DE1108562B - Method of controlling the contrast of xerographic images in liquid development - Google Patents

Description

In the development process for the silver halide photographic equipment it is possible to adjust the contrast and density of the developed image by selecting the emulsion how to regulate by selecting the developer type.

When using the known development processes as used for electrophotography certain difficulties arise inasmuch as it is with the methods currently in use it is not possible to produce a similar variation in the character of the picture as is often necessary and desirable is to achieve.

The invention relates to improving a process known as "liquid" development is. It should solve the task of enabling control of the image character and the barriers, which are otherwise set to the xerographic development process.

This is achieved by reducing the electrical conductivity of those substances that are subject to development is influenced, so that the image charge is related at a variable rate on the speed of development.

When the drainage of the image charge is controlled by the development and the development time is chosen correctly, a precise control of the image character is thus obtained.

The simplest method of controlling the development is to adjust the electrical resistance of the liquid developer is changed, this change of course in different ways is possible, such as by selecting a carrier liquid with the required electrical resistance or by adding substances that reduce the electrical resistance of a normal compound Change developer. But it can also affect the solubility of the controlling substance and its sensitivity can be changed, or the viscosity of the liquid can be chosen accordingly, as a Achieved slower development in a liquid with higher viscosity and thus the ratio is varied from the development time to the disintegration time of the electrostatic image.

In carrying out the invention, it is e.g. B. possible from a high-resistance liquid, for example Isooctane or hexane, and if a lower density of the image is desired, the Add other additives, such as chloroform or acetone, to high-resistance liquids.

According to the invention, the relative disintegration time of the electrostatic image during development is determined by Shortened addition of a fixing and control agent,

xerographic images
with fluid development

Applicant:

The Commonwealth of Australia,

represented by The Secretary

of the Department of Supply,

Melbourne (Australia)

Representative: Dipl.-Ing. E. Rathmann, patent attorney,
Frankfurt / M., Neue Mainzer Str. 40-42

Claimed priority:
Australia August 5, 1957

Kenneth Archibald Metcalfe, Graymore,

and Robert John Wright, Hectorville (Australia),

have been named as inventors

which is dissolved in the liquid developer. This fixing and controlling means is so low in electrical power Resistance that some of the charge of the electrostatic latent image passes through the liquid flows off during development, which means that fewer pigment particles are required.

Aromatic, cyclic and chlorinated hydrocarbons are best suited for this, but the As stated above, additives can have different compositions.

A few examples are given for explanation: A standardized developer paste as it is now in the Liquid development technique for electrostatic latent images is known and which is a Contains pigment suspended in a high-resistance carrier liquid - e.g. B. in the low-boiling petroleum fraction known under the trade name »Shellite«, to which a resin is added as a combined control and fixing agent - was correct Working concentration brought by different suspending liquids of different levels Volume resistance were added. The result

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nits were recorded. The developer paste used was composed as follows:

RhodeneL6 / 100 (a linseed oil modified Medium oil length alkyd resin) .... 15 g

Pentarol 20 a phenol modified

Pentaerythritol ester of a resin .... 15 g

Xylene 25 g

a pigment consisting of one
Mixture of phthalocyanine blue,
Chrome yellow or an organic one

red pigment 150 g

(»Rhodene L6 / 100« and »Pentarol 20« are registered trademarks.)

In experiment “A”, 10 cm ^{3 of} the standardized concentrated developer were dissolved in 90 cm ^{3 of} “Shellite”. It has been shown that an extremely high-contrast image with considerable differences in density at the points with the greatest and least charge was achieved.

In experiment "B", ^{40 cm 3 of} "Shellite" and 50 cm ^{3 of} tetrahydronaphthalene (or "Tetralin", under which name it is on the market) were added to ^{the 10 cm 3 of} the concentrate, thus producing a low-contrast print. "Tetralin" causes both a decrease in resistance and a decrease in mobility.

The same substances were used in the "B _x " experiment, but the ratio was changed so that 65 cm ^{3 of} "Shellite" and 25 cm ^{3 of} "Tetralin" were added to ^{the 10 cm 3 of the concentrate.} This produced a print that has a medium contrast and reproduces light and shadow very well. The results are between those of tests "A" and "B".

In experiment "C", 10 cm ^{3 of} the concentrate, 40 cm ^{3 of} "Shellite" and 50 cm ^{3 of} perchlorethylene were added and an imprint was thus obtained whose contrast was less than that of experiment "B".

In experiment "D", 40 cm ^{3 of} "Shellite" and 50 cm ^{3 of} mineral ^{turpentine were added to the 10 cm 3 of the counter.} This produced an impression that was very similar to the result after »Bj«, but with a slightly greater contrast, which in turn was not as great as with »A«.

The test result can be summarized in the fact that with the suspension of the basic concentrate in "Shellite" (experiment "A") a large electrical resistance together with a large one Mobility was retained as a result of the low viscosity and that therefore rapid development achieved with a relatively low rate of disintegration of the electrostatic image became. Therefore, the highest contrasts were achieved.

