DE2042845A1 - Electrostatic latent image developing device - Google Patents

Description

Patent attorneys Dipl.-Ing. F. Weickmann, 2Q42845

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

SCHGA g MUNICH 86, DEN

POST BOX 860 820 MÖHLSTRASSE 22, PHONE NUMBER 4 »39 21/22

XEROa CORPORATIOIi

Hochester, N.Y. H603 / V.St.A.

Electrostatic latent developing device

pictures

In the electrophotographic process, one becomes one from one conductive base and a photoconductive insulating material layer existing electrophotographic drawing plate uniformly electrostatically charged on its surface and then with a reproducible Image exposed by a projection process. Through the Exposure will discharge them according to the applied light intensity, creating a latent electrostatic Image is created. The development of this image takes place with developer materials, which generally consist of a mixture a pigmented or colored synthetic resin powder, also known as toner. This will brought into contact with the recording disk according to one of the known developing methods. The touch takes place in terms of area, the toner powder is electrostatic in one of the latent electrostatic Image corresponding distribution bound on the plate.

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The electrophotographic powder image developed in this way can then be transferred to an image carrier on which it for example, can be fixed by the action of heat.

Various development processes are already available for developing electrostatic images on photoconductive image surfaces known. One known method is described in U.S. Patent 2,573,881 and works with Toner that is brought to the image surface by carrier particles and is rolled or cascaded over it. the Substances of the carrier material and. of the toner are selected in such a way that that a triboelectric attraction is produced between them, so that they are opposed to one another as a result of them Stick together cargo. Each carrier particle is provided with numerous toner particles in this way, those with the carrier particles on the photoconductive image area be brought up. The greater electrostatic attraction of the latent image causes peeling of the toner from the carrier particles and its electrostatic Binding in the charged parts of the surface.

Another way of developing an electrostatic latent image involves creating a toner cloud, which is brought up to the photoconductive image surface. One such method is in U.S. Patent 2,928,575 described, the powder cloud is generated in a generator by air pressure and an electrostatic charge applied to the toner by touching the powder cloud on the walls of the generator. The charged particles are then brought up to the latent electrostatic image in the cloud. In the powder cloud process, therefore the charged toner is in contact with the image area without first being bound to a carrier. Except the cascading and the powder cloud evolution

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other development processes are also known. These are for example the magnetic brush development according to US Pat. No. 3,176,652, the dispenser development according to FIG U.S. Patent 3,216.84-4, the fur brush development according to U.S. Patent 3,251,706 and others.

Various types of difficulties arise with the known development processes. Cascading development is problematic when developing large, tinted image areas, for example. In general, the electric fields of the electrostatic image are stronger at the edges of the image than in the center of the image. Therefore, a sufficient amount of toner is separated from the carrier at the image edges, in the center of the toner is, however, since there the Pelder are not on the image displa ~ ogen _# not strong enough to reibungaelektrische bond between the two components to overcome the developer material. Such a phenomenon results in incomplete development of the image centers while the image edges are normally sufficiently developed.

The cascading development also requires a strong one Durohmisehung of the developer after several image developments were carried out. Will be such a persistence is not done, defective banding occurs during development because certain areas The carrier material has too little toner. Because the pictures usually have different sized parts of the picture area in the direction of the developer flow, causes repeated use of the developer whose movement past the larger parts of the image area consumes more toner than with smaller image areas. so that certain areas of the developer mass experience greater toner consumption than others.

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Complicated devices for mixing the developer 3 are therefore necessary to avoid these difficulties.

The powder cloud method enables better development large image areas, since the toner is brought to the electrostatic image without carrier particles. Therefore the electrostatic attraction of the latent image does not have to be related to the triboelectric attraction between toners and carrier material are adjusted so that the toner more easily on the weaker central areas of the image area parts can be tied. However, powder cloud development has other disadvantages, such as a tendency to develop the background areas on the photoconductive image carrier that do not belong to the image. A photoconductive one The surface contains residual charges in the underground surfaces, and that in the powder cloud method does not Toner bound by carrier particles develops the so-called "Background areas", since the electrostatic residual charges after the image exposure are electrostatic fields have that do not require triboelectric attraction between developer particles for development must be adapted as with the cascading development. It also causes the generation of a powder cloud flow high speed with the known powder cloud process development defects that result in banding in the developed image, as the toner hits the photoconductive © image area in only one direction.

