DE1115581B - Developer for electrophotographic purposes - Google Patents

Description

Electrophotographic material usually consists of a support on which a photoconductor substance is located is located. This layer is provided with an electrostatic charge in the dark. Afterward the material is exposed either through an original or by episcopal means, one of the A corresponding (invisible) electrostatic image is created. You "develop" this image by bringing it into contact with a resin powder for a short time, whereby a visible Image is created that "fixes" the resin through heating or the action of solvents will. In this way, a smudge-proof copy of the original is obtained by electrophotographic means.

The invention now relates to a particular type of developer for such electrophotographic Procedure.

The developers usually make a mixture of a so-called carrier and a so-called The carrier is grains of inorganic substances such as fine glass spheres, Iron filings, or crystals of inorganic salts such as table salt or potassium chloride.

The toner usually consists of resin powders that contain dyes or pigments, for example carbon black. When handling the developer, the toner charges due to the static electricity positive towards the carrier material.

The photoconductor layers can be charged positively or negatively, so that after exposure receives a positive or negative electrostatic image under an original. If you bring up now negative electrostatic image the developer with the positively charged toner, then one of the results Template corresponding picture. But if you use the same developer on a positive charge image applies, the brightness values are reversed; a negative of the original charge image is created, since the toner particles are repelled from the charged sites.

However, these reversal images are very poor in contrast and have a certain edge effect, the is undesirable and consists in that the edge parts of larger developed areas pigmented more strongly are as their center.

It has also already been proposed to use this so-called edge effect by additional exposure of the photosensitive material under a grid or by using an electrophotographic Material consisting of a grid-like base plate carrying regular elevations and depressions, which is covered with the photoconductive layer,

developer
for electrophotographic purposes

Applicant:

Kalle Aktiengesellschaft,
Wiesbaden-Biebrich, Rheingaustr. 190-196

Dr. Martha Tomanek, Wiesbaden-Biebrich,
has been named as the inventor

insists to fix; however, these measures are, on the one hand, the additional exposure and on the other hand the use of a complex light

ao sensitive material, too expensive to be in sufficient Dimensions to be economically viable.

Since many photoconductor layers can also be positively charged very well, efforts were made to also use developers with toners that have a negative charge. For this purpose one has organic carriers, like crystals of anthracene or fluorene, or you have the individual carrier particles of one inorganic carrier material, such as glass, coated with a resin layer and added to the toner.

In this procedure, the toner is negatively charged, but these organic carrier crystals are not mechanically very strong, they rub in an undesirable manner during use, and the resulting edges damage the photoelectrically conductive insulating layer. When inorganic carriers coated with an organic material are used, lumps are apt to be formed when the carrier particles are coated with a resin layer and, in practice, the coated carrier particles tend to lose their round shape, making it difficult for the developing powder to trickle down the surface of the electrophotographic material. Furthermore, the resin layer is easily rubbed off the carrier particles, thereby charging the toner non-uniformly. Some of the images produced in this way have conflicting electrical effects, ie they appear partially as images corresponding to the original and partially as reversed images.
There has now been found a developer for electrophotographic purposes, consisting of a carrier and a negatively charging toner, which is characterized in that the toner at least

109 709/350

3 4

partly from a known method containing carboxyl groups in contact with an electrical

Vinyl chloride copolymer consists. copy material, with the toner attached to the loaded

The copolymers mentioned are, for example, parts of the surface that adhere and the image is visible

wise those who power through polymerization of vinyl. Then it is fixed in a known manner,

chloride with vinyl esters of fatty acids, such as acetic acid, 5 If positively charged layers are used, see above

Propionic acid, butyric acid, and images are obtained in which the toner adheres to the

even smaller proportions of unsaturated monocarbon sites are retained during the exposure process

acids, such as crotonic acid, cinnamic acid, or an un- were not struck by light and therefore still

Saturated dicarboxylic acids such as maleic acid and fumaric acid carry an electrostatic charge. It is created in the process

acid, itaconic acid, polymerized. Such io images that correspond to the template used.

