DE1522682A1 - Xerographic plate - Google Patents

Description

Patent attorneys ... **. Dipl. Ing. F. Weickmann, Dr. Ing.A. Weickmann

.Dipl.! Ng.H.Weickmann, Dipl.Fhye.Cr.K.Fincke \. ** ■ "--.- - '

8 Munich 27, Möhlstrasse 22 \ _, j g'J 2682

RANK XEROX LIMITED

37/41 Mortimer Street, London, England

Xeroisraphic Plate

The invention relates to xerography, in particular on a xerographic plaite and method as well an arrangement for their use.

In recent years, the use of the xerographic copying method has been very widespread, particularly in office telecom increased. This process is first described in Carlson U.S. Patent 2,297,691 and has been used in many more Patents improved. A xerographic plate I is used, which is covered with a layer of photoconductive insulating material is provided. The plate is initially charged electrostatically evenly over its entire surface, whereby

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she becomes light sensitive. Then it is exposed to an image projected by electromagnetic radiation of light _f X-rays or the like, the charge being selectively balanced in the "exposed areas of the photoconductive insulating layer, while the persistence of the charge in the unexposed areas produces a latent electrostatic image then by depositing a finely divided electroscope! see signs substance to the photoleitfahigen insulating layer in pictorial configuration visualized £) developed the character material generally consists of a powdered mixture of a thermoplastic material and a dye and is beaeicimet technically as "picture powder ¹¹ (toner) . If the photoconductive insulating layer is to be used several times - "" grounded, the dust image visible through the image powder is transferred to a second surface, for example a sheet of paper, and fixed there, v / o a permanent, visible reproduction of the original image is created. On the other hand, if an expensive non-reusable photoconductive insulating material is used, the image powder particles are fixed directly on the surface thereof, thereby eliminating the image transfer step.

Although this procedure has been used very successfully, it still causes certain difficulties. For example A number of methods have been developed for charging or sensitizing the plate, one of which is the corona discharge method is most commercially used. This is detailed in U.S. Patent 2,588,699 to Carlson et al in U.S. Patent 2,777,957 to Walkup. Essentially

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"This method consists in placing a wire or a number of wires to which a high voltage is applied at a short distance from the surface of a xerographic plate, the conductive back of which is grounded, so that a corona discharge between the Wires and the plate takes place. As a result, charged ions or electrons are collected on the plate surface - "n and their electrostatic charge is increased compared to the earth potential. Aside from the fact that corona discharge gives instant results and is used in one form or another in virtually every commercial electrostatic copier, it causes certain difficulties in that it works on the principle of a discharge in the ionizing unit electric field expires. For this reason, for example, the atmospheric conditions between the corona electrode and the xerographic plate to be sensitized can have a de-texturing effect on the degree of light sensitivity achieved. Drop of the air pressure, large variations in the relative humidity, many contamination Λ conditions have the air as well as other factors, a relatively strong impact on the degree aer charge of the disk at a constant voltage. In order to ensure that the corona discharge in a copying machine transfers the desired amount of charge to the plate, it is often necessary to regulate the voltage accordingly or to use specially designed devices, e.g. grid controlled corona discharge electrodes, such as those in U.S. Patent 2,778,946 to Mayo. are written. However, even these arrangements do not work

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always completely satisfactory. Another example of the control of the corona discharge is one with variable Speed copier with one photoconductive plate with two or more different 'Speeds past the corona discharge device will.

Therefore, the present invention relates to a novel one Form of implementation of the xerographic process.

Another object of the invention is to provide a novel xerographic plate.

This plate should automatically limit its capacity to accept charges *

Furthermore, the xerographic method is intended to be improved by the invention. - _; -

The xerographic device described by the invention should not set or control the discharge voltage source require.

