DE1158832B - Developer for the electrostatic production of images and processes for developing electrostatic charge images - Google Patents

Description

The invention is in the field of and relates to electrostatic formation of images more specifically to a developer and to a method for developing electrostatic charge images.

In the production of electrostatic images, charge images are formed on the surface of an insulating material manufactured. A visible image can be produced from such a charge image by that one is a dry mixture of a fine-grained toner powder and a considerably coarser-grained carrier powder trickle down over the charge image. When the developer particles have a triboelectric If they have a charge of the opposite sign than the charge pattern, they are deposited on the charged one Surfaces of the charge image and thereby make the charge image visible. When the developer particles have the same polarity as the charge image, a visible image is created, which is a Represents the negative of the charge image.

Other development methods are also known, for example the method which is associated with a cloud of developer powder works, the method which works with a mist and further also processes that work with a magnetic brush.

The recording material can have almost any type of insulating surface. Latter should preferably also be photoconductive. There are recording materials known which consist of plates consist with a photoconductive selenium layer, and also recording materials which consist of a consist of a photoconductive layer on paper.

A liquid method of developing charge images has previously been described in which solid developer granules are used are suspended in an insulating carrier liquid. Those with a liquid working development processes have many advantages over using a dry one Developer powder and compared to other development processes. The liquid developer already described consists of finely divided developer granules that are dispersed in a liquid hydrocarbon are. Such a developer can be poured over the surface on which the charge image is located or this surface can be immersed in the developer in a bowl. Of the liquid developer can also be sprayed or rolled onto the charge image. If appropriate Developer granules are dispersed in a suitable liquid, they take a triboelectric Developers for the electrostatic production of images and processes for developing

electrostatic charge patterns

Applicant:

Radio Corporation of America,
ίο New York, NY (V. St. A.)

Representative: Dr.-Ing. E. Sommerfeld, patent attorney,
Munich 23, Dunantstr. 6th

Claimed priority:

V. St. v. America, April 24, 1959 (No. 808 568)

Harold Gray Greig, Princeton, NJ (V. St. Α.),
has been named as the inventor

Charge so that they are attracted to a charge image of suitable polarity. The deposit of developer granules on a charge image is an example of the phenomenon of electrophoresis or cataphoresis.

The liquid developers mentioned above are useful for many purposes, but they also have disadvantages Properties. Most liquid hydrocarbons are solvents for the developer granules, which contain resins, waxes or organic pigments. If resinous granules are in a liquid hydrocarbon are dispersed, they dissolve within certain limits, so that they then tend to clump together. The dispersion must therefore shortly before practical use freshly made. If the dispersion is kept for a long time, the Developer granules together. The adhesiveness of the developer granules can also lead to that these settle in undesired places of the charge image. In addition, an image that starts with such a dispersion has been developed and is not fixed in any way Lose focus. The fixation can be done by spraying a fixative or by Heating. When liquid hydrocarbons are used, heating is extremely dangerous because of the risk of fire. Also have

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the liquid hydrocarbons produce a disruptive, non-crystalline hydrocarbon wax Odor, and their fumes are generally toxic. of good adherence and a melt-you are therefore unsuitable for many purposes, for example for point between 62 and 64 ° C, office copiers. a modified, microcrystalline wax with

One purpose of the invention is to provide improved 5 a melting point of 90 to 93 ° C,

Developers indicate which no fixation of a microcrystalline petroleum wax with a

Require image and provide glossy images. Melting point from 87 to 91 ° C,

According to the invention is a developer for a microcrystalline petroleum wax with a

electrostatic production of images marked- melting point of about 82 ° C,

net by an insoluble, fine-grained toner, the io rubber wax with a melting point of 100

up to 15 percent by weight in a thermoplastic, up to 140 ° C. electrically insulating carrier material with a

Melting point between 50 and 200 ⁰ C dispersed along with each of the above

is, where the dispersion with the named Tempe materials or combination of materials can

temperature of less than 400 cP with suitable additives, for example plasticizing agents.