The object of the invention is therefore to provide a developing device for creating latent electrostatic images that have the aforementioned disadvantages Avoids devices and the flawless development of continuously tinted image areas

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allows minimal toner consumption. Furthermore, stripes should be formed can be avoided due to pronounced directed toner movements and a mixing device may not be required for the developer.

An electrostatic latent image developing device is included in the present invention to achieve this object a rotatable housing with a storage area for desiccant, that when rotated by a drive device, an accumulation of the developer material by centrifugal force effected on its inner surface and is provided on the inner surface with a guide, which the accumulated developer material approaches a latent electrostatic image in different directions.

The developing device according to the invention has a simple structure and contains only one moving part which generates an automatic circulation of developer material. The disadvantages of cascading development with regard to the development of continuously tinted image areas and the banding in known development devices are avoided. This is possible by moving the developer in different directions; at the same time, the toner consumption is kept to a minimum in certain areas of the developer flow, ie the toner is removed evenly from the developer flow. Therefore, a complicated mixing device is not required. The Vorrich-tung invention avoids problems such as those encountered in the powder cloud development, by using a two-component developer material and the possibility of using a developing electrode, which does not prevent, for example, uner wished development for image belonging surface parts.

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In the case of the developing device according to the invention the developer is conveyed by centrifugal force onto an electrostatic latent image to be developed. A rotating development housing is used for this purpose, which generates an automatic circulation of the developer material. A surface of the developer material guide can be used as Development electrode used, creating the lines of force of the electrostatic fields in the central areas of the parts of the image area. The flow properties this centrifugal developing device prevents the carrier particles from adhering to them the electrostatic latent image or other parts of the surface of the photoconductive image carrier, as is sometimes the case can occur in other devices such as cascading development.

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

Fig. 1 is a schematic representation of a with the invention Device equipped electrophotographic reproduction machine,

Fig. 2 is a perspective view of an embodiment of the developing device according to the invention;

Fig. 3 is a schematic representation of the developing device shown in Fig. 2;

4 shows a schematic representation of another embodiment the developing device according to the invention,

5 shows a schematic representation of a further embodiment the developing device according to the invention,

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6 shows a shearatic representation of a further embodiment the developing device according to the invention, and

Pig. 7 is a perspective view of the with the invention Developing device on a latent electrostatic image generated developer flow.

In Pig. 1 is an electrophotographic reproduction machine shown with a tape-shaped recording medium is working. This recording tape 1 is up Hollen out and is moved by a motor, not shown. It is on its outer surface with a layer a photoconductive insulating material, for example provided with vitreous selenium or another photoconductor. A uniform electrostatic charge is applied to the photoconductive surface of the belt 1 with a corona discharge device 2 applied. The evenly charged surface of the bandea then becomes an exposure device 3 brought, which can be formed in a known manner and the tape surface with a to be reproduced Image exposed, creating a latent electrostatic image on it.

After the electrostatic latent image is formed, the belt is conveyed to the developing device 10, which will be described later. The latent electrostatic image is brought into contact with the developer, After development, the now visible image moves to a transfer device 4 and becomes there transferred from the tape to a paper tape 5 or the like, which is brought up to the recording tape with rollers 6 will. A second corona discharge device 7 applies an electrostatic charge to the back of the

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2ÜA28A5

Volume 5 on to the transmission of the image-wise distributed Toner powder to facilitate. The toner image is then fed to a heat fixing device 8 on the paper belt, which permanently fixes the toner image to the paper tape, whereby the copy of the original image is completed. After the image transfer acts on the recording tape a rotating brush 9, which removes any remaining toner from the belt surface, so that this is then available for another copy cycle. Other types of charging, exposure, Image transfer or fixing can be applied.

In Figs. 2 and 3, one embodiment is one Developing device shown as it corresponds to the device 10 shown in FIG. A rotating one Housing 11 is arranged on a vertical shaft 12 on which a sleeve 13 sits, which is connected to a base plate 14 is connected by threaded elements 15. At both ends of the sleeve 13 there are ball bearings 16 on the shaft 12 are provided which allow rotation of the shaft relative to the sleeve. The shaft 12 is open at one end the outside of the ball bearing 16 is coupled to a flexible drive belt 17. This is with a motor M for variable speed connected, which is attached to brackets, not shown, under the base plate 14 and causes the shaft to rotate.

