DE2104053A1 - Method and apparatus for developing latent electrostatic images - Google Patents

Description

Patent attorneys Dipl.-Ing. RWeickmann, J ^

DiPL.-InG. H. W-EICKMANN, DIPL.-PHYS. Dr. K. FlNCKE

D1PL.-ING. F. A. WEICKMANN, Dipl.-Chem. B. Huber

8 MUNICH «6, DEN
PO Box 860 820

XEEOXiDRPORATION, möhlstrasse 22, phone number 483921/22

Xerox Bauare, <98392i / 22,>

Rochester, N.Y. 14603 / USA

Process and apparatus for development
latent electrostatic images

The invention relates to a development method and to a
Developing device for latent electrostatic images, which is recorded on a movable recording medium in a development housing through a quantity of developer
moved v / earth, which consists of carrier particles and electroscopic toner particles adhering to them.

In electrostatic recording, as is known, for example, from US Pat. No. 2,297,691, a layer consisting of a conductive base and a photoconductive insulating material layer applied thereon is used
The recording medium is evenly charged electrostatically
and then with an optic and a light source with one too
reproducing image exposed. The photoconductive layer
becomes conductive according to the projected light image, whereby it is discharged in certain areas and a latent electrostatic image is created on it. This image is generally developed with a finely divided pigmented synthetic resin which is electrostatically bonded to the recording medium in accordance with the charge density present in each case. The charge density on the recording

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more water after exposure is proportional to the tone density achieved during development, so that areas of lower charge concentration contain less deposition of toner or synthetic resin, while areas of greater charge concentration are tinted correspondingly more densely. Permanent recording of the image is obtained by transferring the developed toner image to another image carrier on which it can be fixed.

A wide variety of pigmented synthetic resins are used to develop latent electrical images. This developer, generally referred to as "toner", is generally applied to the image with carrier particles larger than its particle size, the Tr ^; j <? particles carry a certain amount of toner on their surface. The developer therefore consists of a two-component mixture, the components of which are selected so that they interact electrostatically with one another when they come into frictional contact, so that? a triboelectric attraction is created between them.

Most electrostatic image development processes and apparatus are, however, for commercial use Impractical to use because they are too complicated to use and therefore have a low level of efficiency or are too expensive in automatically operating machines. Most extensive is described by U.S. Patents 2,573,881 and 2,990,278 known cascading development has been used to visualize electrostatic images because it has several "advantages.

The cascading method works in automatic machines with a developing device which contains a supply of developing agent in the lower part of a developing housing.

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This is picked up with a number of conveyor cups which are arranged on an endless, rated conveyor belt and poured or cascaded over the surface of the electrophotographic recording medium. An existing from SV / EI-component developer material mixture is used, the finely divided and colored toner particles and Zeichenteilchen or • ^y to these larger Tr comprises gel particles. The carrier particles serve to loosen up the toner particles and to charge them triboelectrically, since they are at a distance from the toner material in the triboelectric row. The friction between the carrier particles and the toner particles during the movement of the developer mixture causes the two components to be charged with opposite polarity, so that the toner particles adhere to the carrier particles. When the toner particles with the adhering toner particles are cascaded over the recording medium, the electrostatic fields of the latent electrostatic image cause the toner particles to detach from the carrier particles, so that the latent image is developed. The carrier particles then fall back together with the toner particles not used for development into the lower part of the developer housing, and new toner particles can be added at regular intervals. While this method works fairly well, it requires a relatively large processor, large conveyors, and other components that add significantly to the overall size and expense of a reproduction machine.

