KR810000180Y1 - Device for controlling electric potential applied to developing electrode in an electro-photographic duplicator - Google Patents

Abstract

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Description

Control device for applying bias voltage of developing electrode in electrophotographic copier

1 is a diagram showing the relationship between the temperature of the photosensitive material and the potential of the developing electrode.

2 is an explanatory diagram of the present invention implemented by a cascade developing apparatus.

3 is an explanatory diagram of the present invention implemented by a magnetic brush developing apparatus.

The present invention provides an electronic self-copier using a temperature dependent photosensitive material (hereinafter referred to as photosensitive material) whose charging characteristics change with temperature, wherein the bias voltage applied to the developing electrode is automatically changed in response to the temperature change of the photosensitive material. The present invention relates to a bias voltage application control device for a developing electrode.

In general, when developing a latent electrostatic image existing on a photoconductor or other charged insulating material with a charged development powder, a problem that occurs, a so-called large image area or a central part of bold letters is not developed by a development powder. There is a white hair (白 拔) phenomenon. This is because the electric field of the latent latent image is concentrated at the end and the electric field is weak at the center of the image region, so that it is difficult to attach the developing powder. In order to prevent this, a developing electrode has been conventionally used. On the other hand, this developing electrode is a generic term for an electrode plate in a cascade developing apparatus, a developing roll, etc. in a magnetic brush developing apparatus.

Since the developing electrode generates a uniform electric field for the entire area to be developed, the developing electrode is positioned close to the area so that the developing powder can be developed to be pulled to the center of the large image area or the bold letters by the developing electrode. do. In general, the bias voltage of the developing electrode is set to be higher than the potential held by the background region in order to prevent the development powder from adhering to the back ground region. It is set sufficiently lower than the potential of the region.

As described above, according to the developing apparatus using the developing electrode, the large image region or the center of the bold text can be developed well, but since the bias voltage applied to the developing electrode is usually fixed, the charging characteristic of the photosensitive material is reduced. In the case of being stable against environmental changes, a generally good phenomenon cannot be expected. However, in a photosensitive material whose charging characteristics change with respect to changes in environmental conditions, particularly temperature, the presence of a developing electrode to which a fixed bias voltage is applied is present. On the contrary, the image quality of the copy is reduced.

That is, the curve 1 of FIG. 1 is a diagram showing the relationship between the temperature of the temperature-dependent photosensitive material and the background region potential of the photosensitive material. According to this diagram, it is evident that when the temperature of the photosensitive material decreases with environmental temperature change, the potential of the background region of the photosensitive material becomes high. When the temperature decrease of the photosensitive material is severe, a phenomenon occurs in which the potential of the background region is higher than that of the developing electrode. As a result, the development powder adheres to the background region and is significantly damaged. This phenomenon is commonly called developmental disorder. As a means of eliminating the occurrence disturbance phenomenon, in consideration of the case where the temperature of the photosensitive material decreases and the potential of the background region rises, it is considered to apply a high bias voltage to the developing electrode in advance even under normal environmental conditions. However, this relatively lowers the potential of the image area, and requires a high temperature developer to obtain a constant image concentration. As a result, defects such as an increase in the amount of developer powder consumed and fouling in the machine occur.

In addition, although the potential of the image region changes with the increase of the radiation amount, as described above, in the state where the potential of the image region is relatively low, the change rate is large, for example, even when a developer of the same concentration is used, There is a flaw that is easy to change.

The present invention has been made in view of the above circumstances, and in an electrophotographic photocopier using a temperature-sensitive photosensitive material, the development electrode of which a bias voltage applied to the developing electrode is changed in accordance with the temperature change of the photosensitive material. By providing a bias voltage application control apparatus, it aims at improving it so that a stable image quality may be obtained normally regardless of the temperature change of a photosensitive material.

Hereinafter, an embodiment showing the present invention will be described in detail. In FIG. 2, reference numeral 1 denotes a photosensitive cylinder formed of a temperature-dependent photosensitive material, and for example, a cascade developing apparatus 2 for developing an electrostatic latent image formed on the upper surface of the cylinder 1 is used. It is installed on the outer circumference. The storage chamber 5 of the developer 4 is formed in the bottom part of the wall 3 which comprises this developing apparatus 2, and the developer 4 accommodated in this storage chamber 5 is the said photosensitive cylinder. The bucket conveyor 8 is recommended to be introduced into the hopper 9 between the rollers 6 and 7 provided on the upper side of the inclination of (1) and the bottom of the storage chamber 5, respectively. The hopper 9 is provided between the roller 6 and the photosensitive cylinder 1, and is developed between the developing electrode 10 and the photosensitive cylinder 1 main surface that are connected to the main surface of the photosensitive cylinder 1. (4) can be supplied.

The developing electrode 10 has a width substantially the same as that of the photosensitive tube 1, and is composed of a plurality of unillustrated portions, and at the same time, the developing electrode 10 is provided for controlling from the output side of the bias voltage supply 11. A bias voltage is applied. To the input side of the bias voltage supply 11 is connected a temperature detector 13 provided in the main surface portion of the photosensitive tube 1 via a signal generator 12. The temperature detector 13 is, for example, a thermistor and is capable of detecting the main surface temperature of the photosensitive tube 1, and the obtained detection signal is converted into a control signal by the signal generator 12, and a bias voltage supply ( 11) is to be input.

By the way, in developing the electrostatic latent image formed on the surface of the photosensitive cylinder 1, the bias electrode according to the temperature of the main surface of the photosensitive cylinder 1 is applied to the field electrode 10, and the potential of the developing electrode 10 is Usually, the developer supplied between the photosensitive cylinder 1 and the developing electrode 10 by the bucket conveyor 8 is continuously controlled so as to be continuously controlled to be higher than the potential of the background region. The developer 5 can be reliably attached to the large image area or the center of the bold text by the developing electrode 10 without being attached to the ground area.

On the other hand, in the above embodiment, the case of the cascade developing apparatus has been described, but in the case of the magnetic brush developing apparatus, as shown in FIG. 3, the cylindrical developing electrode 10 of the magnetic brush 14 provided in the box 3 is provided. The output from the bias voltage supply 11 may be applied to continuously control the potential of the developing electrode 10 to be higher than the background region. In any of the above-described embodiments, the output may be continuously generated from the bias voltage supply 11 so as to be applied to the developing electrode 10 as a matter of course.

As described above, since the bias voltage according to the temperature change of the photosensitive material is applied to the developing electrode, the potential of the developing electrode is controlled to be higher than the potential of the background region. Even if the temperature is considerably lowered, the temperature is not lower than that of the background area, and this can reliably prevent the occurrence of the phenomenon caused by the adhesion of the developer to the background area, so that a clear image is stably obtained regardless of the temperature change of the photosensitive material. At the same time, it is possible to prevent the gray hair phenomenon of a large image area or bold text by the developing electrode.

Claims (1)

As shown in the figure and described above in the text, the photosensitive material 1 made of a temperature-dependent photosensitive material whose charging characteristics change with temperature changes is provided in the vicinity of the photosensitive material 1, and the photosensitive material is provided. It is connected to the temperature detector 13 which detects the surface temperature of (1), the signal generator 12 which converts the temperature signal obtained by this temperature detector 13 into a control signal, and this signal generator 12, The bias voltage supplier 11 outputs a bias voltage according to the temperature change of the photosensitive material 1, and is positioned around the photosensitive material 1, and the bias voltage supplied from the bias pre-cancer supply 11 is used to provide the bias voltage. A bias voltage application control apparatus in an electrophotographic copier comprising a developing electrode (10) controlled at a high potential.