Products are available in stores. The developer is preferred according to the present

Inorganic and organic substrates come from the invention in the case of negatively charged layers Substances in question; for example, glass and quartz are used. The toner remains with the developing metals like iron, aluminum, copper, magnesium, treatment process in the areas hit by the light Salts such as potassium sulfate, potassium chloride, sodium 15 of the electrocopy material hang, and it forms chloride, copper sulfate, oxides such as barium oxide, titanium - a visible, negative image of the original pre-dioxide, and organic substances such as tartaric acid and carbage. The developer used in the present invention oxymethyl cellulose, polystyrene, potassium sodium tartrate, has the advantage that lower or only small marginal phthalic anhydride, Called potassium oxalate. effects on the contour lines arise compared to the

The carrier has generally been used as a developer since then, and he possesses them

for example a most common grain size of about effect on any common photoconductive

100 to about 600 μ applied. You can also use material. As a result of their mechanical stability remain

Use smaller or larger carrier particles, but the developer particles also with prolonged use

Carriers with the most common grain size have clearly negatively charged themselves. You can special

specified range, preferably from about 200 to 25 in the production of back enlargements according to

about 400 μ, proven to be advantageous. the electrophotographic process based

Mixtures of supports other than microfilms can also be used.
Use grain size.

The vinyl chloride example 1 containing carboxyl groups
Copolymers can also be colored 30 5 parts by weight of a black emulsion paint. For this purpose, disperse dyes (colourants (e.g. "Cellitonechtschwarz BTNU") are index, Vol. 1, pp. 1655 to 1742) can be used which, when suspended in 1500 parts by weight of water at 55 ° C, are also used to dye polyvinyl chloride, added and with stirring to addition, also such organic pigments 35 4O ⁰ C example and 5 parts by weight of phenyl-ethyl-urethane resin (and "Setacyk dyes" Remol Pe-Ce ", for example, as" Celliton "- -" CIBACET. ") cooled down. Cooled to at 4O ⁰ C comparable to dyeing of said copolymer suspension are then added in small portions 50 turned, the weight parts of the disperse dyes physi- a powdery copolymer are Kalisz similar, for example, fatty dyes, such as Sudan from 85% vinyl chloride, 14% Vinyl acetate and 1% dyes; naphthol-maleic acid development dyes (eg »Hostalit CAM«) are also added. AS series are suitable for this purpose. 40 and then stirred for another hour at 40 ⁰ C and all-

Dyeing of the invention Mischpoly- gradually heated in the course of IVa hours at 65 ⁰ C merisats is stirred in a known manner as the polyvinyl and further 1 hour at this temperature, chloride performed. For example, 5 to 20% of the copolymers to be colored are used with the dyes mentioned (based on the weight of water and dried in the air) in a temperature range of 40 to 70 ⁰ C in water with the remove, the colored material is suspended in ball mills powdery copolymer and processed and sieved. Sieve fractions of about 10 μ are stirred for 2 to 3 hours. To make dyeing easier, glass beads with a diameter of about 300 μ and to achieve deeper shades of color can be mixed with a 2 to a diameter of 2: 100. The resulting 15% of an auxiliary, a so-called »carrier«, 50 developer is suitable for the production of reversals such as phenylethyl urethane or chlorotoluene. For this purpose an electrophoto will be given. It is advantageous to use 4 to 6% graphic paper, e.g. B. zinc oxide paper, or zinc additive, based on the weight of the powder. After oxide on metal, for example on aluminum, due to the finished coloring, the powder is sucked off and charged with a corona discharge of 6000 volts negatively on water or with or without the addition of natural 55 and exposed under an original. You can wash or synthetic detergents and now trickle the developer over the paper. Dried in the process. If necessary, the material can also remain the colored toner powder on which the light is still processed and sieved in ball mills. struck areas adhere, and a negative of the pre-For the toner is used sieve fractions with layer becomes visible, which is slightly heated and thereby an average grain size of about 1 to 60 is fixed on the carrier material. It shows a good 100μ, preferably about 10 to about 20μ. Contrast and no edge effect.

To make the developer, mix the.

