DE2219747A1 - METHOD FOR THE ELECTROSTATIC TRANSFER OF A PARTICLE IMAGE FROM A CARRIER AREA TO A RECEIVING AREA - Google Patents

Description

Process for the electrostatic transfer of a particle image from a carrier surface to a receiving surface The invention relates to a method for the transfer of an electrostatically charged particle image from an electrostatically charged carrier surface on a receiving surface. Such a method can in particular be applied in xerographic reproduction machines in which a toner image from a photoconductive recording surface to a sheet of paper is.

A known method of this type is carried out so that a Transfer sheet brought into contact with the particle image on a conveyor belt will. The transfer sheet is held on the belt by negative pressure. Another known method works in such a way that several roles for transport of the transfer sheet are provided to approach the particle image. Furthermore it is known to grippers to hold the transfer sheet during its movement use.

These known arrangements have different uses in the first case a noise is made to generate the negative pressure q. In the second case, can a transport error can occur due to the curvature of the sheets, in the third case there is one Possible damage to the photoconductive recording surface on which the particle image is available.

Another known method uses electrostatic attraction a transfer sheet to the photoconductive recording surface of a drum, on which the particle image to be transferred is present. A corotron for image transmission serves to apply a charge with a polarity opposite to that the drum charge so that the toner particles are attracted to the transfer sheet. After this image transfer, it is necessary to remove the transfer sheet from the To detach the drum, this is usually done with a so-called buffer. this is a device that applies compressed air between the leading edge of the transfer sheet and blows the drum surface so that the transfer sheet without damage the drum is detached from it.

This arrangement also has the disadvantage of generating noise the required compressor and the compressed air flowing out.

The object of the invention is to provide a method for transmission to indicate an electrostatically charged particle image which those indicated above Avoids disadvantages of known methods and arrangements.

A method of the type mentioned at the beginning is to solve this problem according to the invention designed such that an insulating conveyor belt is electrostatic is charged and brought into contact with the receiving surface, so that this is on adheres to it that the conveyor belt with the adhering receiving surface synchronous is moved with the carrier surface to this and that the load of the conveyor belt is set to a value that has a stronger attraction between the Conveyor belt and the particle image than between the particle image and the carrier surface has the consequence.

In order to carry out this method, the concept of the invention is being developed an image transmission device is also provided.

An exemplary embodiment of a method and a device for Transfer of a particle image according to the invention is described below with reference to FIG Figure described showing a schematic cross section of a xerographic reproduction machine shows.

A xerographic reproduction machine 1 is used to generate a Particle image of an original, not shown, on the photoconductive insulating material layer 3 of a serographic recording drum. The particle image is drawn on a sheet of paper transmitted by means of a transmission device 2 operating according to the invention and is built.

Inside the reproduction machine 1, the photoconductive insulating material layer 3 initially charged uniformly by means of a corona discharge device 4. The charge takes place with positive polarity if the layer is made of a p-semiconductor exists, it is negative if it is an n-semiconductor. The loaded one Layer is then exposed to a light image by means of optics 5. This takes place a selective discharge of the photoconductive insulating material layer in the irradiated Areas so that an electrostatic latent image is formed on the layer 3. This is then attached to an extinguishing device 6 in the form of a luminescent plate passed, which is switched on briefly between successive copy cycles in order to to neutralize the charge on those parts of the drum surface that are not were used to generate a latent image. This prevents Toner particles are bound in this surface area of the drum. Thus become unwanted particles are not transferred to the drum, reducing toner consumption is decreased. The latent image formed on layer 3 of the drum then becomes developed into a visible image by a developing device 7. The development is carried out in a known manner, the toner parts being selectively different from the electrostatic latent image on the drum surface 3 are attracted. That way The toner image generated is transferred to an image receiving sheet at the image transfer station 8 Transfer moving past the transfer station 8 by means of a conveyor will. After the image transfer, there are still toner particles remaining on the surface 3 removed by means of a corona discharge device 9 for pre-cleaning, the further a cleaning brush 10 is assigned. The discharge device 9 charges the drum with a polarity opposite to that of the residual latent image which neutralizes the latent image. In addition, the remaining Toner particles are thereby released and can easily be removed by means of the brush 10 will. After the remaining toner particles have been removed from the surface 3, a remaining latent image can be completely removed by means of an erase lamp 11 be neutralized, causing the surface 3 fdr the next reproduction cycle is ready.

The conveying device for the image receiving sheet is denoted by 2.. The sheets are taken one after the other from a stack 12 by means of a take-off roller 13 promoted. Then they become synchronous with the rotation of the drum by transport adjustment rollers 14 € Won. Each image-receiving sheet adheres electrostatically on one Conveyor belt 15 on when it emerges from rollers 14. The conveyor belt 15 carries that Image receiving sheet in synchronism with the rotation of the drum on its surface 3. The Conveyor belt 15 is an endless belt made of an insulating material, it is shown in FIG Direction of arrow A guided on rollers 17, 18, 19 and 20. The roller 17 is the drive roller.

