DE2043814C3 - Apparatus for developing electrostatic latent images - Google Patents

Description

45

The invention relates to an apparatus for developing an electrostatic latent image a recording material with two of the recording surface opposite and at a distance mutually arranged, overlapping magnetic fields and tufts of developer material generating devices for transporting a developer material containing magnetizable carrier particles up to its contact with the recording material, with the developer between the devices is distributed over an area and can be guided from one device to the other.

Such a previously proposed device is designed so that two rollers in which magnets are arranged, provided in parallel and at a distance from one another with respect to the recording material on which the latent image to be developed is located. About a conveyor are the rotating rollers fed from one side of developing material particles. Because of the magnets The generated magnetic field creates brush-like tufts of developer material. Because between the roles one If there is a certain distance, the tufts of developer material in this area are particularly long, so that the danger is that they are under their own weight to collapse.

Another developing device is known from US-PS 33 5S 637. In this device are two rollers equipped with magnets arranged parallel to each other at a relatively large distance The Recording material bearing the latent image to be developed is fed with a space above These roles are guided along the distance between the roles is so large that over a larger area no areal distribution of developer particles is achieved at all. When the recording material is fed to the first roll, it is partially developed by that of the first roll generated tufts of developer material. The recording material then reaches the area of the second Role where the development process is continued through the tufts of developer material created by you. Between the tufts of developer material of the respective roles there remains an area in which the recording, No developer particles at all are supplied to the processing material.

The disadvantage of this known device is that there was no areal distribution of developer material particles can be generated in the development zone. Rather, it is so that there are two separate development zones, one of which is assigned to one of the roles

Another developing device is known from US-PS 31 13 042 In this device the developer material is conveyed to a height from which they can be moved freely or via a guide chute onto the recording material bearing latent image to be developed fall down. Around the developer particles Bringing it to this altitude is a conveying device made up of individual magnets arranged one behind the other intended. The magnetic field of these magnets can be generated or alternatively with each of them be switched off. One end of the conveyor, which is designed in the manner of a "magnetic chain", is located in the reservoir for the developer particles, while the other end is in the Located at an altitude from which the developer particles fall onto the recording material. To the To convey developer particles to this altitude, the various magnets are excited one after the other By appropriate timing between the generation of the field of a magnet and the Switching off the field of the previous magnet creates a magnetic »traveling field« through which the developer particles are brought up along the magnets.

With this device, it is difficult to achieve an areal distribution of developer particles on the recording surface to achieve, since the recording material is under the trickling down developer particles moved through it, so that the developer particles only cover a small area of the recording material impinge to the toner attached to them to the recording material transfer. A further disadvantage is that this device takes up a lot of space

. From US-PS 31 17 891 is an electrophotographic Known copying device in which a modified one for developing the latent charge images Cascade method is applied. On the opposite side of the recording surface

A device is provided on the recording material which generates a moving magnetic field The carrier particles trickling down on the recording surface are supposed to move through the magnetic field Direction to the recording surface are attracted and moved at the same time, with when while the carrier particles rotate around themselves, several surface areas of the carrier particles with the recording surface come into contact in order to deliver the toner particles adhering to the carrier particles onto the recording material. These facilities, which generate the magnetic fields do not act directly as development elements. Even the size of the development zone is not increased by these magnetic field generating devices influenced.

The invention is based on the object of providing a developing device of the type mentioned at the beginning to develop in such a way that it can have a large development zone and that a faultless one Action of the developer on the latent image to be developed is guaranteed

This object is achieved according to the invention in that a rotatable one between the devices Cylinder is provided through which an areal distribution of the developer material also in the form of a Developer material tufts can be maintained between the facilities

The inventive device is achieved in an advantageous manner that a large area Development zone is created. Because between the individual, the magnetic fields generating A rotatable cylinder is provided through which the surface distribution of the developer material is provided Also maintained between the facilities becomes a very large development zone created. The rotatable cylinder prevents that between the individual devices the clusters of developer material collapse under their own weight. This makes it possible to create a development zone that is larger than the sum of the Development zone created by the individual institutions.

