DE1903909B2 - Apparatus for cleaning developer material from a reusable electrophotographic image area - Google Patents

Description

The invention relates to an apparatus for cleaning a reusable electrophotographic Image area of developer material, with at least one clamped in a holding device,

^M elastic cleaning sheet held in contact with the image area at an angle.

In electrophotographic copying processes involving a repeatedly usable electrophotographic Image surface in the form of a planar support or

a drum work, it is after the transfer of the electrophotographic latent image from the electrophotographic image surface onto an image carrier The remaining developer material on the reusable image area is required as completely as possible from the image surface, otherwise any remaining developer material may appear creates "ghost images" on the next copies. The removal of the developer material from the electrophotographic Viewing area is for several reasons

relatively difficult. On the one hand, even in the case in which the statically charged developer material is neutralized by an appropriate process, see some residual voltage potential between the developer material and the electrophotographic Image area, so that the developer material adheres relatively firmly to the electrophotographic image area. On the other hand, the electrophotographic image area is very sensitive, so that only a very light one mechanical contact between the cleaning device and the electrophotographic image surface may be done in order to avoid damage to the electrophotographic image surface.

As cleaning devices are primarily brushes (US-PS 28 32 977) and belts made of appropriate

the fiber material (US-PS 3186 838) proposed been. Since both the brushes and the cleaning belts have to be moved accordingly, drive devices are required that complicate the relevant cleaning devices in

'' ^r 'Design the structure. In addition, when cleaning the electrophotographic image area with brushes or cleaning tapes, the expensive developer material cannot be reused. Both the brushes as

The cleaning tapes also have to be replaced frequently, as they are subject to wear and tear and stick to themselves the brushes or cleaning tapes collect the developer material. In particular the brushes, however The cleaning tapes are also relatively rough, causing rapid damage to the electrophotographic Image area is to be expected, especially since both the brushes and the cleaning tapes with the appropriate Pressure to be brought into contact with the electrophotographic image area.

To avoid the disadvantages of these cleaning devices, a cleaning device of the type required has therefore already been proposed, which consists of an elastic cleaning sheet clamped in a holding device and held in contact with the image surface at an angle (DE-OS 17 97 558). In this cleaning device, the holding device with the cleaning sheet is held rigidly in contact with the image surface to be cleaned. Since the relatively sensitive edge of the cleaning sheet which is in contact with the image area, during operation, due to the friction with surface irregularities of the image area and with the particles of the toner or. If developer material wears out, after a relatively short operating time there is a risk that the developer material particles in the area of the worn areas of the edge of the cleaning sheet will pass underneath the same, which leads to "ghost images" on the copies when the next copies are made.

Also relevant or comparable in known cleaning devices that work with cleaning blades The type of cleaning sheet is rigidly arranged (DE-AS 12 02 138; DE-AS 12 37 901; DE-AS 12 50 839), so that even with these devices the described disadvantage of the passage of the material particles in the The area of the worn parts of the edges of the cleaning sheet.

In contrast, it is the object of the invention to provide a cleaning device of the type set out to this effect to improve that occurring wear and tear of the cleaning sheet and irregularities in the Image area can be balanced so that the cleaning sheet is always in intimate contact with the Image surface can be held, which means that the image surface can be cleaned well even with longer operating times can be achieved without premature damage to the cleaning sheet or the image surface.

This object is achieved according to the invention in that the holding device is designed such that when the cleaning sheet is pressed against the image surface for automatic alignment of the same with respect to the Surface of the image area the cleaning sheet by one to the direction of relative movement between the Reimgungsblatt and the axis parallel to the image surface is freely pivotable.

By the measure according to the invention, the automatic alignment of the cleaning sheet in relation results on the surface of the image area when the cleaning sheet is pressed, there is always good contact between the edge of the cleaning sheet and the image surface, even if the contact edge of the Cleaning sheet is already worn irregularly or the image surface has irregularities. As a result, exact cleaning of the electrophotographic image surface and thus a good quality of the produced image is possible even over a longer period of operation Copies guaranteed.

Appropriate configurations of the device according to the invention result from the others Claims.

Thereafter, there are several designs of the holding device or the cleaning sheet possible in order to achieve the purpose according to the invention (claims 2 and 3).

An advantageous further development of the subject matter of the invention consists of measures by which periodically,

Ό preferably after an imaging cycle that Cleaning sheet can be brought out of contact with the image surface (claims 4-14). That way will the developer material to be removed from the image area is previously collected in front of the cleaning sheet, whereupon

'5 the cleaning sheet is lifted from the image surface, so that the collected developer material is fed back to the developing device for reuse can be. This allows the expensive developer material for a relatively large number of copies can be used.

A particularly advantageous development of the subject matter of the invention is that the angle of attack of the cleaning sheet is smaller than 90 ° (claim 15). This causes the developer material particles through the cleaning sheet by means of a stroking or wiping movement in contrast removed from the picture surface to a pushing effect. The following should be used The term "end face" refers to the area of the cleaning sheet opposite which the electrophotographic one Image area is moved relatively.

