DE2038742A1 - Corona discharge device - Google Patents

Description

Patent attorneys Dipl.-Ing. F. Weickmann, xUJo IkI

Dipl.-Ing. H. Weickmann, Dipl.-Phys. Dr. K. Fincke ■ * ".-. Dipl.-Ing. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, DEN

PO Box 860 820

MÖHLSTRASSE 22, CALL NUMBER 48 3921/22

XEROX CORPORATION, Rochester, Ii.Y. 14603, V.St.A »

Gorona discharge device

The invention relates to a corona discharge device especially for the electrostatic charging of an electrophotographic recording surface o

The electrophotographic process is an electrophotographic Recording surface, which consists of a photoconductive layer applied to a conductive base, evenly electrostatically charged and then exposed to the image to be reproduced by projection it will be according to the respective acting light. strength discharged, so that a latent electrostatic image is created «

The image is developed with developing agents that are im generally from a mixture of a pigmented or colored Synthetic resin powder, which is also referred to as toner, consists of a granular carrier material that has a friction-electrical effect The function of the carrier material consists in a mechanical control of the toner, so that this on the screen is moved towards it. At the same time 'that creates

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2Q387A2

Carrier material an almost complete homogeneity of the charge polarity ο During image development, the toner powder is in flat contact with the photoconductive layer and Thereafter, it is electrostatically bound in a pattern corresponding to the latent electrostatic image the developed electrophotographic toner image is transferred to an image carrier on which it is, for example can be fixed by the action of heat

Various methods and devices are already known for uniform electrostatic charging of the photoconductive layer. One such method is described in US Pat. No. 2,836,725, it uses an electrode in wire form (known as an ooronode) which is surrounded by an electrically grounded conductive shield · This electrode is placed near a grounded surface and connected to a high voltage source so that a Uorona discharge takes place along the surface of the wire. The discharge arises because the electrical potential gradient between the wire and the grounded surface causes a flashover through the air surrounding the wire and thus a glow discharge. This ion flow is used for depositing an electrostatic charge on the ground plane, which is located near the mouth of the conductive shield _o This type discharge device is also known as a corotron. The efficiency of a corotron depends on the diameter of the corona wire or the oor node, the distance between the wire and the grounded surface, and the geometric properties of the coronary eye. The Oorona current flowing from the wire to the surface is proportional to the potential difference between the two elements, which also changes during charging because a charge is on the

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isolated photoconductive area is accumulated _β

The strength of the ion current between the wire and the surface determines its charging speed. Becomes a relative movement is generated between the photoconductive image area and the oorona deflation device, as is usually the case is the case in electrophotography, the relative speed between the two elements also determines the Charging speed of the surface «, a limit for electrophotographic High speed copier consists in the speed at which a photoconductive recording surface is made evenly electrostatically by an oorona discharge device can be charged. To achieve higher speeds, for example, a drum-shaped photoconductive recording surface used, which rotates past the discharge device. Higher crowding speeds the drum for faster copy production therefore by faster charging of the recording surface to be realized «. In practice it is necessary to connect higher voltages to the coronode for faster charging, which can become uneconomical in the sense of better economy with fast-working automatic electrophotographic reproduction machines would therefore be an amplification of the ion flow on the photoconductive Recording surface desired for a given supply voltage of the charging device »

The object of the invention is the electrostatic To improve charging of a surface in such a way that at a predetermined supply voltage of the discharge device Loading speed is higher than with known arrangements. Such an improvement is not intended to affect the uniformity of charging of surfaces and for positive ones how to be possible for negative polarity

For an Oorona-Entlaäungsvorrichtung the initially mentioned '

