KR820001852B1 - Electrostatic image recording method and apparatus therefor - Google Patents

Abstract

In an electrostatic image recording apparatus employing a series of recording styluses for forming a latent image on an electrostatic image recording drum, an over-discharge is conducted either by applying a very high voltage to the recording styluses or by first subjecting the drum to a precharged in one polarity and then forming the latent image on the drum by an overcharge in the opposite polarity. Precharging of the drum enhances the effect of the subsequent discharging and permits overdischarge to be conducted with a lower voltage applied to the recording styluses than would otherwise be possible.

Description

How to form an electrostatic latent image

1 is a perspective view of an electrostatic latent image forming apparatus.

Fig. 2 is a plan view showing a to owner image in which normal points are developed.

3 is a plan view showing the state missing.

4 is a plan view showing the process room state.

The present invention relates to an electrostatic lock method for forming a latent electrostatic image as a point of over discharge charged in a beard state.

The inventors have proposed a marking apparatus for marking information such as material, dimensions, shipping line, date of manufacture, etc. on a steel sheet using an electrostatic recording method. This marking device uses a multiple discharge electrode to form an electrostatic latent image represented by a dot pattern on the surface of the electrostatic lock layer, develops this electrostatic latent image with a toner, and then transfers the toner image to the transfer belt once. The toner image is transferred to the steel plate while traveling via the transfer belt.

의 방전 전극이 사용된다. 이와같이 방전 전극의 지름이 크게되어 더우기 현상 시간이단축되면 점의 외주부분에 한해서, 토우너가 부착하는 소위 가운데가 빠진 현상이 일어나, 농도가 낮게 되는 결점이 생긴다.In this marking apparatus, marking is performed in synchronism with the steel sheet. However, since the feed speed of the steel sheet is slightly faster, it is preferable to develop in a short time accordingly. In addition, the image recorded by the marking device is about 0.3 to 1.5 mm because of the fertilizer size.

Discharge electrode is used. In this way, when the diameter of the discharge electrode is increased and the development time is shortened, only the outer peripheral portion of the dot is left out of the so-called center attached to the toner, resulting in a defect of low concentration.

The present invention aims to provide a method for forming an electrostatic latent image capable of shortening the development time and increasing the concentration in order to compensate for the above-mentioned drawbacks.

The method of the present invention is characterized in that the point constituting the electrostatic latent image is in an overdischarge state in which the circumference thereof is charged in a beard shape. Since the point is over discharged in this manner, the charge amount increases, and a large amount of toner is attached. When the surface potential of a normal point is set to 2000V or more, overdischarge charged to a beard shape is obtained. Therefore, even if the developing time is short, not only does the phenomenon fall out, but also the developing density is high, so that an image having good contrast can be obtained.

The present invention will be described in detail with reference to the following drawings.

1 shows an electrostatic latent image forming apparatus. The electrostatic recording layer 10 is comprised from the metal drum 11 and the insulating layer (electrostatic recording layer) 12 laminated on the surface. Electrostatic electrodes 13a, 13b, and 13c are provided in parallel with the insulating layer 12 at intervals of about 0 to 50 mu. A high voltage of 1200 V or more is applied to the discharge electrodes 13a to 13c to discharge between the discharge electrodes 13a and 13c. By this discharge, as shown in (14a) to (14c), (14a '), (14b') and (14a "), it is charged in a point shape, and an electrostatic latent image is formed by this point pattern. It is charged positively, and the toner is charged negatively.

The whole point image of the peak phase is developed by the toner 16 attached to the developing roller 15 to become a toner image. The toner 16 is accommodated in the toner container 17, is conveyed to the shape roller 15, and is negatively charged by the DC charger 18 in the meantime. Furthermore, the toner 16 may be charged in advance, and may be dispersed on the developing roller 15.

The developed toner image is closely transferred to the transfer belt 19. The transfer belt 19 has an insulating layer formed on the surface of the metal belt, and is transferred by the roller 20. Although not shown, six rollers 20 are used, whereby the transfer belt 19 is held in a hexagonal shape. The toner image transferred to the transfer belt 19 is transferred to the lower plate which is transported downward and travels. This interval transfer is performed by using an ultrasonic vibration and an electric field together.

로 하고, 그 간격을 50μ, 정전기록층(10)의 속도를 30m/min으로 했을때, 전극 인가전압을 1200V 이상으로 하면 얻을 수 있으나 이때는 전극 인가 전압이 높게되기 때문에, 인접하는 방전 전극과의 사이에서 방전이 생기는 등의 문제가 있다. 따라서 이를 해결하려면, 방전 전극의 전방 위치에 DC대전기(21)을 설치하여 방전전극(13a)내지 (13c)에 의한 대전과 역극성으로 정전기록층(10)의 표면을 한결같이 배면 대전시키면 좋다. 예를들면 대전에 의한 전위를 -500V 이상 부여해두면, 전극인가 전압이 900V이상이면 과방전이 생긴다.As for the foregoing, the charging potential is 2000V or more, and the overdischarge state is charged with a beard. This overdischarge causes the diameter of the electrodes 13a to 13c to be 1.2 mm.

When the interval is 50 mu and the speed of the electrostatic lock layer 10 is set to 30 m / min, it is possible to obtain an electrode applied voltage of 1200 V or more. There is a problem such as a discharge occurring in between. Therefore, in order to solve this problem, the DC charger 21 may be provided at the front position of the discharge electrode, so that the surface of the electrostatic lock layer 10 is uniformly back charged with the reverse polarity of the charging by the discharge electrodes 13a to 13c. . For example, if the potential of the charge is -500 V or more, overdischarge occurs when the voltage applied to the electrode is 900 V or more.

2 to 4 show the developed point. If the charging potential of the point is 1000 to 1500 V, a circular toner phase 30 is obtained. When it is less than this, as shown in FIG. 3, the toner image 31 in which the toner is attached to only the outer circumferential portion is missing. In this toner phase, since the center is missing, the concentration becomes low and a high contrast image cannot be obtained.

4 shows the toner image 32 of overdischarge having a charge potential of 2000V or more. In this toner image, a beard image 32b is formed around the circular image 32a. This becomes a beard because charge density becomes high and charge radiates outward. As a result, the charge amount increases, and even if the conventional developing time is halved, the toner is sufficiently attached. Therefore, the development time is not only shortened, but the development concentration is increased by about 6%.

Moreover, since the beard portion 32b has a high charge potential, it is hardly transferred to the transfer belt 19. For this reason, the toner image like FIG. 2 without a whisker is transferred to a recognition board, and the influence by a beard is hardly seen.

According to the present invention having the above structure, since the point of overdischarge is formed, the developing time can be shortened. In addition, since the development concentration can be increased, a high contrast image can be obtained.

Claims (1)

In the method of forming a latent electrostatic latent image on the electrostatic recording layer with the needle discharge electrode, the diameter of the discharge electrode is 1.2 mm.

The distance between the electrostatic recording layer is 50 µ and the speed of the electrostatic recording layer is 30 n / min, and the electrostatic recording layer is back charged to 500 V or more in advance, and the back charged electrostatic recording layer has a reverse polarity of 900 V or more. When a voltage is applied and the electrode applied voltage is set to 1200 V or more, and overdischarge is caused, the surface potential of the point becomes 2000 V or more, and the periphery of the point discharges to form a point of over discharge charged in a beard shape. Electrostatic latent image formation method.

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