A cover 18 is provided on the upper end of the shaft and closes off the upper part of the housing 11. There is an opening 18a formed between the periphery of the cover and the top of the housing, the allows developer material to escape. A bracket 18b for rotary blades is on a hub of the Abdeokung attached and provided with a number of rotary vanes 19.

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These are, in Figures 2 and 3, as flat and vertical oriented elements shown, but they can also be provided in other numbers and in other orientations be and "be formed, for example, spirally or otherwise. The rotary vanes 19 are in the radial direction from the holder 18b to the inner surface 20 of the wall 21 of the housing 11 and are fastened there in slots 22. They are arranged vertically over the entire height of the inner surface of the housing and at their lower ends with blade elements 23 which protrude below the edge of the wall 21 and are curved in the direction of rotation of the housing.

The inner surface 20 is designed to be conical in the vertical direction. For example, they may be at an angle of relative to the horizontal be inclined, but it is also different slope values are set, depending on the desired developer material flow. The wall is also provided with a horizontal upper side 24 and a vertical outer side 25. The vertical outer side 25 runs somewhat near the bottom and then merges into a horizontal lower surface 26 which ends at the inclined outer side 27. The inclined outer side 27 is shown with a different angle of inclination than the inner side 20, but it can also be embodied in another suitable manner. As can be seen from the above description, the housing wall 21, the rotary vanes 19 and the bracket 18 and the shaft 12 can be rotated as a unit around the rotational axis of the shaft 12 by the motor M.

An annular disc 30 made of a conductive material! al can exist, is provided as a unit on the upper side of the housing and is so high that a flow of oxygen cannot escape through the opening 18a. The inner surface 31 of this disk is corresponding

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the inner conical surface bevelled so that it forms their port setting. The surface 32 of the disc is after slightly sloping on the outside in relation to the horizontal. For example, one embodiment of this device has a width of 5 cm from the inner edge to the outer edge of the ring-shaped Disc. The outer edge of the pane is 0.8 mm higher than the inner edge.

The ring-shaped disc is electrically grounded via the housing wall, the rotating blades and their mounting as well as the shaft, so that it acts as a developing electrode and the lines of force of the fields of the electrostatic latent image reinforced. The annular disc, the housing wall 21, the rotary vanes 19, their holder 18 and the shaft 12 are of a suitable conductive material, such as. B. metal, made so that this grounding is possible. PUr this However, a conductive material does not necessarily have to be used for elements; non-conductive materials can also be used in the same way Substances provided for one or more of the elements be. In this case, the annular disc 30 can be directly earthed in the usual manner. She can also with be coated with an electrical bias, about that To influence the electrostatic field of the latent image so that a better development of the continuously toned image area parts is possible or the deposition of the toner in the substrate is avoided.

The recording tape 1 is coated on its outer surface with a layer of a photoconductive material, those with an electrostatic latent image thereon at a short distance on the surface 32 of the annular Disc is passed. The latent image lies in a horizontal plane and moves relatively to the housing 11. The development device is provided with a collecting surface 33 for developer material, the function of which

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when the developer falls from the ring-shaped Disc is still described and the developer material not used for development by its Gravity feeds the base plate 14. The base plate 14 acts as a storage area for the to be put into circulation Developer. The preferred developer is a two-component carrier and toner developer used, for example, as described in US Pat 2,618,551 is described. There is a sufficient amount of developer on the base plate ensures a uniform and sufficient circulation of the carrier and the toner particles.

During operation of the developing device shown in FIG. 2, the shaft, the rotary wing holder, the rotary wing wall and rotated the annular disc as a unit by the motor H. The one present on the base plate 14 Developer material is turned with the blade elements 23 of the rotating blades 19 added upon rotation of the housing. The paddle elements are designed in such a way that their movement removes the developer material receives and brings it with the inclined inner surface 20 in contact. The rotation of the housing caused V / change of the developer material by the centrifugal force on the inner surface of the housing upwards. This inner surface is inclined so that a vertical force component acts on the particles as a result of the rotation, which forces the particles longitudinally the wall is moved to the surface 32 of the annular disc. This surface is arranged almost horizontally so that the developing material in the space between the disc and the picture surface in all possible directions over the ScheL-be is thrown. The evenness of the flow of developer material Above the annular disc is increased by the cover 18, which ensures that the flow is only is directed through the opening 18a between it and the annular disc. As can be seen from Fig. 7, represents

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there is not a precisely cyclical flow on the disc, since the rotation of the housing causes the developer material to escape at an angle to the radial direction.

