SU619124A3 - Electrophotographic copying apparatus - Google Patents

Description

The invention relates to electrophotography, in particular to copying electrophotographic apparatus, copying onto ordinary paper with the help of an intermediate photoelectric carrier.

Electrophotographic apparatuses are known that copy onto plain paper to the containing units of a corona charge, exposure, appearance, transfer and fixation of the image, as well as cleaning of the semiconductor carrier i.

In such devices (charge, transfer and purification devices are performed with the aid of otonepnyh spatially separated nodes located near the photo semiconductor carrier around its circumference if it has the shape of a cylinder.

Known devices work either on a single-stroke or push-pull principle.

During the push-pull operation of the apparatus, it is usual to charge the photo-semiconductor layer, exposing and developing in the first cycle, and transferring the developed

powder image and layer cleaning in the second cycle. Since the electrophotographic process in known devices proceeds at a faster rate, it is not necessary to quickly turn the process units on and off, which is a hindrance due to the low frequency of the power supply network.

Devices are known in which this disadvantage is eliminated by combining the charging unit and the transfer unit 2}.

However, the presence of a mesh in the corona charger has a negative effect on image transfer, which reduces the quality of the copy.

It is also known to use a magnetic brush-type development unit as a cleaning agent for a photo-semiconductor carrier. The developing unit in this case is associated with a switch supplying it with various bias voltages.

The purpose of the invention is to improve the design of the electrographic apparatuses - increasing the reliability of their work. This circuit is achieved by the fact that the apparatus contains an arrester and a device dp switching it to the carrier pre-cleaning mode and duplicating the two-stroke operation of the apparatus. FIG. 1 shows schematically a push-pull electrophotographic copying machine; in fig. 2 is a circuit diagram of the source and voltage regulator. Photopuncture solder 1 is deposited on a cylindrical image carrier 2, mounted on a rotating shaft 3. Cylinder 2 rotates dp passing the sequence through all the technological zones of an electrophotographic apparatus. The negative corotron 4 is located near the surface of the cylinder 2 and enters the device 5 for pre-charging and image transfer. With this, Corotron 4 performs two functions: oversaturation of negative surface ions with the surface of the photoelectric layer, for example, a voltage of 13OO b, and transfer of positive ions to the surface of the paper onto which the powder image is transferred from the surface of the recording medium. The negative charge of the corotron 4 is only a preliminary charge to increase the uniformity of the total charge of the photo semiconductor chip. The final charge and pretreatment unit 6 performs the final charge on the surface of the photoelectric substrate, equalizing the surface charge, and contains a positive scorotron 7 emitting positive ions deposited on a preliminary negative charge, which contributes to a more uniform final charge lay The control grid 8 is located between the scorotron 7 and the photo-semiconductor carrier. The pre-exposure unit 9 contains a high-intensity lamp 10 and illuminates the photovoltaic carrier in the media that correspond to the edges of the copying original. In the second cycle of operation, the uzep apparatus facilitates the discharge of the photo semiconductor surface to clean it. The node 11 contains an optical projection system (hell, not shown), exposes the original to the photo semiconductor surface and reproduces the image that appears in the developing node 12. To excite negative ions, the corotron 4 is connected to a high voltage source 13 ( Fig. 2). When applying negative voltage to the box Tpoii 4 in the first and second cycles of operation of the node, the voltage switch is not required. To control the voltage of the grid 8, there is a control circuit 14 comprising a diode 15, an attachment point 16, resistors 17, 18, a second connection point 19, a voltage regulator 20, a resistor 21, a voltage source 22, a switch 23. A positive voltage source 24 through the conductor 25 supplies the operating voltage to the scorotron 7. The device operates as follows. Let cylinder 2 rotate clockwise. During the first cycle of operation of the apparatus, the corotron 4 charges the photo-semiconductor surface to a potential of 130 O b. During the passage through cylinder 2 of the process unit b, a positive scorotron 7, controlled by a grid 8, reduces the charge to approximately 800 b. Then pampa 10 of node 9 quenches the charge in the areas corresponding to the edges of the original. With the passage of the exposure unit 11, a latent image of the original is obtained, which is then applied to the node 12 using a magnetic brush 26. In this case, the photovoltaic cell receives approximately 720 9 charge in areas corresponding to the black spots of the original, 400 b gray and 400 b - from 170 to 200 b. Magnetic brush 26 uzp 12 of the hospital has a negative bias voltage of 300 b. It is positive relative to the image areas and negative relative to the background. This ends the first cycle of operation of the device. During the second stroke, the copy paper sheet passes between the corotron 4 and the surface of cylinder 2, while in the process unit 6 the powdered developed image is transferred from cylinder 2 to the paper sheet, which is pressed against the cylinder by electrostatic forces. When cylinder 2 passes through node 6 in the second cycle, the developing device switches grid 8 by means of switch 23 to a voltage close to zero potential, which is necessary for preliminary cleaning of the photo semiconductor layer. The lamp 10 of the node 11 is turned on and illuminates the surface of the photoconductor, reducing its potential to about zero.

Dipee cylindrical carrier moves to node 12, where magnetic brush 26 removes toner from the surface of the photoconductor.

In the next cycle, the cycle of operation is repeated.

Claims (3)

1. An electrophotographic copier containing devices for charging, exposing, displaying, transferring, and cleaning a photo semiconductor carrier 5, characterized in that, in order to improve reliability of operation, it contains a detector and a device for switching it to .preliminary cleaning of the image carrier during two-stroke operation of the apparatus. 2. The apparatus of claim 1, wherein and then, turns on the voltage regulator dp switching it to the image transfer mode. 3. The apparatus according to claim 1, characterized in that the device for switching the discharge of chic to the pre-cleaning mode consists of a source and voltage regulator. Sources of information taken into account in the examination: 1. USSR author's certificate No. 431489, cl. Q OZ Q 15/16, 1974. 2. US patent number 328715O, CP. 117-17.5, 1966. 3. Authors certificate of the USSR №199157, cl. Q 03 Q 15 / 20,1967. 1 // / 7 (of // Put.t f