DE2052577A1 - Basic procedure of a liquid reversal development - Google Patents

Description

Minolta Camera Kabushiki Kaisha Toyota Building 18, 4-chome Shiomachidori Minami-ku, Osaka / Japan

Basic method of liquid reversal development

The invention relates to a basic method of liquid reversal development with electrographic Paper, with the dye distributed in the developer liquid and charged to a certain potential (Toner) corresponding to the potential distribution caused on the electrographic paper during exposure on this settles.

In liquid reversal development, in which, unlike normal development, the dye settles on the uncharged portion of the electrographic paper, a method is used in which a bias voltage of the same polarity as the charged dye dispersed in an insulating liquid is applied between a base electrode and a developer electrode so that the dye is brought about will settle on the uncharged portion of the electrographic paper.

However, according to this basic method, the charged portion of the electrographic paper does not always become fully evenly charged, due to unequal

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Size of the fine particles of the photosemiconductor material on the electrographic paper or due to being more uneven Distribution of the fine parts of the photosemiconductor material on the resin (rosin) impregnated Electrographic copy paper creates a delicate uneven charge density, which in many cases creates a locally disturbed electrical field. As a result, the bias when applied to the same Value is taken as the surface potential of the charged portion of the photographic paper, dye deposits also on this charged section. and has an adverse effect on the image that is obtained, causing stains to appear on the image.

This liquid reversal development is described in more detail below with reference to FIG. 1 generally the normal development for reproducibility of contrast and halftone inferior to the pictures.

It is an object of the present invention to provide a method for liquid reversal development for electrographs to show that the reproducibility of contrast and halftone of the images is as good or better than as it is obtained in normal development.

More specifically, a method for liquid reversal development is intended be found that does not contain any dye

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Deposits on the charged section of the electrographic device Paper caused by critical uneven charge density, even if the bias of the basic method described above is set to the same value as the surface potential of the charged portion of the electrographic paper.

According to the invention, this is achieved in that a bias is applied to a developing liquid with a polarity opposite to that of the dye, whereby the dye is moved towards a developer electrode and thereafter a bias therefrom Polarity as the dye is applied to the developer liquid, so by reverse development of an electrographic Paper to get the image you want.

Both the bias is opposite to that of the dye The polarity as well as the bias with the same polarity as the dye are approximately the same as the surface potential of the charged electrographic paper.

By placing the dye in the developer liquid in front of the developer electrode during the first process step focused .. can be a reversal with a Bias voltage equal to the surface potential of the charged portion of the electrographic paper,

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be made, even if delicate irregularities the charge density on the charged portion. It is possible to achieve a satisfactory reproducibility of contrast and halftone of the images to achieve that is equal to or better than that with the normal Fluid development is achieved.

It is also possible with the invention to easily obtain high contrast images by using the electrographic Paper is charged to a higher potential.

The invention is described in more detail below with reference to the accompanying drawings.

For a better understanding, FIG. 1 again shows the relationships in a conventional basic method of liquid reversal development shown, when streaking occurs,

Fig. 2 illustrates the principle of the present invention.

According to Fig. 1 and the known basic method of liquid reversal development the charged portion 3 of the electrographic paper 5 is negatively charged, and the dye 4 in the developer liquid also has negative polarity. If any of the surface potential of the charged section B the same negative voltage is applied as the bias voltage E, the moves

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Dye 4, which in the insulating liquid 3 evenly is distributed, in the area of the uncharged section A towards the electrographic paper 5 and is stored there under the influence of the bias voltage E, as shown in Fig. 1b. In the loaded section B arises a weak electric field in which the surface potential of the charged portion B is due to critical irregularities in charge density is less than the bias voltage E; causes this electric field the dye 4 to move towards the electrographic paper 5. Consequently, for example, sits down the dye 4, which is located under the wavy line 1 according to FIG. 1 a, on the electrographic paper 5, as can be seen from Fig. 1b.

