DE1091868B - Device for developing latent electrostatic images - Google Patents

Description

GERMAN

The invention relates to a device for developing latent electrostatic images with a movable magnet arrangement for applying the developer, which consists of carrier particles made of magnetizable Material and toner.

It is known to develop latent electrostatic images by applying the toner to the latent Figure is scattered. Furthermore, it is known to the toner for example by a stirring device in a container with the support with the latent electrostatic image over its open upper side is performed to whirl up, so that the pigment parts are deposited on the contours of the image. These known designs have the disadvantage that the entire device is heavily soiled and a relatively large amount of toner is consumed because the pigment parts are also in other places than on deposit the latent image. It must be taken into account that a uniform distribution and intensive application of the toner to the image is difficult to achieve.

It has already been proposed to create a constant electrostatic field between the magnets and a To apply the surface that carries the image. It has also been proposed to use an electrically polarized Apply magnet that carries the developer mixture and an arrangement for applying the adjustable Has polarization voltage. A rotatable arrangement of a pole piece is also provided, but the resulting roller arrangement consists of a shaft and obliquely arranged on this, parallel elliptical disks made of magnetic material.

A particular problem with the use of a magnet arrangement is the continuous one Application of developer powder that is constantly used up. The already proposed execution does not give the possibility of a continuous replenishment of the developer on that formed on the magnet Brush. The execution with elliptical ring disks also includes the use a spreader because the greater part of the developer dispensed is between the discs would fall down. It is also the case with the inclined arrangement of the elliptical disks not the possibility of setting a spreader on the individual panes because the one on top The apex of the disc, corresponding to the inclined arrangement, is constantly in the axial direction of the Shaft shifted.

The invention is based on the object of improving known devices with regard to the application of the developer to a photoconductive layer and, in particular, of creating an embodiment for means for developing
latent electrostatic images

Applicant:

Lumoprint Zindler KG,
Hamburg 13, Hallerstrasse 59

Walter Limburger, Hamburg,
has been named as the inventor

which the supply of the developer is controllable when using a magnet arrangement. These The object is achieved in that the magnet arrangement between the photoconductive Layer and a known scattering device is provided.

In an advantageous embodiment, the magnet arrangement consists of one or more rod-shaped Permanent magnets, which are rotatably arranged in planes perpendicular to a shaft are, a cylinder made of non-magnetizable material is provided concentrically to the shaft, in the outer surface of which are the end faces of the magnets or special pole pieces of the magnets.

According to a further advantageous embodiment, the magnet arrangement consists of several rod-shaped Magnets that radiate on a shaft in at least one perpendicular to the shaft axis Level are distributed so that poles of the same name of the permanent magnets are facing outwards.

In these embodiments, the guiding of the layer carrier is preferably in the effective area the rotating magnet roller is provided with a guide track surrounding it in a partially concentric manner.

In an advantageous embodiment, several, preferably rod-shaped, magnets are parallel to one another arranged on a rotating disc in such a way that from the disc fortragende and homopolar ends of the magnets are in front of the photoconductive layer. In a particularly advantageous embodiment the disc is arranged vertically. The support is in front of the poles of the horizontal The magnets protruding from the disc are guided vertically.

009 629/179

This results in an area determined by the magnet arrangement, in the lower area of which the Layer support is guided vertically, while in the upper region of the layer support approximately horizontally, for. B. over a role is supplied or removed, so that the respective overhead magnets of the rotating disc are not covered by the substrate. This magnet or their pole pieces is through the Scattering device supplied with the developer or toner, which then as a result of the rotation of the magnet assembly is transferred to the photoconductive layer.

According to a further advantageous embodiment of the invention, there are one or more additional magnets arranged so that their field in cooperation with the rotatable magnet assembly Layer support not penetrated and the magnetic field of the magnet arrangement for the purpose of erecting the out of the Developer accumulations on the magnet ends is reinforced. The additional magnets are advantageous designed as electromagnets, which are operated synchronously with the rotation of the magnetic roller via a Switch or a correspondingly driven commutator are excited in such a way that when it rotates of the magnet roller each have poles of opposite polarity opposite.

According to an advantageous embodiment, the storage container for the developer is in two chambers divided, one of which contains only toner, and the purpose of the optional supply of the contents of the one of the two chambers to the magnet arrangement can be opened independently of one another.

An embodiment of the invention, which is shown in the drawing, is described below. It shows

Fig. 1 is a side view of the device in section,

FIG. 2 is a view of the device according to FIG. 1 from above.

The device according to the invention is housed in a desk-like housing 1 on the front side two slits 2, 3 lying one below the other for introducing the template and the layer support are. In the front area of the housing 1 there is another slot 4 on the top, through which the original can be removed after exposure. The slot 5 for removal the finished copy is located on the rear upper edge of the housing JL. On top of the desk-like Housing 1 is also behind the removal slot 4 for the presentation of the cover 6 for the storage container intended for the developer. This storage container is easily accessible due to this arrangement, so that its content can be supplemented in each case.

