DE3016243C2 - Two-color electrostatic copier - Google Patents

Description

20th

The invention relates to a two-color electrostatic copier according to the preamble of claim 1.

In such an apparatus, a bipolar electrostatic is formed on a recording medium Image developed sequentially using toner of a first and a second different color to create a two-color toner image which is then transferred to a copy sheet and fixed on it. The difficulty with this is that a small amount of the first toner is released from the dielectric member scraped off and mixed with the second toner during the second development step. Although the amount of the first toner mixed is small, it may increase and color over time as well as degrade the electrostatic charge of the second toner image. The recording medium can be a photoconductive drum or a corresponding belt, whereby the electrostatic image can be passed through a fixed photoconductor is formed, or it may be a non-photoconductive member, in which case the electrostatic image is created by electrostatic induction.

The invention is intended to provide a two-color electrostatic copier create the type mentioned with a device through which a mixing of differently colored toners is prevented and in which a better color purity is in contrast is achieved via conventional hats. According to the invention, this is the case with a two-color electrostatic copier of the type mentioned by the features in the characterizing part of claim 1 achieved. Advantageous further developments of the invention are given in the Unteraruprüchen.

There are by means of a first and a second developing device toners of a first or, respectively second color is applied to a photoconductive drum that forms a bipolar, electrostatic image to create a two-color toner image on it. A small amount of the first toner is added to the second development step scraped off the drum and is with the second toner in the second Mixed development facility. The added M first toner is then by means of the second toner a separator in the form of a roll, a tape or an electrode covered with a mesh separated and removed, the separator being charged with a polarity opposite to that of the first toner and then electrostatically attracts it while repelling the second toner.

In the following, the invention on the basis of preferred embodiments with reference to the attached drawings explained in detail. It shows

Fig. 1 is part of a schematic view of a first embodiment of an electrostatic copier according to the invention;

Fig. 2 is a schematic view of a conventional one electrostatic copier;

3 shows a part of a schematic view in which is shown how the copier of FIG. 2 is improved;

4 and 5 modifications of the improved embodiment of FIG. 3;

Fig. 6 is a schematic view of another conventional electrostatic copying machine;

F i g. 7 is a schematic view ^! r. which shows how the invention improves upon the copier of Fig. 8;

8a to 8d are schematic representations of an electrostatic copying process;

9 shows a graph of the method of Figures 8a to 8d;

Fig. 10 is a schematic diagram of a conventional one Facility for the practical implementation of the in the F i g. 8a to 3d illustrated method;

F i g. 11 is a part of a schematic view in FIG which is shown how with the invention the device of FIG. 10 is improved;

12 to 16 are partial views of modifications of the Device of FIG. 11;

Fig. 17 is a schematic view of another conventional copying machine;

Fig. 18 is a partial view showing how the invention improves the device of Figure 17;

Fig. 19 is a schematic view of another electrostatic copier according to the invention;

FIG. 20 is an enlarged view of a portion of the copier of FIG. 19;

Fig. 21 is a schematic view of yet another copier according to the invention;

22 is a schematic view of a further embodiment; and

F i g. 23 and 24 are partial views of modifications of the invention.

A preferred embodiment of the invention will now be described with reference to the drawings. In Fig. 1 shows only the second developing device of a developing system according to the invention. The second developing device comprises a container 31, in the bottom part of which is provided a pair of rotating shafts which rotate upward in the area where they are adjacent to each other. A rotatable (developer upward peeling) take-up roller 34 is disposed above the shafts 32 and 33, and a rotatable unwinding roller 36 is disposed above the take-up roller. Each of the two rollers 34 and 36 has a non-magnetic sleeve and fixed magnets housed in the sleeve. A developer 37 in the container 31 is composed of magnetic carrier and resin toner particles. The shafts 32 and 33 move the developer 37 and circulate it, thereby causing the carrier and toner particles

are charged with opposite polarities and the relatively small toner particles adhere to the relatively large carrier particles. The developer 37 then adheres to the surface of the roller 34 due to the magnets. The rotating roller 34 conveys the developer 37 upward until it adheres to the surface of the adjacent developing roller 36 due to the magnetic attraction exerted by the magnets in the roller 36. While the developer 37 is conveyed upward by the roller 36, the thickness of the developer layer is regulated by a doctor blade 38 which protrudes from a cover part 39 in ile holder. The part of the developer 37 which is stripped off by means of the belt 38 flows over the guide plate 41 onto the testicles of the container 31. contacts the surface of a non-sensitive or photo-sensitive drum 42 at a location where roller 36 and drum 42 are adjacent, thereby developing a bipolar electrostatic latent film on drum 42. After ^\: .n \\\ ent falls, the developer 37 due to its weight from the developer roller 36 and is collected on the testicles of the container 31st Since no magnetic poles are arranged in the part of the roller 36 on which the developer 37 falls, the developer 37 released from the magnetic force falls from this part due to its weight. Line 43 assigned to a toner container 44 is used to supply the container 31 with fresh / usable toner 46 / u. whereby the consumption of toner particles during development is balanced out

The photosensitive drum 42 already carries a toner image 47 which is formed by a first development unit. before it reaches the developing device, and consequently the developer 37 on the roller 36 rubs against the toner image 47. Although the toner image 47 on the drum 42 is electrostatically attracted according to the charge of the latent image on the drum. takes the Maftk ^r of the container aft in the radial side wall 31 provided guides 52 and 53 are detachably mounted. When the toner collected in the container 51 reaches a certain amount, the container 51 can be released from the guides 52

ί and 53 can be removed to restore the toner to be supplied to the first developing device.

The development system thus separates and absorbs admixed or foreign ones Toner particles by means of a roller c. those on one

ίο place is arranged at which developer on it falls down, and is secured by a container detachably attached to a developing unit. to collect the foreign toner particles / u. The invention is self-evident not only in the case of the presented item th developing system with a magnetic brush but also applicable to a cascade development system. It can also be a one-component developer used instead of a developer like him in connection with the illustrated embodiment

> ii is described.

