PL128934B1 - Apparatus with magnetic brushes for developing of images with electrostatic charges - Google Patents

Description

The subject of the invention is a device with magnetic brushes for developing images of electrostatic charges. Such electrostatic charge images are produced on photosensitive semiconductor layers, for example selenium-coated aluminum drums or aluminum plates, by incident light rays, for example in xerography or in the preparation of laser records. magnetic brushes, which will hereinafter be referred to as developing devices, have at least one conveying material for developing a cylinder, which is normally made of a non-magnetic material, as a hollow sleeve into which a magnetic device with fixed poles and which is magnetized on the surface along several pole lines. The developing material is magnetically held against the surface of the transfer cylinder and aligned along the pole lines corresponding to the magnetic forces in the form of so-called magnetic brushes. 20 which are brought into contact with the drum photographic. In this case, the developing material is attracted by the surfaces of the drum which have electrostatic charges. This corresponds, strictly speaking, to really only single component evoking materials. In the case of two-component developing materials, a magnetic carrier material and a non-magnetic pigment are present. In the latter case, only the carrier material is attracted to the surface of the photographic drum. The carrier consists, for example, of an epoxy resin mixture. The media and pigment particles are held to one another by the action of electrostatic forces. The subject matter of the present invention derives in particular from electrostatic electrostatic imaging devices having one photographic drum and several cylinders running along the circumference of the drum. conveying developing material, placed one after the other parallel to the axis of the drum, driven in the same direction of rotation, made of non-magnetic materials on the cylindrical surfaces of which the developing material is conveyed, in this case stationary devices are mounted in the cylinders carrying the conveying permanent magnetized magnetic with opposite marks along polar lines running parallel to the axis of the surrounding transfer cylinders, mutually staggered in the circumferential direction; these devices have a basin containing a tapping material into which a first transfer cylinder is immersed in the direction of the trigger conveying movement. It is known from the German patent specification no. 2,800,510 such a developing device in which, with one transfer cylinder, there is true brush evoking, and generation of dust cloud occurs at the second transfer cylinder. To enable these different development methods to be carried out, the two transfer cylinders are slightly spaced apart and the magnetic devices therein are so polarized that the material particles evolve. <* ..: ». ., '** * ¦ ¦ • - &x; .... EO can be exchanged through the gap between the transfer cylinders. The relatively large distance between adjacent transfer cylinders, however, interferes with the known devices for developing in a creature, with the smallest possible dimensions, which is an absolute condition, especially for the new generation of small , table-top lifting devices. r-v '| * German Patent Specification No. 2,303,864 describes "uraaflzeffie-oiling, in which the developing material is conveyed by each transfer cylinder to the point it is going to, under the influence of the next next, in the direction of the trigger transfer movement. The developing material transfer cylinder thus passes from the transfer cylinder to the transfer cylinder. Upon reaching the last, developing material transfer cylinder in the direction of the developer conveying movement, the developing material falls back into the housing tub and can therefore be re-fed. In such a developing device, the developing material does not fall back into the tub without obstruction, but must be scraped off with a loss knife. There is a concern that the close contact between the knife and the surface of the transfer cylinder may cause There may be very severe wear on the surface of the transfer cylinder as well as the loss knife. Wear and tear, many particles-developing material remain attached to the outer surface of the sleeve and they will not be scraped off. As a rule, these particles enter the gap formed between two adjacent transfer cylinders which, however, in order to ensure free passage of the particles through the slit, without damaging the cylinder surface, must not be too tight. Since the molecules fuse frequently and take the form of larger agglomerates, which are also generally squeezed through the slit, they are needed in known developing devices, however, relatively long distances between the transfer cylinders. As a result, the known developing device, like the ones described above, is not suitable for small table-top copying devices. The object of the present invention is to provide a more compact developing device than in the known developing devices. without