NL8501048A - Electrostatic copier using very fine tone powder - develops latent image on drum before transfer to paper which is accommodated in two sizes of cassette (NL 23.10.78) - Google Patents

Abstract

An electrostatic copier has full facilities for exposing originals, developing the latent image with toner and transferring the image to copy paper. The unit also has facilities for fixing the image on the copy paper. Very fine toner powder is used. The copier comprises exposure scanning facilities (22) for creating an latent image on the drum surface (2) which can be developed (6), transferred to copy paper (at 24) (26) and fixed (28). A drum cleaner (34) is also provided to remove superfluous toner before a second exposure. The copy paper may be used directly from two cassettes.

Description

J * VO 6722

Title: Device for electrostatic copying.

The invention relates to an electrophotographic copying machine provided with a photoconductive recording material to be moved through an image exposure area, a device for uniform charging of the recording material, an exposure source for the original scanning image exposure device, a developing device, an image transfer device, a fixing device and a cleaning station.

In general, electrostatic copying methods for forming an image copy corresponding to an original 10 include a stage for forming an electrostatic latent image corresponding to the original on a photosensitive member comprising a photoconductive layer, as well as a developing stage for visualization of the electrostatic latent image. The electrostatic latent imaging stage includes a stage for applying an electrostatic charge to the photosensitive member and a stage for projecting the original image onto the photosensitive member. The electrostatic latent image formed on the photosensitive member in the latent imaging stage is visualized by developing it either directly or after transfer to a suitable material (latent image transfer). The developing step can be carried out by various methods, but generally it is carried out by applying a fine powdered developer (toner) to the electrostatic latent image.

The object of the invention is to provide an electrostatic copying machine which is easier to operate and maintain, is simpler in structure and has a lower price and can produce better copies in the known electrostatic copying machines. To this end, the invention provides an electrophotographic copying apparatus, characterized by a device for removing the charge present on the recording material at the rear end of the copy outside the area exposed by the image by depositing this recording material with the aid of the original exposure source. and by a control device which, at the end of the scanning of the original, can switch off the uniform charging device 8501048 • ΐ - 2 - * and which delays the switching off of the illumination source for the original for such a period of time as is necessary for traversing through the image exposure area the portion of the recording material which is charged outside the image format at the rear end of the copy 5.

Other objects and advantages of the invention will be elucidated hereinbelow on the basis of an exemplary embodiment, with reference to the drawing. Herein shows: Figure 1 is a simplified view of an electrostatic copying device for illustrating the electrostatic copying method according to the invention; Figure 2 is a simplified view of an electrostatic latent image-bearing member and a cleaning device for illustrating a cleaning step in the electrostatic copying method of the invention.

In recent years, there has been an increasing need for "copy on plain paper (PPG)" according to which a copied image is formed on a sheet of plain paper (including papers that have been slightly processed but are essentially equivalent to plain paper ).

The electrostatic copying method for providing a copied image on plain paper generally comprises a step of forming an electrostatic latent image corresponding to an original image on a photosensitive member, a developing step for applying a fine powdered developer ( toner) on the obtained electrostatic latent image to make it visible, a step of transferring the toner image to the photosensitive member after the transfer, as well as a cleaning step for removing the toner remaining on the photosensitive member after the transfer. Figure 1 shows an electrostatic copier. The photosensitive member 2 (ie, the electrostatic latent image-bearing member) which is in the form of a photosensitive drum driven in the direction of arrow B first undergoes the action of corona discharge device 20, with a static charge on the surface of photosensitive member 2 is applied. After that, 8501048

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- 3 - the image of an original (not shown) projected on the surface of the photosensitive member 2 by an optical system 22 in an area in which the original image is exposed / arranged downstream of the corona discharge device in the rotation arrangement of photosensitive member 2. Consequently, an electrostatic latent image corresponding to the original image is formed on the surface of photosensitive member 2. Thereafter, a fine powder developer (toner) is applied by a developing device 6 to the electrostatic latent image on the surface of photosensitive member 2 to develop the latent image in a toner image. Thereafter, the toner image is transferred to photosensitive member 2 in transfer zone 24 on a copy sheet fed from a copy sheet feeding section, for example, from a paper feeding cartridge 26. The copy sheet on which the toner image transferred to its surface is located is fed to a fixing device 28 which, for example, It consists of a pair of press rollers, whereby the toner image is fixed to the copy sheet under pressure, after which the sheet is delivered to the receiving tray 30. Meanwhile, after the toner image formed thereon has been transferred to the copy sheet, the photosensitive member is irradiated with an electro-static erase lamp 32, thereby removing the residual charge on the photosensitive body. The toner remaining on the photosensitive member is removed.