Another useful embodiment of the solution according to the invention is that a device for supplying a dry and solid lubricant to the picture surface is provided (claim 16). This lubricant can be used in the form of a powder, which is carefully mixed with the toner is mixed and applied to the image area during the development of the latent electrostatic image will. It can also be dispersed within the photoconductive layer of the image area or in one Be coated from a photoconductive material suspended. Since the surface of this coating or a properly treated photoconductor is gradually worn away, an additional amount of Lubricant to the amount initially distributed in the photoconductive layer is released and is available at the interface between the cleaning sheet and the image area. Using the device itself the lubricant can be applied continuously or intermittently to the image area. The lubricants are preferably hydrophobic substances. Furthermore, with regard to its transfer to the Copy carrier made of a material whose color is matched to the color of the copy carrier, with z. B. in In the case of white paper containers, a white lubricant is used. Of course, you can also use Contrastingly colored lubricants are used to achieve other effects will. As solid, dry and hydrophobic lubricants, metal salts of fatty acids, such as. B. zinc stearate, Barium stearate, lead stearate, iron stearate, nickel stearate, coball stearate, copper stearate, strontium stearate. Potassium stearate, cadinium stearate, magnesium stearate,

^hl zinc oleate, manganoleate, iron oleate, cobalt oleate, copper oleate, lead oleate, magnesium oleate, zinc palmitate, cobalt palmate, copper palmitate, magnesium palmitate, aluminum, titanium and calcium dalmitate. BleikaDrvlat. Bleika

proate, zinc linoleate, cobalt linoleate, calcium linoleate, zinc ricolinoleate and cadmium ricolinoleate, higher aliphatic acids, such as ζ. B. stearic acid and palmitic acid, also colloidal pyrogenic silica particles, such as. B. Cab-O-Sil, as well as mixtures of these substances can be used.

The cleaning device according to the invention is suitable for any type of reusable electrophotographic image areas and developer materials .

Embodiments of the cleaning device according to the invention; are in the following based on the Drawings described. It shows

Fig. 1 is a schematic cross section of an electrophotographic Reproduction machine with an embodiment of the cleaning device according to the invention is equipped.

2 shows the section of another embodiment of the device according to the invention,

3 shows the section of a further embodiment of the device according to the invention.

4 shows the section of a further embodiment the device according to the invention,

5 shows a schematic partial section of a manner of arranging the cleaning sheet on the one to be cleaned Image area,

6 shows a different way of arranging the cleaning sheet and image area,

7 shows another way of arranging the cleaning sheet and image surface,

FIG. 8 shows an enlarged partial section of that in FIG illustrated cleaning sheet arrangement,

F i g. 9 is a schematic side view of another embodiment of the cleaning sheet assembly according to the invention;

F i g. 10 the section 10-10 g of F i. 9,

F i g. 11 is a top view of the FIG. 9 shown Cleaning sheet,

12 shows a perspective illustration of a further embodiment of a device according to the invention Cleaning biatles,

13 shows the side view of a further embodiment a cleaning skin arrangement according to the invention,

14 shows the side view of a further embodiment of the cleaning blade arrangement according to the invention,

F i g. 15 the top view of the in F i g. 14 shown Kci η igungsbla Itanord mi ng.

Fig. 16 is a perspective view of a Number of cleaning papers and papers according to the invention,

Fig. 17 shows the side view of another embodiment of a multiple bloc meme and

Fig. 18 is a perspective view of another Embodiment of a multi-fold arrangement.

In Fig. 1 shows a rotatable electrophotographic drum 10, which is provided with an outer layer 12 of a photoconductive insulating material such as / .. U. gaseous selenium. The Troniincl 10 is rotatably mounted in the direction shown by ik '\\ arrow. The surface of the photoconductive insulating material 12 is uniformly charged with a conventional corona charging device 14 and exposed at the point 16 by means of activating electromagnetic radiation with an image pattern. The electrostatic image produced by the exposure is developed by moving the drum surface past a developing device 18, the housing 20 of which contains in its lower part a supply 22 of toner, carrier particles and dry pulp particles. A conveyor 24 provided with conveyor buckets is arranged inside the housing 20, which brings the developer peat from the supply into the upper housing part, from where it is poured or cascaded onto the surface of the foil-conductive layer 12 via a funnel chute 28.

During the cascading of the developer material over the drum surface, the developer material existing toner particles electrostatically on the previously formed electrostatic latent image on the Surface of the photoconductive layer 12 bound and produce in this way a visible electrophotographic Powder image, while the remaining developer material from the drum surface into the supply in the Development housing 20 falls back. The toner particles consumed during development for the powder images are with a refill 19 of the type described in US-PS 30 13 703 in the Developer entered. In the embodiment shown in Fig. 1, a drier and firmer hydrophobic lubricant used in finely divided form. which is mixed with the toner particles. To this In this way, the lubricant particles enter the machine at the same time as the toner particles through the refill device 19 entered.

The developed images exiting the developing device can be transferred to a transfer location 28 can be transferred onto a moving paper tape 30. The transferred powder images can be on the Band 30 can be permanently fixed, for example by heat fixing 32. The surface of the photolite-capable Layer 12 is then cleaned of remaining toner particles, for which purpose the cleaning device 34 is used. Thereafter, the whole consists of charge, exposure, development, (transfer and purification Cycle ended. The cleaning device shown in FIG includes a rectangular cleaning sheet 36 that is attached to a shoulder screw 40 pivotable sheet holder 38 is attached. The cleaning sheet 36 normally rests with some Pressure on the surface of the photoconductive layer 12 caused by the weight of the sheet itself, the Blade holder 38 and the Noekcnmitnchmers 42 generated which is attached to the sheet holder 38 in a manner not shown. The driver 42 is on one side the drum 10 arranged and protrudes into the Bewcgungsbercich of a cam 44 through the it is actuated when the drum 10 rotates. If desired, this can be done by the weight of the cleaning sheet 36. the blade holder 38 and the driver 40 generated pressure by a spring 46 canceled