In (Fig. 2 is an example of a two-color electropholocopier shown in which the inventive System is applicable. In order to have a multi-layer photosensitive drum 61 for a two-color

r. Developments are one after the other a primary loading facility 62. a secondary charger 63, emc Delictitungs'tation 64. a first developing device 6h, a / second developing device 67. a charger f> 8. a transfer charger 69. a

in charging device 71 for a charging / circuit. one Cleaning brush 72 and an erase lamp 7) arranged. Furthermore, a I mereinriehtung 74 is provided. the two development facilities 66 and 67 have in general the well-known magnetic brush on and in

! '■ They are used by developers, each one Comprise toner and a carrier. For the sake of simplicity, the toner should be in the first developing device 66 be rol and the toner in the / «rush developing device 67. that relating to the red

loaded in toner opposite / t. should be black /.

The in Fig. 2 illustrated copier work mi. that with the first developing device 66 a

r \! LMlUM £ HCI ItUtIIIItCI \ <Mi lit 1 1 1 HrniiMVii / \ .i in. 111 outermost part continuously from. As a result, the developer 37 on the roller 36 scrapes off the toner particles in the outermost part of the toner image 47 due to the mechanical frictional force when sliding over it. whereby the scraped-off toner particles to the developer are added 37 The admixture is separated from the developer 37 Mitteis a Trcnn ^r ollc 48 which is rotatably supported in a side "and of the container 31 at one point. at which the developer 37 drips or falls on the roller 36. The roller 48 has a known conductive metal part. the outer surface of which is covered with an insulating layer. which is charged with one polarity. which is opposite to the polarity of the foreign toner particles. when they come into contact with the carrier of the developer 37 by friction. The role 48, however, can only consist of a leading metautei! exist, which is connected to an external direct current source through which a potential opposite to the polarity of the admixture is applied. The foreign toner articles applied in this way to the roller 48 are scraped off from it by means of a 3chabteils 49, which is arranged under the roller 48. and are then collected in a container 51 attached to the side wall of the container 31. The container 51 is developed by means of an image corresponding to a red image on an original, while in a similar manner with the developing device 67 a black image is developed. Li rent image is developed When the / other developing device 67 develops a designated latent image by means of the black toner ·. which is charged opposite / t / u to the red toner. The red toner image on the drum 71, which has been developed by means of the first developing device 66, is transferred. contacts the magnetic brush of the second developing device 67 and is thereby partially scraped off. This scraped red toner falls into the second developing device 67 and is mixed with the black toner. The black toner can also be introduced into the first developing device 66, where it then mixes with the red toner. In the invention, a foreign toner of a certain color is separated and removed, which wants to mix with a toner of a different color or has mixed.

A preferred embodiment of the invention will now be described with reference to the second developing device 67, for example. As in Fig. 3 is shown. the developing device 67 has a rotatable sleeve 76. indicated by an arrow

is, and in which at fixed predetermined locations a plurality of magnets 77 are accommodated, a plate 78 for scraping off the black toner and a carrier formed developer from the surface of the sleeve 76 after development, a stirring member 79. a separating roller 81, a further scraping plate 82 which is held in contact with the separating roller 81, a Developing container 83 and a toner collecting container 84 euf.

The separating roller 81 has a conductive metal roller 86 which is covered on the outside with an insulating layer 87. the Separation roller 81 becomes like this. as indicated by an arrow, rotated with its insulating layer 82 disposed close to the sleeve 76. Layer 87 consists of one Insulation material, which, if it is in Reilningskonlakl comes with carrier particles, is charged with a polarity opposite to that of the foreign toner particles is. which in the illustrated case is the red toner. When the red toner is negatively charged. can the Insulating material 87 made of polytetrafluoroethylene. Polyethylene and similar known substances are selected which are positively charged in the above-mentioned case. The friction between the The scraping portion 82 and the insulating layer 87 can also be used to seal the layer 87 with one polarity which is opposite to that of the red toner.

When the part of the drum 61 which carries the red toner image created by the first developing device 66 reaches the second developing device 67, the magnetic brush on the sleeve 76, which consists of a developer 88, rubs the red toner image and partially removes it the drum 61 scraped off. At this time, the latent image on the drum 61, which corresponds to a black image on the original, is already developed by the black toner contained in the developer 88. The scraped off particles of the red toner are conveyed into the container 83 by means of the rotating sleeve 76, but pulls the separating roller 81, which is charged opposite to the red toner particles by the friction with the carrier particles. the red toner particles in one place. those of the "r-onr» »-« - xllrf »fli

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which have been transferred in this way to the separating roller 81 are removed from it by means of the scraper

82 scraped off and collected in the collecting container 84. Meanwhile, the black toner particles are on the sleeve 76 after development has been carried out by means of the scraper section 78 into the container

83 have been returned without sticking to the separation roller 81 because of the polarity of these particles is the same as that of the separation roller 81. Thus, part of the red toner is that from the first developing device 66 has been fed to the drum 61 and which has been fed by the second developing device 67 has been scraped off. separated from the black toner by the separation roller 81 before it is put into the container 83 the second developing device 67 arrives. This prevents foreign red toner from getting with it mixed with developer 88 containing black toner.

In the embodiment shown in Figure 3 the charge on the separation roller 81 by the friction between the insulating layer 87 of the roller 81 and the Carrier particles carrying the black toner particles are obtained. This is not possible if not the Developer 88 in the second developing device 67 consists of toner and carrier particles.

There are two different compositions available to developers, one of which Has toner and carrier particles, as stated above, and the other only magnetic toner particles contains. In a developing device in which the one-component developer is used, must the separation roller 81 due to the absence of carrier particles due to the friction between the scraper part 82 and the layer 87 or directly themselves are positively charged.

In an arrangement shown in FIG a separation roller on a pre-tensioned roller made of a conductive material. those with a DC power source 92 is connected. by which the roller 91 with a polarity by which Frenidtoner. in this case the red toner, is attracted and provided with a sufficiently high voltage. With this arrangement with the positively charged separation roller 91, the separation and removal of foreign toner particles is further improved and furthermore it can be operated with either one or two component developer.

The two embodiments described above have a separating roller and close to each other a sleeve, and foreign toner particles removed by the separation roller are removed from the surface of the Transfer sleeve. Another in Fig. The arrangement shown in FIG. 5 has a scraping plate 93. the so is arranged. that with it all toner particles are removed from the sleeve 76. Flow in this arrangement the removed toner particles down over the scraping plate 93 and into the vicinity of the separating roller 91, so that thereby separating and removing is further improved.

Each of the foregoing embodiments is shown and described so that the particles of a Foreign toner must be separated before dealing with the toner used in this developing device Mix. Based on FIG. 6 and 7, a system will now be described in which toner particles are separated who have mixed with the »responsible« (occupant) developer.

