DE1472915C - Process for the image-wise dissolution of photoconductive layers - Google Patents

Description

1 2

The invention relates to a method for imagewise conductive layers, in which a charge image Dissolution of photoconductive layers, in which one produces the photo-conductive layer, with one off Charge image generated on the photoconductive layer, carrier liquid and toner existing, the whole developed and the developed photoconductive layer photoconductive layer wetting, electrophotomit a solvent for the photoconductive graphic developer developed and developed the Layer is treated. photoconductive layer with a solvent for

It is known. (German patent specification 1 137 625), the photoconductive layer is treated from and the development by dusting with a toner is characterized in that the still wet, made of carbon black and plastic and the toner-developed photoconductive layer with an image through short Warming to fix. The developers not already used, the image parts of the photo-conductive (and toner) covered image parts wetting the second layer, which are covered with charges with toner, are removed by the one liquid which is immiscible with the carrier liquid and the one surface of the recording material Solvent for the photoconductive solvent for the photoconductive layer is over-layer or contains, is treated,
wipes. 15 Through this invention it is achieved that one without

The disadvantage is that the use of a heat source leads to a negative relief image. Heat source material expense and care in the case of the three methods according to the invention

the application requires. first liquid compared to the charge image

The object of the invention is to provide a method for image an opposite charge, so that the liquid moderate dissolution of photoconductive layers attracted by the parts of the image covered with charges admit that developing, fixing and becoming. The second liquid, which is the same as the first Removing the unexposed parts of the image, the photo-liquid is immiscible, does not settle in the conductive layer allowed without a heat source with the first liquid 'covered parts of the image - from, so must be used. that in those parts of the picture the photoconductive

The object of the invention proceeds from a 25 capable layer in which as a liquid is dissolved Process for image-wise dissolution of photoconductive a solvent for the photoconductive layer Layers in which a charge image is used on the photo.

conductive layer is generated, developed and the dissolved parts of the image can be through mechanical

wrapped photoconductive layer with a solvent, for example by a water jet or means for the photoconductive layer is treated, 30 an abrasive. In this way and is characterized in that the charge offset printing forms can be obtained,
image with one already used as a developer, - to protect the first liquid against removal during the application of the second liquid, which wets the image parts covered with charges, - possibly containing a toner - the first liquid is developed with such great rapidity and then the liquid carried out with a second 35 that the first liquid is prevented from liquid which is immiscible with the first and will leave the relevant image part. In this case, the one solvent for the photoconductive layer is also not destroyed if it is or contains is treated. The temperature first liquid is an insulator.
is not critical here. According to one embodiment of the invention, as

The invention achieves that the ent- 4 ° first liquid or as a carrier liquid is a solution wrapping, fixing and image-wise dissolving of a liquid silicone in an insulating, liquid one the photo-conductive layer without using a hydrocarbon or an electrically conductive liquid heat source can be done. In addition, between speed is used.

the individual process steps no drying. This configuration ensures that the

necessary, so that the procedure in the shortest time ever 45 liquids in the image parts have the tendency possible time. maintain their limits as they have a high viscosity

Another object of the invention is to have.

a method for image-wise resolution photo- It can also be a toner together with the

conductive layers, in which a charge image on liquid is used, which is the liquid the photoconductive layer generated, developed and absorbed in order to keep it better within its limits, the developed photoconductive layer with a. According to one embodiment of the invention, as

Solvent for the photoconductive layer when the second liquid uses a polar liquid, acts is, from and is characterized, becomes this polar liquid after the development

that the charge image with a developer as the first liquid, as long as the liquid image used, the charge-covered image parts 55 is still wet, then the polar wetting - optionally a toner separating liquid from the insulating first liquid holding - first developed liquid, with a repelled. The polar liquid is then only second liquid, which cannot be mixed with the first, is able to moisturize the remaining parts of the image, treated and then treated with a solvent for hold.

the photoconductive layer, either with the 60. According to a further embodiment of the invention first or with the second liquid is miscible, is called polar liquid water, which in a is treated. Is emulsified hydrocarbon, alcohol or a

The result of this invention is that the alcoholic KOH solution is used.
You can choose whether you want to work without a heat source. The drawing explains two options for

A positive or a negative relief image can be achieved 65 Carrying out the procedure on the basis of Verwill, driving steps.