These and other characteristics are according to the invention, generally speaking, achieved in that one specifically formed plate is used, their current-voltage characteristics is designed for the loading process such that the plate as an automatic controller for its own Voltage acts after the desired amount of charge has been

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is brought. The copier intended for this plate contains a fixed voltage source, the output voltage of which is higher than that used for charge transfer the plate required tension, so that even in the event of a short charging time or changes in relative humidity, atmospheric pressure, etc. that cause a drop the output power of the corona discharger cause j the tension of the applied charge is greater than the tension that would normally be applied to the plate surface is required, using the plate itself as a voltage regulator works. The essence of the invention now becomes better Understanding on the basis of the figures or an execution example game described »

Fig.1 shows the side view of a manufactured according to the invention xerographic plate.

Fig. 2 is a graph showing the current-voltage characteristic a conventional xerographic plate compared to the plate according to the invention for the corona charging process,

3 shows in section the side view of a xerographic Machine that works with the plate according to the invention.

In Figure 1, a xerographic plate 10 is shown, which consists of a base 11, an intermediate layer 12 and a photoconductive insulating layer 13.

Although the pad 11 does not necessarily have to be used, this can be desirable for many purposes, e.g. to use the Plate an additional stability to give a contact

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Area for connecting an electrical voltage source lh "form ubv /. For example, the base can consist of a electrically conductive material, such as aluminum, carnecium, Brass, steel, chrome, etc., or from a non-conductive one Material such as glass, paper, plastic film or similar, which is used to increase conductivity with substances such as metals or soot is impregnated, or with conductive sweeteners made of thin Layers such as gold, copper iodide ο; Ä. is provided. The usage Such a conductive base not only gives the plate additional stability, but also serves as a Electrically grounded surface immediately, next to the surface of others Plate layers so that the plate with a corona discharge electrode "Rode according to the teachings of the aforementioned US patent 2 588 699 lightly loaded v / er. ^ En ka / m. It should be noted that too for this purpose the "publicable" material does not necessarily have to be included must be an electrical conductor. Each pad with an electric Wiierstand, which is at least a few orders of magnitude lower is than the resistance of the exposed photoconductor, this task can also be achieved without a metal coating. However, if another corona method is used, e.g. the two-sided corona charging method according to the US patent 2 922 885 | so the conductivity of the base can - remain unconsidered and this is only selected mainly according to its structural properties, if these are not neglected too,

A material is used for the thin intermediate layer 12 ' which primarily according to its electrical properties is selected, which are still described with reference to Fig.2.

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This substance gives the plate a tension or field regulating egg Property like that of a gas-filled tension tube. Anyone can do this for this purpose suitable tension regulating material can be used. Such Substances are: bismuth, oxidized bismuth, tin, copper selemide and extremely thin layers of tin oxide or aluminum oxide, etc. The tin oxide or aluminum oxide layers must be very be thin in order to achieve this characteristic J-U characteristic. They are made by vacuum evaporation of the base material Aluminum or tin made on the backing, being the vacuum is briefly removed to allow natural oxidation of the surface of the metal. then the arrangement is brought back into the vacuum state, after which the photoconductor is evaporated. These oxide layers are less than 10 microns thick.

The intermediate layer 12 is provided with a photoconductive insulating layer 13 plated. Any suitable one can do this Fabric to be used. Such storfe are: Selenium glass, Le- ^ alloys of selenium with arsenic or tellurium in glassy form, sintered or vapor-deposited layers of other materials such as cadmium sulfide, cadmium selenide, etc., photoconductive insulating materials in particle form, e.g. zinc sulfide, zinc cadmium sulfide, Zinc oxide (produced according to the "Irench" process), metal-free Phthalocyanine, cadmium sulfide, cadmium selenide, zinc silicate, Cadmium sulfοselenide, etc., dispersed in a non-conductive Layer-forming binders such as epoxy resin, silicone resin, alkyd resin, etc. Suitable mixtures, copolymers, Terpolymers etc. of photoconductive substances and not