Since the distance between the annular disc and the electrostatic latent image is small, the flow of developer material between the two elements causes the image surface to come into contact with the toner, whereby the toner is bound to the image. The surface of the disk is inclined slightly in the direction of the flow, as described, so that the action of the developer on the photoconductive image area is maintained or increased and the flow of developer is controlled. The inclination of the surface of the annular disk is advantageous because the flow area increases as the diameter of the disk increases and the developer substance density in the flow remains almost constant due to the inclination of the disk. The developer comes into contact with the latent image in a wide variety of directions, as is the case with Pig. 7, because the flow is generated in the radial direction while the image surface is relatively moved past the developing device. Therefore, the problem of excessive toner consumption by the carrier particles, as occurs in cascade development, is reduced to a minimum, since certain areas of an image are not exposed to just a certain area of the flow of developer material.

The unused developer material becomes with the surface 33, which surrounds the annular disc and guides the developer material to the base plate 14 by gravity. The developing device according to the invention thus generates an automatic developer material circulation in which the unused developer material is returned to the storage area for further use

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is fed. An expensive circulation device of a special kind is not required. It can also any desired angle of inclination of the inner surface of the housing or any desired rotational speed of the housing is used The selection of these values depends on the particular desired Development properties. Furthermore, the Inner surface of the housing cannot be inclined uniformly, but can have two or more different angles of inclination have or be designed in some other way, for example it can have an elliptical profile.

In Fig. 4 is another embodiment of the invention Developing device shown. This essentially corresponds to that shown in FIGS. 2 and 3, however, it has the difference that the device for moving developer material has an annular disk 30 which is provided with a roughened surface 40. This is shown corrugated in Fig. 4, whereby the developer is brought into even better development contact with the electrostatic latent image will. Another additional development improvement results in the device shown in Fig. 4 by a magnetic field generated by the magnets 41 at the ring-shaped Disc. The magnets 40 are fixed as stationary segments under the annular disc 30 so that between The disk and the magnet create a relative movement, which causes certain areas of the rotating Disc has an alternating magnetic field. This causes the turbulence of the developer material carried past the latent image amplified and produced a contact with the image compact developer material in which a stronger movement of the! toner and the carrier material and so that a better development takes place. Using a magnetic field as a development aid requires one Developer, the ferrometallic carrier particles

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contains. Furthermore, a disk 30 should be used, the material of which causes minimal eddy current losses and consists for example of a semiconductor material.

In Fig. 5 there is shown a further embodiment of the developing device according to the invention. This is true with those shown in Figs. 2 and 3, with the difference that a different device for producing a Magnetic field is provided on the annular disc. The magnetic field is in this embodiment with a ring-shaped magnet 42 generated, which is attached to the underside of the disc 30 and together with her turns. The annular magnet 42 generates an annular magnetic field around the axis of rotation of the housing, which the Delayed movement of the flow of developer material over the annular disc. This delay occurs upon entry into the magnetic field and is also transferred to the developer material that has not yet entered the magnetic field. The strenght this delay across the annular disc depends on the strength of the magnetic field, so that through Selecting a certain field strength a certain speed pattern can be generated on the annular disc can. The developer flow is achieved without the need for a physical braking device that maintains uniformity the flow could interfere, set to a predetermined value. By delaying the flow of developer material a build-up of developer material appears on the disc generated on its surface, which then comes into brush-like contact with the recording tape 1. In this way are certain Berelohe of the developer mass with the recording tape longer in contact and thereby improve development. The one that gets directly into the magnetic field and developer material delayed therein is later rolled against the collecting surface 33 and as in the case of the already described devices back into the storage area.

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guided. The annular disc and the developer can be made of a material as related has already been described with FIG. 4.

In Pig. 6 is another embodiment of the invention Developing device shown. It is essentially the same as in Pig. 2 and 3, however the difference on, gB3 instead of an inclined one Inner surface of the housing several inclined, thin-walled tubes 50 are provided, which the developer in the Promote development area. The tubes are fastened to the shaft 52 at their lower ends with retaining rings 51. They are made of a non-metallic or metallic material, for example brass, and are with their upper ends passed through bores 53 of a thin disk 54. The upper open ends 55 of the tubes terminate on the surface of the disc 54 so that it has a smooth surface. The disc is not shown with Brackets attached to the rotating shaft and provided with a hub 55 surrounding the shaft and from the Top of the retaining rings 51 extends to the bottom of the disc, so that the entire structure has better strength owns.