Another object of the invention is based on FIG. Fig. 1 shows a method with a small number

a method for the image-wise resolution of process steps.

3 4

In step one, a photoconductive layer 2 bears. After 6 to 8 hours of drying at 60 ° C, the 3 charges 1 on a layer support whereby a surface-whipped selenium or zinc oxide, dispersed charge of 300 V is generated,
in a binder. The support is made of 5 Then a photoconductive layer is imagewise aluminum or paper. The charges are exposed on and off in a developer
applied in any way, for example by _{90 parts by volume of a liquid} hydrocarbon first the photoconductive layer of a corona. τ- ο
discharge and then an exposure through a. . .
negative master copy suspends. - - ¹⁰ yolum parts of a liquid S.hkon with a

In step two, a first liquid is made using viscosity of 200 cPs
the roller 4 applied. The roller is designed to be permeable. .
and carries the first liquid 5 with it. Development takes place either with the image in a liquid image on the photoconductive layer 2. face down in a metal bowl for 30 seconds

In step three, the second liquid 6 becomes under 15 to 1 minute or by rolling four times

Use of a roller 7, which is the second liquid of a metal. Roller. The liquid silicone sets

contains, applied. The photoconductive layer will deposit on the charged parts of the image. Then that will

through this liquid in those parts of the picture, in moist sheets with a liquid hydrocarbon

where the first liquid 5 is not retained, rinsed to remove the excess, and still

wetted. The two liquids are immiscible, 20 wet in an emulsion of the following combinations

so that the first liquid 5 laid the deposition of the second settlement:

Liquid 6 controls The liquid 6 contains a hydrocarbon,

agent dissolving the photoconductor. 40 nl W

In step four, a jet of water 8 ₁ , ~. . ! ...... ,. , '. "...

or by means of another liquid which is mixed with ₂₅ ^{ml of 0} ^ phenylethylene oxide condensate (Trube-

Reaching force is applied, the second liquid P ^u f ^l .J ⁵ * » ^{18 50 G} > ^{em does} n’t have any association

speed and the dissolved photoconductive layer de-heating means).

removed so that the substrate 3 is exposed. Although this emulsion does not use silicone

the jet can cover the first liquid 5 and the second covered image parts with water.

Remove liquid 6, but as the first liquid 5 30 The still damp leaf will now last 20 seconds

not a solvent for the photoconductive layer is in a 10 ⁰ / o solution of potassium hydroxide in

or contains, it is obvious that even then, ethyl alcohol is immersed so that the photoconductive

when both liquids are removed, the photo layer in the water-covered parts of the image

The conductive layer is only dissolved in the layer covered with liquid 6. Then the sheet is in a water bath

Parts of the image is removed. 35 or washed off under a jet of water. the

In Fig. 2 shows step one charges 10, a planographic printing form obtained is made with a 5% strength

photoconductive layer and a support 12. Sodium orthophosphate solution moistened in water

In step two, the roller 13 carries a first insulating and bold paint.

Liquid 14 on the charges 10. At step three.

a second polar liquid 40 Example 2 is made by means of the roller 15.

16 applied. In step four, the procedure is as in Example 1, but using a

Roller 17 is a liquid 18 that contains a solvent instead of the silicone-containing developer, a developer

is or contains for the photoconductive layer, which is produced as follows:

The Hate lSmi ^ IitsichmitderFmssig- I ₀₀ g, Monolite Red (Color Index No. 12075),

did 16 but not with the liquid 4, whereby "". "Graphic varnish (by heating

ÄÄSefÄrwiTÄhÄ ". FfX W * ■» ** ■ H ** - "· * ·

S? M t ^ oSgt sSÄ ^{m 8} ShSNr ^ otT ^ S 1 05

■ • t. Jj- ι. j. ι · ** -! - · o u- ι ... ■ λ · ί 132 C, acid value no. 20 to 30, specific weight 1.05

while the photoconductive layer in the 50 vr 1 is / 3

Liquid 14 covered parts of the image is retained. 20 g cyclohexane

It is obvious that the liquid 18 too

Can be selected so that they are mixed together with the in a billet mill. Liquid 14 mixed so that just the opposite 1 g concentrate will be removed in 100 g of a liquid charcoal image parts as in FIG. 55 hydrogen with a flash point of 57 ⁰ C dis-

. . * pergates.