In Fig. 6, first and second developing devices are

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Device% in this embodiment is a two-component developer from a black Toner and carrier particles housed, while in the first device 94 a two-component developer made of red toner and carrier particles or a one-component developer with red toner is. The second developing device 96 has a separating / removing device 97 for removal a foreign toner. As best seen in FIG. the device 97 has a conductive screen or mesh 98, an insulating support 99 and a conductive electrode 101.

The sieve or mesh screen 98 has openings 102. by which toner particles 103 but none Carrier particles 104 pass through. The diameter of the openings 102 is in the range from 30 μm to 50 μm. as in electrophotography in general used two-component developer carrier particles with a size of 60 to 300 μm and Have toner particles from 3 to 20 μm. However, the opening diameter may vary according to the one used Developer type can be selected.

An energy source 106 creates a voltage difference between the grid 98 and the electrode 101 generated. One between grid 98 and the electrode

The electric field applied to 101 can be of the order of 100 to 10,000 V / cm.

In Fig. 6, a drum 107, the direction of rotation of which is indicated by an arrow, carries a latent image which corresponds to a red image of the original which has in turn been developed by the red toner 103 supplied from the first developing device 94. Thereafter, a latent image on the drum 107, which corresponds to a black image of the original, is developed by the second developing device 97, which has a magnetic brush made of black toner 108 and carrier particles 104 . The red toner image on the drum 107 is partially scraped off by the wide device 96 and falls onto a sleeve 109. The black toner 7 "/" and the toner particles C ', which are connected to one another during development, and now particles of the red toner Th are removed from the sleeve 109 by means of the scraping part 110 and fall onto the stirring part 111. The part III moves the developer and conveys it in the direction indicated by an arrow 112, whereby the developer is brought onto the surface of the sleeve 109 again The separating device 97 is arranged in the path of the developer from the part 111 to the part 109 , so that the admixed red developer is removed from the "responsible" developer.

In FIG. 7, the potential difference between the grid 98 and the electrode 101 has the consequence that the red toner 103, which reaches the grid 98, falls through the openings 102 onto the electrode 101 and thus from the black toner 108 and the carrier 104 is separated. Although the diameter of the black toner 108 is smaller than the openings 102 , the black toner 108 is moved along the grid 98 without falling through the openings 102 , since it is electrostatically attracted to the carrier particles 104 , the diameter of which is larger than that of the openings 102 . It may occur that the electrode 101 ceases to attract the red toner particles, which are admixed with the developer which is carried on the grid 98 in a relatively dense state. In order to solve this problem, a corresponding device which causes the grating 98 to vibrate can be used. In addition, an electric !! Field can be applied to the sleeve 109 and the grid 98 to promote the attraction of the red toner particles in the vicinity of the grid 98 . This makes it easier to remove the foreign toner. For example, in a magnetic brush development process, a magnetic field can be applied to a development roller (represented by sleeve 109 ) and grid 98 using a bias voltage normally applied to development roller 109 to adhere of toner particles on this surface area of the photosensitive drum 107 when latent images are absent.

Various experiments were also carried out as described below. The tests used a photosensitive drum 107 which, when imagewise exposed to an original containing red, black and white areas, had a potential of -600 V in a red image area and a potential of 800 V in a black area Image area and a potential of 0 V in a white image area. A developer in the first developing device 94 consisted of a (positively charged, red toner with an average particle size of 10 μm and an average charge density of 12nC / g and a carrier with an average particle size of 100 μm. A developer in the second developing device 96 consisted of a (negatively charged) black toner with an average particle size of 12 µm and an average charge density of -15 (iC / g and a carrier with an average particle size of 120 µm. A copy cycle with charge and exposure, a first and a The total amount of developer in each of the two devices 94 and 96 was 1 kg, while the toner density was 2.5 wt% in the first device 94 and 3 wt% in the second device 96. First, the copying cycle was repeated without installing the separator 97 r. After about 2000 copies were made, it was found that red toner particles were adhered to a swollen area of the copy. A fair amount of mixing of the red toner particles was found in the black area when the number of copies reached about 5,000. Then, as shown in FIG. 6, the separator is installed in the second developing device%, and the copying cycle was repeated under the same conditions. The grid 96 was grounded while a voltage of -800 V was applied to the electrode 101. The grid 98 and the electrode 101 were arranged at a distance of 5 mm. The grid 98 was made of copper and the openings 102 had a diameter of 45 μm. The electrode 101 was made of aluminum while the insulating support 99 was made of Bakelite. The electrode 101 was detachably attached to the second developing device 96. When the separator 97 was attached. In the repeated copying cycles, no red toner particles adhered to black areas of copies even when a total of 5,000 copies were made. The total amount of the red toner particles collected on the electrode 101 was 10 g.

The development system according to the invention thus creates sharp copies while preventing. that

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should contain other "competent" toner. If the foreign toner mixed with the "relevant" toner is not separated, the density of the red toner in the second device increases continuously, thereby changing the charge of the black toner and thereby the center of the black toner created images get worse. This can be avoided with the system according to the invention.

Although a separating device is shown only in the second developing device 67 or 96 and is described in this connection, it can also be provided in the first developing device 66 and 94 .

A two-color copying method has already been proposed in which latent images corresponding to light images of an A color and a B color on the white background of an original are formed on a latent image bearing member on the basis of a distribution of positive and negative surface potentials are. The different latent images on the common image carrier were developed one after the other by differently colored and oppositely charged first and second toners. If the image carrier is in the form of a

Photo conductive or photosensitive element, latent images are formed on it by a very specific connection or combination of charging and exposure steps is used. In the case of a dielectric image carrier, latent images are obtained by selectively loading multiple recorders (styluses) and the like.

