KR890004107B1 - Transcription and seperation of mineograph - Google Patents

Abstract

The apparatus performs both of image transcription on the paper (10) by applying sevral KV of DC voltage to the fine electrode (11) and paper separation from the drum (8) by applying AC voltage less than the DC to remove the electrostatic charge between the paper and the drum. An oscillating amplifier provides oscillating voltage to a high voltage transformer which one output is provided to a vectifier to get high DC voltage for appolying to the fine electrode and the other output to get high AC voltage for applying to the drum.

Description

Transfer and Separation Device of Electronic Copier

1 is an internal configuration diagram of the electronic copying machine of the present invention.

2 is a circuit diagram of the present invention.

3 is a waveform diagram of each part of the circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: Document 2: Platen Glass

3: exposure lamp 4: mirror

5: lens 6: charger

7: developing device 8: drum

9: visible image 10: paper

12: transfer machine 11: thin wire electrode (transfer corona wire)

13 high voltage power supply 14 control unit

15: paper feeding unit 16: adhesive

20: input unit 21: oscillation amplifier unit

22: high voltage transformer.

The present invention relates to an apparatus for transferring and separating an electronic copying machine. Conventional transfer and separation devices have independent structures, and thus control has been independent. That is, in order to transfer visible light of the toner visualized by the toner on the drum by charging, exposure, and development to the paper, a direct current voltage of several KV is applied to the thin wire electrode so that the visible image of the toner is transferred onto the paper, and the transferred toner and paper at this time The toner is attached by the electrostatic force on the drum, so to separate it, the separation corona is installed in the direction of the transfer paper to apply the high pressure (water KV) of AC to remove the electrostatic force of the paper to which the toner is transferred. Since the devices were separated separately, the high-voltage transformer and the control device had to be used, respectively, which had the disadvantage of increasing the volume and the volume.

SUMMARY OF THE INVENTION An object of the present invention is to provide an electronic copy machine which enables the transfer and separation corona device to be a single device and then perform the transfer and separation operation as a single control. The direct current voltage was applied to the new electrode to transfer the toner visible image to the paper, and at the same time, an alternating voltage of several KV less than the direct current transfer voltage was applied to eliminate static electricity between the paper and the drum.

This will be described in detail with reference to the accompanying drawings. 1 is a durable construction diagram of the electronic copying machine of the present invention, in which the reflected light of the exposure lamp 3 is configured to be supplied to the photosensitive drum 8 through the mirror 4 and the lens 5, and the left and right sides of the photosensitive drum 8 are shown in FIG. After the cleaning unit 17 and the developing unit 7 are respectively configured in the high pressure power supply unit 13 connected to the control unit 14, the high pressure is applied to the sensor electrode 11. In particular, the present invention replaces the separator and the transfer machine. The thin wire electrode for transfer is configured to be formed in a single. 2 is a circuit diagram of the present invention is configured so that the output of the control unit 14 is applied to the oscillation amplifier 21 through the input unit 20 and the rectification unit (1) through the high voltage transformer 22 in the oscillation amplifier 21 ( It is configured to be connected to the input terminal of 23 and to be connected to the output terminal of the rectifying unit 23 to the other side. The output of the high voltage transformer 22 and the rectifier 23 is applied to the oscillation amplifier 21 through the feedback circuit 24, and the output of the rectifier 23 is supplied to the thin wire electrode 11. It is.

In the present invention configured as described above, a direct current voltage is applied to the charger 6 at a high voltage of several KV to uniformly charge the surface of the drum 8, and then place the original 1 on the platen 2 and copy (not shown). When the return is pressed, the over lamp 3 is turned on, and the light reflected from the original 1 is irradiated onto the drum 8 through the mirror 4 and the lens 5 to produce a latent image of the original and the developing image 7 The tuner is fed to the drum in the form of a visible image 9 formed of toner. When the paper 10 supplied from the paper feeder 15 reaches the transfer machine 12 in synchronism with this operation, the high-voltage voltage unit 13 is operated in the control circuit 14 so that the thin wire 11 has several KVs. A direct current of high pressure is applied to transfer the visible image 9 of the toner to the paper 10, and at the same time, an alternating voltage of several KV lower than the direct current voltage is applied to the thin wire electrode 11 to weaken the electrostatic force between the paper 10 and the drum. Paper is separated from the drum (8). The separated sheet of paper 10 is the visible image of the toner is fused to the sheet through the fixing unit 16 to make a complete copy, and then the toner waste is recovered from the cleaning unit 17 and then returned to the initial state. Accordingly, when the high voltage power supply unit 13 is shown in FIG. 2, the control circuit 14 applies the control voltage as shown in FIG. 3A to the input unit 20 to drive the oscillation amplifier 21 in the input unit 20. An alternating voltage (30 vp-p) of several tens of KHz, such as 3 (b), is generated and applied to the primary side of the high voltage transformer 22.

On the secondary side of the high voltage transformer 22, an alternating voltage equal to that of the third voltage (c) is applied (e.g., 4kvp-p) to the rectifier 23, and the third voltage (e) to the other side of the high voltage transformer 22. By generating the same alternating current high voltage and directly supplying to the output side of the rectifying unit 23, the nowood point f becomes a high voltage in a pulsating state in which a direct current example is included, as shown in the third (f), to the thin wire electrode 11. At this time, a stable output is obtained by controlling the oscillation amplitude 21 through the feedback circuit 24 to obtain a stable output. The third wire f is applied to the paper by transferring a third (f) degree and a high DC voltage to the paper. After that, the paper 10 is separated from the drum 8 by supplying an alternating current high voltage of the pulse and eliminating static electricity.

As described above, the present invention transfers the visible image of the toner to the paper by the high pressure DC power by supplying AC power together with the high voltage DC power to the thin wire electrode and then electrostatics the container attached to the drum by the high pressure AC power. It is effective to separate the paper by removing the paper, and the transfer machine and the separator, which use high-pressure transformers and special materials to prevent discharge destruction, can be integrated to reduce the cost increase and downsizing. It can be effective.

Claims (1)

A control circuit 14 for controlling the high voltage power supply unit 13 and an AC oscillation voltage of the input unit 20 for driving the oscillation amplifier 21 by the control signal and the oscillation amplifier 21 are converted into AC high voltage. The rectifier 23 is configured to rectify the output of the high voltage transformer 22 to be connected to the output side of the rectifier 23 by connecting another high voltage output of the high voltage transformer 22 to produce a high voltage pulse wave. A copying and separating device for a copying machine, which is configured to feed a circuit and a feedback circuit 24 to stabilize a pulse output.

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