of the image material on the electrodes is controlled by switching valve 34 between its left and right positions. This switching process is carried out by a switch 61 which connects a power source, for example a battery 62, to the electromagnet 58.

The pressure regulator 60 on the line 51 allows a change in the level of the overpressure + a. It thus causes a change in the force exerted on the image material on the electrodes .

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The image material container 33 is completely closed and contains the supply of image material required for the device. As already stated, it is connected to the inlet chamber via the line 45 and the valve 46 which acts in one direction. Furthermore, it is connected via the line 63 to the outlet opening 64 of a valve 36 which is controlled by an electromagnet and is spring-tensioned and acts in two directions and has two working positions. The inlet opening 66 of the valve 36 is connected via a line 67 to the positive pressure source + c, while the inlet opening 68 is connected via the lines 69 and to the negative pressure source -b. The valve is held in its left position when the electromagnet 71 is switched on, so that the inlet opening is connected to the outlet opening 64 and the excess pressure + c acts on the image material container. The overpressure + c is greater than the pressures + a and -b, which is why the image material is printed from the container 33 past the valve 46, which acts in one direction, into the inlet chamber 31. The valve 36 is normally held in its right-hand position by the spring 72 and is in this position when the solenoid 71 is switched off. If the valve 36 is in its right-hand position, the inlet opening 68 is connected to the outlet opening 64, as a result of which the negative pressure -b acts on the image material tank. The negative pressure -b is less than the positive pressure + a, which is why the image material cannot pass the valve 46, which acts in one direction, when the positive pressure + a acts on the inlet chamber and the negative pressure -b acts on the image material container. If the negative pressure -b acts on the inlet chamber and at the same time on the container 33 , the image material does not yet flow over the valve 46, which acts in one direction , since this requires a certain pressure difference in order to open it. The flow of substances from the

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container 33 to the inlet chamber 31 is switched by switching the Valve 36 is controlled between its left and right positions.

The float 37 and the switch 33 are used for control of the valve 36 and thus to control the image material level in the entry chamber 31. The float 37 is with a Rod 73 connected, which in turn is attached to a bearing 7 ^ in the Chamber is pivoted. The switch 38 is attached to the rod 73 and consists of a mercury contact, which turns on an electrical voltage source (battery 76) to the electromagnet 71 when it comes from a predetermined position, for example the horizontal, is tilted. If the image material level in the chamber 31 falls below a predetermined value (normally with image material flow to the electrodes), the float 37 and fall rotates the rod 73 downward. This closes the switch 38 and the electromagnet 71 to the battery 76 switched on. When the electromagnet 71 is switched on the pressure + c exerted on the image material container so that the fabric enters the entry chamber through the unidirectional valve 4-6. Will the image material level brought back to its predetermined value, the float moves up and opens switch 38, whereby the circuit of the electromagnet 71 is opened. As a result, the valve 36 reaches its resiliently tensioned state right position back. In this position, the pressure -b acts on the image material container 33, so that the Image material cannot flow into the entry chamber.

The structure of the multiple line 21 and the movable Electrode is essentially the same as that in the fin; " 1, 2 and 3 are identical. That's why ,:.;,.: <d components matching with. same reference

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mark. In the embodiments shown in FIGS the rolling elements 28 and 77 are rigidly connected to the multiple line 21. In all embodiments, the wiper 26 and the bracket 78 are rigid connected to the multiple line to prevent the scraper from bucking when the multiple line is over the stationary electrode is moved. The rolling element 77 shown in FIG. 3 contains a mechanical or acoustic one Vibrator 79 in the conductive part 9 of the electrode, which causes the element to vibrate and thus an action on the 'image material located between the electrodes is generated. The vibrator 79 is through Devices fed, not shown for ease of illustration and better understanding of the drawings are.

The movable electrode of the embodiment shown in FIG is a roller 81 which is rotatably supported on a shaft 82. The shaft 82 is in turn with the multiple line 21 coupled by elements not shown. The roll consists of an inner core 83 made of conductive Material and an outer layer 84 made of a dielectric Material that has a resistivity on the order of 10 (or more) ohms per cm. The scraper 86 is rigidly connected to the multiple line 21 and touches the roller circumference near its uppermost point, see above that with the scraper 26 a part of the image material channel for feeding the image material under pressure onto the electrodes is formed. A porous part 87 is connected to the multiple line and connected to the outlet line 2A-, it protrudes down to the circumferential surface of the roller behind the scraper 86. Together with the outlet line 84, it forms the vacuum line for removal excess image material from the roll.