When the image-receiving sheet is fed to the transfer station 8 is, the toner image is transferred from the drum surface 3 to the sheet. It this no special loading device is required, since the conveyor belt 15 with the same polarity as the latent image means the discharge device 20 is charged became. The toner image is attached to the image-receiving sheet by a fixing device 21 fixed0 Thereafter, the load on the conveyor belt 15 is fixed by a corona discharge device 22 neutralized. The polarity of this device is opposite to the polarity the corona discharge device 20. After the conveyor belt 15 has been unloaded, is the image receiving sheet is peeled off from him by means of a peeling device 23 and in a collecting compartment 2! Conveyed If duplex copies are to be made, beS those the reverse side of the respective sheet is also provided with a picture, the Detachment device 23 are turned off and the image receiving sheet is of the Conveyor belt 15 replaced by another detachment device 25, which it in a second Collection compartment 26 leads. The image receiving sheets collected in this compartment 26 can are then conveyed off again one after the other by means of a take-off roller 27, so that they are passed through the transport setting rollers 14 again in the reverse position will. The previously described transport cycle is then repeated, after which the finished duplex copies are fed into the collecting tray 24.

After the respective image receiving sheet is detached from the conveyor belt 15 the conveyor belt is passed between grounded and conductive rollers 18 and 28, so that residual electrostatic charges are dissipated. The tape then runs past a cleaning device with a roller 19 on which a cleaning tape 29 is performed. This removes residual toner particles and rod particles from the Surface of the conveyor belt. The sequence of functions described above is repeated when the image receiving sheets are successively conveyed away from the stack 12.

Using an image transferring method and apparatus According to the invention, it is possible to make the image receiving sheets continuously without bending or curvature to transport. Also is a special electrostatic image transfer device not necessary because the polarity of the charge on the conveyor belt is the same of the latent image can match. Because the electrostatic attraction between the conveyor belt 15 and the image receiving sheet may be greater than the attractive force between the recording drum and the image-receiving sheet is not special Release mechanism for removing the image-receiving sheet from the drum surface required, this eliminates the possibility of damaging the drum surface further reduced and their service life extended. Since no compressor for compressed air and no mechanical controls are provided, the mechanical noise becomes kept to a minimum. A device according to the invention is particularly suitable for the production of duplex copies, as it is particularly important here to have a Avoid bending or bending the image receiving sheets.

Claims (8)

P a t e n t a n s p r ü c h e 1. Method for the transmission of an electrostatically charged particle image from an electrostatically charged carrier surface to a receiving surface, thereby characterized in that an insulating conveyor belt (15) is electrostatically charged and is brought into contact with the receiving surface (? 2) so that it is on it adheres that the conveyor belt (15) synchronously with the adhering receiving surface (12) with the support surface (3) is moved towards this and that the load of the conveyor belt (15) is set to a value that has a stronger attraction force between the conveyor belt (15) and the particle image than between the particle image and the support surface (3). 2. The method according to claim 2, characterized in that the transmitted Particle image on the receiving surface (12) is fixed that the conveyor belt (15) after the image transfer is discharged and that the image receiving surface (12) from the conveyor belt (15) is replaced. 3. The method according to claim 2, characterized in that the receiving surface (12) reversed after the image transfer and the image transfer to manufacture repeats a duplex copy. 4. Device for performing the method according to one of the preceding Claims, characterized by an insulating conveyor belt (15), the one arrangement (20) z Electrostatic charge with a polarity associated with that of the particle image coincides, and by a drive device (16, 17, 18) for moving the conveyor belt (15) and the receiving surface (12) adhering to it past the support surface (3). 5. Apparatus according to claim 4, characterized in that an image fixing device (21) and a downstream unloading device for unloading the conveyor belt (is) and a detachment device (23) for detaching the receiving surface (12) from the conveyor belt (15) is provided. 6. Apparatus according to claim 4 or 5, characterized by an endless Conveyor belt (15). 7. Apparatus according to claim 6, characterized in that the conveyor belt (ins) following the detachment device (23) a cleaning device (28, 29) is provided. 8. Apparatus according to claim 5, characterized in that an arrangement for switching off the detachment device (23) and another detachment device (25) is provided that the conveyor belt (15) an arrangement (26) for temporary Storage of receiving surfaces (12) detached with the second detachment device (25) is assigned and that this arrangement (26) has a conveying element (27) for removal the receiving surfaces (12) is assigned to the conveyor belt (15) in the opposite position.