the need for costly technical aids or additional equipment for this purpose. The subject matter of the invention solves this problem in that the magnetic devices of the adjacent transfer cylinders in this case are magnetized with the marks. opposite along the first polar lines lying on the side of the magnetic device facing the photographic drum ** on the common cylindrical surface of the first poles, where the axis of the curvature is overlapping the photographic drum, as a result of which the magnetic device of the first, in the direction of movement transferring the developer, the transfer cylinder and the last cylinder in this case, they are magnetized along three, in this case, mutually staggered in the circumferential direction, by 120 ° pole lines, namely in this case along their first pole lines opposite to the magnetization of their remaining pole lines, and at the last pole , in a direction of a developer transfer movement, 934,;. . * ¦ •. .. The 4th transfer cylinder is thus mounted a knife, losing that the developing material on the rotating surface of the cylinder is distributed in a layer of uniform thickness. In such a developing device a closed carpet of particles of developing material runs, since the knife losing together with the circumferential surface of the last conveying cylinder forms a passage for the particles of developing material passing from the last, back to the first cycle. The core is prevented from slipping into the other; of individual particles into the gap formed between adjacent transfer cylinders. This is because a closed carpet around all 15 transfer cylinders acts as an internal magnetic shunt that shields such magnetic fields that would draw particles of evolving material into the gaps between two adjacent transfer cylinders. ; The developing device according to the invention may have two, three, four or more transfer cylinders. In the event that there are an odd number of transmitting cylinders mounted side by side, it is preferable to use an intermediate transfer cylinder between the first and the following transmission cylinder, the magnetic device of which is magnetized by opposite signs along only two. 30 degree polarity extending in the circumferential direction of the intermediate transfer cylinder. Magnetic devices may consist of permanent magnets. As a rule, however, magnetic devices are supplied electrically. In order not to jeopardize the advantage of the subject matter of the invention, namely the compactness of the structure, by the supply of electric energy, it is advantageous to provide the magnetic devices with a voltage by the pivoting bearing of the transfer cylinders. The compact structure required for table-top copying devices is preferably achieved by combining 40 transfer cylinders. with a voltage source with reversible polarity. As a result, there is no need for a cleaning device, usually switchable after the developing device. The subject matter of the invention is further explained in more detail in the exemplary embodiment in the drawing, in which Fig. 1 shows the cable extractor. of the invention in a side view, whereby the one end closure plate, FIG. 2, is removed, the developing device shown in FIG. 1 in a perspective view, where a single-component developing material is incorporated in the location of the storage box of the single-component developing material. a suitable dispensing container for two-component colored developing material, Fig. 3 - developing device shown in Fig. 2 in side view 55, Fig. 4 - developing device shown in Fig. 2 in a cross section parallel to the front panels 5 - the course of the magnetic field lines between two schematically presented magnetic devices, Fig. 6 - 6 ° course of the ropes and the magnetic field between three magnetic devices lying in a common plane. * In the housing 1 of the developing device, two stationary magnetic devices 2 are mounted, which are in the case in question surrounded by transfer cylinders 128 * 34, 41 and 34, made of aluminum or other non-magnetic material, both cylinders are driven rotary. In the housing 1, in which the developing material portion is made in the form of a bathtub, a spatula 9 is mounted for electrostatic charging or discharging of developing material. The housing 1 is provided with a developing material reservoir box 11. In the developing device shown in FIG. 1, a single-component developing material is used as developing material. The developing material passes through the known device leading from the reservoir box 11 to the tub-shaped part of the housing 1, the rotating blade 9 is electrostatically charged and then tends towards the lower, of the two, transfer cylinder 41. This cylinder, due to its relatively rough outer surface and due to the magnetic action, takes the developing material with it. The two transfer cylinders 41 and 43 in this case rotate clockwise. As a result, the direction of motion of the developer runs from the lower magnetic device to the upper magnetic device. The transfer of the developing material will further be explained in greater detail by the magnetic field