JP2713568B2 - Transparent recording film - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a transparent recording film that can be printed as a film for various cards, slips, labels, and overhead projects and recorded by various printers, for example. . [Prior art] For various cards, slips, labels, etc., the frame pattern, ruled line, product name, own address and company name, etc. are printed in advance on the surface of plastic film or paper, and the lot number is Record individual information such as date of manufacture, bar code, etc. Recently, a wire dot printer, a thermal transfer printer, or an ink jet printer as an output means of a word processor or a personal computer is often used for recording the information. Therefore, it is necessary that a plastic film or paper as a recording medium be easy to print and be easily recorded by these printers. Generally, paper has good printability and is adaptable to various printers, but cannot be used for papers requiring water resistance, strength, transparency, and the like. In that respect, a plastic film is excellent, but printing is difficult or some printers cannot record. Among printing, gravure printing, flexogravure printing, screen printing, etc. are relatively easy to print, but these printings are expensive in plate making cost, workability is poor, gradation of printed images is poor, images are unclear. There were some drawbacks such as the tendency to become Offset printing, on the other hand, can make plate making cheaply and easily,
The gradation of the image is good and clear. For this reason, it is preferable that printing can be performed on a plastic film by offset printing. However, in offset printing using ordinary ink, drying and curing of the ink are extremely slow, so printing on a plastic film is difficult. In order to facilitate printing on a plastic film, there is one in which a microporous (porous) modified layer is formed on the surface of the film to impart ink absorbency, but the transparency is impaired. [Problems to be Solved by the Invention] However, recently, recording means such as printing has become diversified, and a conventional plastic film having a modified layer formed on a surface, which can cope with many recording means. However, a transparent recording film has been strongly desired. Examples of the recording means include various types of printing described above including offset printing, printing by a wire dot printer, printing by a thermal transfer printer, and the like. The present invention has been made in view of the above, is a versatile transparent film that can support a variety of recording means, at the same time generally required scratch resistance, stain resistance, as a recording film,
An object of the present invention is to provide a film excellent in slipperiness and the like. [Means for solving the problems] The versatile transparent recording film of the present invention for solving the problems, at least one side of the plastic film,
Provided is an ink fixing layer formed by applying a mixed solution containing carboxy-modified styrene-butadiene copolymer latex and colloidal silica having an average particle diameter of 3 to 100 μm as main components and mixed with silica powder of 2 to 20 μm. The weight ratio of the resin component of the carboxy-modified styrene-butadiene copolymer latex to the silica component of the colloidal silica is 100: 15 to 100: 150. The plastic film as the base material may be transparent as long as it becomes a base film, for example, a polyester film, a polyolefin film such as a polyethylene film or a polypropylene film, a polycarbonate film, a triacetate film, a polyether sulfone (PES) film, There are various acrylic films and cellophane films including polyetheretherketone (PEEK) film, vinyl chloride film, and methyl methacrylate. Among them, polyester films, hard vinyl chloride, polypropylene films and triacetate films are preferred. A plastic film having improved adhesion with the ink fixing layer by a sinking treatment may be used. Among the components constituting the ink fixing layer, a carboxylated modified styrene-butadiene copolymer has particularly excellent ink fixing properties.By adding colloidal silica, heat blocking resistance, wet heat blocking resistance, and scratch resistance are improved. Can be improved. Colloidal silica has an average particle diameter of silica of 3 to 100.