In particular, certain disadvantages of the developing devices of the cascading devices led to other development processes, in which, for example, the recording medium in an arcuate development housing by a Amount of developer is moved through. The

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Boundary layer between developer and recording medium due to frictional forces an upwardly directed developer flow generated. The frictional forces carry the developer in such a way that it is in contact with the recording medium is moved somewhat slower speed and continuously impacts on the recording medium. As a result, new toner particles are always brought to the surface of the recording medium, as the carrier particles are set in a circulation movement. The processes involved have not yet been fully clarified, man assumes, however, that the image development · during the flow contact occurs through a cleaning effect described in the above-mentioned patents. Of the Developing agent (i.e. toner particles and carrier particles not bound during image development) become detached from the recording surface again and returns over the other side of the development housing to the amount of developer return. It gets into the upper area of the developer supply, where it can be replenished with toner particles before being recirculated into the development zone can. Such a system working with flow contact avoids some of the above-mentioned technical parts, However, it still causes certain difficulties. For example, the newly entered toner can be in certain Parts of the development housing accumulate and therefore never get into the active development zone.

The object of the invention is to overcome the disadvantages of known development methods and devices to avoid and to create a development process in which it is possible to use newly entered fresh toner with already to mix used developer material before returning it to the developer material supply. At the same time the quality of the developed images can be improved.

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A development method of the type mentioned is designed according to the invention to achieve this object in such a way that the recording medium after movement through the amount of developer is moved through in the upward direction past a surface so that this is together with the recording medium a co-movement of developer material in an upward direction causes, and that the moving developer material after passing the surface on the facing away from the recording medium Page is returned to the amount of developer.

A developing device for carrying out the present invention The method is expediently constructed in a further embodiment of the inventive concept that a vertical partial wall is provided in the development housing on which the Recording medium after movement through the amount of developer is moved past in the upward direction and which is arranged so that the recording medium entrained and developer substance falling off from it again on the side of the partition wall facing away from the recording medium into the The amount of developer material falls back.

The method of the present invention can be practiced with a developer housing that is J-shaped in cross-section Has. A recording medium in the form of a continuous belt can be replaced by one provided in the developing housing Amount of developer are passed through, for which purpose it is guided on two cylindrical rollers. The movement of the belt is such that a latent image present on it is first in the downward direction, then in the upward direction is moved by the amount of developer then passed a partial wall, one such Distance is maintained that the frictional forces acting on the developer material entrain it in the upward direction cause between the band and the partial wall. From the-

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stand between the two elements is constant, so that the developer is conveyed to the upper edge of the 'partial wall where it falls down again on the other side of the partial wall in the reverse of its direction of movement. Above that A developing housing may have a toner input device between the partial wall and the outer housing wall. be provided, so that a toner mense input with this device is mixed with the already used and falling developer material, before both menpen in the supply amount returned v / earth. To improve the mixing that takes place here, zv / ischen the input device and a guide surface can be provided for the developer material supply onto which the developer material that has already been used and the newly entered toner hit.

The invention is hereinafter found one in the figures illustrated embodiment of a device for their implementation described. Show it:

Fig. 1 shows the principle of flow and

Contact effect mixing of the developing ψ winding material when moving a recording medium

through an amount of developer and

Fig. 2 is a side view of a device for performing the method according to the invention with associated other elements of a reproduction machine.

In Fig. 1, an arrangement 10 is shown, it serves to illustrate the principle of being in contact with flow of developer material located in a moving recording medium caused by the movement of the recording medium is produced. A recording drum 11 is rotated so that it passes in the direction shown a curved development housing moved therethrough. The GE-

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house contains a quantity of developer 13, so that the surface the drum is in constant contact with the developer when it is moved through the housing «The developer 13 consists of a two-component mixture of finely divided, colored drawing particles or toner particles and, compared to these, larger carrier particles. A frictional force is generated between the moving drum surface and the developer, causing an upward movement causes a thin layer of the developer near the drum surface. The upward movement of the developer causes the formation of an empty space at the bottom of the housing, which is filled when the entire rear Layer of developer is more or less than one unit downwards. In this way, the Housing a developer material circulation shown by the arrows. Satisfactory development results were according to this principle with toner particles on the order of 5 microns and with uncoated nickel carrier particles on the order of 4-50 microns.