The toner image transfer stage in the above-described electrostatic copier is performed by bringing the surface of the photosensitive member 2 in close contact with the surface of the copy sheet in the transfer zone 24, with a discharge current to the copy sheet from the back using corona discharge. transfer device 36 is supplied.

However, the described toner image transfer method has the disadvantage that some distortion in the toner image transferred to the copy sheet occurs. In the conventional toner image transfer method, the copy sheet fed into the transfer zone first passes between side shield plates of the corona discharge device 36, and is then brought into close contact with the surface of photosensitive member 2. Therefore, before the surface is of photosensitive

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o <- 4 - member 2 comes into close contact with the surface of the copy sheet, both surfaces affected by the discharge current of discharge device 36. As a result, the toner on the surface of the photosensitive member 2 or on the surface of the copy sheet will vibrate between the two surfaces and thus be scattered. The scattering of the toner in turn causes distortion of the toner image transferred to the copy sheet.

It has been found that the distortion of the toner image on the copy sheet. can be effectively controlled by bringing the surface of photosensitive member 2 into close contact with the surface of the copy sheet as soon as possible or before the copy sheet passes between the side screen plates of the corona discharge device 36 (ie before the copy sheet enters a zone , in which it is affected by the discharge current), thereby preventing physical vibration and scattering of the 15 toner particles.

The close contact of the surface of photosensitive member 2 with the surface of the copy sheet before the copy sheet is passed between the side shield plates of the corona discharge device 36 can be achieved, for example, by the ends of the side shield plates 20 (in particular that plate which located more upstream in the direction of movement of the copy sheet) of corona discharge device 35 in the vicinity of the surface of photosensitive member 2 and that portion of the copy sheet transport path which is upstream of the corona discharge device 36 in the direction of movement of the copy 25 sheet, which is formed by the copy sheet guide plate 38, etc. (although not shown in detail in the drawing), as shown in Figure 1, is properly arranged with respect to the corona discharge device 36 set.

The copy sheet closely fitting to the surface of the photosensitive member 2 in the transfer stage is isolated from the surface of the photosensitive member 2 by such means as a peeling nail 40 at a point downstream of transfer station 24.

This is then transported to the receiving tray 30 via fixing device 28.

At the stage of the transport, the copy sheet collects from the transfer station 24 to the receiving tray 30, the copy sheet collects static 8501048 'J? ..% - 5 - charge at the time of transferring or fixing the toner image by fixing device 28. The electric charge allows the copy sheet from the surface of guide plate 42 in the transfer path from the transfer station 24 to the fixing device 28 facing upwards, which may cause a paper jam. It may also be that the electrostatic charge causes the copy sheet to rotate upwardly at the time of discharge into the receiving tray 30, as a result of which the copy sheet cannot be properly delivered into the receiving tray 30.

It has been found that when an electrostatic eraser 44 is placed above the copy sheet guide plate 42 in the copy sheet transport path between the transfer station 24 and the fixing device 28, the action of this wiper 44 forces the copy sheet against the surface of the guide plate 42. Thus, the copy sheet is transported in the correct position without paper blocking or other difficulties. When an electrostatic eraser 46 is placed above the end of the copy sheet transport path (ie above the inner end of the receiving tray 30), the action of eraser 46 pushes the copy sheet down, preventing it from rotating upward on the copy sheet. time of delivery in the receptacle 30.

Electrostatic wipers 44 and 46 are preferably "sparkless electrostatic wipers" obtained by an electrically conductive cloth or a resin plate, a cloth with interwoven fine electric conductive wires or fibers or fine metal wires or a film with a conductive fine powder dispersed in the resin, to form a sawtooth shape, whereby corona discharge can occur between the sharp edges of the sawtooth and a charged body.

After transferring the toner image formed on the surface 30 of photosensitive member 2 to the surface of the copy sheet in the transfer station 24, the toner remaining on the surface of the photosensitive member 2 can be removed by various methods, e.g. by rubbing the surface of the photosensitive drum 22 lightly with a rotatable fur brush. Preferably, the cleaning can be performed by a hollow cylindrical developer, carrier member or an endless member in the form of an endless belt with a toner magnetically retained on its surface by the action of a stationary permanent magnet placed inside thereof, to contact the surface of the photosensitive member 2 through the developer layer on the developer-bearing member, while providing the widest possible speed difference therebetween (it is therefore preferable to the surface of the developer-carrying member in a direction opposite to the direction of movement of the surface of the photosensitive member 2).