ν, become. The cam 44 is fixedly arranged on one side of the drum 10 and is rotated with this. When it acts on the driver 42, it follows its curved surface, whereby the blade holder 38 with the cleaning blade 36 from the surface of the

ι · ¹¹ photoconductive layer 12 is lifted off. As a result, the bump on the drum surface, consisting of residual toner particles collected with the cleaning ball 36, can be transported into the developing device 18, where it is removed from the drum cap

'· Area learns with the kiiskadiercenden developer material will. The pivoting movement of the cleaning blade should bcgren / i be to a touch between cleaning sheet and screen in the raised position of the

Avoid the leaf. In the embodiment shown, this is achieved by contact between blades 36 and blade holder 38 reached. This removes any residual toner that would normally come with the conventional cleaning devices are continuously removed from the electrophotographic machine, returned to the amount of developer for reuse immediately after each imaging cycle. Below the center line of the drum, a removable container to 48, which collects any toner particles that fall off the cleaning blade 36 by gravity.

In Fig. 2, another embodiment of the invention is shown in which the outer surface of the electrophotographic drum 50 contains at least one recess which is parallel to the longitudinal direction Drum axis runs. The development cycle shown is similar to that in FIG. 1 shown .Contraption. Instead of introducing the solid lubricant along with the toner, the Lubricant of the surface of the photoconductive insulating material layer 54 after being charged by the corona discharge device 56 and after exposure at point 58, but before development with the Developing device 60 supplied. The lubricant is in the filling device 62 in particulate form is present, and its feed is controllable with the shutter 64.

The developed images exiting the developing device 60 can be transferred to a moving paper belt 68 at the transfer point 66. The remaining untransferred toner particles still adhering to the surface of the photoconductive insulating material layer 54 can then optionally be charged with a conventional corona discharge device 70 of the type described in US Pat. No. 2,777,957. The polarity of the charge applied to these particles will depend on the particular results desired. If the expense and inconvenience of a collecting container 48 of the type shown in FIG. 1 is to be avoided, the corona discharge device is intended to generate a charge polarity which increases the electrostatic adhesion between the remaining toner particles and the surface of the photoconductive insulating material layer 54 in order to prevent the Prevent residual toner particles from falling off the surface of the drum 50. The absence of the collecting container also enables optimal recycling of the remaining toner particles into the development device. If desired, the corona discharge device 70 can generate a charge polarity that reduces the electrostatic attraction between the residual toner particles and the surface of the photoconductive insulating material layer 54. This reduced attraction makes a ^5S lower pressure of the Reinigungsblattcs possible in order to remove the residual toner particles and thereby extends the life of the photoconductive layer and the Reinigungsblattcs. Optionally, a light source (not shown) can also be provided together with or at ^{6 (1} position of the corona discharge device 70, in order to reduce the adhesion of the toner particles to the photoconductive surface.

The in F i g. 2 gczeiglc cleaning device consists of a rcchteckförmigcn Reinigungsblall 72, WCL ^b5 this is reinforced by a UförmiRcs Haltcteil 74 and is pivotally mounted on a blade holder 76 having a shoulder screw 78th The cleaning blade 72 is biased with a leaf spring 80 so that it is pressed against the surface of the photoconductive insulating material layer 54. When the drum 50 rotates, the residual toner present on the drum surface is displaced and transported with the cleaning blade 72 along the drum surface into the depressions 52. A screw 82 provided on a shoulder 84 limits the lowermost position of the cleaning sheet 72 as a stop against the action of the spring 80. By correctly setting the screw 82, the cleaning sheet 72 can be arranged in such a way that it rests sufficiently on the surface of the photoconductive insulating layer 54, however, it does not effect removal of the accumulated toner from the pits 52. In addition to temporarily storing the accumulated residual toner, the depressions 52 also serve to remove toner particles from the end face of the cleaning blade 72 the residual toner particles collected in the depressions 52 are transported into the developing device 60, where they are carried along by the cascading developer.

Another embodiment of the cleaning device according to the invention within an electrophotographic Reproduction machine is shown in Fig.3. Here, the cleaning device 110 is arranged in the development cycle and acts on the photoconductive insulating material layer 112 after charging with the corona unmasking device 114 and the Exposure at point 116. The cleaning device 110 contains a cleaning blade 117 which is pivotably arranged with the blade holder 118, the is fixedly coupled to the electromagnet 120 via the rod 122. The electromagnet 120 is in regular Time intervals, for example once per image generation cycle, switched on and enables a Displacement of the sheet holder 118 with the cleaning sheet 117 from the surface of the photoconductive Insulation layer 112 away. By lifting the sheet 117, the accumulated by the sheet 117 can be removed residual toner particles on the moving surface of the photoconductive insulating material layer 112 in the developing device 124, where they are transported from the drum surface through the cascading developer can be removed. This device produced surprisingly good images achieved even if residual toner particles on the surface of the photoconductive insulating material layer 112 are present during charge and exposure. The solenoid 120 may be any suitable Device to be switched on. For example, this is shown in FIG. 3, a cam 126 is shown, which is carried out by drum axis 128 is driven and microswitch 130 during each imaging cycle actuated. Of course, other suitable hydraulically or pneumatically operated devices can also be used can be used in place of the electromagnet 120. By closing the microswitch 130 the circuit shown is closed and the electromagnet i20 is connected to the current source 132.