lines shown in FIG. 5. r Each of the two magnetic devices 2 has three poles which extend along the polar lines. In this case, there are three poles or polar lines which, when viewed in the circumferential direction of the magnetic device 2, are mutually displaced by 120 ° and run parallel to an axis not shown graphically. The lower magnetic device has four north poles running along the 34 and 35 poles and one south pole along the 36 polar line. The upper magnetic device, on the other hand, has one north pole along the 39 polar line and two south poles. running along the polar lines of the new 37 and 38. The south pole of the lower magnetic device 2 and the north pole of the upper magnetic device 2 are directed towards the axis of the photographic drum, not shown. As can be seen in Fig. 1, particles of developing material are carried away with the lower transfer cylinder from the tub-shaped parts of the housing 1 and conveyed towards the south pole of the associated magnetic device 2. At this south pole, particles of the developing material are arranged and formed, by alignment, of brush hairs with a length of several millimeters. A photo drum that moves directly next to the brushes passes over these hairs and takes the developing material with it. After crossing the south pole, the hair of the brush is arranged, due to the increasing influence of the adjacent North pole, on the next transfer cylinder 43, as a result of which a part of the developing material, not taken by the photographic drum, moves in the shape of a ribbon, The kind of carpet, along the magnetic lines between the south pole of the lower magnetic device-. it and the north pole of the upper magnetic device from the lower transfer cylinder 41 to the upper transfer cylinder 43, and prevents particles of the developing material from entering the gap between the transfer cylinders. Above the north pole 6 of the upper transfer cylinder 43, a magnetic brush is formed again, as with the lower transfer cylinder 41, but the bristles of the brush are directed in a direction other than the south pole of the lower transfer cylinder 41. As a result, new, fresh pigment particles are brought into contact with the photographic drum. By the rotating transfer cylinder 43 the developing material is conveyed towards the losing knife 7, the location and position of which is schematically shown in Fig. 1. The losing knife 7 is made of a non-magnetic material and is mounted in the direction of the developer transfer immediately after the next pole after Transfer cylinder 43, however, forming a gap between this cylinder and the knife. As a result, some of the developer molecules which are again aligning themselves with the South Pole are lost. The remaining part of the particles runs through the cavity of the cylinder 43. The losing knife 7 is mounted on a low-magnetic shield plate which is bent several times in a manner. shown in the figure, which serves as an external shunt to close the magnetic lines coming from the poles of the magnetic devices of the magnetic devices. 2. The striker knife-7 smoothes more evenly up to a predetermined layer thickness, the evoking material, which is unevenly distributed on the upper cylinder transferring f 43, corresponding to the gap formed between the transfer cylinder 43 and the free end of the knife, whereby a uniform layer of developing material behind the loss knife 7 is formed on the surface of the upper transfer cylinder 43. Excessive amount of developing material passes through part slide 47 knife 7 into the tub-shaped part of the casing 1. The developing material remaining behind the losing knife 7 on the transfer cylinder 43, which is arranged under the action of adjacent on both sides of the inter-cylinder gap with opposite signs, along between with the magnetic lines, it passes as a closed dye passing through the gap between the upper and lower transfer cylinders 43 or 41 and thus forms the so-called "inner bypass". The developing material in the form of an enclosed carpet is finally dipped into the tub-shaped portion of the housing 1, from which it is then carried back together with the fresh developing material through the lower conveying cylinder 41 towards the developer, thereby starting the course is described anew. The amount of developing material transferred from the tub-shaped part of the housing 1 is regulated by the dosing knife 6, which, as can be seen in Figs. 1-4, can be adjusted with the adjusting screws 13 to a given gap width ^ between the free end of the dosing knife 6 and the first cylinder Due to the arrangement of the poles of the magnetic devices 2 shown in FIG. 5 and the previously described arrangement of the poles of the magnetic devices 2, an image of the magnetic fields of the magnetic lines enabling the transmission of the developing material from one transfer cylinder 41 to the other cylinder 43 - or from the cylinder 43 - is produced. transfer 43 onto the transfer cylinder. The passage of the particles in the form of a carpet is only possible if a predetermined amount of developing material is available for the formation of