JPS6013171B2 - Electrostatographic developer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a semi-dry ink-like electrostatographic developer.

Ordinary electrostatic photographic developers are made by physically or chemically bonding resins, oils, surfactants, etc. to pigment or dye particles that control their polarity and provide dispersibility and fixing properties. The toner is dispersed in a highly insulating carrier liquid.

The toner is uniformly dispersed in the raccoon body fluid and exhibits positive or negative polarity, and upon development, it adheres to the latent image surface in accordance with the polarity of the electrostatic latent image on the photosensitive layer, forming a visible image. The performance of such liquid developers is significantly affected by the materials used, but in particular, because they use solvents, they tend to seep into the copy paper and cause bridging. There are drawbacks such as background smearing due to diffusion, and also low image density due to small toner particles and low toner content. In contrast to such wet-type developers, there are dry-type developers, which do not have the above disadvantages, but because it is necessary to apply heat or pressure for fixing, the copy speed is lower.
This restriction occurs and has the disadvantage of increasing costs.

The present invention aims to eliminate the drawbacks of the above-mentioned wet-type and dry-type developers. 0.5 to 30 parts by weight of curing agent and 20 parts by weight of solvent
This is an electrostatic photographic developer characterized in that it contains ~75 parts by weight. Additionally, ink varnish may be added to the above. In the present invention, pigments such as carbon black and dyes are used as the coloring agent, as in the past. Examples of resins include styrene resin, styrene-butadiene resin, vinylene-butadiene resin, styrene-cellulose resin, styrene-acrylic resin, silicone resin, epoxy resin, acrylic resin, methacrylic resin, cellulose resin, polyethylene resin, Polypropylene resin, vinyl chloride resin, vinyl acetate resin, vinyl chloride-vinyl acetate resin, synthetic rubber, etc. are used. It is particularly effective to use linear polymers alone or in combination with other resins. Furthermore, as resins, polyethylene, polypropylene, silicone resins, pyrotechnic resins, etc. with an SP value of about 80 or less, polystyrene, styrene-butadiene copolymers, styrene-acrylic copolymers (all with a styrene content of 80% or more), Epoxy resins, urethane resins, ethyl cellulose, polyvinyritene chloride, polyesters, nylons, phenolic resins, polyvinyl chloride, and the like having an SP value of about 9.0 or more are effective for forming the semisolid developer. If the resin has an SP value of 8.0 to 9.0, when using a photoreceptor containing a photoconductor such as zinc oxide, the SP value of this photoreceptor will also be close to 8.0 to 9.0. , resin easily adheres to non-image areas where there is no electrostatic latent image, and there is a tendency for background smearing to occur. The solvent used is a high-boiling point isoparaffinic solvent (Esso Chemical Co., Ltd., Isopar L).
, M, etc.), silicone oil (Shin-Etsu Chemical, KF-9
6KF-50, etc.) and other liquid paraffin. A gelling agent is a type of thickener that usually has the effect of increasing viscosity, and it has the effect of immobilizing the solvent together with the pigment and preventing it from coming out.
2. Fine powder of inorganic oxides such as AI203, CnC03, and Zn○, metal soaps such as aluminum stearate and manganese naphthenate, commercially available gelling agents (e.g., manufactured by BC Chemical Co., Ltd., Gel All D, and Kusumoto Kasei Co., Ltd.) , Tisparon #305, #4110) special surfactants. Furthermore, if necessary, it is possible to appropriately contain additives used in electrophotographic developers, such as polarity control agents. And as a varnish for printing ink,
A mixture of vegetable oil (30-50%), mineral oil (20-35%) and rosin-modified phenolic resin (30-40%),
Alternatively, a material in which silicone resin is added to this, or a material in which silicone resin and epoxy resin are added is used.

To make the developer of the present invention, for example, all the components may be mixed at the same time and kneaded with a roll, but first the colorant, resin, and solvent are mixed in a ball mill, and then a gelling agent or printing ink is added to the mixture. You may also mix three or four wires together by adding a varnish.

The proportions of the material components used in the developer of the present invention may vary depending on the types of components, but the gelling agent is 0.5 to 30 parts by weight, the solvent is 20 parts by weight, and 10 parts by weight of the final product developer.
~75 parts by weight is suitable, and preferably 10 to 5 parts by weight for the resin and 1 to 2 parts by weight for the colorant.