Example 1 ^{v e}

A coating is applied to a sheet of paper. Example 3

liquid off The procedure is as in example 1 or 2, however

An aluminum sheet is used as the layer support.

100 g of zinc oxide, _the imagewise exposed aluminum sheet is treated with

30 g of little modified alkyd resin, 10% hydrofluoric acid etched. After removing the remaining

0.1 g of rose bengal, _lichen photoconductive layer from the etched

0.01 g of fluorescein sodium, aluminum sheet, a gravure form is obtained.

0.01 g Blliant Green, g ₅

0.02 g cobalt naphthenate, Example 4

50 g toluene g _sw j _rt j _w j _e j _m example \ _{0 (} j _er 2 procedure, however

applied. becomes a substrate made of glass and a photoconductor

5 6

from zinc oxide, bismuth trioxide, lead iodide, cadmium are. After heating the leaf for 1 minute au; sulfide or cadmium selenide is used. The image is 65 ⁰ C, the softened parts of the image by excessively exposed glass is etched with hydrofluoric acid. wash with xylene, cumene or turpentine oil substitute. Ornamental glass is obtained. '. removed.

Example'S Example

The procedure is as in Example 1 or 2, but the procedure is as in Example 6 (amorphous

a brass sheet is used as a layer support. Selenium as a photoconductor), but the solution of

The image-wise exposed brass leaf is replaced by potassium hydroxide in ethyl alcohol

Gold, chrome, silver or nickel electroplated. io carbon disulfide or by a solution of

You get a very wear-resistant plate for printed potassium sulfide "or sodium sulfide in a higher

Circuits that have a hard edition. Alcohol.

Example 6 Example 12

The procedure is as in Example 1 or 2, but the procedure is as in Example 7, but a plastic sheet is used as the layer support and aromatic solvents are replaced as the potassium hydroxide solution by benzene or other photoconductive layer in a vacuum chamber.
Amorphous "■" deposited 0.5 to 5 micrometers thick
Selenium, sulfur or arsenic trichloride are used. Example 13
Instead of ao, the silicone-containing developer contains the recording monolite red (Color Index No. 12075) specified in Example 1, microlite material is charged, exposed and developed, black CT (Römpp, Chemie-Lexikon, 5th edition, The developer is by marrying
Vol. 2, column 3233) and instead of the liquid carbon _1n ...,. , _Ct ",,
Hydrogen with a flash point of 57 ° C ter- 10 g of water-soluble starch and
Pentine oil substitute with 45% aromatic hydrocarbons, 5 ^5Og ™ hydrocarbons with a flame substance. The emulsion contains 3 / c instead of an »octyl point

phenylethylene oxide condensate «an anionic cleaning agent into a paste and dispersing Ig paste in

agent from the group of olefin sulfates, and the 100 g of the hydrocarbon with a flash point

Ethyl alcoholic potassium hydroxide solution is prepared from 57 ° C. The strength is in the

a 10% solution of NaOH in water or methyl-charged and the hydrocarbon in the not

alcohol replaced. A letterpress form is obtained. loaded parts of the image. The recording

. 'material is then immersed in water, which the

B e 1 s ρ 1 e 1 7 dissolves starch. Here, the hydrocarbons remain

A wooden support is dipped into fabric-covered parts of the image from the washing process

covered with an organic photoconductor. This 35 untouched.