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The embodiments described above can be developed further without deviating from the basic concept of the invention and be modified. For example, the electrode functions can be reversed so that the movable electrode as an injecting electrode, the stationary electrode acts as a blocking electrode. The electrode described as stationary can be moved in addition to the movable electrode, both electrodes can be designed as drums or rollers be. The generation of the electric field and the light. images do not have to take place at the same time, so that no the electrodes must be transparent. The light image can also pass through the movable electrode can be projected and the polarities of the various voltages can be reversed.

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Claims (13)

Claims Device for photoelectrophoretic image generation with two electrodes which are connected to an electrical voltage and movable relative to one another, between which a photoelectrophoretic image material is exposed to an image-wise distributed electromagnetic radiation, characterized in that a charging device is provided at a gap (19) formed between the two electrodes (2, 3) (4) is provided, which brings photoelectrophoretic image material under pressure into the gap (19). 2. Apparatus according to claim 1, characterized in that an electrode (3) is designed as a rolling electrode and is movable relative to the other electrode (2). 3. Apparatus according to claim 2, characterized in that the rolling electrode (3) has a vibration device (79) contains. 4-, device according to claim 1, characterized in, that one electrode is designed as a roller (81) and is movable relative to the other electrode (2). 5. Device according to one of claims 1 to 4, characterized characterized in that the loading device (4) has an arrangement (24, 3o) for discharging excess image material of the electrodes (2, 3) during their movement. 6. Device according to one of claims 1 to 5 »characterized in that the charging device (4) contains a line (23, 27) for supplying image material in front of the gap (19) formed between the electrodes (2, 3), 109813/1539 which allows entry of the image material supplied under pressure into the gap (19). 7. Device according to one of claims 1 to 6, characterized in that the loading device (4 ·) a Container (31) and a feed line (23) for image material provided between the container (31) and the gap (19) includes. 8. Device according to one of claims 1 to 7 »thereby characterized in that the loading device (4-) comprises a multiple line (21) connected to one of the electrodes (2, 3) is connected and a first line (23) for supplying image material to the gap (19) and a second line (24-) to remove excess image material from the Contains electrodes (2, 3). 9. Apparatus according to claim 8, characterized in that at least part of the first line (23) between an edge of the associated electrode (3) and a scraper (26) is arranged, which is attached to the electrode (3) is attached and touches the other electrode (2). 10. Device according to one of claims 2 to 4-, characterized characterized in that the loading device (4 ·) is a multiple line with inlet (31) and outlet chambers (32) for image material, one connected to the entry chamber (3Ό Feed line (23) for guiding image material to the electrodes (2, 3), one with the outlet chamber (32) connected vacuum line (24-) for discharging image material from the electrodes (2, 3), a device (34-) for coupling the inlet chamber (31) with an overpressure (+ a) and a device (4-8) for coupling the outlet chamber (32) with a negative pressure (-b). 109813/1539 11. The device according to claim 10, characterized in that that a control device (37 »38) for controlling the coupling device (34 ·) for the entry chamber (31) in such a way it is provided that this can be supplied with a negative pressure (-b). 12. The device according to claim 10 or 11, characterized in that die'der loading device (4 ·) is assigned Electrode is designed as a roller electrode (31) and that the discharge line (24 ·) containing a negative pressure is connected to a porous part (87), the pores of which end at the periphery of the roller electrode (81). 13. Device according to one of claims 10 to 12, characterized in that the loading device (4-) associated electrode is designed as a roller electrode (81) that near the roller electrode (81) a first Stripper (26) is arranged, which touches the other electrode (2), that a second stripper (86) on the loading device (4-) is attached, which touches the roller electrode (81), and that both scrapers (26, 86) form part of the feed channel (27) for the image material. 14, device according to one of claims 1 to 12, characterized characterized in that at least one of the electrodes (2, 3) is at least partially transparent and an exposure of the image material. 109813/1539 Blank page