An example of a two-color copying process with a photo-conductive or photosensitive element is shown in FIG. 8a to 8d. Although in principle any desired combination of colors A and δ is available in such a method, in the following description the color A shall be black and the color ß red. Of course, the color Λ can also be red and the color R black. It is not essential that the colors \ and \ beta of toners used for development are the same as the colors A and B of two-color images on an original. In the present case, however, the color A should be the same as the color \ and the color ß the same as the color β , so that the color τ is black and the color β is red. Under this presidency, the it. F i g. 8a to 8d illustrated method described. A photosensitive element 121 has a conductive carrier 122 on which first and second photoconductive layers 123 and 124 are applied one above the other. The layer 123 consists of a photo-conductive material which is insensitive to red light, and the layer 124 consists of a photo-conductive material which is sensitive to red light. When the photosensitive clip 121 in FIG. 8a is illuminated with red light in order to make only the layer 124 conductive, a primary charge of a certain polarity, which is positive in the illustrated case, is applied to the photosensitive element 121 with a charging device 126. As a result, a positive charge is uniformly distributed at the interface between the photo-conductive layers 123 and 124. Then, in FIG. 8b, a second charger 127 is switched on in order to apply a secondary charge with a polarity which is opposite to that of the primary charge to the photosensitive element 121. The amount of negative charge created by the secondary charge is so limited that it is somewhat smaller than the amount of positive charge created by the primary charge. Also, the polarity of the surface potential on the photosensitive member 121 is predetermined so that it is reversed from positive to negative by the secondary charge.

After the photosensitive element 121 in Fig. 8c exposed imagewise with a two-color original is, so that parts of the photosensitive element 121, the white background and a red image are illuminated with white or red light, while one corresponds to the black image Part is not yet exposed. Layers 123 and 124 become conductive in the corresponding areas of the white background, reducing the charge in these Areas is dispersed to make the surface potential essentially zero. In part of the photosensitive member 121 corresponding to the red image becomes only the second photosensitive Layer 124 is conductive, and as a result, the negative charge on the surface of element 121 lifts part of it the charge. located between layers 123 and 124 distributed. whereby the surface potential is a positive polarity is maintained, the surface potential is maintained in a part corresponding to the black image area of the element 121 maintains the negative state created by the primary charge.

As a result, positive and negative surface potential distributions are formed on element 121 electrostatic latent images that correspond to the red and black images on the original. In Figure 9 is the surface potential of element 121 after performing the above steps shown. The latent image corresponding to the black image is positively charged by means of a black toner, while the image area corresponding to the red image is developed by means of a negative charged red toner is developed as shown in FIG. 8d is shown. After that, the two-color tone images on element 121 (as in the case of a plioto-sensitive element in the form of a leaf) fixed or transferred to a copy sheet and fixed on this.

In Fig. 10 is a part of a device schematically for the implementation of a two-color knurlvnrgnnp «; shown. For the sake of simplicity, similar parts and elements are given the same reference numerals as in FIG F i g. 8a to 8d. The photosensitive member 121 in the form of a drum is in the by is rotated direction indicated by an arrow and on it by means of the charger 126 is first a Primary charge applied. A red light emitting lamp is turned on to indicate the drum 121 with Illuminate red light. Then, secondary charge is applied to the drum 121 by means of the charger 127 applied and then exposed by means of an optical system 129, thereby creating latent images representing the red and black image areas are electrostatically formed on the drum 121. That the latent image corresponding to the black image area is formed in a developing device 131 with a developer containing black toner, whereupon the corresponding red image area latent image in a second developing device 132 by a developer containing red toner is being developed. The two photon images of different colors have a positive and a negative charge, respectively.

A third charge 133 is applied to make the polarities positive, for example do. Thereafter, the images on the door 121 are electrostatic by means of a transfer charger 136 transferred to a recording sheet 134 and then on this by means of a (not shown) Fixing device fixed. After the image transfer, the charge on the surface of the drum 121 passes through a charger 137 is removed or neutralized and the surface is by means of a Cleaning device 138 cleaned. This completes the copying process.

In Fig. 11, a developer is in a container 139 of the developing device 132 magnetically on the periphery of a roller or sleeve 141 with a magnetic one Brush held and is thereby conveyed in the direction indicated by an arrow. Not that Used part of the developer is removed from the sleeve 141 by means of a partition plate 142, which is a may have known design. A stirring device 143 is also provided. The developer who has been removed from the sleeve 141 by means of the separator 142, flows over the separator 142 downwards until it falls from the lower end of the separator 142 to the bottom of the container 139. Part of the developer that falls on flowing this path contains particles of black

Toner which has been applied to the drum 121 in the first device 131,

A separating device is arranged in the path of the developer, in particular at a level of the path below the lower end of the separator 142. In the in s F i g. In the embodiment shown in FIG. 11, the main parts of the separating device are a pair of pulleys 144, an endless belt 146 guided around the pulleys 144 and a cutter or doctor blade 147. Although not shown, one of the pulleys 144 is driven by a drive mechanism associated with the separating device, whereby the belt 146 is driven in the direction of the arrow. A portion of the belt 146 is disposed in and forms part of the developer collection path. Although not shown, a potential with a polarity opposite to the charge of the black toner is applied to the belt made of a conductive rubber from a power source which is part of the separating means negative potential applied The potential applied to the tape 146 has an absolute value of about 50 to 1000 V, preferably about 200 to 800 V. The conductive rubber of which the tape 146 is made has a thickness of 0.5 to 2 mm specific resistance of about WCl cm to 10 & Ω cm. The developer flowing down the collecting path comes into contact with the belt 146 and only the positively charged black toner adheres to the belt 146 and is carried away. Thus, the band 146 serves to capture the black toner. The particles of the red toner which have been positively charged as a result of improper charging are also picked up or captured by the belt 146.

The driven belt 146 conveys the separated toner particles until the doctor blade 147 with its cutting edge abuts the belt 146 and scrapes the particles from the belt. The developing device 132 has in a part on a collecting device 148. The toner particles removed by the doctor blade 147 fall into the Catcher 146 and are by a spiral screw conveyor 139. which one Forms part of the separating device, conveyed further in a direction perpendicular to the plane of the drawing. Finally, the toner particles are not shown in a 4i th collection container collected. Since the black foreign toner particles can be separated from the "responsible" developer, the developer in the container contains 139 collected developer no black toner particles or negligible, if any bare amount of black toner. As a result, the introduction of black toner into the developer, which has hitherto been customary, is effectively eliminated and Fixed.

The band 146 can be replaced by another separating or π- catching part, which in FIG. 12 has the form of a roller 151. This roller 151 is conductive and provided with a potential whose polarity is opposite to that of the charge on the black toner. A doctor blade or cutter 152 and a collecting container 153 are also provided; these parts are used to remove and catch black toner. The roller can be made of a metal or the aforementioned conductive rubber, and substantially the same potential as that applied to the belt 146 can be applied to it. The roller 151 may, however, comprise a metal roller which is externally covered with a conductive rubber, in which case the Metal roll has a potential on the order of 100 up to 700 V is applied.