The developed images exiting the developing device 124 can be sent to the transfer station 134 are transferred onto a moving paper tape 136. The transferred powder images are applied to the belt 136 with a heat fuser

138 large capacity fixed. Since the usual extensive cleaning devices' - ^l "ir.vcr.dur.g izz Reinigunpsblattes invention are avoided and the Fixiereinricht ■ •" Z - """'" - ^{"" A "r'} most important factor in limiting the operating speed of a electrophotographic reproduction machine, the space gained by using the cleaning sheet according to the invention enables the use of a larger heat fixer 138. The longer exposure time of the heat energy of the heating elements 140 to the toner images that can be achieved thereby enables a higher fixing speed without the risk of fire when using conventional image carriers such. of the paper tape 136. The dry and solid lubricant for removing the toner with the cleaning sheet according to the invention can be added to the boundary layer between the cleaning sheet 117 and the surface of the photoconductive insulating material layer 112 with a component of this layer ierstoffschicht by joint evaporation of a dry and solid lubricant such. B. zinc stearate and selenium are formed on the Tromniel surface during their manufacture. Electrophotographic imaging plates which contain a dry and solid lubricant dispersed in the photoconductive insulating material layer are known, for example from French patent specification 1544448.

In Figure 4, an electrophotographic belt 150 is shown, which moves in the direction of the arrow shown. The surface of this belt 150 is uniformly charged with the corona discharge device 152 and exposed to an image pattern of activating electromagnetic radiation at the full image exposure point 154. The electrostatic latent image formed here is developed by moving the electrophotographic belt 150 through a developing device 156 . The developed surface of the tape is then passed through a powder cloud of dry and solid lubricant in the sputtering chamber 158 . The powder cloud is generated, for example, by a rotating brush 160 which is arranged in the chamber 158. The developed images exiting chamber 158 are then transferred to a moving sheet or belt 164 at transfer location 162 . The untransferred toner particles still adhering to the surface of the electrophotographic belt 150 can, if desired, be charged with the corona discharge device 166 , whereby the electrostatic attraction between these particles and the surface of the electrophotographic belt 150 is neutralized. This neutralization makes it possible to reduce the pressure applied to the cleaning sheet when removing the remaining toner particles. The surface of the electrophotographic belt 150 is finally cleaned of residual toner particles in the cleaner 168 , completing the full cycle of charging, exposure, development, lubricating and cleaning.

The cleaning device shown in FIG. 4 includes a cleaning blade assembly which includes a rectangular cleaning blade 170 which is attached to a swivel head 171 with a plate 172 and a number of screws 173 . The head 171 is attached to a single axle 174 with devices not shown. This axis is in turn attached to a pivotable blade holder 176 with a press fit. The cleaning sheet 170 is with the

The surface of the electrophotographic belt 150 rests, and is guided past the cleaning sheet 170 , the static ions become. · ..... ~ J. .. '.:.:' Surface shifted and may fall into container 180. The position of the cleaning sheet 170 on the surface of the electrophotographic belt 150 can be adjusted with an adjustment screw device 182.

As already stated, the leading edge or face of at least one cleaning sheet is preferably arranged such that an acute angle of less than about 90 ° and more than about 20 ° is formed with the surface or the contact plane of the electrostatographic image material layer at the contact line of the sheet will. The angle θι shown in Figure 5 is normally the angle between the leading edge or end face 20ΰ of the cleaning sheet 202 and the opposite surface 204 of a reusable electrostatographic image material layer 206. However, relatively flexible cleaning sheets such. B. the one in FIG. Cleaning blade 208 shown 6 is used, to the acute angle between the leading edge or end face 210 and the surface 212 of the electrostatographic imaging material layer 214, ie the angle 02, are measured as close to the line of contact between the cleaning blade and image material layer or the tangent to the image material layer to form a to avoid incorrect reading at a greater distance, as is the case for angle 03. With the in F i g. In the arrangements shown in FIGS. 5 and 6, the cleaning blades are inclined against the build-up of the toner produced by them. It can be seen, however, that in a preferred embodiment the blade inclination cannot run in the direction of the collected toner particles, but in the opposite direction, as long as a leading edge or end face 216 is present, even of microscopic dimensions, which forms an acute angle 04, which is shown in FIG . 7 is shown. If the blade angle θ exceeds 90 ° for cleaning blades with an angled knife edge, uneven removal of the toner particles from the surface of the image material layer often occurs. This can often be improved by increasing the sheet pressure. However, this increases the wear and tear on the contacting surfaces. The resulting configuration of the cleaning blade at the point of contact does not have to be the configuration shown in FIG. 5, 6 and 7, but can also have the shape of a knife edge or even be slightly rounded, which can be caused by wear or by a corresponding intended arrangement. If a rounded or curved contact surface of a cleaning sheet is used, the radius of curvature should preferably be less than about 0.89 mm, since the toner is captured by the shallow angle between the rounded edge and the image material surface and held in place by impact. The area enclosed by the angle increases as the radius of curvature is increased. It can be seen, however, that the cleaning sheets according to the invention with slightly rounded contact surfaces also form an overall angled arrangement.