Figure 2 shows the cleaning device 34 which performs the cleaning method as described above in detail, it comprises a developer-carrying member 50, preferably of a hollow cylindrical shape, and a stationary permanent magnet 52 disposed therein. member 50 which retains toner 12 (same as the toner used for development) magnetically on its surface by the action of magnet 52 is turned in the direction of arrow D (clockwise in Figure 2) rotated, that the surface thereof moves in a direction opposite to the direction of movement of the surface of the photosensitive member 2. Thus, the surface of the developer-carrying member 50 is continuously contacted with the surface of the photosensitive member 2 via developer layer 1. Brush length adjuster 56 attached to frame member 54 is mounted at a location a fixed distance from location Q is located downstream in the direction of rotation νεη member 50 (the surface of the member 50 being closest to the surface of photosensitive member 2). The end of the brush length adjusting member 56 is close to the surface of developer-carrying member 50 and serves to remove excess developer developer from member 50 and adjust the length of developer brush to developer-carrying member to the desired value. 50. The frame member 54 has a tray 58 removably attached thereto. Tray 58 is placed under the brush length adjuster 56 and arranged to receive the developer which is removed from the surface of the developer-carrying member 50 by 85 0 1 0 - & *

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- the operation of the brush length adjuster 56 and has fallen down.

In the cleaning device 34, the surface of developer-supporting member 50 is moved in a direction opposite to the direction of movement of the surface of the photosensitive member 2. Thus, layer 12 slides magnetically retained on the surface of the developer. -carrying member 50 at a relatively high relative velocity across the surface of the photosensitive member 2. The mechanical brushing action of the developer thus causes any toner remaining on the surface of the photosensitive member 2 to be removed thereby making the toner magnetic. attracted to the surface of the developer-supporting member. This action is more effective when the magnetic action of magnet 52 is greater (i.e., the relative velocity of the surface of member 50 and member 2 is greater).

The developer layer on the member 50 that has become excessive due to developer adhesion removed from the surface of photosensitive member 2 is subjected to the action of the brush length adjuster 56. As a result, excess developer (the amount of developer corresponding to the amount of developer 50 removed from the surface of the photosensitive member 2) is removed and dropped into the tray 58.

In the cleaning method using the cleaning device 34 as described above, it is important to prevent the formation of developer deposits in region 60 which is downstream from location Q where the surface of the photosensitive member is closest to the surface of member 50 in the direction of movement of the surface of photosensitive member 2. The developer deposit is caused by developer having been fed to region 60 by member 50.

When a developer deposit in region 60 is formed, the surface of the photosensitive member 2 mechanically brushed at location Q contacts the developer deposit which is not sufficiently retained on the surface of the developer-bearing member 50. As a result, the developer 35 will re-adhere to the surface of photosensitive member 2.

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In order to prevent formation of developer deposits in region 60, it is important to arrange magnet 52 so that one of the poles of magnet 52 closest to the location Q is located downstream of the direction of rotation of the developer-supporting member. at a certain angle γ, which is preferably no greater than 15 ° with respect to location Q.

It is also very important to properly set the distance d ^ between the surface of developer-carrying member 50 and the surface of photosensitive member 2 at location Q, where the two surfaces are closest together, and the distance d ^ between adjust the end of the brush length adjuster 56 and the surface of member 50. Distance d ^ can be adjusted within the range of 1.2 - 0.5 mm and distance d ^ within the range of 0.6 - 0.25 mm, such that developer deposits will not form.

Cleaning can be performed relatively well even if the direction of rotation of the developer-carrying member 50 is the same as the direction of movement of photosensitive member 2. In this case, the ratio between d ^ and dg is absolutely the same as due between d ^ and d ^ as described above.

It is known that in the conventional electrostatic copying apparatus for performing electrostatic copying processes as described above with reference to Figure 1, the amount of the developer to be removed from the surface of photosensitive member 2 by cleaning device 34, which is collected in bin 58 is fairly large. It has been found that the amount of toner particles remaining on the photosensitive member surface after transfer is relatively small, and can be neglected if the toner image transfer step is performed with good transfer efficiency? and that the amount of toner particles that are fed to the cleaning device by adhering to the surface of photosensitive member 2 is relatively large, with a substantial portion of the particles removed from the surface of photosensitive member 2 in bin 58 by cleaning device 34 being the latter toner. is.