If the "Shellite" has a cyclic paraffin, namely tetrahydrohaphthalene, in proportion A large percentage was added, i.e. in experiment "B", the rate of decay of the electrostatic Image increased in proportion to the time for the full development of the image and an imprint achieved with low contrast.

By reducing the proportion of cyclic paraffin as in experiment "B", a disintegration rate resulted which lay between those of the tests "A" and "B", and a pleasant contrast was achieved for the particular negative.

In experiments "C" and "D" the cyclic paraffin was replaced by a chlorinated one and a replaced aromatic hydrocarbon. The first substance reduces the rate of disintegration of the The latent image is considerable, whereas the second is only slightly above that of the aliphatic hydrogen generator after attempt "A" raises.

The experiment shows that a comfortable approximation can be achieved by concentrating the Developer paste is mixed with a liquid that has a high volume resistance and a high Has mobility, and that a substance or substances with lower volume resistance are added to this which then increases the derivation speed and a reduction in contrast is achieved.

The drawing shows the relative rate of disintegration that occurs in experiments "A", "B", »Β-,«, »C« and »D« appear. The percentage of The charge remaining after immersion in the substances concerned is plotted against the immersion time, and the liquid does not contain any pigment, so the drawing is based on the carrier liquid indicating self-tracing decay.

Instead of adding a substance to the carrier liquid which also forms a carrier for the pigment, you can Other substances are also added that regulate the speed of the discharge of the cargo capital. It has been shown that ζ. Β. when the controlling and fixing substance - e.g. B. a resin is well soluble in the carrier, changes the rate of disintegration and therefore again the final one Image is affected.

It is also possible to control the tint of the image by using a mixture of the two Contains various pigments, one of which is more easily deposited than the other. The top one The pigment layer is then wiped away so that only the lower layer remains. The overhead Pigment only served to saturate the electrical charges, which leads to a reduction in the Image contrast leads.

The basic developer used in the experiments described here works in this way, since the red pigment component tends to migrate down on the image first, eliminating the blue and yellow components are subsequently removed by application of an adhesive agent that lifts the top layers off and leaves a less contrasty image. To take off Solvents can also be used for the top pigment layer, but to avoid this of soiling in the picture, great care must be taken in this case.

The following composition is an example of the addition of a viscosity-reducing substance specified:

A percentage of transformer oil can be added to the solution after experiment "A", which has a high volume resistance, but also a relatively high viscosity, so that in view of the fact that the dissipation factor for the charges has not changed significantly, the mobility of the Pigments is reduced and, since a certain proportion of the charge always decays during development, consequently the impression is weakened in contrast.

From the foregoing, it can be seen that the controls of the developer can be easily performed can, provided the rate of disintegration of the electrostatic image during development is opposed the development time is controlled.

This therefore allows hard or soft development by composition only of the developer, in such a way that during development the rate of disintegration is in proportion is modified at development time.

Development time is understood to be the time that is necessary to charge the charge on the Saturate image. It can thus be shortened by reducing the resistance of the developer liquid because then a low charge remains to be saturated in a given time while by reducing the mobility, the development time necessary to saturate the charge is enlarged, reducing the total discharge because of the greater time in which the drainage of the Charges takes place, is enlarged.

Claims (8)

PATENT CLAIMS: 1. A method for controlling the contrast of xerographic images in liquid development, characterized in that the disintegration time of the latent electrostatic image is changed during development in relation to the development time. 2. The method according to claim 1, characterized in that the relative rate of disintegration of the electrostatic image by adding a low electric liquid Volume resistance to a pigment carrier liquid with high volume resistance is increased will. 3. The method according to claim 1, characterized in that the relative rate of disintegration of the electrostatic image during development by reducing mobility of the pigment is enlarged as a result of an increase in the viscosity of the liquid developer. 4. The method according to claim 1, characterized in that the relative disintegration time of the latent electrostatic image is increased by adding a substance to the developer liquid, which at the same time reduces their volume resistance and increases their viscosity. 5. The method according to claim 1, characterized in that the rate of disintegration of the electrostatic image during development by using a carrier liquid with is kept high resistance that a pigment mixture is used as a developer and then one or more components of the pigment mixture from the developed image removed. 6. Developer for performing the method according to claim 1 and 2, characterized by a mixture of a high-resistance carrier liquid and a substance with a lower volume resistance. 7. Developer according to claim 6, characterized in that the liquid developer is a Has high-resistance carrier liquid, which is a carrier liquid with a lower volume resistance is added. 8. Developer for performing the method according to claim 3, consisting of a high-resistance carrier liquid for the suspension of the Pigment particles and a substance for reducing the mobility of the pigment particles in the Carrier liquid. 1 sheet of drawings © 109 610/373 5.61