The distance between the partition plate 142 and the roller 151 is chosen so that it is smaller than the size of the carrier particles contained in the developer] is so that is prevented that the carrier particles the collection or Reach collecting container 153. Although it is not shown, the roller 151 is shown in the direction of the arrow driven a drive mechanism.

In Fig. 13 there is shown a further embodiment of the invention, the main parts of the Separating means are a roller 154 provided with a mesh grid and a rotating electrode 156. The roller 154 is a hollow tube, the circumference of which consists of a mesh grid through a not drive mechanism shown, the roller 154 is rotated in the direction of the arrow shown. The material, from which the roller 154 consists can be selected from suitable metals or plastics and the The mesh size is determined to be smaller than the carrier particle size of the developer. Consequently can only foreign toner particles contained in the developer hitting the roller 154 enter the inside of the roller. The rotating one serves as a catching part Electrode 156, the axis of which is arranged parallel to roller 154 and which is inside roller 154 is housed. A potential is applied to the electrode 156, the polarity of which is that of the black toner is opposite to which is to be separated with this facility. The applied to electrode 156 Potential can have an absolute value which is equal to the potential which, as already described, is applied to the tape 146 or the roller 151 is applied. In this embodiment, the electrode 146 is in the form of a Screw conveyor, as shown in Fig. 12 and operates to stop while separating toner particles and only from time to time is rotated to reverse the black toner that has accumulated inside the roller 154 To convey the plane of the drawing perpendicular direction.

In further embodiments shown in FIGS. 15 and 16, the rotating electrode has to Trapping toner particles inside the roller 154 takes the form of a roller 157. Further, a doctor blade or Blade 158, a wire-shaped blade 159 and a collecting container 161 are provided. Immediately below the Roller 157, the collecting container 161 is arranged, which only the toner particles captured by the roller 157 records. The separating device in this embodiment can additionally have a guide 162 for the Have developer and a cleaning blade 163 for the mesh roller 154, as in FIG. 15 is shown. Of course, a potential is applied to the roller 157, the potential of which corresponds to the charge is opposite to the black toner and it is driven at a constant speed in the direction of the arrow.

The next embodiment relates to a two-color developing system in which of a first and a second developing device, two latent ones formed in succession on an image carrier Images with opposite polarities can be developed by using two different types of Developing fluids are supplied that are differently colored and oppositely charged Toner included.

The colors will also mix up when using liquid developer. Usual-

For example, a bias voltage is applied to a developing electrode of a liquid development system, the polarity of which is opposite to the charge polarity of a toner of a latent image corresponding to a black light image. The potential difference between the latent image potential and the bias potential forms an electric field which is directed from the image carrier to the development electrode. When a negatively charged red toner moves in such an electric field a part of the red toner, which adheres to an area where the latent image potential is comparatively low, is removed from the latent image by the electric field and incorporated into the second developing solution

In this embodiment, the red toner that has mixed with the second liquid developer is separated from this liquid developer before the liquid developer is collected in a container. At the developing electrode of the second developing device is applied with a bias voltage whose Polarity corresponds to the charge polarity of a black toner, so that the black toner is secure to one latent image is pushed towards it. Meanwhile, part of a red toner that is slightly different from the latent image can be separated, securely attracted to the developing electrode and adhered to a separating roller, which is arranged in the vicinity of the developing electrode and to which a bias voltage is applied which corresponds in polarity to the bias voltage applied to the developing electrode but is higher than this which then removes the red toner that is mixed with the black toner with the separation roller.

The embodiment will now be described with reference to Fig. 17, which shows an example of a two-color electrophotographic system. A photosensitive drum 171 is rotatable counterclockwise at a constant speed and has a conductive support 172, a first photoconductive layer 173 which is insensitive to red light and is formed on the support 172, and a second photoconductive layer 174 which is opposite is sensitive to red light and is formed on the layer 173. Around the drum 171 are arranged from the upper left part in the rotating direction: a first charger 176, a second charger 177, a first developing device 178, a second developing device 179, a charging device 181 for setting, a charging device 182 for image transferring, a Cleaning device 183 and a charging device 184 for dispersing images. The first and second developing devices 178 and 179 are liquid-dry developing devices and include take-up rollers 186 and 187, developing rollers 188 and 189, and nip rollers 191 and 192. In the first developing device 178, a first developing liquid 193 with a red toner finely distributed therein is provided, while in the second developing device 179 there is provided a second developing liquid 194 with an extremely finely divided black toner. The red toner in developer 193 has a negative charge and the black toner in developer 194 has a positive charge. A positive bias source 196 is mil; the developing roller 188 and a negative bias source 197 is connected to the developing roller 189.

The surface of the drum 171 is first positively charged by the first charger 176 by illuminating it with red light emitted from a lamp 198. The positive charge goes through the;

ίο photoconductive layer 174 through which through the Illumination is made conductive until it reaches the interface between the photoconductive layers 173 and 174 is captured. Thereafter, a negative charge is applied by means of the second charging device 177 applied to the drum surface causing negative charge on the surface of the drum 171 and on positive charge is distributed across the interface. The: surface of the drum 171 is then pictorial (199) exposed with a template which black and red:

Images on a white background has white light shining on the corresponding part of the drum 171 essentially dissipates all of the charge, so that the surface potential is in this area of the Drum 171 drops to essentially zero. By the Red light impinging on the drum 171 is shown in the second photoconductive layer 174, sensitive to red light, which distributes negative charge, whereby the surface potential is reversed into positive by the internal: positive charge. in the essentially no light reaches the drum 171 in the black area, so that in this area the Surface potential of the drum 171 negative due to the negative charge on the drum surface is. Through such distributions of positive and

J5 become negative charges on drum 171 created bipolar latent images. The latent image corresponding to the red area is first generated using the negatively charged red toner supplied from the first developing device 178, whereupon the latent image corresponding to the black surface area is developed by means of the positive charged black toner supplied from the second developing device 179 is developed has been. These differently colored pictures on the drum 171 are then attached to the charger 181 moved past to make their polarities uniform in the negative. Thereafter, a transfer or copy sheet 201 is pressed against the toner images and the transfer charger 182 is turned on.

whereby a positive charge is applied and the two-color images are transferred to the sheet 201, The B.att 201 is then separated from the drum surface, dried and discharged from the copier. By means of the cleaning device 183 then the remaining toner particles are removed while the on the drum 171 by the charger 184 remaining charge is dispersed or distributed.