shows. means, means to increase elasticity, means for

The toner can consist of liquid droplets or from increasing the toughness or means of improvement

consist of solid particles, but should be used in the carrier - the dispersibility:

material to be practically insoluble. A thermoplastic hydrocarbon terpene-The invention also comprises a method for * o _{R das} ^ _{n M VOQ 6 to g Gew} 4 _ts _ development of electrostatic charge images _{with one of the above} developers using a developer mentioned above. This process consists in improving the developer or wrapped image and reducing its waxy part of the same at least to its like character, melting point and heating the melted ₂₅ different mixtures of chlorinated Biphe developer onto the charge substrate to raise. Here ^ _{UQd pd} ^ _{1 in quantities} ^F _of by means of the loading of toner and carrier material ₆ ^ _{g Weig} ^ _{Dozent one of} continuous stand Eden Entwicklertedchen em visible image ER- _{genann part} developers can be added, and a witness the immediately after completion of the development | _{Increase in} toughness, hardening and a treatment process is automatically fixed and then improving the surface quality of the mostly has a certain gloss. the developed image.

^eis P ^ie If you have more than 4 percent by weight of stearin

A developer according to the invention can add acid to the above developers, see above

Paraffin wax (melting point between 55 and 79 ° C) 35 improves the triboelectric charging of the

and carbon black: toners produced by friction between the toner particles

Finely divided carbon black becomes in the molten developer and the carrier material in the molten developer

Wax in the proportion of 5 parts by weight of carbon black. This will make the electrostatic and 95 parts by weight of wax dispersed. The mi-attraction of the developer particles to the charge dissipation is stirred well until a uniform dis- 40 image is facilitated.

persion is reached, and then to freeze if you have between 12 and 50 percent by weight

cooled down. If such a developer is used again, polyethylene with a melting point of 115 to melted and brought to a charge image, 125 ° C is added to the developer, one sets the viscose effect He a development of this charge image down and sity of the molten developer by electrostatic attraction of the soot particles 45 produces one that is more adherent to the substrate through the loaded image parts. This developer is fig.

creates a smooth, shiny image. The aforementioned or other additives

In this example and in each of the following, aHone or a combination can be used Examples may include the ratio of toner to the electrical properties of the developer carrier changed within wide limits 50 lers or to influence the surface quality will. This ratio depends on the viscosity or the flexibility of the developed image too of the carrier material, of the amount of the charge, change. With such developers, an image can slip away the toner particles assume, are of the size, which have a high degree of flexibility and on the density of the toner particles. A lower quality, resilience and a good shine The limit when using carbon black is a partial 55. A sheet of paper is used as a support A particle size of 0.001 microns and a concentration will not peel off such an image if that of 0.05 ° / »carbon black, an upper limit is paper, for example, is rolled, about 5%. The toner used in the above

Instead of the paraffin wax in the example! carrier materials can be dispersed, can also very many other materials with suitable enamel pigments or dyes contained in the point can be used. These materials can be insoluble carrier materials. Such pigments either used alone or in combination, or dyes are, for example, powdered mews. Some suitable materials are the plum, yellow to brown azo dyes and carbon black, genden: Depending on the particle size, these can

Carnauba wax, the melting point of which is about 65 pigments in the carrier material up to 10 weight -84 ° C, percent of the developer will be dispersed, where

a microcrystalline petroleum wax with a lower weight percentage can be used, depending Melting point from 90 to 94 ° C, the smaller the particle size.

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All of the above in relation to a light-colored body can, for example, be a so-called blade

The underground of darker colored developers can be used as they are used for the production of coatings

refer to as positive developer when paper is used. This blade can be so elec-

negative charge images and around a positive copy irish be charged that a negative image

template is. This means that 5 is created when it is applied, or it can be electrically charged in this way.

of the molten developer, the toner particles from the that the developer particles to the charged

the negatively charged areas of the charge image areas of the charge image are deposited. At

are attracted and deposited on them. In place of a blade you can also go to development

However, the same materials can be used for the material carrying the charge image with a

also achieve an image reversal. This is then possible to bring the heated roller into contact with

borrowed when the development in such is coated with the molten developer. the

electric field makes the toner particles heated roller can either so that a positive,

be charged negatively. In doing so, some of them are stored in such a way that a negative image arises, charged

Toner particles become on the uncharged surfaces of the.

