DE2225095A1 - ELECTROSTATOGRAPHIC PROCESS AND DEVICE FOR IMPLEMENTING IT - Google Patents

Description

Official file number:

New application

Applicant's file number SA 969 021

Electrostatographic process and apparatus too its implementation

The invention relates to an electrostatographic method and a device for its implementation, in which an electrostatic image is generated on an insulating surface, which image is generated during the movement of the insulating surface is developed into a visible image by continuously moving it past a development station.

In an electrostatographic process, an electrostatic latent image generated on a photoconductive insulating layer and thereby developed or made visible, that finely divided pigment material particles, also called toner, are attracted by this electrostatic latent image. In a method known from the prior art for making electrostatic images visible, the developer material is applied to the surface of the photoconductive insulating Layer guided while it moves parallel with the direction of the developer material. This developer material consists from a mixture of carrier particles and very much smaller pigment powder particles or toner carried by the carrier particles are electrostatically charged and adhere to them. When the developer mix is over the electrostatic latent image runs on the surface of the photoconductive insulating surface, the toner particles are removed from the carrier particles by the electrostatic image and placed on the photoconductive insulating Layer deposited and so make the electrostatic latent

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- 2 images visible.

With this parallel flow development, the speed of the supplied developer material must be greater than the speed of the moving photoconductive layer in order to achieve a qualitative ensure high quality image development. With this type of development, there is a single electrostatic charge on the Layer in contact with a number of carrier particles full of toner powder. However, as the speed of the photoconductive layer is increased, the speed becomes the photoconductive layer may be faster than the speed of the developer material that only touches the photoconductive Layer falls down, leaving the individual electrostatic Charge comes into contact with carrier particles which have essentially no more toner, as these carrier particles Have previously come into contact with other static electricity and have lost all of the toner in the process. In this case, the image density of the resulting toner image drops and further deteriorations of the image are also found.

If the photoconductive layer is arranged in the form of a drum or a cylinder and the diameter of the drum is reduced, then these adverse effects result even at lower speeds, since the electrostatic image only comes into contact with the developer material for a short period of time. Also there for the higher than the speed of the photoconductive layer, the speed of the developer material is an upper limit, because in the previously known parallel flow processes the development of the electrostatic image begins the moment the developer material with the photoconductive layer comes into contact, while this development is only completed at a point remote from it. Thus, when leaving the developed image, the carrier particles have already given off all of their toner and are at

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sufficiently high speed to remove parts of the image that has just been developed, as a result of which the image quality deteriorates further will. .

In another development system, the photoconductive layer is used passed through a bath with developer material. This system has the great advantage that the abrasion or the sandblasting effect the cascade development caused by the high speed of contact with the moving photoconductive layer coming developer material is eliminated. However, such a system does the replenishment of toner particles difficult, which was extracted from the system by the developed electrostatic image. . -

It is therefore an object of the invention to provide a novel developing device and to disclose a new developing method which allows very rapid development of electrostatic images and still produce high quality toner images without the finished toner image gradually deteriorating.

Above all, the abrasion phenomena that have hitherto occurred at high speed should be eliminated without at the same time, the refilling of toner particles thereby complicates especially when the electrostatic photoconductive layer takes the form of a drum.

This is intended to make a high quality development of an electrostatic image practically independent on the surface speed of the layer bearing the image. It also follows from this that it is so too must be possible, a drum provided with an electrostatically chargeable photoconductive insulating layer clockwise or counterclockwise, allowing greater flexibility in the construction of the Machine results.

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This is achieved in the new development method according to the invention in that on the carrying the electrostatic image Layer an accumulation or elevation of toner material is applied at such a point that a force is perpendicular to the layer The layer applied is so thick that the electrostatic image with toner particles is practically fully developed. Preferably is used to generate such excessive amounts of developer powder a developer container or hopper is provided, the lower end of which is as close as possible to the one carrying the electrostatic image Layer is brought up. This funnel has at the lower end an opening of such a size that when the hopper contains a supply of developer powder and the layer carrying the electrostatic image does not move, the developer material cannot escape from the opening. The elevation or crown of developer powder formed in this way is essential wider than the opening and extends on both sides of this opening and assumes a dynamic state when the the electrostatic image-bearing layer is moved.

The invention will now be described on the basis of an exemplary embodiment in conjunction with the accompanying drawing, which shows schematically Figure 10 shows a cross-sectional view of the developer station incorporating the present invention.

In this figure, a drum 11 is shown in part, which carries an insulating surface 12 on which an electrostatic Charge image is located. The drum 11 preferably has a photoconductive layer and the electrostatic charge image is achieved by uniform electrostatic charging of the surface 12 by known corona discharge devices (not shown) charged, whereupon the photoconductive layer is exposed to the image to be imaged by means also not shown either indirectly after reflection from a document or directly from a cathode ray tube. A photoconductive layer however, it is not absolutely necessary and the electrostatic

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The charge image can also take place selectively by charging with the aid of a pin tube.

For the development of the electrostatic located on the drum 11 Charge image, a developer station is provided which operates and is constructed in accordance with the invention. This developer station supplies a developer material 14 that is a mixture of carrier particles and toner powder that is electrostatic adhere to the carrier particles. The developer material

14 is represented by a conveyor system such as indicated at 16 in a container 15 promoted.

According to the present invention, the developer station 13 be equipped in such a way that they prevent the formation of a cant. or Crown 18 on the surface 12 of the drum 11 causes which extends from the outlet opening of the storage container to both Sides extending. In the embodiment shown in the figure, the elevation or crown 18 of the developer material is on achieved in the following way. The storage container 15 has at its lower end an opening 17 of a predetermined shape and size, which has such a distance from the surface 12 that when the surface 12 is fixed, the developer material does not come out of the opening and the crown 18 forms.