The upward part of the developer flow in contact with the drum surface forms the active development zone. Theoretically, correctly charged and tinted developer material is created at the beginning of the active development zone from the developer supply on the back of the system entered. The developer develops a latent image on the drum while in contact with the drum surface is moved through the active development zone. Here, the toner is electrostatically detached from the carrier material and bound to the more strongly charged parts of the picture surface. Because within the developer flow generated in the housing If a relatively gentle mixing of the developer material is produced, there is practically no or only slight detachment of the toner from the carrier material. The developer moves

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in contact with the drum surface until the frictional forces holding it on are no longer sufficient, so when For example, the drum surface is moved out of the area of the developer. The relatively used one Developer returns to the back of the system, where he is caused by the developer moving continuously upwards again fills the empty space formed with fabric. It's closed recognize that the uppermost edge of the housing 12 from the drum 11 has a greater distance than other housing parts. This distance, together with the movement of the "Prom- ^ mel surface out of the area of the developer ^ a return of the developer in the manner described by the action of its gravity.

A developing device which works according to the principle shown in FIG. 1 is simple to set up, durable and only requires little effort. Their performance; however, it is unsatisfactory because the toner stagnates at certain points on the housing, preventing proper mixing of the developer. The process itself is relatively slow, since only a short contact time is available for the developer material to act on the recording surface. A corresponding encryption U is described in US Patent 3 724 4-4-8 improvement, it realizes a longer contact time between the developer material and recording media, and thus a faster development. Furthermore, it ensures an improved mixing of the developer material, the development results are, however, likewise not optimal.

In Fig. 2 is a working according to the method according to the invention Device 16 shown. A tape-shaped recording medium 17 is passed through them, the For example, from an electrically conductive base made of brass or a galvanically formed gap! and one

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photoconductive layer of known composition applied thereon consists. The belt 17 is guided over an upper and a lower hollow 18, it is only the lower roller shown.

A charging device 19 is used to apply a uniform electrostatic charge to the tape-shaped recording medium. A wide variety of known charging devices can be used for this purpose; the recording tape is preferably charged by means of a corona discharge by means of one or more wire electrodes that are fed with a high voltage, as described, for example, in US Patents 2,588,699, 2,836,726, 2 777 957 and ο 77 «946 is known. The strip is then exposed to an egg to be reproduced, for which purpose an optical system 21 is used. A light source, not shown, supplies the light energy required to discharge the tape in partial distribution and reflected on the object, so that a latent electrostatic image is created on the tape. The latent image belt is then passed through a development housing 22 which is J-shaped in cross section and formed with an upwardly sloping wall 25. A two-component developer 23, which corresponds to the material 13 already described, is arranged in the development housing. Its toner content is bound to the latent electrostatic image during image development. The recording tape is moved between a vertically arranged dividing wall 24 and a tape guide 26 in the upward direction. The resulting circulation of the developer is similar to that already described with reference to FIG. 1, but with the device shown in FIG. 2 the difference occurs that the developer is carried along between the belt and the partition wall up to the upper edge of the partition wall will, of

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where it falls back into the developer supply at the rear of the partition wall, whereby or is passed between the partition wall and the housing. With an even distance of 0.3 mm between the partition wall and the belt 17 and with a belt speed of approx. 15 cm / sec, a laminar flow of the developer material is generated as a result of a frictional force which ^{comes into effect between the p} and the developer material. The partition can consist of various materials, for example aluminum. The side facing the fabric side of the developer ^rn eilungswand is preferably provided with a smooth surface to keep a minimal effect on their order toner accumulations.

A guide surface 27 is attached to the partition wall 24- those for guiding the developer material guided over the dividing wall 24 and the toner particles 28 which are inputted with a toner input device 29 serves. The input device 29 can be designed in a known manner and is used to dose the inputted toner in a predetermined manner Amount, for which it is optionally opened via the guide surface 27 can be. Such an input device is known, for example, from US Pat. No. 3,013,703.

