JPS62232671A - Forming method for light-transmissive color image - Google Patents

Abstract

PURPOSE:To form a color image which is excellent in permeability of light and has a high reproducibility of a color in its projected image, by using an image supporting body having a toner receiving layer consisting of a thermoplastic resin on the surface, and bringing the image supporting body which has formed a color toner image on the toner receiving layer, to a heating roller processing. CONSTITUTION:A toner receiving layer 3 is formed by a thermoplastic resin, but to put it concretely, such a thermoplastic resin of light permeability as it is softened moderately in case of a heating roller processing, and it is allowed that a toner layer T for forming an image part is pressed in and buried is used as the material. It is necessary that a softening point of a toner and the toner receiving layer 3 is lower enough than that of a trapen supporting body 1, and it is required that the softening point of the trapen supporting body 1 is >=30 deg.C, desirably, >=50 deg.C higher than that of the toner. A fact that the softening point of the toner receiving layer 3 is equal to that of the toner or about 10-30 deg.C higher than that of the toner is preferable in respect of preventing a disorder of a fixing property of the toner or an image. Thickness of the toner receiving layer 3 is not limited especially, but its range is 0.1-50mum, and preferably, 2-20mum.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a method of forming a translucent color image, and more specifically, for example, when a color image is projected onto a screen by an overhead projector, It is necessary to use a film on which a translucent color image is formed, and the present invention relates to a method for forming such a color image using color toner.

[Technical background]

At present, overhead projectors for projecting images onto a screen are widely used, and the original film thereof is commonly referred to as a "trapen". This trapen has an image formed on a light-transmissive sheet, but recently there has been an increasing demand for projecting color images, and accordingly, there has been a growing demand for projection of color images. There is a need for a method by which trapenes can be produced relatively easily.

Conventionally, methods of forming such color images using electrophotographic techniques have attracted attention.

In this method, for example, an electrostatic charge image is formed on an electrophotographic photoreceptor according to a normal electrophotographic method, and this electrostatic charge image is developed with a color toner, which is usually formed by dispersing a coloring agent in a binder resin. This is a method in which the color toner image obtained is transferred and fixed onto a light-transmissive sheet for trap pen.

This method can be said to be a very simple and advantageous method since it is possible to form a desired color image using a widely used electrophotographic copying machine as is.

However, when a color image is projected using a trap pen obtained in this way, the image on the screen in the image area formed by color toner becomes very dark, making it difficult to project an excellent color image. Can not.

The reason for this is that, as schematically shown in FIG.
The fixed toner [11] that forms the image area at 0 has considerable irregularities formed on its surface 12, and due to these irregularities, light that should pass through the toner layer 11 is scattered or diffusely reflected. As a result,
It is thought that this is because a sufficient amount of light does not reach the projection screen.Based on this recognition, the following measures have been proposed in the past.

(a) Means for applying liquid transparent polymer synthetic resin on the surface of one layer of toner after fixing, as disclosed in JP-A-59-184361; (B) JP-A-59-184381; As disclosed in the publication, means for smoothing the surface of the toner layer by applying solvent vapor to the surface of the toner layer after fixing (c) Disclosed in JP-A-60-52861 As described above, there are methods of laminating a transparent film on the image surface or smoothing the surface of the toner layer using a pressure roller.However, in any of the above conventional methods, 8) Special equipment is required to achieve the processing, methods (a) and (b) pose dangers due to the use of solvents, and methods (b) and (c) are difficult to form images. Since this method forcibly smoothes the toner layer, there is a problem that the toner layer may collapse and the sharpness of the image may be impaired.

[Problem that the invention seeks to solve]

As described above, in the case of forming a translucent color image using color toner, in order to obtain an image area with good light transmittance, a special device is required. Alternatively, it is possible to solve the problem of introducing new problems or deteriorating the sharpness of the image, and to solve the problem in a very simple manner and without the need for special equipment. It is an object of the present invention to provide a method for forming a translucent color image that can form a color image with high reproducibility.