a carpet of the type 15 20 25 30 35 40 45 50 55 60. Dosing number 6 ora are used for this purpose? not losing 7. n The carpet produced forms an internal "magnetic shunt", so that there are no magnetic field lines in the gap between the two adjacent transfer cylinders 41 and 43, which would pull the particles of the evolving material into the gap formed between the two Due to this, the usual intermediate rollers blocking the passage in such a gap are not needed, so that in the developing apparatus according to the invention, the transfer cylinders can be mounted very close to each other, which makes it possible to make a non-complex structure In the developing apparatus shown in Fig. 4, instead of a monocomponent developing material, a two-component developing material consisting of a carrier and a pigment has been used. The pigment is contained in the reservoir box 30 and is discharged by means of a supplementary roller 12 to the shape part. bath tubs l and Quantity to of guided pigment, the feed slot 14 can be adjusted, adjustable by means of an adjustable arm 1S - see Fig. 3). The movement of the counter roller is triggered by a ratchet 16 (compare Fig. 2), an actuated electromagnet 17. Both cylinders the transmission 41 and 43 as well as the rotating blade 9 are driven - as also shown in Fig. 2 - by gear wheels 19 and a coupling 18, mounted at one end of the transmission cylinders 41, 43 on the outwardly facing side of the plate closure plate 51. The other end of the two transmission cylinders 41 and 43 is mounted in the closure plate 52 and in this case secured by the clamping disc 22. The exact alignment of the magnetic devices 2 with respect to the photographic drum is carried out by the adjustment arms 24 (cf. Fig. 3). As can be seen in Fig. 3, the transfer cylinders 41 and 43 can be connected by wire 26 and connector 28 to an alternating polarity voltage source not shown. This has the advantage that the developing device can also be used as a cleaning device. The cleaning operation usually takes place after the color image has been transferred from the photographic drum to a recording medium, for example on photographic paper, since after the image transfer process there are still on the photographic drum remains of pigment that qualitatively affect the subsequent copying processes. By reversing the polarity of the transfer cylinders 41 and 43, it is possible to simply pull the pigment off the photo drum coated with the selenium layer without having to initiate mechanical cleaning thereof, which always causes the risk of damaging the expensive layer of the photo drum. <Fig. 6 shows an example of the arrangement of the polar lines in a developing device with three transfer cylinders and magnetic devices 2 mounted therein. The three magnetic devices 2 are thus mounted next to each other with hundred-parallel axes, so that towards the axis - here the photographic drum, not shown here, are the poles of the magnetic devices 2 facing it. The highest and the lowest magnetic devices 2 have in this case the North pole facing the photographic drum and two South poles shifted with respect to the North Pole by 120b, which is shown in Fig: 5 - run along the polar lines 37 and 38. The north poles of both magnetic devices 2 run along the polar lines 39. The central magnetic device, placed between the two with external magnetic devices 2, it has two, mutually shifted 180 ° poles formed along the ropes and poles 40,44 * which are magnetized with opposite signs, the south pole facing the photographic drum. and looking at the whole, you can see that when the three magnetic devices are placed, all the poles are again arranged so that the poles of the adjacent magnetic devices, following each other in the direction of the motion of the developer transfer, have no opposite signs. A developing device of the type described herein may be equipped with any number of magnetic devices, but it is important to observe the specifically described condition of the special alignment of the poles, respectively, of the poles and to be positioned at the 20 transfer cylinder 43, the last in the direction of the movement of the developer, the knife losing 7, causing the alignment of the developing material supplied. The magnetic devices 2 surrounded by the transferring cylinders can be designed with alternating polarity. It is preferable to apply the voltage to the excitation of the magnetic devices1 by rotating the bearing of the transfer cylinders. The shielding plate 45 shown in FIG. 6, made of a weakly magnetic material, is shaped in such a way that a small distance between the shielding plate 45 and the cylinders is possible. transfer cylinders occur especially in the vicinity of the gaps between the transfer cylinders. In this way, the so-called "inner bypass" formed by a carpet surrounding the transfer cylinders and passing by the gap is advantageously influenced when one transfer cylinder passes to the other. In the case where there are only two transfer cylinders, the cover plate is made correspondingly shorter, as shown in Fig. 5. Patent shot 1. Electrostatic