In a further development of the invention, this rotatable cylinder is close to the recording material arranged so that the developer fountains in the area of the flat developer distribution during the movement from one device to another can act well on the recording material.

In another development of the invention, the cylinder is coupled to a device through which it Can be set in rotation In this development, in which the cylinder is thus in a driving direction A connection is advantageously a mixing of the developer in the development zone caused, so that fresh toner in the vicinity of the latent charge image on the recording material is brought.

In yet another further development of the invention, the cylinder is freely rotatable. In Here, developer material is advantageously kept close to the recording material in order to ensure an effective To ensure the length of the development zone, however, this development is mechanically simpler, since none Device is needed to drive the cylinder.

Further developments of the invention are in the Subclaims indicated.

The invention is explained below using an exemplary embodiment with reference to the figures described. It shows

Fig. 1 is a schematic sectional view of a Embodiment of the device according to the invention,

F i g. FIG. 2 is a perspective view of the FIG. 1 shown developing device and

F i g. 3 is an enlarged sectional view of part of the FIG. Developing device shown in FIG.

In Fig. 1 is an automatic machine equipped with the developing device of the present invention electrophotographic reproduction machine shown in section As with all such machines, a A light image of a document to be reproduced is projected at 3 onto a light-sensitive image surface 1 to to create an electrostatic latent image there. This then becomes an electroscopic at 4 The toner image is developed with a configuration corresponding to the latent image transferred to another image carrier, on which it can be fixed, for example by heat fusing can. The toner image can also be fixed on the photosensitive surface, if the known electrostatographic imaging process is performed.

In the F ^: g. 2 and 3 show a developing device 50 which runs across the width of the recording medium 1 and is arranged in a housing which is provided on the side of the recording medium with an opening at which the latent electrostatic image is developed Toner input device 10 is provided with which toner used up by the development from the developer mixture is input. In the lower part of the housing of the developing device, a storage area 51 is provided, in which developer material is contained, which consists of magnetizable carrier particles and colored, electroscopic toner particles.The toner particles have a much smaller size than the carrier particles and are bound to them by mutual triboelectric attraction and form an even coating.

The developing device 50 is in the automatic electrophotographic reproduction machine arranged with brackets near the recording medium 1 and fixed in the machine frame between A fastening 12 for the input device 10 is provided on the cover plates 52 and 53.

The development of the electrostatic latent image takes place through an areal distribution of developer material between two adjacent Magnetetrcllen 70 and 80, which are arranged such that their magnetic fields on the rollers 70 and 80 and between these rollers on the recording medium 1 the two-dimensional distribution of developer material form. The magnet rollers 70 and 80 are composed of outer cylinders 71 and 81 of one non-magnetic material such as B. aluminum and run the full width of the development housing. Elongated bar magnets 72 and 82 are also provided which extend over almost the entire length of each Cylinder run. The bar magnets 72 and 82 are each on a ferromagnetic rail 73 arranged with a rod 74 at each end in mounting blocks 75 on the side frame panels 54 the developing device is stored. The. outer cylinders 71 and 81 are made of non-magnetic material

each rotatably supported in the development housing with bearing surfaces 76 attached to the side frame plates 54 of the Housing (Fig.2) are attached. One end of a cylinder is closed with a cap 77, through the central opening of which the respective rod 74 is guided. With the storage 76, the end of the cylinder is at the Frame plate 54 is mounted rotatably about rod 74. The driven end of the roller is cap 78 closed, which is stored in bearings of the other side frame plate 54 and with a drive gear 89 is connected, which rotates the respective cylinder. The driving force for all other rotating elements of the Developing device 50 is constituted by drive gear 89 and a drive belt (not shown) supplied, which couples the respective element with the gearwheel. In this way the outer cylinder be rotated around the stationary bar magnets 72 and 82. The polarity orientation of the bar magnets is such that the magnetic force fields through the wall of the non-magnetic cylinder 71 and 81 run and the magnetizable carrier particles of the developer material in a brush-like manner Arrange configuration as is known for magnetic brush development