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photoconductive materials are used, which are copolymerized or mixed and can form a solid solution »Typical organic photoconductive substances of this type are: Polyvinyl carbazole, anthracene, polyvinyl anthracene, anthraquinone, Oxydiaxol derivatives such as 2,5- bis (p-aminophenyl-1), 1,3,4-oxydiaxol, 2-phenylbenzoaxol. Even complex connections can as substances used for charge transfer: phenol aldehydes, epoxies, phenoxides, polycarbonates, melamines, etc. with Lewis acids such as phthalic anhydride, 2,4,7-trinitrofluorenone, metal chlorides such as aluminum, zinc or iron chloride; 4 * 4, -to (dimethylamine) benzophenone; Chloranil; Pricric acid; 1,3,5-trinitrobenzene; l-chloroanthraquinone; Bromal; 4-nitrobenzaldehyde j 4-nitrophenol} acetic anhydridej maleic anhydride; Boron trichloridej maleic acid j cinnamic acid; Benzoic acid; Weinsjiurej Malonic acid ^ and mixtures of these substances. However, it is notes that selenium in its amorphous form and alloys formed therewith for the photoconductive insulating layer 13 preferably to use as they provide extremely good images Deliver quality and have a relatively high sensitivity to light. ·

In Pig 2 there is a graphic representation of the current flow J by a xerographic plate depending on the applied Voltage V shown during corona charging. The curve 16 shows the current-voltage characteristic of a conventional one Selenium plate on an aluminum base, while curve 17 denotes shows the corresponding relationship for the plate designed according to the invention. As you can see from the diagram, has the curve of the self-regulating plate according to the invention one

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lower branch, which is almost identical to that of the conventional xerographic Plate matches until the tension 'on the plate' reaches a certain value at which the curve rises very steeply upwards, and runs almost vertically, so that a rising Current has little or no increase in voltage on the plate surface when it is charged. The exact one Point at which the Kux've 17 bends upwards - it depends on that each substance used for the intermediate layer 12, its thickness and the respective overlying photoconductor. For example runs when using copper selenide or "

a very thin layer of aluminum oxide covered with amorphous selenium, the curve starting at about 30 volts per milcr cn selenium perpendicular while using the other above Fabrics for the intermediate layer only from 40 volts per minute Selenium rises vertically.

In Figure 3 is an embodiment for a xerographic Machine shown, which with the inventively designed xerographic plate in the forip of a cylindrical drum | is working. In operation, the drum runs at a constant speed rotated in the direction of the arrow. After parts of the drum circumference s have passed the loading device 18 and evenly are charged, they come from a projector 19 or other device for exposing the charged plate with

^ the image to be reproduced. Afterwards, these parts are sent to the

j> Development device 21 moves past, Diene continues to work

** ■ * - .. the cascading process and consists of a housing 22

£ j with a tub at its bottom which holds a supply of developing material 23 contains. This is achieved by a number of conveyor buckets 24 arranged on an endless conveyor belt 26

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lifted up and poured over the drumfish or cascaded. This development process, the more detailed in U.S. Patent 2,618,552 to Wallcup b, works using one of two parts Developer mix. It contains finely divided colored Drawing particles or image powder as well as larger carrier particles. These serve to loosen up the smaller picture powder particles for easier transport and charge them accordingly the relative position of the two substances to one another in the

"Practical electrical series. The carrier particles are with the adhering image powder particles poured over the drum surface. Due to the electrostatic flow of the charge image on the drum, the image powder particles separate from the tri-element particles separated and tied to the drum, making the image visible. The carrier particles coincide with the image powder particles not bound by the image into the tub of the housing 22, and the developed image becomes more pus. moved until contact with a copy belt 27 takes place, which is pressed against the drum by two idle rollers 28, so that a belt movement takes place at the peripheral speed of the drum. That in the developer mix The image powder contained is refilled at certain time intervals by a refilling device (not shown). An image transmission device 29 is located behind the belt at a short distance between the two rollers 28.