From the embodiments described above it appears that the principle of the invention in the use of at least one self-adjusting

or aligning flexible cleaning tape, which is attached to the reusable electrostatographic DiiusujfffiüJ, ^ _U ..U. Truck? Niie <. · '-4 _a ß a device for the direct or indirect supply of a dry and solid lubricant to the

layer is used. In the absence of the latter device, it causes repeated use an electrostatographic image layer by the frictional action of a cleaning sheet which is on iiir is imposed by the large number of imaging cycles required in commercial reproduction machines rapid deterioration of the cleaning sheet and image layer to the extent that that the cost of replacement parts and the deterioration in image quality make such a machine uneconomical do. From the description of the above embodiments it is also apparent that the for the rapid and permanent or intermittent recycling of the removed residual toner particles into Cleaning sheets suitable for the amount of developer are preferably used, since then a larger one Efficiency and better profitability of the operation can be achieved. Because of the need the uniform and effective removal of residual toner particles from the surface of a reusable electrostatographic image material layer in fast and accurate reproduction or large capacity copier machines, self-tuning of a cleaning sheet is critical Factor. Uneven and incomplete removal of the residual toner particles contributes to formation of a toner film on the image surface, at the same time a deterioration in the image quality for the subsequent imaging cycle occurs.

In Fig.8 is the cleaning sheet shown in Fig.1 shown enlarged. The flexible and rectangular cleaning sheet 36 is attached to a metal plate 37 glued, which in turn has a distance from the sheet holder 38 by an intermediate disk 39. The rectangular one The cleaning blade 36 is pivotally attached to the blade holder 38 with a shoulder screw 40 that is in the metal plate 37 is held with a thread. Since the diameter of the stepped part 41 of the screw 40 is less than the diameter of the opening 43 of the blade holder 38, the flexible cleaning blade 36 is free rotatable about the axis of the shoulder screw 40. This allows the with the cleaning sheet 36 along the Line of contact with the image material layer adjust itself evenly, thereby reducing the pressure exerted remaining toner particles are removed evenly from the image material layer without the risk of a To fear toner build-up or the formation of a toner film.

Another embodiment of a self-aligning cleaning sheet according to the invention is shown in FIGS. This cleaning blade assembly includes a flexible and metallic reinforcement plate 210 that is fused into a rubber blade 212. The metal plate includes a number of recessed areas 214 which allow the portions of cleaning blue 212 above and below the metal plate to adhere to one another during manufacture of the cleaning sheet. The reinforcement plate 210 is slidably mounted in recesses 216 in the lower holding arms 218. At each end of the flexible reinforcement plate 210 a hole 220 is provided which receives a pin 221 or a screw 222 and nut 226. The pin 221 or the screw arrangement are therefore arranged at the end of the Mptallnlatte 210 to their range of motion in the ViM.iüiü .-. Ij.vi: i ... "%,;: h:; n ^ ~ '- ^a - o "To limit the cleaning process. The lower halo arnc

IH cinH with Qtiftoti Ο7Λ in H «=> n P ¹ ^""Ί« nkiro "

Support arm 230 rotatably mounted. The upper holding arm 230 can be rotated with a pin 232 on the sheet holder 234 attached. Devices not shown can be on

ίο Sheet holder 234 for pressing on the cleaning sheet 212 may be provided on the image material layer. The pressure acting on the sheet holder 234 is on the flexible Metal reinforcement plate 210 transferred over upper support arm 230 and lower support arms 218. There the flexible metal plates 210 perpendicular to their with If the surface is flexible, that is applied to it with the lower support arms 218 Pressure evenly distributed along the entire length of the rubber cleaning sheet 212. If desired, the number of intermediate support arms can be increased or decreased, depending on the length of the cleaning sheet. From the description above it can be seen that this embodiment of the cleaning sheet also adjusts itself automatically and the remaining toner particles are evenly removed from the reusable image layer.

Fig. 12 shows another embodiment of a self-adjusting cleaning sheet according to the invention. Here, the flexible cleaning sheet 250 is arranged between the metal plates 252 and 254. The three parts are connected to one another by rivets 256. The flexible cleaning sheet 250 is through a number of slots 260 divided into a number of independent leaf segments 258. Each of these segments 258 is about the small surface irregularities of the reusable image layers led away without affecting the position of the respectively adjacent sheet segment on the image material layer.

■ to Another embodiment of a self-acting The adjusting cleaning sheet is shown in FIG. The flexible cleaning sheet 300 is between the Jaws of a blade holder 302 pinched. These run the entire length of the cleaning sheet 300 in order to avoid an inappropriate bending of the cleaning sheet in the direction of movement of the image surface. An adjustable plate 304 is between the upper jaw of the blade holder 302 and the cleaning blade 300 arranged. If highly flexible cleaning blades are used, the adjustable plate 304 should consist of a relatively rigid material such as B. made of metal to provide an additional holder for the cleaning sheet zt: form. If rigid cleaning sheets are used, the adjustable plate should be made of a soft and elastic fabric such as B. consist of polyurethane foam. The blade holder is pivotable in the manifold 306 which in turn is pivotally connected to a second manifold 308. The second manifold 308 is rotatably attached to a holding device in a manner not shown, which is similar to that in FIGS. I, 2 and 4 shown holder is formed. The manifold 306 consists of two halves that fit together are connected by screws which are passed through the flanges 310, 312 and 314. As from the Sectional partial representation of the curvature .306 shows, its halves are made in such a way that they each have a recess which corresponds to the shape of the enlarged head 318 of the axis 316. the

The recess in the elbow 306 should be slightly larger than the enlarged part of this axis 316, in order to have a free one Allow rotation of the axis. The other end of the axle 316 can be firmly press fit, on one T-shaped part 320, which in turn is connected to the blade holder 302 by screws. An identical arrangement is used to rotatably mount the axle 322 in the manifold 306. Its other end is fixedly attached to the manifold 306 with an interference fit. The arrangement according to Fig. 13 allow provided two pivot points an automatic alignment of the cleaning blade 300 relative to the axis of the drum 324 as well as an automatic pressure equalization along the line of contact between cleaning sheet 300 and electrostatographic Drum 324.