As can be seen from FIGS. 2 and 3, the cylinders 71 and 81 are close to one another, but with arranged a certain distance from each other. Both cylinders rotate during a development process synchronously around their respective stationary bar magnets 72 and 82, bristles are formed from magnetizable ones Carrier particles between the surface of the cylinder 71 and the surface of the recording medium 1 by the action of the magnetic field emanating from the magnet 72. Will you with the Cylinder 71 from the area of influence of the magnet 72 over the area of smallest distance between the The recording medium 1 and the cylinder 71 are moved out, so they are by the then stronger magnetic field of the magnet 82 is attracted, because the magnetic field of the magnet 72 is already weakened in this area The developer is then advanced through the cylinder 81 until it is one point behind the development zone reaches where the magnetic field of the magnet 82 is weakened and it from the cylinder 81 in the The supply area 51 of the developing device falls back Be provided in the form of a non-magnetizable scraper blade 96, it ensures the complete Removal of developer from cylinder 81.

During the movement through the development zone between the two cylinders 71 and 81, the magnetizable developer held in a two-dimensional distribution, like a cloth (F i g. 3) between the two cylinders is arranged in contact with the recording medium 1. This results in a Development zone that is wider than the sum of the individual zones produced by cylinders 71 and 81.

So that the two-dimensional distribution of the developer material, the latent electrostatic image in the whole touches enlarged development zone, is between the developing rollers 70 and 80 near the image carrier 1 a rotatable wire brush or other cylinder 60 arranged. This device is rotatably mounted in the side frame plates 54 and can either be driven or designed as an idler roller. It is used to carry the two-dimensional distribution of developer material, while it moves from cylinder 71 to cylinder 81. This prevents the Tufts of developer collapse under their own weight when they move from one to the switch to another magnetic field. Except for the cylinder 60, which tufts the developer material close to the Moving the latent image past, an electrical bias of, for example, 250VoIt for the cylinder to act as a developing electrode and a further improvement the development quality guaranteed

After the development of the latent image on the recording medium, the developer is from Cylinder 81 removed and directed into supply area 51 of the developing device. A conveyor 20 is in stored on the side frame plates 54 of the developing device and conveying the developer off Storage area back to a point from which it 'can be fed to the development rollers 70 and 80.

The conveyor consists of a number of spaced apart conveyor cups 21, which on a belt 22 with a shaft 23 are moved. The drive for this takes place via a (not shown) Gear which is provided at one end of the shaft 23 and is coupled to a suitable drive

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Apparatus for developing an electrostatic latent image on a recording material with two overlapping magnetic fields arranged opposite and spaced apart from the recording surface and devices generating tufts of developer material for transporting a magnetizable Developing agent containing carrier particles until it comes into contact with the recording material, the developer material being distributed over a large area between the devices and from one device can be guided to the other, characterized in that between the devices (71, 81) a rotatable cylinder (60) is provided through which an areal distribution dss developer material in the form of a developer material bundle also between the facilities (71, 81) can be maintained. 2. Apparatus according to claim 1, characterized in that the cylinder (60) close to the recording material (1) is arranged. 3. Apparatus according to claim 2, characterized in that the cylinder (60) is electrical is conductive. 4. Device according to one of claims 2 or 3, characterized in that the cylinder (60) is coupled to a device by which it can be set in rotation. 5. Device according to one of claims 2 or 3, characterized in that the cylinder (60) is freely rotatable. 6. Device according to one of claims 1 to 5, characterized in that the cylinder (60) is connected to an electrical voltage source. 7. Device according to one of claims 3 to 6, characterized in that the cylinder (60) is designed as a wire brush.