[Means for solving problems]

In the present invention, in a method of forming a color image using color toner on a light-transmissive image support, an image support having a toner-receiving layer made of a thermoplastic resin on the surface is used, It is characterized in that the image support on which the color toner image is formed on the toner-receiving layer is subjected to heating roller treatment.

According to the present invention, since a light-transmissive image support having a toner-receiving layer made of a thermoplastic resin on its surface is used, one layer of toner is press-fitted and buried in the toner-receiving layer by heating roller treatment. As a result, the surface of the toner layer and the surface of the toner receiving layer form one continuous, flat surface, and the light transmittance of the toner layer is greatly improved, and as a result, For example, when used as a trap pen, a projected image with high color reproducibility can be obtained.

The present invention will be explained in detail below.

FIG. 1 shows an example of an image support used in carrying out the method of the present invention. This image support 1 consists of a light-transmitting base sheet 2 and a toner-receiving layer 3 formed on this base sheet 2.
Thus, this toner receiving N3 forms the surface of the image support 1. As the heath sheet 2, various materials can be used without particular limitation as long as they have high light transmittance and can withstand the heating roller treatment described below. Specific examples include polyester films such as polyethylene terephthalate, polyether sulfone films, and others when used for trapene.

The toner receiving layer 3 is formed of thermoplastic resin,
Specifically, the toner layer T is softened appropriately in the heat roller treatment described later, and is allowed to be press-fitted and buried in the toner layer T forming the image area, as shown in an enlarged view in FIG. A light-transmitting thermoplastic resin is used as the material. Such resins include, for example, styrenes such as styrene and parachlorostyrene; vinylnaphthalene; vinyl esters such as vinyl chloride, vinyl bromide, vinyl fluoride, vinyl acetate, vinyl propionate, vinyl benzoate, and vinyl butyrate. ; Methyl acrylate, ethyl acrylate, n-butyl acrylate, isobutyl acrylate,
Methylene aliphatic carboxylic acid esters such as dodecyl acrylate, 1ln-octyl acrylate, 2-chloroethyl acrylate, phenyl acrylate, methyl α-chloroacrylate, methyl methacrylate, ethyl methacrylate, butyl methacrylate; acrylonitrile; methacrylate; Ronitrile: Acrylamide; Vinyl ethers such as vinyl methyl ether, vinyl isobutyl ether, vinyl ethyl ether; Vinyl ketones such as vinyl methyl ketone, vinyl hexyl ketone; N-vinylpyrrole,
N-vinylcarbazole, N-vinylindole, N-
Resins obtained from monomers such as N-vinyl compounds such as vinylpyrrolidone; polyolefin resins such as polyethylene and polypropylene; polyester resins, polyether resins, and rosins obtained by the reaction of polyhydric alcohols and polycarboxylic acids. Examples include modified phenol-formalin resin, cellulose resin, and other thermoplastic resins.

However, in carrying out the present invention, the thermoplastic resin constituting the toner-receiving layer 3 and the binder resin constituting the color toner used for forming an image have viscoelasticity and refractive index that are similar to or identical to each other. For example, it is preferable that the difference in refractive index between the two resins measured by an Atsube refractometer is 0.2 or less. Regarding transparency, the higher the light transmittance, the more preferable it is, and specifically, it is preferably 90% or more.

Further, it is necessary that the softening point of the toner and the toner-receiving layer be sufficiently lower than that of the trapene support, otherwise the trapene support may be deformed at the fixable temperature. In order to prevent such deformation, the softening point of the TRAPEN support is usually 30°C or higher than that of the toner, preferably 5°C.
It is required that the temperature be higher than 0°C.

The softening point of the toner receiving layer is the same as that of the toner or 10
It is preferable that the temperature is about 30° C. higher in terms of toner fixability or image disturbance.

From the above viewpoint, the most preferable material for the toner receiving layer 3 in the present invention is the same thermoplastic resin as the binder of the color toner used to form an image.