Carrier with the toner in the ratio of 100:10 to Example 2

100: 0.1, preferably 100: 2 to 100: 1. The procedure is as in Example 1, but used

The developer described above can be used at 65 for coloring 30 parts by weight of a mixed poly-

the known electrophotographic process merisats from about 85% vinyl chloride and about 15%

for the development of electrostatic images, vinyl acetate is combined with a small amount of a monopoly-

be turned. For this purpose it is added to merized dicarboxylic acid (e.g. "Vinnol E 15/45 M"),

1.2 parts by weight of a yellow disperse dye (e.g. "Setacylgelb 4 RL") and 2 parts by weight of phenylethyl urethane resin (e.g. "Remol Pe-Ce"). After drying and sieving, a yellow colored one is obtained Toner which, mixed with glass beads in a ratio of 3: 100, gives a developer that, according to the im Example 1 of the procedure described results in images which represent a negative of the original.

Example 3

100 parts by weight (for. Example, 'Vinylit VMCH ") of a copolymer of 86 ° / o vinyl chloride, 13% vinyl acetate and 1 ° / o other compounds, including a small proportion of a dicarboxylic acid, at 40 ⁰ C in about 2000 parts by weight of water , in which 12 parts by weight of a black disperse dye (z. B. "Cibacetdiazo black PS") are suspended, entered and then ^{stirred at 65 0} C for 3 hours.

After drying, a black colored powder is obtained. This toner is in a ratio of 1: 100 mixed with iron powder and drawn over a latent electrostatic image with the help of a magnetic bar, which is prepared according to the procedure as described in Example 1. The toner remains adhere to the places hit by the light, and you get an inverted image of the original, z. B. from a negative to a positive.

You can also enlarge a negative microfilm with the help of a projection apparatus project onto the negatively charged electrophotographic paper and enlarge the resulting image Treat latent image with the developer. A positive magnification is obtained.

Example 4

35

In a dye suspension of 1 part by weight of a black disperse dye (e.g. »Setacylschwarz GSP ”) and 1 part by weight of a black fat dye (e.g.“ Sudan black ”) in 570 parts by weight Water with the addition of 4 parts by weight of chlorotoluene becomes 30 parts by weight of a copolymer made of vinyl chloride, vinyl acetate and maleic acid (e.g. "Vilit M") at about 50 ° C and Stirred at 70 ° C. for 2 hours. After suctioning off, a little water is added Soap solution washed. After drying, a toner is obtained that has a ratio of 3: 100 with a Mixture of 50 parts by weight of a granular carboxymethyl cellulose and 50 parts by weight of potassium chloride is mixed. The developer thus obtained is useful for making direct images positively charged layers. For this purpose an electrophotographic layer, e.g. Legs with selenium vaporized aluminum foil, positively charged by a corona discharge to 6000 volts and exposed under an original. The developer is now allowed to trickle over the film. The finely divided, colored toners adhere to the areas not hit by the light, and one corresponding to the original The image becomes visible, which is slightly warmed up and thus fixed on the surface. It shows very good contrast and no edge effect whatsoever.

Example 5

A paper that z. B. is coated with organic semiconductors with the addition of crystal violet (for example with 2,5-bis [4'-diethylaminophenyl (l ')] - 1,3,4-oxdiazole, as known from Belgian patent specification 558 078) is negatively charged and under exposed on an original. A developer made from 1 part by weight of that used in Example 1 is now left Copolymer of vinyl chloride, vinyl acetate and maleic acid and 100 parts by weight of polystyrene beads trickle over the paper. The finely divided, colorless resin remains on those struck by the light Places adhere, and a negative of the original becomes visible. It is fixed by treating it with trichlorethylene vapors treated.

Claims (2)

PATENT CLAIMS: 1. Developer for electrophotographic purposes consisting of a carrier and a negatively charging toner, characterized in that the toner consists entirely or partially of a vinyl chloride copolymer containing carboxyl groups. 2. Developer for electrophotographic purposes according to claim 1, characterized in that the toners contained therein from a mixture of a vinyl chloride copolymer containing carboxyl groups and / or pigments and / or dyes. Considered publications:
U.S. Patent Nos. 2,598,732, 2,599,542. © 109 709/350 10.