4 ^ arranges. This device is designed similarly to the

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"N. Charger 18 and also works on the principle

* V of the corona discharge. Both devices 18 and 29 are on ~ * High voltage sources 31 or »32 connected, which have a direct voltage of the same polarity »Each device 18 resp.

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29 contains a corona discharge wire 33 BSW. 34, that of a conductive metal shield is surrounded. The voltage source 31 for the charging device 18 supplies a voltage whose size is set so that a corona discharge auf'die drum under each condition with respect to relative Humidity and atmospheric pressure takes place that can normally occur and under a conventional one xerographic plate is charged up to the desired voltage. This "too high" high voltage source is used once adjusted and does not require readjustment, since the voltage present on the plate is controlled by the electrical properties of the plate itself so that a Excessive current through the "plate" during the corona discharge does not have an effect due to the voltage-regulating property comes. For example, the voltage is generally between 8000 and 10 QOO volts, while for conventional Plate is about 7000 volts. Through the corona image transfer device, a charge is transferred to the back of the belt 27, the polarity of which corresponds to the drum cell | tion and also opposite to the polarity of the image powder particles used for development is. Due to the charge of the belt 27, the image powder particles are pulled off the drum because their adhesion to the Drum is overcome. At this point it should be noted that many other transmission methods can be used in connection with the invention can be applied. For example, a roller that is connected to a high voltage source with the opposite of the particle charge Polarity is connected ', can be provided immediately after the copy tape, or the tape itself can

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with regard to the image powder particles having an effect. After transfer of the dust image on the belt 27, this is at one Fuser 36 moves past, which the black / white image on the Band 27 sintered on or permanently fixed. In the present exemplary embodiment, a device with resistance heating is used for this purpose. However, other "known methods" can also be used here, e.g. the action of a solvent vapor on the dust image or the spraying of the dust image with an adhesive, layer-forming oversug. After this

™ Fusing, the tape is wound onto a roller 37 for later use. The drum continues to rotate past a cleaning brush 38 which prepares a new cycle of operation. It should be noted that the Έ & -. ■ achine also able to work with variable speed, wherein the voltage of the corona Entiadungseinrichtung must be sufficiently high in order to achieve a fully-.ständige charging of the plate even at great speed. At lower speeds, due to the automatic tension

fc control of the plate no overloading possible.

The invention has been described in connection with corona discharge. Was Of course, these are only used for example * The automatically regulating plate may also be used in another charging method _r as the frictional charging, induction charging according to US Patent 2,934,649 and 2,833,930, and the roll load according to US Patent 2,934,650.

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Claims (4)

- 13 .-- ■ .. ', ■■ - Pat Xerographic plate characterized by an electric conductive base (11), one arranged on this base (11) Intermediate layer (12), which automatically regulates an electrical pressure generated on it, and by one on the Intermediate layer (12) arranged photoconductive insulating material layer (13). 2. Xerographic plate according to claim 1, characterized in that that the intermediate layer which automatically regulates the electrical pressure (12) from one of the substances bismuth, oxidized bismuth, Tin, copper selenide, aluminum oxide with a strength of less than 10 microns, tin oxide with a. Strength less than 10 ^ microns, or amorphous selenium. 3. A method for uniformly charging a according to claim 1 or 2 formed xerographic plate on a specific ■ Voltage at which an electrical charging voltage is applied to the xerographic Plate (10) is applied, characterized in that the electrical charging voltage is higher than the buckling voltage the current-voltage characteristic curve formed according to an avalanche effect of the respective substance used for the layer (12), 4. Xerographi see copier with one according to claim 1 or 2 formed xerographic plate, characterized by a device (31, 33) »through which a charging voltage 903844/1421 - 14 - -H- the plate (10) is applied, the higher the buckling stress those trained according to an avalanche effect Current-voltage ^ germ line of the respective for the layer (12) material is used up, making the PIe. cte (10) independent of, en atrnosphärlachen environmental conditions accordingly is charged to the buckling voltage. 809844/142 1 ^ D 0 »<3 ' ^νΜ -