The developed image is fed to an image carrier belt 31, onto which it is transferred and on which it is then connected to a Melting device, not shown, can be fixed. The recording tape is then made in a known manner cleaned, after which it is available for another imaging cycle. An image transfer corotron 32 serves for transferring the toner image from the recording tape to the image carrier tape.

Above an improved method and apparatus for developing electrostatic latent images were

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described. A major improvement can be seen in that the mixing of the newly entered toner with the developer material already used before entering both Knowing in the developing substance supply can take place. This process is further improved by the guide surface 27, because it forms a mixing zone for the two parts before they return to the developer supply. This avoids the problem of stagnant amounts of toner and / or stagnant amounts of developer material being smoked. Furthermore, a longer contact time between the developer and the recording medium is achieved, as a result of which sini guarantees higher operating speeds than before.

The invention described above is not limited to that illustrated Embodiment limited, but there are numerous other other embodiments possible. For example can the partition wall 24 and the guide surface 27 also realized by a triangular band be that is freely movable and is carried along by the upwardly moving developer. Forms one side of the tape then the plane of the partition wall 24, the other the plane the guide surface 27. The dividing wall can also go through alone be replaced by a freely movable belt on which a stationary guide surface 27 is arranged. In all of these embodiments, the laminar flow of the developer is through reduced friction effects improved.

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Claims (10)

Claims 1. / Development process for latent electrostatic images recorded on a moving recording medium in a development housing by an amount of developer moved through v / earth, which consists of carrier particles and electroscopic toner particles adhering to them, thereby characterized in that the recording medium (17) after movement through the quantity of developer (23) in an upward direction is moved past a surface (24) in such a way that it moves along with the recording medium (17) caused by developing material (23) in the upward direction, and that the moving developer material (23) after passing the surface (24) on the surface facing away from the recording medium (17) Page is fed back into the developing substance quantity (23). 2. The method according to claim 1, characterized in that a toner input takes place near the upper edge of the surface (24) and that the inputted toner (28) is mixed with the developing agent (23) to be returned. 3. The method according to claim 2, characterized in that the mixing between the upper edge of the surface (24) and the top of the amount of developer (23) takes place. 4. The method according to claim 3, characterized in that the surface (24) is used in the form of a vertically arranged dividing wall and that an inclined guide surface ( 2?) Is provided in the mixing zone, on which the inputted toner (28) and developer material ( 23) hit at the same time. 5. Development device for performing the method according to one of claims 1 to 4, characterized in that 109833/1783 a vertical partition wall (24-) is provided in the developing housing (25) on which the recording medium (17) is moved past after movement by the amount of developer (23) in the upward direction and which is so arranged is that from the recording medium (17) entrained and falling off of it developer material (23) the side of the partition (24-) facing away from the recording medium (17) falls back into the amount of developer (23). 6. Development device according to claim 5 »characterized in that that above the amount of developer (23) and between the partition wall (24-) and an upwardly extending Housing wall (25) a toner input device (29) is arranged, the toner (28) in developer material to be returned (23), and that between the input area of the toner input device (29) and the surface of the amount of developer (23) arranged a miter surface (27) which is a mixing zone for inputted toner (28) and to be returned developer material (23) forms. 7. Development device according to claim 6, characterized in that that the guide surface (27) is connected to the dividing wall (24-) and is inclined relative to it is so that the mixed developer portions slide down it in the downward direction. 8. Development device according to claim 6 or 7, characterized in that the distance between the partition wall (24-) and the upwardly extending housing wall (25) becomes larger in the upward direction. 9. A developing device according to any one of claims 5 to 13 8, characterized in that the distance between the 109833/1783 Partition wall (24) and the upwardly moved recording medium (17) is constant. 10. A developing device according to any one of claims 5 to 9, characterized in that the recording medium (17) is designed as a rural recording tape. 109833/1783