By using a gelling agent and a solvent in combination within the above range, it is effective to form a semi-solid developer, and free solvent does not increase wetting and cause scumming. , there are no defects such as poor fixing or poor coloring. According to the present invention, due to the action of the gelling agent, the polymers of the resin used are bound together, and the carrier liquid is encapsulated between the polymers, and there is no free solvent, so that the copying paper is removed from the developer. There is no control over getting wet due to
No staining occurs.

Furthermore, the toner density can be increased and images with good contrast can be obtained. In addition, the varnish for applied ink has the properties of printing ink, does not require a particular fixing process, can increase copying speed, and is inexpensive. Next, examples of the present invention and comparative test results will be shown.

Example 1 Force-pump rack (Mitsubishi Kasei #40) 1 part styrene-butadiene (85/15) copolymer (Goodyear, Flyolite S-Hiro) 1 part styrene-butadiene resin (manufactured by AA Chemical) , Solpren 1205
) 5 parts manganese naphthenate
0.2 parts isoparaffinic solvent (
Manufactured by Esso Chemical Co., Ltd., Isopar)
3 Foundation part The above composition was dispersed in a ball mill for 4 m, and finely powdered silica (manufactured by Nippon Erosil, A
erosil) was added thereto and kneaded with three rolls to obtain a lees-like developer.

Example 2 Low molecular weight styrene coated carbon (Esso Chemical/Mitsubishi Kasei Picolastic A-75/MA-11 = 9/1)
7 parts vinyltoluene-acrylic resin (Goodyear, Briolite VTAC)
1 part styrene-butadiene resin (Solprene 1205, manufactured by AA Chemical Co.)
0.5 part isoparaffinic solvent (manufactured by Esso Chemical Co., Ltd., Isobar One Day) 25
1 part powdered ethyl hydroxyethyl cellulose 5 parts The above composition was kneaded with three rolls to obtain a viscous maple-like developing agent.

Example 3 Carbon black (Mitsubishi Kasei MA-11) 1. Vinyltoluene-acrylic resin (Goodyear, Briolite VTAC) 5-part styrene-butadiene resin (AA Chemical, Solprene 1205)
) 5 parts isoparaffinic solvent (
Manufactured by Esso Chemical Co., Ltd., Isopar)
3. Mix the above composition in a pole mill for 2 hours, and add fine powder silica (manufactured by Nippon Aerosil) to the mixture. 3. Printing ink varnish
1 was added and kneaded with three rolls to obtain a developer.

Example 4 A developer was manufactured in the same manner as in Example 4 using the following materials.

Carbon black 5 parts Phthalocyanine 5 parts Low-molecular polystyrene resin (manufactured by Esso Chemical Co., Ltd., Picolastic A-5) 5 parts styrene-cellulose resin (manufactured by Goodyear Corporation, Priorite AC-3)
5 parts isoparaffinic solvent (manufactured by Esso Chemical Co., Ltd., Isopa-1M)
Varnish for printing ink in the third anchor section
3 foundation epoxy resin
1. A development test was conducted using the developer according to 4 examples of 1. Ikari Gun Silicone Resin 4.

The developing conditions are: ■Ricoh BS 1-0 copying machine, Shigeru 220
A zinc oxide photoreceptor with a diameter of 3 mm is used as the developing roller.
The weight is 1100mm and the development speed is 15mm/s.
ec. And so. As a comparative example, BS-4 manufactured by Ricoh Co., Ltd.
A developer using the toner 1M' finish for summer photo machines of No. 5 was tested. The results are shown in the table below.

Claims (1)

[Scope of Claims] 1. In an electrostatic photographic developer containing a colorant, a resin, a gelling agent and a solvent, 0.5 to 30 parts by weight of the gelling agent and 20 to 75 parts by weight of the solvent based on 100 parts by weight of the whole. An electrostatic photographic developer comprising: 2. In an electrostatic photographic developer containing a colorant, a resin, a gelling agent, an ink varnish, and a solvent, 0.5 to 30 parts by weight of the gelling agent and the solvent 2 are added to 100 parts by weight of the whole.
An electrostatic photographic developer characterized by containing 0 to 75 parts by weight.