Charge image and therefore generate an ambient 15 The developer can also be in the form of a solid

inverted, visible image. Cake on the surface carrying the charge image

It is also possible to be applied at one of the positives. In this case, in order to bring about a positive development of the charge image, the surface is heated to generate a visible image, if one uses a development up to above the melting point of the carrier winder, the toner particles of which are friction material of the developer, where the solid cake are electrically negative. An example of such a quick move across the heated surface. Developer is as follows: Preferably such a developer has one. Melting point of 6O ⁰ C or less, in order not to the example II electrostatic charge image by heat

4 g of cabbage are destroyed with 30 g of dimethylpolysiloxane 25.

With a toughness of about 2 cP in a ball- You can also get the developer in the form of a

mill in a 50 cm ² glass vessel with a firm cake in connection with a heated one

Steel balls ground for about 40 hours. Use 3 g of the roll. Namely, a heated role takes

Carbon black dispersion is a layer of the molten with 5 g of a plastic on its surface

96% polyvinyl chloride and 4% polyvinyl acetate 30 developer when in with the solid cake

and with 30 g of dimethylpolysiloxane contacted above, and this layer can be applied

named toughness mixed. the charge image can be rolled on. The role will

Other plastics, which are mainly made of poly- for this purpose passed over the charge image, vinyl chloride, and preferably to 90% or where they also exist with a higher number of revolutions, can be driven in place of the above 35 speed than for Plastic can be used. The mixture will roll off as needed. In the latter case is only Again in a ball mill for 16 to 40 hours, the molten developer on the roller in contact grind. The reversal developer then wrestles with the charge image.

produced that the dispersion obtained last Another technique, which is particularly useful for the development

a molten carrier material, d. H. in a 40 winding of charge images on photoconductive

Any of the above materials is useful in paper, is that one is a sheet

dispersed in an amount up to 20 percent by weight. such a paper is used on which

Color developers can similarly produce a thin strip of solid developer lengthways

be asked. The toner from a color developer is located on one edge of the photoconductive surface.

is produced as follows: 45 As soon as an electrical charge

. . image has been generated, one can see the development

Example III of the same _lung quickly bring in that

11 to 14 g of a plastic made of 96% polyvinyl - one heated roller on the said strip

chloride and 4% polyvinyl acetate are applied with 2 g of pigment and then roll over the surface

ment or dye, and 30 g of dimethylpolysiloxane 50 leaves.

in a carrier material in a concentration of up to. Yet another technique is that

dispersed at 20% by weight of the developer. for example a sheet of paper or a sheet of paper

A specific example of a suitable metal dye coated with the developer. This

is: paper or metal sheet is then placed on the elec-

Developer according to Example II or Example III applied 55 tric charge image, the coating of the They can also be used to keep negative images in contact with the paper or metal sheet to make visible when the charge image comes from nega- charge image. Then the paper or tive charges. When this developer heated metal sheet, so that the one on it such a negative charge image supplied developer melts, and then the paper or the developer particles are deposited on the metal sheet again, so that the developed those areas of the charge image which no charge image is exposed. The heater of the paper electric Carry charges. or metal sheet can be conveniently thereby

If developers are used in accordance with the fact that a heated roller is found, an electrical charge image can be developed through it or another heated body over the reverse by guiding the charge image 65 side of the paper or metal sheet,
The following method can be used to bring about agitation on which a thin coating is to produce transparent images: A thin, transde, molten developer is located. The heated parent and insulating sheet is placed on an insulating

rende surface is placed, which carries the charge image. This creates a further charge image (due to the effect of the influence) generated on the top of the applied insulating sheet. This latter charge picture can then be developed in one of the ways described above.