The thickness of the toner receiving layer 3 is not particularly limited, but is in the range of 0.1 to 50 -1, preferably 2 to 20.

In the present invention, an image support having such a toner-receiving layer is used, and a color toner image is formed on this image support using color toner. This is not prohibited.

The toner used in the present invention is a powdered toner in which a colorant is dispersed in a binder resin, and optionally additives are contained therein. That is, the toner used for forming images with a normal electrophotographic copying machine can be used as is.

Specific examples of the resin used as the binder include the same resins as those mentioned above as those that can be used to form the toner receiving layer.

Specific examples of colorants include carbon black, nigrosine dye (C, 1, 50415B), aniline blue (C, 1, 50405B), calco oil blue (C
, 1, azoic [1Iue3), chrome yellow (C, 1, & 14090), ultramarine blue (
C, 1, Fish 77103), DuPont Oil Red (C
, 1, Na26105), quinoline yellow (C, 1
, N147005), methylene blue chloride (C,
I.

ll&152015), Phthalocyanine Blue (C,1
, 11h74160), malachite green offsalate (C,!, 42000), lamp black (C11
, Na7?266), Rose Bengal (C, 1,1m
45435), mixtures thereof, and the like can be used.

In addition to these, the following pigments and dyes can be used as colorants. The following exemplified substances are C and I listed in the color index.

An example of the name number and the corresponding product name is shown.

[Red pigment]

C, 1, Pigment Red 31 (Polymorose FBL, Chemical Industry Association type) C, 1, Pigment Red 84 (Patent Fast Lupine RL, manufactured by Patent Chemicals) C, 1, Big Men Trend 89 (Fanarak Bink RL, GAF (manufactured by Nippon Kayaku) C,! , Bigmen Trend 139 (Kayaset Red E-GR, manufactured by Nippon Kayaku Co., Ltd.) c, r,
Pigment Red 144 (Chromophthal Resod BI?N, manufactured by Ciba Geigy) C, 1, Big Men Trend 149 (PV Fast Trend B1 manufactured by Hoechst) c, r, Pigment Red 166 (Chromophthal Resod BI?N, manufactured by Ciba Geigy) (manufactured by Ciba Geigy)
,1, Big Men Trend 178 (Kayaset Red E-GG, manufactured by Nippon Kayaku Co., Ltd.) C01
, Pigment Red 190 (Fenalax Scaresoto VR, manufactured by GAF) [Yellow pigment] C, 1, Pigment Yellow 6 (Sanyo Fast Yellow 3G, manufactured by Heavyyo Color Co., Ltd.) C
1! , Pigment Yellow 12 (Benzidine Yellow, ε, ■, manufactured by DuPont) C, 1
, Pigment Yellow 13 (Fenarasoku Yellow BX, GAF Corporation! Ri c, r, Pigment Yellow 17 (Risol Yellow 1220, manufactured by BASF) C, 1,
Pigment Yellow 83 (Resol Yellow 1781) [, manufactured by BASF Company] C, t, Pigment Yellow 95 (Chromof Cool Yellow GR, manufactured by Ciba Geigy) [Green pigment] C, 1, Pigment Green 2 (Simure Sox Green) F1 (manufactured by Dainippon Ink and Chemicals) C,1, Pigment Green 7 (Chromofu Cool Green GF, manufactured by Ciba Geigy) C,1, Pigment Green 36 (Fastken Green 2YK, manufactured by Dainippon Ink and Chemicals) [Blue] Pigment] C,1, Pigment Blue 2 ()1 Natone Blue-8, Sansui Shikisha Co., Ltd.) C,1, Pigment Blue 3 (Fanatone Blue 5B, Sansui Shikisha!!l) c, r
, Pigment Blue 9 (Fanatone Blue-6G, manufactured by Sansui Shikisha) C, 1,
Pigment Blue 14 (Halobond Blue RNM, E, L Manufactured by DuPont) C
,1, Pigment Blue 15 (Luiga Light Blue BNS, manufactured by Ciba Geigy) C2
! , Pigment Blue 16 (Luigajin Blue 3GT, manufactured by Ciba Geigy) c, r
, Pigment Blue 60 (Sumiyuki Coat Fast Blue-BS, manufactured by Sumitomo Chemical Co., Ltd.) C,1, Pigment Blue 66 (Microsol Navy Blue URN, manufactured by Ciba Geigy Co., Ltd.) The following organic solvent-soluble dyes can be preferably used. I can list things like:

[Red dye]

c, r, Solvent Red 3 (Orient Oil Brown BB, manufactured by Orient Chemical Co., Ltd.) C, 1, Solvent Red 16 (Olacesotorenod B, manufactured by Ciba Geigy) C,! , Tulben Trend 24 (Orient Oil Red Ill?, manufactured by Orient Kagaku Co., Ltd.) c, r, Tulben Trend 83 (Eisenspiron Resod BE11, manufactured by Odugaya Chemical Co., Ltd.) C, [, Solvent Red 125 (Orazole Red G1) Ciba Geigy Co., Ltd.) C, [, Tulben Trend 179 (Kayacera Trend A-2G, Nippon Kayaku Co., Ltd.) [Orange dye] C, 1, Solvent Orange 2 (Eisen Edible Orange No. 2, Odogaya Chemical Co., Ltd.) C,1,
Solvent Orange 7 (Eisen Food Red No. 5, manufactured by Udougaya Chemical Co., Ltd.) C, 1,
Solvent Orange 37 (Eisen Subiron Orange GR11, manufactured by Odugaya Chemical Co., Ltd.) [Yellow dye] C11, Zurhento Yellow 2 (Orient Oil Yellow GG, manufactured by Orient Chemical Co., Ltd.) C11, Solvent Yellow 14 (Orient Oil Orange PS, manufactured by Orient Chemical Co., Ltd.) (manufactured by Orient Chemical Co., Ltd.) C, 1, Solvent Yellow 16 (Orient Oil Yellow 3G, manufactured by Orient Chemical Co., Ltd.) c, 1. Solvent Yellow 25 (Eisenspiron Yellow 3RH, manufactured by Odugaya Chemical Co., Ltd.) C, 1, Solvent Yellow 60 (Eisen Sviron Yellow G1111, manufactured by Odugaya Chemical Co., Ltd.) C4, Solvent Yellow 77 (Kayacent Yellow G, Nippon Kayaku) (manufactured by Nippon Kayaku Co., Ltd.) [Green dye] C, 1, Solvent Green 3 (Kaya Set Green A-8 + Nippon Kayaku Co., Ltd.) C, 1,
Solvent Green 20 (Sumiplast Green 5G + Sumitomo Chemical Co., Ltd.) C, 1
, Solvent Green 29 (Kaya Set Green 952, manufactured by Nippon Kayaku Co., Ltd.) [Blue dye] C3! , Solvent Blue 4 (Eisen Victoria Blue 8 base, manufactured by Udogaya Chemical Co., Ltd.) C, 1, Solvent Blue 49 (Orazol Blue BLN, manufactured by Ciba Geigy Co., Ltd.) C1
1, Solvent Blue 83 (Kaya Set Blue A-2R, manufactured by Nippon Kayaku Co., Ltd.) C, 1,
Solvent Blue 86 (Sumiplast Blue 3R, manufactured by Sumitomo Chemical Co., Ltd.) [Indigo dye] C,1, Solvent Violet 1 (Orazole Violet 38N1 Ciba Geigy Co., Ltd. C0)
! , Solvent Violet 21 (Eisenspiron Violenoto R11, manufactured by Odugaya Kagaku Co., Ltd.) In order to form a color toner image on the image support using the above-mentioned color toner, various conventionally known methods can be used. However, in accordance with the method of forming a copy image using normal electrophotography, an electrostatic latent image is formed by applying an electrostatic charge to a photoconductive photoreceptor and then projecting a light image of the original. It is preferable to use a method in which the image is developed with color toner to form a color toner image, and this color toner image is transferred, for example electrostatically, onto the toner receiving layer of the image support.