14 and 15 show an automatically adjustable cleaning blade arrangement with only one pivot point. A flexible cleaning blade 350 and an adjustable stiffening plate 352 are clamped between the jaws of a blade holder 354. The jaws of the blade holder 354 run the entire length of the cleaning blade 350 and form a holder for the cleaning blade. The blade holder 354 is attached to a T-shaped connector 356 with screws 588. The T-shaped connector 356 is rotatably attached to one end of an axle 360, as similarly shown in FIG. 13 is shown. The other end of the axle 360 is firmly connected to a pivotable part 362. This is pressed against the reusable electrostatographic drum surface 364 with the resiliently pretensioned pin 366, which is arranged displaceably in a sleeve 3be. The pressure exerted by the pin 366 can be adjusted by rotating the threaded sleeve 368 in a threaded hole of the bearing block 370. The pivotably arranged part 362 is mounted at point 372. The holding block 370 and the pivot half 374 are fastened to a holding anchor 376, which is arranged on an axis 378, by means of devices (not shown). This is attached to the frame of the reproduction machine with devices not shown. An adjustment screw 380 is located in arm 376 and secures it on axis 378 so that it is prevented from rotating. By loosening the adjustment screw 380, the cleaning blade assembly can be slid off the axis 378 for repair or adjustment of the cleaning blade or the electrostatographic drum. The adjustment screw 380 can also be used to adjust the arm 367 on the axis 378, thereby de. The angle of the cleaning sheet with respect to the surface of the electrostatographic drum is adjustable. A cam 382 is attached to one side of the drum 364 and rotates with it. When rotated in the direction of the arrow shown, the cam 382 acts on a roller driver 384 which rotates on a retaining pin 386 which is attached to the longer, forked part of the arm 388. This extends from one end of the pivotable part 362 & o downwards. When the cam 382 acts on the driver 384, the latter follows the curved surface of the cam 382, as a result of which the arm 388 and the cleaning blade 350 are lifted from the surface of the electrostatographic drum 364. DA ^ ⁵ by, the collection of residual toner particles, formed by the sheet 350, onto the moving surface of the electrostatographic drum are brought in the direction not shown Entwicklungsvor 364, where it is removed by the cascading developer from the superficiality ". Di the sheet holder 354 the end face 390 of the cleaning sheet 350 is arranged at an angle of about 135 ° opposite the axis 360, the function of the two pivot points in the arrangement of FIG Cleaning sheet! 350 relative to the axis of the drum 364 and an automatic pressure equalization between the cleaning sheet 350 and the image surface of the drum 364 along the line of contact is possible. In other words, the sheet 350 can be adjusted with respect to the image surface on the one hand in the direction of the drum circumference and on the other hand in the axial direction across the drum width.

If desired, a plurality of cleaning sheets can be used to remove residual toner particles from the Surface of a reusable optical disc. In the embodiment shown in FIG Each of the cleaning blade assemblies 400, 402 and 404 runs the entire length of the electrostatographic drum 408. The sheet material used for each cleaning sheet arrangement does not have to match the materials of the other leaf arrangements. For example, the cleaning sheet 406 made of a flexible, but relatively rigid material such as. B. consist of polyurethane, which the Most of the remaining toner particles are removed from the surface of the drum 408 while the cleaning blades 410 and 412 of the assemblies 402 and 404 are removed consist of a relatively soft material that removes any remaining toner particles. If a very compact system consisting of several cleaning sheets is desired, the in 17 can be used for a cleaning blade arrangement from FIG. 16 in each case. The arrangement shown in Fig. 17 includes two cleaning blades 420 and 422, each between the Jaws of a single blade holder 424 are pinched. The jaws run the entire length of the Cleaning blades 420 and 422, so that undesired bending of the cleaning blade is prevented. the adjustable stiffening plates 426 and 428 can be placed between the surface of each sheet and the be arranged respective jaw of the blade holder. As already described, the stiffening sheets form a Additional holder for the cleaning sheets, especially if they are made of highly flexible materials exist.

Another embodiment of a multiple arrangement is shown in perspective in FIG. Each of the cleaning blades 450, 452 and 454 is on one Sheet holder 456, 458 or 460 is attached and runs along part of the length of the electrostatographic Drum 462. The cleaning sheets are offset from one another or overlap to ensure that the entire image surface of the drum 462 is touched by them. The electrostatographic drum 462 contains offset depressions 464, 466 and 468. These are arranged such that each Cleaning sheet is passed over them instead of locking them into place. For example, this will be for there; Cleaning blade 452 and recesses 464 and 46f through the un-recessed surface of drum 462 is reached between the depressions 464 and 468, this is done in a similar manner for the depression 466

and the cleaning blade 452, since it is longer than the recess, because the non-recessed surface of the image drum 462 at each end of the recess 466 prevents the cleaning blade 452 from snapping into place. The arrangement of the depressions shown in FIG. 18 renders a device for limiting the lowermost layer of the cleaning sheets superfluous, since the non-recessed parts of the surface of the drum 462 prevent the cleaning sheets from engaging in the manner described, so that the toner which has accumulated there is not removed. As the electrostatographic drum 462 continues to rotate , the residual toner particles collected in the depressions 464, 466 and 468 are brought into the developing device (not shown), where they are removed from the depressions by the cascading developer.