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th type, this object is achieved according to the invention in that the discharge electrode in its feed circuit is a Spark gap is connected upstream. This results in a more effective and economical charging, especially of an electrophotographic recording surface, than the Ion current flow is increased for a given electrode voltage compared to known arrangements, furthermore, can higher voltages can be switched on than before. Normally is in the known corotron arrangements by the connection of the corona wire with a positive electrical Voltage a positive charge of the photoconductive Recording surface generated, which is caused by an oorona phenomenon, which the oorona wire directly like a shell surrounds · The spark gap provided according to the invention in the feed circuit causes a distribution of the Oorona emission on the whole of the shield of the corona wire Enclosed space has been shown experimentally that such a distributed corona discharge the Charging a recording disk at high voltages over known arrangements improved by the invention So the amount and the speed of charging an area is improved, so that the corotron wire to higher Voltages can be switched on than was previously possible o The invention increases the efficiency of an Oorona discharge device, because more charge is generated on a surface to be charged for a given voltage.

Similar results are seen when a negative charge is applied to a photoconductive recording surface and the discharge device is connected in a manner according to the invention to the negative pole of a high-voltage source isto In the previous devices, a corona wire fed with a negative voltage generates a point-by-point concentrated oorona discharge along its surface

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one, so that the charge of the recording surface is uneven is. However, a negative charge on a recording surface is "required, for example, in reversal development, which is also referred to as the development of discharged areas, since the areas developed with toner are free of charge. One such reversal development is in electrophotography Desirable when using negative microfilm images to expose a photoconductive recording surface will. The spark gap provided according to the invention in the supply circuit causes the point-like dispersion concentrated discharge points on the surface of the Gorona wire and thus the generation of a uniform Discharge envelope around the wire. The negative charge of a recording surface becomes more even than with the well-known corotrons, and a stronger charge at a given voltage is also possible here.

Embodiments of the invention are described below with reference to the figures. Show it:

Fig. T is a schematic representation of one according to the invention trained discharge device,

Figo2 is a graphic representation of the efficiency of the in the discharge device shown in Flgo1 with a known device and

3 shows another embodiment of an inventive Discharge device *

In Fig.i a! Corotron for electrostatic charging of a photoconductive Isolierstoffsohioht is shown. The electrophotographic image plate 1 carries this photoconductive insulating material layer 2 on a grounded conductive base 3.A corotron 10 is arranged above the image plate in such a way that an electrostatic charge is applied to the plate surface during a relative movement between the two.

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is brought. The corotron consists of a shield 11, the one or more Oorona discharge wires 12 or Contains oronodes. The shield 11 consists of one electrically conductive material and is preferably grounded. It is provided with a slot opening 13 which has a Ion flow from the Oorona emission all around the wire 12 to the photoconductive insulating material layer 2 is enabled, so that an electrostatic charge arises on this »The slot opening 13 is preferably directly between the Oorona wire and the photoconductive layer arranged « Further details of a corotron can be found in the aforementioned US Pat. No. 2,836,725.

The Öorona discharge wire is within its feed circuit 14 connected to a high voltage source HV-1 A spark gap 15 is provided in the supply circuit 14, which is connected to the positive pole of the voltage source. This exists from two opposing electrodes 16 and 17, which cause a flashover when the high voltage is switched on create «A car spark plug can be used as an electrode arrangement - also be adjustable to adjust the corona discharge accordingly to strengthen or weaken given requirements. In addition to a car spark plug, other adjustable ones can also be used Electrode arrangements are used

The insertion of a spark gap 15 in the supply circuit of a corotron increases the efficiency compared to known arrangements. In the following Table I are the experimental test results of an inventive and a known device. The device according to the invention was tested by the Current flow measured on a grounded and uncoated plate

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sen, which was placed 7.6 mm below the corotron unit was. The current flowing from the plate to earth is a measure of the charge generated by the! Corotron «, The Corona Wire of a known type of corotron was made with different positive DC voltages up to a maximum voltage specified for the arrangement and the plate current measured. The maximum voltage is the voltage that has not yet been arcing between the corona ^ wire and the grounded plate. The same tests were made carried out with a discharge device according to the invention, which has a spark gap of 0.65 mm or * 0.9 mm in Supply circuit connected upstream of a positive high voltage source became. The results are also in the table I listed. A graphic representation of the test results is shown in FIG.