The shaft 52 is supported at its lower end in a manner similar to that shown in FIG. 2, so that it can be driven by a motor M with a variable speed. The rotation of the shaft causes the retaining ring 51 , the hub 55, the inclined tubes 50 and the disc 54 to rotate as one unit. The top of the disk is designed to rise slightly towards the outside, as is the case with the embodiments shown in FIGS. 2 and 3 . As a result, the developer is kept in uniform developing contact with a latent image over the entire surface of the disk, which is moved past the disk.

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The inclined tubes 50 have at their lower ends an inclined opening 56, which is in the existing on the base plate 14 Immersing developer material. The opening is aligned in the direction of rotation of the shaft, so that the carrier particles and developer material consisting of toner particles can enter the respective tube. By centrifugal force the developer is then pressed against the sides of the tubes and as a result of their inclined arrangement conveyed through the upper openings of the tubes onto the turned disk. Then it becomes with a radial velocity component thrown outwards, as already described with reference to FIG. 7 for the other embodiments became.

The collecting surface 33 and the base plate of this embodiment of the invention agree in their design with the in FIGS. 2 and 3 correspond to the embodiments shown. The thin-walled tubes guide the developer material in a similar way Way like the conical housing surface already described. Furthermore, the annular disc of this embodiment act as developing electrodes because they are grounded through the body of the developing device or even directly can. If a stronger electric field is required in the development zone, the disk can also use an electrical bias voltage, resulting in a stronger or better development continuously tinted image areas results. A suitable bias voltage can also be provided to prevent the deposition of toner reduced or completely avoided in the image background areas on the photoconductive wall surface.

The developing device according to the invention is also suitable for developing latent electrical images, which are not on a tape-shaped recording medium, but, for example, on other known photoconductive

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capable recording media are available that support the In the form of plates, drums, tapes, or "coated papers".

Deviating from the embodiments described above are, the skilled person further embodiments and Modifications are possible, which are all covered by the basic idea of the invention.

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Claims (13)

Claims Electrostatic latent image developing device characterized by a rotatable housing (11) with a storage area (14) for developer material, which when rotated by a drive device (M) a collection of the developer caused by centrifugal force on its inner surface (20) and on the Inner surface (20) is provided with a guide (30), which the accumulated developer in different Directions to a latent electrostatic image (1). 2. Development device according to claim 1, characterized in that that the inner surface (20) is conical. 3. Development device according to claim 1, characterized in that the inner surface consists of a plurality of inclined th tubes (50). 4. Development device according to claim 1, characterized in that the guide (30) is an annular surface (30) arranged parallel to the latent electrostatic image (1) at a small distance. 5. A developing device according to claim 4, characterized in that the annular surface (30) is inclined in radia Ler direction outwards at a small angle to the latent image (1) , so that in the radia Ler direction the distance to the latent image ( 1) becomes smaller . 10981 1/1835 6. Development device according to one of the preceding claims, characterized in that the guide (30) consists of an electrically grounded conductive material. 7. Development device according to one of the preceding claims, characterized in that the guide (30) is provided with a roughened surface (40). 8. Development device according to one of the preceding claims, characterized in that the guide (50) Magnetic elements (41) are assigned. 9. Development device according to claim 8, characterized in that that the magnetic elements (41) are stationary on the side facing away from the latent image (1) Guide (30) are arranged. 10. Development device according to one of the preceding claims, characterized in that the housing (11) is also provided with a collecting surface (33) for developer material, which after contact with the latent Image (1) is thrown off the rotated guide (30) and over the collecting surface (33) into the storage area (14) is performed. 11. Development device according to claim 8, characterized in that that the magnetic elements (42) on the side of the guide (30) facing away from the latent image (1) are attached. 12. Developing device according to claim 3, characterized in that the guide is a plate (54) 109811/1835 in which the upper ends (53) of the inclined tubes (50) open with openings (55). 13. Development device according to claim 11, characterized in that that the magnetic elements (42) are concentric over the guide (30) designed as an annular disc get lost. 1 0 9 8 1 1/1 8 3 b