The second developing device will now be described with reference to FIG. In a container ter 202 is a certain amount of a liquid developer Lers 194, which contains black toner 203. The pick roller 184 in the container 202 is like this housed so that essentially its lower half is immersed in the developer 104 and opposite

M can be rotated clockwise. A conductive development roller 189 is rotatable clockwise and lies with it its upper part on the lower part of the drum 171 near the take-up roller 187. The positive preload

Power source 197 is with development roll 189 connected, whereby a voltage of about 150 to 200 V is applied. As usual, the polarity of the Bias source 197 can be negative, thereby reducing the charge polarity of the positive black toner is opposite. A conductive separation roller 204 is rotated clockwise and is on the right of the developing roller 189 located close thereto. The roller 204 is connected to a positive bias source 206 which provides a bias voltage which two to four times the bias applied by voltage source 197 isL on the right the separating roller 204 rests against a cutter or doctor blade 207 which is arranged so that it faces the direction of rotation of the roller 207 is opposite the side wall of the container 202, the one on the right and below the Blade 204 is arranged has a recess, whereby a toner collecting container 208 is formed although this container 208 can also be a stand-alone separate container. With the squeeze roller 192 becomes excess on the drum surface Adhering developer is removed and by means of a cutting edge 209 is the on the drum surface removes any adhering toner from it

By the first developing device 178 is: on the surface of the drum 171 negatively charged, red toner 211 applied, which adheres to a positively charged latent image When the drum 171 with the red toner 211 reaches the development station of the second development device, the developer 194 comes into contact with the roller 187 has been fed to the roller 189, the drum surface and the black toner 203 adhered to it negatively charged latent image, thereby developing it. At this point in time, particles become of the negative red toner 211, which is part of the latent image adhere at a relatively low potential, through which the developing roller 189 applied positive bias is removed and then mixed with the developer with which the development is carried out. This add part red toner 211 is then drawn to the separation roller 204, to which a positive voltage is applied, which is higher than the tension on the developing roller 189. The roller 204 takes the red toner 211 with it until it is scraped off by means of the cutting edge 204 and enters the container 208. Meanwhile the positive one black toner 203 in the developer 194 by the potential gradient between the positively charged Rollers 189 and 204 are urged towards developing roller 189 and thereby into developer 194 in the Container 202 returned without sticking to roller 189.

In the illustrated embodiment, a development process is used with a role that Development roller 189 has a dual function as a development electrode. However, the invention is also applicable to a so-called immersion method or a method using nozzles, in which a developing tank containing a developing liquid is used, which then acts as a developing electrode. In this case the separation roller 204 is on a place where the developer is to be collected from the developing container. The separation role may be in the form of a ribbon, and the colors of the toners are not limited to red and black.

In the system, the first toner mixed with the second liquid developer contained in the «Is housed in a wide development facility, be separated before the second developer in one Container is collected. Consequently, there is a deterioration in the system according to the refinement Goodness of the reproduced images avoided blurring and deterioration of the second Rüssentwickler would be due.

In Fig. 19, a photosensitive drum 221 has a conductive layer a first photosensitive

ίο layer and a second photosensitive layer on, which are arranged concentrically. A primary charger 222 is arranged around the drum 221 a secondary charger 223, an exposure station 224, a development system 226 according to FIG

i "invention, a charging device 227, a transfer charging device 228, a charging device 229 distributing the load, a cleaning device 231 and a Erase lamp 23Z The drum is charged by the primary and secondary chargers 222 and 223 one after the other is charged with positive and negative polarities and is then imagewise in exposure station 234 exposed creating electrostatic latent images on it. In the development system 226 on the latent images of red and black toner is then applied by the transfer charger 228, the toner images from the drum 221 on a copy sheet 233 can be transferred. Finally, the toner images are on the copy sheet 233 by means of Fixing rollers 234 fixed

The development system 226 has a first container 236 for a developer with a red one Toner and a second container 237 arranged above the first container 236 for a developer a black toner. In each of the containers 236 and 237 a rotatable sleeve 238 is housed, by means of which the corresponding toner is fed to the drum 121.

A partition 239 separates the two containers 236 and 238 and has an opening or passage 241 directly above a toner replenishment container 242. In the opening 241 there is a mesh grid 243 arranged, which is made of a conductive material and has a number of openings through which toner particles but no carrier particles passed through hen. The mesh grid 243 is grounded. Under the In a mesh grid 243, an electrode 244 is arranged which, corresponding to the action of a drive device (not shown), rotates around a pivot point 246 is pivotable, uri optionally to open the opening 241 or close. A voltage is applied to the electrode 244, creating an electric field is formed between the electrode 244 and the grounded grid 243. This electric field serves to that toner particles allocated to the first container 236 and are mixed in the second container 237 the electrode 244 adhere. Furthermore, a replenishment toner container 247 is provided for the second container 237, Feed parts 248 and agitators 249 are provided. If the copier is out of order, the Electrode 244 is switched off and, as in Fig. 20 is shown, assumes a position in which it closes the opening 241, when pressing a (not button, a voltage is applied to electrode 244 as it (244) down is pivoted, as shown in Fig. 19, so it releases the opening 241. By a between the Grid 243 and the electrode 244 formed, electric field pulls the electrode 244 only the

Toner particles that belong in the first container 236 and with the toner in the second container 237 are mixed. When the amount of toner particles on the electrode 224 has reached a certain value, the particles fall into the container 242, which is assigned to the first container 236. This prevents that the toner particles from the first container 236 adversely affect the hue of the toner particles in the second container 237.

The development system thus has a container with a first developer, a container with a second developer which is in communication with the first container and is arranged above the latter, a a partition arranged between the two containers and an opening provided between them conductive mesh and an electrode arranged in the opening of the partition wall. The mesh is grounded to create a potential difference between the grid and the electrode, whereby Toner particles that have been passed from the first container into the second container, in an advantageous manner Way back into the first container. The toner particles in the second container can hit them Way to maintain the required shade.