It goes without saying that the mass or filling height of the developer material, which is required to prevent leakage when the surface 12 is stationary of the particle size of the Carrier particles and depends on the weight of these particles.

With the developer device described here, the drum 11, which carries the electrostatic image, is counterclockwise moved towards the uppermost edge 19 of the developer crown 18, which is now in its dynamic state because of the movement of the drum reached so that the developer material 14 from the reservoir

15 flows into and out of the developer crown. This dynamic effect of the developer crown makes this happen on the surface

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12 of the drum 11 located electrostatic image completely developed when it leaves the outermost edge 20 of the developer crown.

Although in the embodiment shown here, the storage container 15 is arranged at an angle of 5 ° to the vertical, should however, the invention also include the formation of a developer crown 18 at any point between 0 ° and 60 ° from vertical lies. The parameters of the size of the opening of the distance between the storage container and the surface 12 of the drum 11 and the The filling level of the developer material in the storage container must be adjusted accordingly if a developer crown is present is to be formed at an angle that differs from the illustration. In addition, it is obvious that the same parameters can be influenced by the direction of movement of the drum 11. For example, the developer crown will be at a larger angle more easily formed when the drum moves clockwise. Although with a movement of the drum 11 in the counterclockwise direction an angle of about 5 is preferred, an angle of 45 may be preferred when the drum 11 is counterclockwise moved because of the discharge problem. I.e., with a At a position about 5 against the vertical, the developer crown can also be formed when the direction of movement is counter-clockwise and the fur seal 21 is sufficient to prevent developer material from being discharged from the developer station. if however, if the drum 11 moves clockwise, the flow of the developer material becomes somewhat problematic when the developer crown should form at an angle as small as 5.

The following example serves to further specify the invention a method of developing electrostatic images with a desercuer.

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example

A drum provided with a photoconductive layer, such as that described in US Pat. No. 3,484,237, has been proposed a corona station with a uniform electrical charge to a surface potential of about -600 volts and exposed with a line-shaped image to produce an electrostatic image on its surface. The drum was then rotated counterclockwise and passed through a developer station according to the drawing, which is a commercially available Contained developer powder. The storage container and the opening of the storage container were inclined about 5 ° to the vertical was about 19 mm, the distance between the bottom of the reservoir and the photoconductive layer was about 9.5 m and the The filling height of the developer material in the storage container was about 15 cm high. At a peripheral speed of approx. 61 cm / sec excellent copies resulted. Furthermore, the surface speed was without any further changes at the developer station has been increased to 127 cm / sec without any significant change in the quality of the developed copy. It was even found that copies were possible at peripheral speeds of up to 200 cm / sec.

As can be seen from the example described above, the new method has the particular advantage that the outflow of the developer powder regulates itself. That is, once a developer crown has formed for a speed as low as about 20 cm / sec (i.e. for a movement of the electrostatic image through the developer crown), then the development speed can be increased and the flow rate regulates itself automatically for the increased speed of, for example 127 cm / sec. That is, this developing method is substantially independent of speed and ^x is not affected by this.

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In this context, however, it must be pointed out that that with the change in the speed of the layer carrying the electrostatic image, the conveying capacity of the conveying system must also be automatically adjusted proportionally or that an overflow must be provided on the storage container in order to always to ensure an optimal filling level of the developer material in the storage container. In addition, care must be taken that the refill speed for the toner is adjusted accordingly, since this speed is proportional to the in the unit of time developed is · However, these changes can easily be carried out automatically by controlling the toner dispensing couples with the drive motor of the drum carrying the electrostatic image. In addition, the toner concentration and the refill of the toner can be automatically adjusted accordingly. This self-regulation allows the construction of two-speed machines that are both slow as facsimile printers or as high-speed printers for Computer can be used.

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Claims (9)

PATENT CLAIMS IT) Electrostatographic process in which on a insulating surface an electrostatic image is generated during the movement of the insulating Layer is developed into a visible image in is continuously supplied to the developer material of the insulating surface, characterized in that at the point where the developer material reaches the insulating surface, a dynamic domed crown is formed, which exerts a force perpendicular to the surface, whereby the electrostatic image as it passes through the developer crown is practically fully developed. 2. The method according to claim 1, characterized in that the radius of the point of application of the developer crown is inclined by between 0 and 60 against the vertical. 3. The method according to claim 1, characterized in that the developer crown when the insulating is sitting still Surface loses its dynamic properties, becomes stationary and remains. 4. The method according to claim 2, characterized in that the angle is approximately 5 °. 5. The method according to any one of the preceding claims, characterized in that the formation of the developer crown takes place by constricting the flow of developer material onto the insulating surface. 6. The method according to claim 5, characterized in that this limitation by the mass or level of the above the crown in a storage container lying developer is supported. 209887/0980 SA 9 69 021 7. Device for performing the method according to one or more of claims 1 to 6, characterized in that that a reservoir (15) is arranged above the moving insulating surface (12), the Opening (17) has a predetermined size and such a distance from the insulating surface (12), that a sufficiently wide developer crown (18) is formed, which is an essentially complete development of the electrostatic image passing underneath. 8. Apparatus according to claim 7, characterized in that the insulating surface (12) on a drum (11) is arranged and that the storage container (15) at a point is. Point between 0 and 60 ° from the vertical 9. Apparatus according to claim 8, characterized in that the angle is approximately 5 against the vertical. 209882/0980 SA 969 021