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Distance 0.76 0 mm Table I. Well-known corotron with
Korοtron 0.65mm spark
route 0 Corotron with
0.9 mm fun
short distance Plate current (microampere), 0 0 0 High voltage
(Volts χ 1000) 0 0 0 0 0 0 0 1 0 0 0 2 0.1. 0 0 3 0.48 0 0 3.8 2.0 0.3 0 4th 3.85 19.5 0 4.5 9.5 38.5 0 5 16.9 44.5 0.5 6th 26.4 53.0 28.0 7th 30.2 Max 58.0 38.0 8th 60.0 Max 49.5 8.4 Max 58.0 9 60.0 9.5 65.0 9.7 Max 66.0 Max 10 10.1 Max

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FIG. 2 shows a graph of the test results listed in Table I 'as a curve which indicates the plate current as a function of the supply voltage. Comparing the curves .man for a prior art corotron and for the two tested according to the invention 'corotron, it can be seen that with the well-known corotron at low supply voltages, a higher drive current is generated ₀ over a certain supply voltage, however, the charge generated with an inventive corotron It is thus shown that the discharge device according to the invention has a much greater efficiency at high supply voltages. It can also be seen that charging with a corotron according to the invention is possible at high voltage values , in which a corotron of the known type no longer works properly The invention thus enables a corotron to be operated at higher maximum voltages with much higher efficiency, so that, for example, electrophotographic recording drums are charged more quickly to achieve a higher operating speed n kanno

A second embodiment of the invention is shown in Pige3 placed that negatively charges a photoconductive layer of insulating material or another area enabled It is designed according to the arrangement shown in Figd, however, the Gorona wire 12 is connected to the negative pole of a high voltage source HV-2 via the spark gap 15 With this discharge device, results similar to those with the device shown in FIG achieved a charge that was more effective than known arrangements As already stated, the insertion of a spark gap in the supply circuit causes a dispersion of the negative oorona points, as they are normally with negatively fed Corotrons occur, so that it is possible to negatively charge a photoconductive image material layer more uniformly as before.

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- ίο -

Above was one in terms of efficiency and economy improved corona discharge device described Such a device can also with two or work more corona wires and provide them with shields which are designed differently than shown in the figures »A discharge device according to the invention can also can be used to charge any other surface that is not used for electrophotography · The The surface to be loaded does not have to be designed as a flat plate, it can also be, for example, the shape of a cylinder, of a tape or some other shape «From the above description it is also apparent that the inventive Corotron can be arranged stationary on a movable photoconductive image surface

The invention has been described above on the basis of exemplary embodiments, but is not restricted to them Embodiments and improvements possible within the scope of the following claims are identified by the basic idea of the invention recorded"

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Claims (1)

Claims M J Corona discharge device in particular for the electrostatic charging of an electrophotographic recording surface, characterized in that the discharge electrode (12) is preceded by a spark gap (15) in its supply circuit «, 2 «discharge device according to claim 1, characterized in that that the discharge electrode (12) als.länglieher Wire and is arranged parallel to the surface to be charged (1) 3 »Discharge device according to claim 2, characterized in that that the wire (12) is surrounded by a shield (11) with an opening (13) for one of the Wire (12) outgoing ion current is provided. 4. Discharge device according to claim 3, characterized in that the shield (11) is electrically grounded is· 5. Discharge device according to one of Claims 1 to 4, characterized in that the discharge electrode (12) is supplied with a positive electrical high voltage (HV-2) takes place. 6, discharge device according to one of claims 1 to 4, characterized in that the discharge electrode (12) is fed with a negative electrical high voltage (HV-2) takes place » 7. Discharge device according to one of Claims 1 to 6, characterized in that the spark gap (15) between two electrodes arranged at a distance from one another (16, 17) is provided. 109808/1871 8. Entladungsvorriohtung according to one of claims 1 to 7 _f, characterized in that the spark gap (15) is adjustable to change the threshold value of the corona discharge voltage and the discharge speed. 109809/1871