Although most of the embodiments described above are based on a reproduction device that works with cascading development, other development processes, such as B. the magnetic brush method, the fiber brush method, the powder cloud method and the Touchdown development can be used. However, cascading development is preferably done as it allows for a quick return of the remaining toner particles to the developer supply as well enables even mixing of the developer with the returned toner. the Problems related to trapped carrier particles and associated scratches the image area that occurred in the previously known cleaning tape systems, with the inventive Cleaning blade device completely avoided. A removal of the remaining toner powder the reproduction machine, as it was required with the previously known devices, is through Use of the device according to the invention also avoided.

Any suitable non-metallic, flexible material can be used for the cleaning sheet of the invention. Typical substances of this type are: polysiloxane rubber, polyurethane rubber, polytetrafluoroethylene resin, polytrifluorochloroethylene resin, styrene-butadiene rubber, nitrile rubber, nitrile-silicone rubber, flexible polyurethane foam, polyethylene resin and mixtures and copolymers of these substances. The cleaning sheet should be sufficiently soft to keep wear and tear on the image surface, in particular the selenium surfaces, to a minimum; the cleaning sheet should preferably have a Shore hardness of at least approximately D65. A considerable range of blade thickness is possible. The sheet should, however, be sufficiently thick to prevent the sheet from buckling on the image surface as a result of the pressure. Of course, a larger range of flexibility of the cleaning blade is acceptable if the above-described stiffening devices are used in the blade holder. The pressure of the cleaning sheet on the image surface to be cleaned can vary within wide limits. In general, however, the minimum value necessary to effectively remove the toner particles from the image area is used, otherwise undesirable wear of the image area will occur. Satisfactory results were obtained when only the weight of a 1.3 kg cleaning blade assembly of the type shown in FIGS. 1 f> 5 was used as the pressure value. The edge between the end face of the cleaning sheet and the narrow side of the sheet must be sufficiently sharp to obtain a sliding effect as opposed to a lubricating effect. However, satisfactory results are obtained if the edge of the cleaning sheet acting on the image surface at an angle is slightly rounded, which is caused by the wear described above. Therefore, toner removal is optimal when the contact area of the cleaning sheet on the image surface is minimal. A surprisingly large range of possible operating speeds is possible for the cleaning sheet of the invention. The result is an extremely good cleaning effect at a relative speed between the cleaning sheet and the image surface with a value of up to approx. 1.5 m per second.

The following examples serve to further explain and describe the devices according to the invention for cleaning electrostatographic image areas with a flexible, automatically adjustable Cleaning sheet after developing the respective latent image with toner and transferring the Powder image on a picture carrier. Parts and percentages are based on weight, unless otherwise specified. Examples I to IV are described in US Pat. No. 3,099,856 in a copier Kind of done. In the comparative example, a normal cleaning tape is used, which is in the Examples of preferred embodiments of the invention is replaced by a self-aligning cleaning sheet made of polyurethane elastomer.

example 1

The image drum of a copier machine, which is provided with a glass-shaped selenium layer, is discharged by corona discharge charged to a voltage of approx. 800 volts and with a light-shadow image Exposure to form an electrostatic latent image. Then the selenium drum is attached to one Cascade developing device moved past. Here a developer is used that consists of a Styrene-butyl methacrylate copolymer, polyvinyl butyral and carbon black, produced according to Example I of US Pat. No. 3,079,342, and carrier particles made in accordance with US Pat. No. 2,618,551. After During the development of the electrostatic latent images, the powder images obtained become εη of a transfer point transferred to a sheet of paper. The one still present on the selenium drum after the image transfer Any remaining toner powder is removed from a cleaning site with a conventional Xerox 813 cleaning tape. A detailed description of a Such an image forming device is found in US-PS 30 99 856. The drum is with a constant linear surface velocity of approximately 7.6 cm / sec moved through the imaging cycle. This is repeated 10000 times. The test described above serves as a comparative test. One microscopic examination of the selenium surface after 10,000 operating cycles shows considerable wear a large number of deep scratches, apparently caused by carrier particles, which are between Cleaning tape and selenium surface were held. The amount of from the copier through the Cleaning removed toner is approximately 87 grams.

Example II

The test described in Example I is carried out with a new selenium drum, zinc stearate powder in the developer and a self-aligning cleaning sheet

arrangement repeated in place of the cleaning tape. The zinc stearate is embedded in the developer, by in a simple manner about 99 parts of toner particles with about 1 part by weight, based on the total weight of the Toner, powdered zinc stearate mixed in a sealed, horizontally rotating cylinder will. The cleaning blade assembly used is similar to that in FIG. 1 shown, but the Compression spring device 46 is missing. A rectangular strip is used as the material for the cleaning sheet Polyurethane elastomer with a thickness of approx. 2.4 mm. The leading edge of the cleaning sheet is arranged so that an acute angle of about 60 ° with the surface of the selenium drum along the Line of contact is formed. Despite the lack of a spring device according to FIG. 1 is replaced by the Weight of the sheet assembly creates sufficient pressure so that the remaining toner particles in sufficient! Dimensions removed from the drum surface. The total weight of the cleaning blade assembly is approx. 1.3 kg. At one end of the selenium drum, a cam is attached, which on a the blade arrangement arranged driver acts. Since the cam is fixed on the selenium drum, the cleaning sheet is lifted from the selenium surface once during each imaging cycle to remove the with the sheet of toner accumulated on the drum surface into the developing housing where it is removed by the cascading developer. The machine modified in this way becomes operated in 10,000 imaging cycles, after which the drum is removed for inspection. One microscopic examination of the selenium surface shows only slight wear. There are no deep scratches detectable. The amount of toner lost in this cleaning device is approximately 3.5 grams. Therefore, the sound loss in this modified machine is 24 times less than the loss in the machine used in Example I.