In making such transparencies, the thin, transparent, insulating sheet can be, for example a sheet of a condensation product of ethylene glycol and terephthalic acid with a thickness of about 0.01 mm.

A surprising advantage of the developers according to the invention is that the development and simultaneous fixing of electrostatic images by heating the developer to 50 to 200 ^° C. is possible. In general, it is believed that electrostatic charge images on an insulating surface are destroyed by higher temperatures. The destruction of charges by heat is particularly rapid on photoconductive surfaces. For example, a photoconductive layer of zinc oxide particles in an electrically insulating binder can hold an electrical charge image at normal room temperature for at least 50 minutes, but this time decreases rapidly with increasing temperature, up to the storage time of the charge image at around 60 ° C or higher is reduced only a few seconds. At temperatures of up to 200 ° C., as prescribed by the invention, one would therefore have to expect that the charge image disappears so quickly that it cannot be developed at all. It is not yet fully understood how such charge images can be developed at 125 ° C, for example. It has only been observed that a developer which has been heated to such an extent, on contact with a photoconductive surface, does not heat the carrier of this charge image so far, or not for a sufficiently long period of time, to prevent the deposition of developer particles from the molten developer.

Claims (15)

PATENT CLAIMS: 1. Developer for the electrostatic production of images, characterized in that a fine-grain, insoluble toner is dispersed up to 15 percent by weight in a thermoplastic, electrically insulating carrier material with a melting point between 50 and 200 ⁰ C, the dispersion at said temperatures a Has toughness less than 400 cP. 2. Developer according to claim 1, characterized in that the electrically insulating carrier material consists of one or more thermoplastics or waxes. 3. Developer according to claim 1, characterized in that the electrically insulating The carrier material consists of paraffin wax. 4. Developer according to claim 2, characterized in that the electrically insulating The carrier material consists of 50 percent by weight plastic and 50 percent by weight wax. 5. Developer according to claim 4, characterized in that the plastic is made of polyethylene consists. 6. Developer according to claim 1, characterized in that the toner contains dyes. 7. Developer according to one of claims 1 to 5, characterized in that the toner consists of a colored plastic made of more than 50 percent by weight polyvinyl chloride. 8. Developer according to claim ?, characterized in that the plastic consists of about 96 percent by weight Polyvinyl chloride and about 4 percent by weight polyvinyl acetate. 9. Material for the production of electrophotographic images, characterized in that it consists of a sheet material having an insulating or photoconductive surface extending along a The edge is coated with a strip of a developer according to any one of the preceding claims, consists. 10. Process for developing electrostatic charge images on an insulating or photoconductive surface, characterized in that a solid developer consisting of one in an electrically insulating, thermoplastic carrier material with a melting point between 50 and 200 ° C dispersed, finely divided insoluble toner consists, so heated becomes that at least a part thereof melts, and that the melted developer with one Charge image is brought into contact. 11. The method according to claim 10, characterized in that the solid developer with a heated roller and the latter at the same time on its outer surface while rotating with a das Charge image-bearing surface is brought into contact. 12. The method according to claim 10, characterized in that the developer is in contact is melted with a heated blade and flows towards one edge of the blade, the edge is guided over the surface carrying the charge image. 13. The method according to claim 10, characterized in that the charge image carrying The surface is heated to a temperature between 50 and 70 ° C and at the same time the solid developer is passed over the surface carrying the charge image so quickly that part of the solid developer melts. 14. The method according to claim 10, characterized in that a body on one side is coated with the solid developer, placed with the coated side on the charge image and then heat is applied to the developer coating until the developer melts, whereupon the body is removed again. 15. A method for producing electrophotographic images, characterized in that on an insulating surface bearing along one edge a strip of developer containing the has a melting point between 50 and 200 ° C and consists of an electrically insulating, thermoplastic carrier material consists of dispersed finely divided toner, an electrostatic Charge image generated by the application of a heated strip of developer Roller melted and the charge image by rolling the roller over the charge image is being developed. © 309 767/322 11.63