While it is possible with this basic method described above, deposits of the dye 4 on the uncharged Effecting section A to the same extent as normal development is the deposition of the dye 4 in the loaded section B, the formation of the so-called streak background, due to the delicate unevenness the charge density is unavoidable. For this reason it is generally necessary to avoid this uneven Consider charge density and set the bias voltage to a negative value that is the lowest value of the surface potential in the charged Area B taken into account.

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Such is this fluid reversal development in general inferior to normal development in terms of reproducibility of contrast and halftone of images.

With reference to Fig. 2, the new principle of the invention of the reversal of liquid development will now be described, which no longer has the known disadvantages. FIG. 2a shows a measure of the invention to move the dye 4 away from the electrographic paper 5 in a developer liquid. This process is effected in that a bias voltage E .. with a polarity opposite to that of the dye 4 is applied between a developer electrode 1 and a base electrode 2. In Fig. 2a, the dye 4 has a negative polarity, while the bias voltage E .. is of positive polarity. By applying this bias voltage E. the dye 4 is brought into the vicinity of the developer electrode with the result that the developer liquid is divided into a layer of dye 4 and a layer of insulating liquid 3, as shown in Fig. 2b. Since no dye 4 is deposited on the electrographic paper 5 during this process, the measure just described can be carried out without electrographic paper being placed on the base electrode 2. In addition, since the bias voltage E ₁ only serves to move the dye 4 in the developing liquid toward the developing electrode 1, the voltage can be appropriately selected, preferably one will

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usually fix it at the same absolute value as the bias E used in the next stage of development is to be applied.

Fig. 2b shows a step in the reversal development according to the aforementioned basic method carried out after the dye 4 during the above-described Process has been concentrated in front of the developer electrode. If now the preload E equals the absolute value of the surface potential of the electrographic paper 5 and of the same polarity as the dye 4 is applied is, the dye 4 moves under the influence of the bias E on the uncharged portion A of the electrographic Paper 5 and settles there, as can be seen from Fig. 2c, while in the charged section B a weak electric field generated by a delicate irregularity in the charge density acts and the dye acts on the wants to pull electrographic paper. But since no dye is distributed in the area below the wavy line 1 in FIG. 2b is, -as shown in Fig. 2c, no dye deposition on the charged section B instead.

The development step just described ensures that the dye 4 is deposited evenly the uncharged portion A of the electrographic paper, which has good reproducibility of the contrast and the Results in halftones of the images.

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The method according to the invention will now be described using an example actually carried out.

Electrofax paper was made in the dark by corona discharge negatively charged until blue-white luminous spots are observed on the charged surface and an exposure was performed, creating an electrostatic image that was in the dark sections had a surface potential of -400 volts and a surface potential of 0 volts in the light sections. The Electrofax paper was then placed on a base plate and a bias of +400 volts was initially applied applied to a developer electrode for 0.1 to 1 seconds. Thereafter, a bias voltage of -400 volts was applied for 0.5 to Applied to the developer electrode for 2 seconds. When the Elektrofax paper was finally removed, one had Obtain a visible image with high contrast and free of streaks.

In the case where under the same conditions described above, but without performing the first action only a negative bias voltage had been applied in the dark sections of the taken on The image created by electrofax paper formed streaks with numerous black spots.

In the reverse development according to the invention, no streaking was observed on the background even when the Electrofax paper has been charged to -600 volts.

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M / K

Claims (2)

Claims / Ό Basic process of liquid reversal development with electrographic paper, whereby the dye distributed in the developer liquid and charged to a certain potential is deposited on the electrographic paper in accordance with the potential distribution on the electrographic paper during exposure,
characterized, that a bias voltage (E ₁ ) with a polarity opposite to that of the dye (4) is applied to a developer liquid (3), whereby the dye (4) is moved towards a developer electrode, and that thereafter a bias voltage (E) of the polarity of the dye (4) is applied to the developer liquid (3). 2. The method according to claim 1,
characterized, that both the bias (E.) with that of the dye (4) opposite polarity, as well as the bias voltage (E) with the same polarity as the dye (4) approximately are set to the same absolute value as the surface potential of the charged electrographic Paper (5). 109821/1760 / 70 Lee r be e