The image support on which the color toner image has been formed in this way is sent to a heating roller device, and the image support is subjected to heating roller treatment by passing through the heating roller device. Here, the heating roller device is composed of a pair of rollers that are pressed against each other, and one of the rollers is, for example, a heat roller that is made of a metal cylinder with an elastic rubber layer formed on its outer circumferential surface and a heater arranged in the hollow part of the cylinder. The other roller is a metal pressure roller having an elastic rubber layer formed on its outer peripheral surface, and this pressure roller is pressed against the heat roller by a suitable mechanism. Note that such a heating roller device is normally used as a fixing device in an electrophotographic copying machine.

When the heat roller treatment as described above is performed, a single layer of toner is melted and fixed on the image support on which the color toner image is formed, but in the present invention, the image support is made of thermoplastic resin. Since the color toner image is formed on this toner receiving layer, when the toner passes through a heating roller device, one layer of toner melts and the toner receiving layer softens. As shown in FIG. 2, the final color image obtained is one in which a single layer of toner T is press-fitted and buried in the toner-receiving layer 3, and its outer surface is entirely It becomes one plane shape.

In this way, the color image obtained by the method of the present invention is
As shown in Fig. 2, for example, most of the light incident from the base sheet 2 side is projected in the same direction, and therefore the light transmittance in the single layer of the toner is high. Therefore, the projected image has extremely good color reproducibility.

On the other hand, when an image support without a toner-receiving layer is used, even if the color image can be fixed by some means, as shown in FIG. Since the toner is in a raised state on the support L, the incident light is scattered in many different directions on the surface of the toner layer, as shown by L, for example, resulting in a high light transmittance. I can't.

As described above, the toner layer T is buried in the toner receiving layer 3, but since the toner receiving layer is softened at that time, the toner IT is crushed during the heating roller treatment. Therefore, there is almost no possibility that the sharpness of the image will be impaired.

In addition, in the method of the present invention, since the color toner is fixed to the toner receiving layer made of thermoplastic resin, the fixing of the toner is easy and reliable.
The so-called hot offset phenomenon, in which a portion of the toner adheres to the heat roller and stains the subsequent processing object, is less likely to occur, which eases the conditions required for heat roller processing and reduces the offset required for the toner used. The degree of prevention is relaxed. Furthermore, since the toner layer is reliably adhered to the image support, the finally obtained color image, such as traben, has extremely high durability and storage stability.

Furthermore, the method of the present invention does not require any special equipment. That is, in order to form a color toner image on an image support, ordinary electrophotography can be used as is, and although heating roller treatment is required after the formation of the color toner image, this treatment can be performed using ordinary methods. There is virtually no difference between the heating roller fixing process that is required when forming color toner fixed images, and therefore it is exactly the same as the method of forming a copy image by ordinary electrophotography.
This is very advantageous because a normal electrophotographic copying machine equipped with a fixing heating roller device can be used as it is.

〔effect〕

As described above, according to the method of the present invention, when a translucent color image is formed using color toner, it is possible to form a translucent color image without requiring any special equipment, without causing any new problems, or without creating an image. Without sacrificing the sharpness of the image, it is very easy to use, for example, electrophotography, to create a color toner that has excellent light transmission in one layer, high color reproducibility in the projected image, and high durability. A color image can be formed.

〔Example〕

Examples of the present invention will be described below, but the present invention is not limited thereto. Note that "parts" represent parts by weight.

Example 1 <Preparation of image support> A biaxially stretched polyethylene terephthalate film having a thickness of 100 mm was used as a base sheet, and the following polyester resin A (dichloromethane) was applied to the surface of the base sheet. By applying 8 liquids and drying them, a toner-receiving layer having a thickness of 5 layers was formed to prepare an image support.