In the conventional electrostatic copier, the corona discharge device 20 for charging and the original.

8501048 Λ - 9 - -Λ '· -' \ illumination lamp (not shown) of the optical system 22 arranged to be deactivated as soon as an electrostatic latent image is formed on the surface of photosensitive member 2 by the charge stage and the image exposure stage. / Therefore, a part of the surface of photosensitive member 2 placed between the side shield plates of corona discharge device 20 is already charged after completing the electrostatic latent imaging stage and moves without being exposed by the light from the lamp of the optical system 22, to a place where the operation of the developing device 6 undergoes the rotation of photosensitive member 2. Hence, a relatively large amount of developer remains adhered to that part of the surface of the photosensitive member 2 described above (developer remains and makes the entire surface black). The above-mentioned part of the surface of the photosensitive member 2 does not form an image corresponding to an original image. Usually this goes without being in close contact with the copy sheet at transfer station 24, past transfer station 24, the place where it undergoes the action of an electrostatic erase lamp 32, to a place where the action of cleaning device 34 undergoes. Accordingly, a considerably large amount of developer which adheres to the above-mentioned part of the surface of photosensitive member 2 through the action of developer device 6 is fed directly to a location where it undergoes the action of cleaning device 34. This developer is removed from the surface of photosensitive member 2 by the action of cleaning device 34, and forms a main portion of the developer collected in the tray 58.

Thus, the conventional electrostatic copier has the drawback that a significant amount of developer not used by developer 6 is wasted, and the radiation light from the electrostatic erase lamp 32 is shielded by developer adhering to the surface of photosensitive member 2 in the state of solid black matter, so that the wiping effect of the electrostatic wiping lamp 32 is insufficient.

35 This drawback can be countered to a significant extent by 8501048 alone

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Inactivating the corona discharge device 20 upon completion of the electrostatic latent imaging stage, and the original projection lamp of the optical system 22 after a predetermined time delay (usually equal to or greater than the time required until that part of photosensitive member 2 which is interposed between the side screen plates of discharge device 20 upon inactivation of the corona discharge device 20 passes through the original image projection zone by rotation of photosensitive member 2). By proceeding in this manner, that part of the photosensitive member 2, which is charged when the corona discharge device 20 is inactivated, receives light from the original exposure lamp reflected from the white back surface of an original press member (not shown), original, etc., in the projection zone of the original image, thereby removing a substantial amount of electrostatic charge applied to the above-mentioned portion of photosensitive member 2.

As mentioned above, the light from the original exposure lamp is projected onto the surface of photosensitive member 2 after it is reflected from the back surface of the original press member or the original. In particular, when the light is reflected from an original including an image area, the static charge applied to the above portion of photosensitive member 2 cannot be completely erased. For accurate and complete elimination of the electrostatic charge, an additional static erasure lamp (not shown) capable of illuminating the surface of the photosensitive member 2 directly or through a reflecting mirror is provided between corona discharge device 20 and developing device 6, and this additional erasure lamp is energized for a period of time corresponding to the aforementioned time delay upon completion of the electrostatic latent imaging stage (ie, when corona-30 discharge device 20 and the original exposure lamp of the optical system 22 are inactivated). The aforementioned problem can therefore be completely solved by this arrangement. If the toner image transfer stage with a good transfer efficiency (eg at least 85%, especially at least 90%) is performed in the device with this construction, the amount of developer that is 8501048 V -.......... .

fk - 11 - remains on the surface of the photosensitive member 2 after transfer of the toner image very small and therefore cleaning device 34 can be omitted.

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Claims (1)

1. An electrophotographic copier comprising a photoconductive recording material to be moved through an image exposure area, a device for uniformly charging the recording material, an exposure source for the original scanning image exposure device, a developing device, an image transfer device, a fixing device apparatus and a cleaning station characterized by means for removing the charge on the recording material at the rear end of the copy outside the area exposed by the image by exposing this recording material using the exposure source for the original, and by a control device which, at the end of scanning of the original, can turn off the uniform charging device and which delays the switching off of the exposure source for the original by such a time as is necessary for the image exposure area 15 through ripping the portion of the recording material loaded outside the image size at the rear end of the copy. 8501048