Another second developing device is shown in FIG. 21 shows a developer receiving sleeve 151 is disposed under a developing sleeve 152 and is rotatable clockwise. Magnets 153 and 154 are housed on a fixed shaft 156 inside the sleeve 151. Black developer 157 adheres to the receiving sleeve 151 and is then transferred to the developing sleeve 158. A separator tape 15S comprises a single flat and wide, tensioned photoconductive belt or several conductive, tensioned belts Conventional belts on the J5 or which run as shown in Fig.21. That Belt 159 is over an impeller 161, a roller 162 arranged over the impeller and one over the Roller 162 arranged drive roller out. The drive roller 163 is provided with a bias source 164 the polarity of which is opposite to that of the red toner. The release tape 159 can also be a be a conductive, grid-shaped tape with and without an applied insulating layer. A Impeller 166 is arranged inside the separating belt 189, while a polygonal, eccentric Roll 167 on belt 159 between the two rollers. 162 and 163 is present.

The black toner, together with the red toner particles, which have been removed from the sleeve 152 by means of a scraper plate 168, falls from the lower end of the inclined scraper plate 168 onto the belt 159, which is charged with a polarity that of the red The black toner and carrier particles of the developer fall through the numerous openings in the belt 159. In the meantime, the foreign red toner particles adhere to the belt 159 and are carried on by the latter until the eccentric roller 167 repeatedly shakes the belt or hits the belt so that the red toner falls from the belt into a collecting container 169. A screw conveyor 171 conveys the red toner particles out of the collecting container 169 and out of the system. If the developer that has fallen through the belt 159 still contains red toner particles b5, the impeller 166 rotates the developer and charges it so that the red toner particles can adhere to the belt 159. The belt 159 is constantly shaken under the action of the eccentric roller 167, and this promotes even more effective separation of the red toner from the black developer

Although, in the above description, red toner particles are separated from the black developer there may be black toner particles that are charged with one polarity which is opposite to that of the red toner particles, depending on various Conditions have the same polarity as the red toner particles. The unnecessary black toner becomes then removed along with the foreign red toner. However, the toner colors at soft are the invention applicable is not limited to red or black.

Although the invention has been illustrated in connection with a toner and carrier developer has been described, it is also applicable to a developer composed of only a toner If the one-component developer contains a non-magnetic toner, the magnets ground not needed and the structure of the development role is Modified In addition, the developer supply member can, for example, a developing roller 152 by a Development tape to be replaced. The photoconductive Tromiiiel is designated 172, while one Denoted at 173 toner supply device. Magnets 174 are arranged in sleeve 52.

A two-color electrophotographic copier has a developing system that is not only used for a two-color development but also for a monochromatic development with one of the two Development facilities can be used. For example, only the black toner can be in the second developing means can be used in ordinary black-and-white image reproduction. In practice, the device is often operated in this way. To a mix of different colored toners do not occur in monochromatic or colored reproduction, if only the second developing device is used. In a known device with a separating roller is at a single color copying disconnected a bias voltage source from the separation roller, whereby this becomes ineffective. Although the bias source is turned off, the separation roller itself will rotate held so that black toner particles in the device under the action of van der Waals Forces etc. adhere to the separation roller. Black toner particles attached to the separation roller are then undesirably decreased, with the result that the content of black toner in the developer continuously decreases.

A second developing device therefore has a separating roller, a part for scraping off toner particles, adhering to the separation roller, a container for receiving the removed toner particles and a Means to prevent the separation roller from the second developing toner in a developing process in which only the second developing device is used. The facility that does the Prevent removal of the second toner for example be designed so that the rotational movement of the separating roller is stopped or that a part is shielded over the separating roller, or that the scraping compartment in and out of contact with the separating roller is brought. Either of these means prevents the separation roller from removing the second toner, so that

in this way an unnecessary consumption of the second toner in the second developing device is prevented is.

In Fig. 22 there is schematically shown a device for two-color electrophotography to which the invention is applicable. A photosensitive drum 301 has first and second photoconductive layers superposed on a conductive core. A primary charge is first applied to the drum 301 by means of a primary charging device 302 or it is simultaneously charged by means of the primary charging device 302 and a white lamp 303 with an associated red filter 304 and exposed to red light. A secondary charge is then applied by means of a secondary charging device 306, i ^r> whose polarity is opposite that of the primary charge on the drum three hundred and first An original with red and black images on a white background is then image-wise projected onto the photosensitive drum 301 via an optical system 307, whereby oppositely charged latent images corresponding to the red and black areas are formed on the drum 301. The two latent images on the drum 301 are successively developed by a first developing device 308 with a red developer 309 and by a second developing device 311 with a black developer 312. The red developer 309 is composed of red toner and a magnetic carrier, and the red toner is charged by friction with the carrier with a polarity opposite to that of the latent image. which corresponds to the red picture. Similarly, a black toner and a magnetic carrier constitute the black developer 312, the black toner being charged with r> one polarity by friction with the carrier. that is opposite to that of the latent image corresponding to the black image. A charger 313 makes the polarities of the red and black toner images on the drum 301 uniform with a predetermined polarity, whereupon the toner images are rapidly JlOUUClildgCtl WCIUClI by means of a transfer charger 314 onto a sheet fed from a sheet cassette 317. UIC I UIlCI UlIUCl dUl UCIII sheets of paper 316 are fixed by means of a fixing device 318. Meanwhile, the surface of the drum 301 has a charge which is dispersed by a charger 319. the remaining toner particles are removed by a cleaning device 321 and the remaining charge is removed by means of an erase lamp 322. w

The first and second developing devices 308 and 311 have known magnetic ones Brush on. The first developing device 308 has a stirring shaft 323, a developing sleeve 324 and a scraper 326. while the second developing device 311 has a stirring shaft 327th a Receiving sleeve 328 has a developing sleeve 329 and a scraping portion 331. The developers in the facilities 308 and 311 are moved by the respective shafts 323 and 327 and by friction with the M) the polarities listed above. Each of the developing sleeves 324 and 329 and the receiving sleeve 328 have magnets inside. although this is not shown. The developer in every facility magnetically adheres to the developing sleeve 324 or b5 via the receiving sleeve 328 on the developing sleeve 329, whereby it is conveyed further by its rotary movement will. The latent images on the drum 301 are processed by the developing devices 308 and 311 developed in the places where the development sleeves 324 and 329 are closest to the drum surface pm. With the scraper parts 326 and 331, the Developer on sleeves 324 and 329 removed after development and in parts at the bottom of the collected at both facilities 308 and 311.

Under the scraping part 331 of the second device 311 a separating roller 332 is arranged, which is a conductive member with or without an insulating layer attached thereon having. A container 333 surrounds the separation roller 332 on one side. A scraping part 354 lies in the container 333 on the surface of the separation roller 332. When the surface of the separation roller 332 is isolated. will the Surface with a polarity opposite to that of the charge polarity of the red toner. through the Friction loaded with the carrier particles of the developer 312. When the surface of the separation roller 332 is conductive. a potential of this polarity is created by an external direct current source.