Behind the slot 3 is the charging device 7, which consists, for example, of several wires stretched transversely to the direction of advance of the layer carrier, to which the charging voltage is applied. The counter electrode is denoted by 8 and is earthed. The electrical part from which the voltage is drawn is denoted by 9. On the upper wall of this part there are, for example, two insulators 10 _7, of which the electrical connections lead to the charging electrode 7 and the counter electrode 8.

Behind the charging device, the exposure device is arranged, for example, of two Fluorescent tubes 11, reflectors 12 and a glass plate 13, on which the template and the Layer carriers are transported past by the roller 14. The roller 14 is preferably made of Rubber and has a cotton fabric cover on its outer surface.

After the exposure device, the original is separated from the support, so that the original is guided along the arrow 15 to the dispensing slot 4, while the layer support is on the guide track 16 is transported on. The separation of the template from the substrate can be done by hand,

ίο what is the result of the device training shown the easily accessible arrangement of the slot 4 is possible, or by a known per se, not mechanical separation device shown are carried out. The guide surface 17 for the template also serves as a wall for the division of the device section with the charging device and the exposure device from the device section in which the development of the electrostatic image takes place. This device section accommodates the reservoir 18 for the developer, and this The storage container has in the lower part a device known per se, for example in the form of a Roller 19 for a metered output of the developer. This roller 19 is depending on the Movement of other parts of the device driven.

In the invention, the developer consists of magnetizable carrier particles, for example Iron filings, and the toner formed by the pigment particles. The composition is preferred so that the developer is highly enriched with toner, as in the intended embodiment the toner is transferred to the photoconductive layer while the carrier particles are functional Cooperation with a magnet arrangement at the same time act as a transmission organ, which during the operation essentially has to be supplied with toner. The invention therefore also relates to an embodiment a, in which the storage container 18 is divided into two chambers, one of which contains only toner, so that if necessary only toner or toner and carrier particles in a selectable composition can be issued.

A magnet arrangement is provided under the scattering device, which in the illustrated embodiment is cylindrical. Bar magnets are parallel to each other on a shaft 20 mounted in the housing 21 arranged in such a way that the poles of the bar magnets, optionally provided with pole shoes, are diametrically opposed protrude from the shaft 20. In the illustrated embodiment, all are adjacent Bar magnets 21 also magnetized in the same direction, so that the north poles are on one side of the shaft and on the opposite side are the south poles. Further, the shaft 20 is concentric of one arranged cylinder 33 surrounded by non-magnetizable material. This cylinder 33 is running with the shaft 20 um. The outer diameter of the cylinder 33 is dimensioned so that the outer surfaces of the poles or pole shoes of the magnets 21 lie in the outer surface of the cylinder 33.

This arrangement ensures that along the axially extending sections on the cylinder 33, in which the pole shoes of the magnets 21 are located, a strong magnetic field is created, which is directed substantially radially away from the cylinder. The developer falls into this magnetic field from the scattering device 19 and forms due to the magnetizable design of the carrier particles according to the field lines of the magnetic field radially

threads protruding from the cylindrical magnet arrangement or tapering accumulations.

The magnet arrangement 20, 21, 33 revolves at such a speed that the peripheral speed is greater than the feed speed of the substrate. This will make the Developer accumulations on the circumference of the magnetic roller in a brush-like manner over the photoconductive layer of the Out of the layer carrier, which is advanced on the web 16. Runs in the area of the magnet arrangement the track 16 parallel to the outer surface of the roller-shaped magnet arrangement.

Due to the intended form of the supply of the toner to the photoconductive layer, on the one hand ensures vigorous and intensive treatment of the electrostatic latent image with toner, and on the other hand, however, the photoconductive layer becomes due to the resilient arrangement of the carrier particles on the magnetic roller in no way attacked, especially since carrier particles only to a very small extent ao are detached from the magnetic roller, so that essentially generally the toner on the photoconductive Layer is transferred.

For the detached carrier particles there is a container 22 under the guide track 16 in which the carrier particles can fall through the openings in the guide track 16. For example a handle 34 of the container protrudes laterally from the housing 1, so that the container 22 can be removed and the collected toner particles can be poured back into the storage container 18.