Example III

The procedure described in Example II is repeated using a new drum and fresher Developer can be used. In addition, there is between the cleaning blade assembly and the exposure point a powder input device arranged. This is set so that a thin powder film of zinc stearate is sprayed onto the selenium surface during the imaging cycle. After 10,000 Imaging cycles, microscopic examination of the image area shows the same degree of wear as in example II.

Example IV

The one in example! The test I described comes with a modified selenium drum, zinc stearate powder in the developer and a self-aligning cleaning blade assembly instead of a cleaning tape

ίο repeated. The zinc stearate is used in the developer stored by adding approx. 100 parts toner particles with approx. 1 Part by weight of zinc stearate, based on the total weight of the toner, in a horizontally rotating, sealed cylinder. The cleaning blade assembly is similar to that shown in FIG educated. The selenium drum contains two adjacent and parallel depressions, which run the length of the drum. These have a semicircular cross-section a radius of curvature of approx. 1.6 mm. The cleaning sheet consists of a rectangular strip Made of natural rubber with a thickness of approx. 1.6 mm. The front surface of the cleaning sheet is arranged so that formed an acute angle of about 80 ° with the surface of the selenium drum along the line of contact will. The pressure exerted on the blade in the direction parallel to the drum radius is approx. 1.3 kg, measured with a spring balance. Between the transfer point and the cleaning point there is a corona

Arranged discharge electrode, which neutralizes the charges of the remaining toner particles. This is going through operation of the electrode with a high alternating voltage of approx. 60 Hz and 6000 volts peak voltage achieved. The voltage is shifted slightly to the negative side, so that the positive current is approx. 10 microamps, the negative current is approximately 12 microamps. A limiting element enables the movement of the Cleaning sheet over the indentations without penetration, (thereby preventing the cleaning sheet

removes the toner particles from the pits. The toner particles collected in the pits become through, the cascading developer in the development housing removed. The modified drum is operated for 10,000 imaging cycles and then removed from the machine for testing. A microscopic examination of the selenium surface shows practically the same degree of wear as in Example II The amount of toner removed from the machine is essential

so less than that in Example I.

In addition 8 sheets of drawings

Claims (16)

Patent claims: 1. A device for cleaning a reusable electrophotographic image surface of developer material, with at least one, clamped in a holding device, held with the image surface in contact at an angle, characterized in that the holding device (37-40; 218-234; 252 , 254; 302-320; 354-380) is designed such that when the cleaning sheet (36; 212; 250; 300; 350) is pressed against the image area for automatic alignment of the same with respect to the surface of the image area, the cleaning sheet by one to Direction of the relative movement between the cleaning belt and the image surface parallel axis is freely pivotable (in particular Fig. 8). 2. Device according to claim 1, characterized in that the cleaning sheet (250) consists of several segments (258) , each of which is freely movable with the holding device (252, 254) about an axis parallel to the direction of relative movement between the cleaning sheet and the image surface. connected (Fig. 12). 3. A device according to claim 1, characterized in that the holding device (218-234; 302-320; 354-380) to a to the direction of relative movement between the cleaning blade (212; 300; 350) and the image surface parallel to the axis (232; 316; 360) is arranged to be freely movable (Figs. 9-11; 13; 14-15). * 4. Device according to one of the preceding claims, characterized in that an arrangement (42, 44; 52; 120; 382-388; 464-468) is provided through which the cleaning sheet (36; 72 ; 117; 350; 450-454) can be brought out of contact with the image surface. 5. Apparatus according to claim 4, characterized in that the arrangement is formed by a cam mechanism (42, 44; 382-388) (F i g. 1 and 14-15). 6. Apparatus according to claim 5, characterized in that the holding device (38; 354-380) is arranged pivotably about an axis (378) parallel to the direction of extension of the cleaning blade (36; 350). 7. The device according to claim 4, characterized in that the arrangement by an electromagnet (120) or the like. Is formed (F i g. 3). 8. The device according to claim 4, characterized in that the arrangement is formed by at least one recess (52; 464-468) running perpendicular to the relative movement between the cleaning sheet and the image surface in the image surface (52; 462) (FIGS. 2 and 4) 18). 9. Apparatus according to claim 8, characterized in that the cleaning blade (72) has an adjusting device (82, 84) is assigned, which prevents the cleaning sheet (72) from entering the recess (52) prevented (Fig. 2). 10. Apparatus according to claim 8, characterized in that several parallel to each other extending depressions (464,466,468) are provided (Fig. 18). 11. The device according to claim 10, characterized in that the length of each recess (464, 466, 468) is less than the width of the image area (462). 12. The apparatus according to claim 11, characterized in that several offset from one another ■> arranged cleaning sheets (450, 452, 454) are provided. 13. The apparatus according to claim 12, characterized in that the length of each cleaning sheet (450, 452, 454) is less than the width "J of the picture area (462). 14. The device according to claim 13, characterized in that the length of each recess (464,466,468) is less than the length of each cleaning sheet (450,452,454). 15. Device according to one of the preceding claims, characterized in that the angle of attack of the cleaning sheet is smaller than 90 ° (Fig. 5-7). 16. Device according to one of the preceding claims, characterized in that a device (62, 64) for supplying a dry and solid lubricant to the image surface (12) is provided.