Recording medium is charged, exposed and the recording material with 30% ^e r with a developer of Example 2, which instead of acetic acid, which is mixed with the water and dissolves the of Monolite Red (Color Index Nr. 12075) Peerless zinc oxide treated . The recording carbon black (Color Index No. 77266) contains. developed. material is colored (pictorially).
Proceed as in Example 1, but 4 °

the emulsion consists of a petroleum distillate, B eis ρ ie 1 14
Water and triethanolamine oleate. To the pictorial

Dissolution of the photoconductive layer is 10 Se. The procedure is as in Example 13, however a solution of 5 per cent. sodium hydroxide announce the strength of acacia resin, tragacanth, or ethyline Water applied. A flat printing cellulose is obtained.

form. ■ ,, · ...., ■

Example 15

The procedure is as in Example 13, however

The procedure is as in Examples 1, 2 or 6, but a recording material with a selenium layer is used for the production of a printed 50 as in Exampleo and the thickness is replaced by a layer of multilayer potassium sulfide. Used when moistened with water. The copper layer contained therein can. the potassium sulfide attacks the selenium and makes it possible to remove it by etching with ferric chloride or an acid,
be removed moderately. The remaining copper _.

lines are characterized by their absence of gaps and 55. Example 16

Edge sharpness off. The procedure is as in Example 13, however

_R. -ίο ^e ' ⁿ recording material with poly- (n-propenylcarb-

U e ι s ρ 1 ely _azo lj _ais photoconductor used and the strength through

The procedure is as in Examples 1, 2, 6 or 7, palmitic acid, lauric acid or myristic acid as well however, a fabric made of tree 60 the hydrocarbon with a flash point of wool, wool or synthetic fibers are used. 57 ° C by a hydrocarbon with a boiling point Tissue can be stained imagewise. point of 150 ° C, by Siükonöl or by paraffin

_n . . . _1r . oil replaced.

B eιs ρ ιe I IO

The procedure is as in example 2, but at 65 B e 1 s ρ 1 e I 17

Place the potassium hydroxide solution in ethyl alcohol The procedure is as in one of Examples 1 to 16,

a solution of roller oleic acid in xylene is used; however, the photoconductive layer is covered by that which softens the hildlcile, which is moistened by water, solution of 1 to 10 "/ 0 acetone in water or by

a solution of ethyl chloride dissolved in an alcohol.

Claims (6)

Patent claims: 1. Process for the image-wise dissolution of photoconductive layers, in which a charge image generated on the photoconductive layer, developed and the developed photoconductive layer with a solvent for the photoconductive layer is treated, thereby marked-io net that the charge image with one already used as a developer, the one with charges covered image parts wetting, optionally containing a toner, first liquid developed and then with a second liquid, . which is immiscible with the first and which is a solvent for the photoconductive layer or contains, is treated. 2. Process for the image-wise dissolution of photoconductive layers, in which a charge image generated on the photoconductive layer, developed, and the developed photoconductive layer is treated with a solvent for the photoconductive layer, characterized in that that the charge image was already used as a developer with one covered with charges Image parts wetting, optionally containing a toner, first liquid developed with treated with a second liquid immiscible with the first, and then with a solvent for the photoconductive layer, either with the first or with the second Liquid is miscible, is treated. 3. Process for the image-wise dissolution of photoconductive layers, in which a charge image generated on the photoconductive layer, with a consisting of carrier liquid and toner, the developed and the entire photoconductive layer wetting, electrophotographic developer developed photoconductive layer is treated, characterized in that the still wet, developed photoconductive layer with one already used as a developer, the one with charges (and toner) covered parts of the image wetting the second liquid with the carrier liquid is immiscible and which is or contains a solvent for the photoconductive layer will*.. 4. The method according to any one of claims 1 to 3, characterized in that the first liquid or as a carrier liquid a solution of a liquid silicone in an insulating, liquid one Hydrocarbon or an electrically conductive liquid is used. 5. The method according to any one of claims 1 to 3, characterized in that the second liquid a polar liquid is used. 6. The method according to claim 5, characterized in that the polar liquid is water, that is emulsified in a hydrocarbon, alcohol or an alcoholic KOH solution is used. 1 sheet of drawings 209 646/322