Furthermore, one or more magnets 23 are provided behind the section in which the Magnet assembly 20, 21 transfers toner to the photoconductive layer, the radially directed magnetic field of the Reinforce magnet assembly 20, 21. However, this reinforcing effect by the additional magnets 23 is dimensioned so that only an erection of the developer accumulations on the circumference of the magnetic roller 20, 21 takes place because these accumulations on contact with the photoconductive layer more or are less deformed or flattened. If the additional magnets are used in the execution of the magnetic roller, which has a homopolar field over the entire circumference, also designed as permanent magnets can be, the additional magnets are in the present embodiment as electromagnets with a switchable excitation winding executed so that the polarity of the additional amount according to the position the magnets 21 in the magnet drum can be adjusted. In the illustrated embodiment a position of the magnets 21 is shown in which the north pole of the magnets 21 faces the additional magnets is. The additional magnets must therefore be used to reinforce the field that arises over the said pole 23 are excited so that the pole facing the magnetic roller 20, 33 is a south pole. if the magnetic roller has now made a rotation of about 180 °, the polarity of the additional magnets 23 must be reversed. The polarity reversal can be driven synchronously with the magnetic roller 20, 30 Commutator. Due to the additional magnets 23, the roller becomes brush-like with each revolution Arrangement of developer accumulations on the circumference of the magnetic roller renewed.

In order to increase the exposure time of the developer to the photoconductive layer support, the Guide track 16 in the area of the magnetic roller 20, 33 parallel to its circumference. About small device dimensions To achieve, the invention therefore provides the substantially V-shaped design of the guide track 16 before, through which at the same time an arrangement of the magnetic roller 20, 21, 33 in the lower part of the device is achieved between the other devices combined in the device. The additional magnets 23 are expediently arranged on the partition wall 24 that separates the burn-in device from the other parts of the appliance concludes.

The layer support is passed through the baking device over a plate 25 which is perforated, i.e. H. is provided with openings 26. Through these openings a negative pressure is generated by connecting the space 27 below the guide plate 25 to the Suction side 28 of a fan 29 arises. This ensures that the layer support is unused other attacking guide means is guided flat on the guide plate 25. This negative pressure at the same time has the purpose of sucking off the fumes resulting from the burn-in of the pigment particles, so that he can by no means get to the other parts of the device.

To burn in the pigment parts, the guide plate 25, for example, can be heated if according to one embodiment, they are equipped with heating elements, such as, for example, electric heating coils is. Either exclusively or in addition to heating elements in the guide plate 25 are also Arranged over the guide plate 25 radiators 30, the heat of which by reflectors 31 on the over the Guide plate 25 guided layer support is thrown. At the end of the guide plate 25 are in front of the Output slot 5 further guide elements 32 in the form of one or preferably several only on the Edges of the substrate acting rollers or wheels provided, which are driven. The order the plate 25 is made so that it essentially continues the last part of the guide track 16, so that the layer support is guided obliquely upwards to the dispensing slot 5.

Claims (9)

Patent claims: 1. Means for developing latent electrostatic Illustrations with a movable magnet assembly for applying the developer, which consists of carrier particles made of magnetizable material and toners, characterized in that, that the magnet arrangement (21) between the photoconductive layer and a known per se Spreading device is provided. 2. Device according to claim 1, characterized in that the magnet arrangement consists of one or several rod-shaped permanent magnets (21), which are perpendicular to a shaft (20) extending planes are rotatably arranged, and concentric to the shaft (20) from a cylinder (33) non-magnetizable material is provided, in the outer surface of which the end faces of the Magnets or special pole pieces of the magnets are. 3. Device according to claim 1, characterized in that the magnet arrangement consists of several Rod-shaped magnets exist, which radiate on a shaft in at least one to the shaft axis vertical plane are distributed so that poles of the same name of the permanent magnets after are turned on the outside. 4. Device according to claim 2 or 3, characterized in that for guiding the layer support in the area of action of the circumferential Magnetic roller (20, 21) a guide track surrounding this partially concentrically is provided. 5. Device according to claim 1, characterized by a parallel arrangement of several preferably Rod-shaped magnets on a rotating disc in the manner that the disc fortragende and homopolar ends of the magnets are in front of the photoconductive layer. 6. Device according to claim 5, characterized in that the disc is arranged vertically and the layer support is perpendicular in front of the poles of the magnets protruding horizontally from the disk is led. 7. Device according to one of claims 2 to 6, characterized by one or more Additional magnets (23) which are arranged so that their field interacts with the rotatable Magnet arrangement (20,21) does not penetrate the substrate and the magnetic field of the magnet arrangement (20,21) for the purpose of erecting the accumulations formed from the developer on the Magnetic ends reinforced. 8. Device according to claim 7, characterized in that the additional magnets (23) as Electromagnets are formed which are actuated via a synchronous with the rotation of the magnetic roller Switch or a correspondingly driven commutator are excited in such a way that Poles of opposite polarity face each other when the magnet roller rotates. 9. Device according to one of claims 1 to 8, characterized in that the storage container (18) for the developer is divided into two chambers, one of which only contains toner contains, and the purpose of the optional supply of the contents of one of the two chambers to the Magnet arrangement can be opened independently of each other. Considered publications:
Australian Patent No. 204 093. Legacy Patents Considered:
German Patent No. 1 024 988. 1 sheet of drawings © 009 629/179 10.60