Polyester 1 fat A 229g of terephthalic acid and polyoxypropylene (2,
2) A product with a chloroform insoluble content of 8% and a softening point of 117°C, obtained by mixing 211 g of -2,2-bis(4-hydroxyphenyl)propane and 82 g of pentaerythethol and reacting at a temperature of 200°C. Preparation of polyester resin developer) Preparation of color toner Using polyester A as described above as a binder resin, a red toner was obtained in the following manner.

Binder resin: 100 parts Colorant: rpv Fast Red [lJ 5 parts M type 7FI: Polypropylene "Viscol 660PJ
(Manufactured by Sanyo Kasei Co., Ltd.) Red toner powder particles with an average particle size of about 12 mm are obtained by pre-mixing two or more parts of the mixture in a Henschel mixer, melting and mixing in an extruder, cooling, finely pulverizing, and classifying. Hydrophobic silica rR-972J is added to 100 parts of this toner powder.
(manufactured by Nippon Aerosil Co., Ltd.) was added to produce a red toner.

A well-known spira coater was used to coat styrene-acrylic copolymer resin on the surface of spherical copper-zinc ferrite particles (manufactured by Nippon Tetsuko Co., Ltd.) with an average particle diameter of 90 prn to a thickness of 1 pn. An insulating carrier was obtained.

A developer was prepared by mixing 5 parts of a red toner with a repellent color or higher and 100 parts of a carrier.

(Formation of color image) An electrophotographic copying machine rU whose developing device is filled with the above developer
- Using Bix 1800J (manufactured by Konishiroku Photo Industry Co., Ltd.), a toner image is formed on the photoreceptor, this toner image is transferred to the image support, and processed by the mounted heating roller device to form a red image. A trapene having the following was produced.

The heating roller device installed in the above-mentioned electrophotographic copying machine includes a heat roller having a surface layer made of Teflon (polytetrafluoroethylene manufactured by DuPont) and a
-7 Rubber rKE-1300RTVJ (manufactured by Shin-Etsu Chemical Co., Ltd.) A rubber layer is covered with a Teflon tube to fix the toner image. The temperature was 200° C., and the linear velocity was 200+m 2 /sec.

Regarding the color image of the tiger pen obtained as described above, the spectral if ratio of red light with a wavelength of 600 nm was measured using a spectrophotometer, and it was found to be 65%.

Furthermore, when the Trapen was set on an overhead projector and projected, an extremely clear red image was projected on the screen.

Comparative Example 1 Example 1 was repeated, except that the polyethylene terephthalate film used as the base sheet in Example 1 was used as it was as an image support without forming a toner-receiving layer.
A trapene having a red image was produced in exactly the same manner as described above.

Regarding the color image of the tiger pen thus obtained, the transmittance of red light with a wavelength of 600 r+m was measured in the same manner as in Example 1, and it was found to be as low as 30%.

Furthermore, when this 1-year-old pen was set on an overhead projector and projected, the image portion of the projected image on the screen was a brownish color with low brightness and chroma.

[Brief explanation of drawings]

FIG. 1 is an explanatory sectional view showing the basic structure of an image support used in the method of forming a translucent color image of the present invention, and FIG. FIG. 3 is an explanatory cross-sectional view of an image using an image support without a toner-receiving layer, and FIG. 4 is an explanatory cross-sectional view of a conventional color image. It is a diagram. 1... Image support 2... Base sheet 3...
Toner receiving layer T...Toner layer 10...Trapen
11...Toner layer 12...Surface

Claims (1)

[Claims] 1) In a method for forming a color image using color toner on a light-transmitting image support, an image support having a toner-receiving layer made of a thermoplastic resin on the surface is used, and the toner-receiving layer is A method for forming a translucent color image, which comprises treating an image support on which a color toner image is formed with a heating roller.