charging imaging device with magnetic brushes, photographic drum 45 and several developing material transfer cylinders mounted along the circumferential section of the drum one after the other, with axes parallel to the photographic drum, driven in the same direction of rotation, made of non-magnetic material, on whose cylindrical surfaces the developing material is conveyed, in this case the transfer cylinders are mounted important stationary magnetic devices which run along several ropes and poles parallel to the axis 55 of the surrounding transfer cylinder, mutually constrained in the circumferential direction of the cylinder, and which are permanently magnetized by opposite marks to the tub containing the developing material, into which the first, in the direction of the motion of the developer, cylinder, is immersed transferring, characterized in that the magnetic devices (2), adjacent transfer cylinders (41, 43) are along the first polar lines (36, 29 \ on the side of the magnetic device (2) facing the photographic drum, magnetized with the marks on the contrary, the magnetic devices (2) of the first cy-12 *. 934 of the transfer cylinder (41) and the last transfer cylinder (42) - in the direction of the developer conveying movement - are magnetized along their three mutually peripheral 120 ° staggered pole units (34, 35, 36 or 37). , 38, 39), namely along their first pole line (36, 39), as opposed to the magnetization of their other pole lines, and with the last, in the direction of the developer transfer, the transfer cylinder (43) is - thus the mounted knife (7) loses that the developing material on the rotating cylinder surface is distributed in a layer of uniform thickness. 2. Developing device according to claim 1, in that an intermediate transfer cylinder is mounted between the first transfer cylinder (41) and the last transfer cylinder (43), the magnetic device (2) of which is magnetized with opposing marks along only two, displaced in the circumferential direction of the intermediate transfer cylinder by 180 ° polar lines (40,44). 3. Developing device according to claim A method as claimed in claim 1 or 2, characterized in that the magnetic devices are electrically energized and the voltage is applied by rotating the bearing of the transfer cylinders (41, 43). 4. Developing device according to claim 1, characterized in that the transfer cylinders are connected to a polarity-inverted voltage source. 28l 26 1J 9J 10 Fig. 3 Fig. 4128 934 Fig. 2128 934 120 ° T20 ° 145 KN F * g. 6 PL

Claims (4)

Patent shots 1. A device with magnetic brushes for developing an electrostatic charge image, with a photographic drum and several cylinders carrying the developing material, mounted along a section of the photographic drum circuit, one after the other, with axes parallel to the photographic drum, driven in the same direction of rotation, made of a non-magnetic material, on whose cylindrical surfaces the developing material is conveyed, in this case fixed magnetic devices are mounted in the transfer cylinders which extend along several polar lines parallel to the axis 55 of the surrounding transfer cylinder, mutually constrained in the circumferential direction of the cylinder, and which are permanently magnetized with marks opposite to the basin containing the developing material into which the first, in the direction of the motion of the developer transfer, the carrying cylinder is immersed. characterized by the device magnetic (2), adjacent transfer cylinders (41, 43) are along the first polar lines (36, 29 \ on the side of the magnetic device (2) facing the photographic drum, magnetized with opposite signs, that the device magnetic (2) of the first cy-12 *. 934 of the transfer cylinder (41) and the last transfer cylinder (42) - in the direction of the developer conveying movement - are magnetized along their three mutually peripheral 120 ° staggered pole units (34, 35, 36 or 37). , 38, 39), namely along their first pole line (36, 39), as opposed to the magnetization of their other pole lines, and with the last, in the direction of the developer transfer, the transfer cylinder (43) is - thus the mounted knife (7) loses that the developing material on the rotating surface of the cylinder is distributed in a layer of uniform thickness. 2. Developing device according to claim 1, in that an intermediate transfer cylinder is mounted between the first transfer cylinder (41) and the last transfer cylinder (43), the magnetic device (2) of which is magnetized with opposing marks along only two, displaced in the circumferential direction of the intermediate transfer cylinder by 180 ° polar lines (40,44). 3. Developing device according to claim A method as claimed in claim 1 or 2, characterized in that the magnetic devices are electrically energized and the voltage is applied by rotating the bearing of the transfer cylinders (41, 43). 4. Developing device according to claim 1, characterized in that the transfer cylinders are connected to an inverted polarity voltage source. 28l 26 1J 9J 10 Fig. 3 Fig. 4 128 934 Fig. 2128 934 120 ° T20 ° 145 KN F * g. 6 PL