In a two-color operation, some of the red toner flows off through the developer on sleeve 329 the drum 301 has been scraped off. via the scraper 331 together with the "responsible" Developer down. If the developer with the red toner particles with the surface of the rotating Roller 332 comes into contact, the red toner particles adhere to the roller 332 and are removed from it taken away. Thereafter, the scraper 334 removes the red toner particles from the separation roller 332. those in the Tray 333 fall.

In the case of monochromatic operation with the second device only, the corresponding Parts of the first device 308 rendered inoperative, while in the second device the separating roller 332 is not rotated. Hence is. even if there are black toner particles on the separation roller 332 which in this case cannot be rotated. prevents this from being conveyed further through the roller 332 and through the Scraper 334 can be removed. Instead of interrupting the rotation of the separating roller 332, a shielding device can be used 341 displaceable on the underside of the scraping part 331

Ji- η _ii-

shield. In another embodiment can the upper wall of the container 333 must be dimensioned so that it is in a position above the separating roller 332 is movable. In this embodiment it is prevented that the scraper 331 downwards flowing developer contacts the release roll 332, thereby preventing black toner from settling on the Roll 332 drops. In a further embodiment shown in FIG. 24, the scraper 334 be arranged so that it can be brought out of contact with the roller 332, so that when the concerned Operation, the rotation of the roller 332 need not be interrupted. In this case it will black toner, if present on separation roller 332. not scraped off by means of part 334, rather, it is carried along by the developer flowing down over the plate 331.

The rotational movement of the separation roller 332 in the arrangement of FIGS. 22 can in a simple manner by means of an electromagnetic clutch and the like attached to a drive shaft. That Shield part 341 and scraper part 334 in Figs 24 can be easily moved by solenoids or similar devices.

In addition 12 sheets of drawings

Claims (25)

Patent claims: 1. Two-color electrostatic copier, with a moving dielectric or photoconductive recording medium, with a device for forming a bipolar electrostatic image on the recording medium, with a first developing means for applying a first toner having a first polarity is loaded, on the recording medium, and with a second developing device for application a second toner charged with a second polarity, that of the first polarity is opposite, on the record carrier, characterized by one in the second Toner separating means (48) disposed on developing means for separating the second toner from the to separate first toner which has been removed from the recording medium (42) during with the second developing device the second toner was applied and which with the second toner has been mixed in the second developing means, the separating means a separator (48) charged with the second polarity 2. Copier according to claim 1, characterized in that the second developing device has a rotating application part (36; 141) for applying the second toner to the recording medium (42), and that the separating part (48; 146) below the recording medium ( 42) and is arranged after this in the direction of rotation of the application part (36; 141). 3. Copier according to claim 2, characterized in that the separating part (48, very close to the Order part (36) is arranged. 4. Copier according to claim 3, characterized in that the separating part is a rotating roller (48) having. 5. Copier according to claim 1, characterized in that that the separating device also has a scraping compartment (49) for scraping off the first toner » from the separation roller (48). 6. A copier according to claim 2, characterized in that the separating device further comprises a scraping part (142) for scraping the first and second toners from the application part (141) , the scraping part being arranged obliquely downward so that the first and second toners slide down on the scraping part (142) onto the separating part (146). 7. Copier according to claim 6, characterized by means (147) for scraping the first toner from the separating part (146). 8. Copier according to claim 6, characterized in that the separating part has a revolving endless belt (146) . 9. A copier according to claim I _1, characterized by a device for removing the charge of the second polarity from the separating part (332) when the device is in operation for copying with one color, only the second developing device being used and the separating device having a blocking part, this prevents the second toner from adhering to the separator (332). 10. A copier according to claim 9, characterized in that the separating part is a rotating one Has roller (332), and that the locking part has a device for stopping the rotational movement of the Has roller (332). 11, copier according to claim 9, characterized characterized in that the separating means further comprises a scraping compartment (334) for scraping off the first toner of the separating part (332), and that the locking device comprises means to the To move the scraping part (334) away from the separating part (332). IZ copier according to Claim 9, characterized in that the blocking part has a shielding part (341) which can be displaced into a position in which the second toner is prevented from coming into contact with the separating part (332). 13. Copier according to claim I _1, characterized in that the separating part has a rotating part which is arranged so that the first and second toners come into contact with the rotating part after the second toner has been applied to the recording medium with the second developing device . 14. Copier according to claim 13, characterized in that the rotating part is a having electrically insulating outer surface which is formed from a material which is selected so that the material is charged with the second polarity by friction with the second toner. 15. A copier according to claim 13, characterized in that the rotating part has a has an electrically conductive outer surface, and that the separating device has an energy source, to apply the charge of the second polarity to the outer surface. 16. A copier according to claim I _1, characterized in that the separating device comprises means (171) for returning the separated first toner to the first developing device. 17. A copier according to claim 16, characterized in that the separating part comprises an electrically conductive, continuous endless sand (159) which is provided with openings which are large enough that the second toner can fall through them. 18. Copier according to claim 17, characterized by a non-circular, rotating part (167), which rests against the belt (159), whereby the belt (159) is shaken and the first toner from falls away from him. 19. Copier according to claim 1, characterized in that the first and second toners each have large carrier and small toner particles, that the separating device has a mesh (154; 243) which covers the separating part (157; 244) which has openings large enough for the toner particles to pass through but small enough to prevent the carrier particles from falling through. 20. Copier according to claim 19, characterized in that the mesh (243) is electrical is grounded. 21. A copier according to claim 19, characterized in that the separating part (244) has a passage which leads from the second to the first developing device, that the separating part (244) between a first position in which it (244) blocks the passage , and a second position is pivotable in which it (244) the Releases passage, and that the separating device has means to the charge of the To remove the separator when it is in the first position, 22. Copier according to claim 19, characterized in that the mesh gate (154) the Has the shape of a tube surrounding the partition (157). 23. Copier according to claim 22, characterized in that the tube is rotatable. 24. Copier according to claim 22, characterized in that the separating part has the shape of a Has screw and is rotated intermittently to convey away the first toner. 25. Copier according to claim 1, characterized by a removable container (51) which the receives first toner removed by means of the partition member (48).