Mm. In the drying step after the coating, the silica particles are dehydrated and condensed to form siloxane bonds, thereby increasing the hardness of the coating film while forming a microporous structure and improving the scratch resistance of the surface of the ink fixing layer. By mixing silica sol, the heat blocking property of the ink fixing layer,
Moist heat blocking resistance is also improved. Further, the lowering of the electric resistance value of the surface is also effective in preventing triboelectric charging. By adding a very small amount of silica powder having a particle size of 2 to 20 μm, the surface friction coefficient is reduced, and the running property of the film during offset printing is improved in combination with the function of colloidal silica. If the silica component of the colloidal silica is 15 or less with respect to the resin component 100 of the carboxy-modified styrene-butadiene rubber latex, the effect of mixing the colloidal silica hardly appears. If it is more than 150, the ink fixing layer will be whitened or cracked, resulting in poor film formation and brittle coating. Further, the suitability for dampening water is deteriorated, and the suitability for offset printing is impaired. As a method of mixing these two components, the coating solution may be adjusted simply by mixing and stirring the two components, but the colloidal silica is converted into an organic resin in the form of Si-OR (R is an organic resin). Colloidal silica may be mixed in the form of a complex chemically bonded to the silica. Further, a form in which colloidal silica is further mixed into the colloidal silica composite may be used. The main components of the ink fixing layer are, as described above, a carboxy-modified modified styrene-butadiene copolymer and ultrafine silica. Further, if necessary, other resin components (for example, polyester) may be used for the purpose of improving scratch resistance. Resin, polyvinyl chloride resin, polyvinyl acetate resin, polyvinyl alcohol, cellulose derivative, melamine resin, isocyanate cross-linked resin). The thickness of the ink fixing layer is 1
It is required to be about μm or more, and 25 μm or more is unnecessary. Preferably it is about 3 to 10 μm. [Action] The recording film of the present invention is provided with the above-mentioned ink fixing layer on the surface, and has the adhesion (wetting) of the printing ink,
Good absorbability and dry curability. For example, in offset printing ink, it is considered that the solvent component in the vehicle is absorbed or evaporated and the drying oil undergoes oxidative polymerization, and it takes a long time to complete the oxidative polymerization and dry and cure. The ink is strongly retained in the ink fixing layer on the film surface, and the solvent component is absorbed by the ink fixing layer, and the viscosity of the ink is sufficiently increased. Therefore, the setting of the ink is fast, and the drying and curing due to the oxidative polymerization of the drying oil is not performed. Even when the films are perfectly stacked, they do not stain. Printing with a wire dot printer, printing with a thermal transfer printer, and writing with an oil-based pen are easy. For example, the ink component of the ink ribbon of the wire dot printer is a vehicle (non-drying oil, mineral oil, higher fatty acid, high boiling point hydrocarbon),
It is composed of a colorant (pigment, dye), a surfactant and the like so that the ink does not dry on the ribbon. Therefore, drying and curing by oxidative polymerization cannot be expected, and it is carried out by osmotic drying. The ink fixing layer of the recording film of the present invention has an effect of well absorbing and fixing the above ink components of the wire dot printer. The thermal transfer printer transfers a hot-melt ink applied on a film of about 2 to 6 μm to recording paper while melting it with a thermal head. The ink fixing layer of the recording film of the present invention is a thermal transfer printer. Has the effect of improving the adhesion to the hot-melt ink. By mixing the colloidal silica into the coating component constituting the ink fixing layer, when the coating component is dried and formed into a film, the hydroxyl groups of the colloidal silica are dehydrated and condensed to form a siloxane-bonded Si-O-Si. Creates a strong three-dimensional network structure. Therefore, the hardness of the coating film on the surface of the ink fixing layer is increased, and the scratch resistance is improved. In addition, since colloidal silica is mixed in the ink fixing layer, when the films are stored in a large stack, even if left in a high-temperature or high-temperature and high-humidity environment for a long time, the films do not stick to each other and a blocking phenomenon does not occur. . Thus, heat resistance and wet heat resistance are also remarkably improved. Further, by incorporating colloidal silica, the electric resistance value of the surface of the ink fixing layer can be reduced by 1/10 to 1/100, and a trouble caused by static electricity generated by frictional charging can be prevented. The colloidal silica to be mixed has a small particle size of 3 to 100 μm, and forms a microvoid structure. Therefore, since the wavelength is sufficiently smaller than the wavelength of 400 to 700 mm in the visible light portion, the transparency of the coating film does not decrease due to light scattering. Furthermore, the ink adsorption effect of silica can be expected. Examples Examples of the present invention will be described below. The comparative example is an example to which the present invention is not applied. Example 1. Carboxy-modified styrene-butadiene copolymer latex (JSR-0692, solid content 48%, Nippon Synthetic Rubber Co., Ltd.)
60 parts colloidal silica (Cataloid SI-40, solid content 41%,
Catalyst Kasei Kogyo Co., Ltd.) 40 parts Fine powdered silica (Syloid 404, average particle size 9 μm, manufactured by Fuji Devison Chemical Co., Ltd.) 1 part A polyester film (100 μm thick) is coated on one side using a reverse roll coater and dried in a 130 ° C. drying oven.
Dry for minutes. On the resulting film, an ink fixing layer of 7 μm consisting of about 100: 60 weight ratio of carboxy-modified styrene-butadiene copolymer and silica was formed. Comparative Example 1. Carboxy-modified styrene-butadiene copolymer latex (JSR-0692, solid content 48%, Nippon Synthetic Rubber Co., Ltd.)
100 parts Fine powder silica (Syloid 404) 1 part Water A comparative film 1 having an ink fixing layer of 7 μm formed in the same manner as in Example 1 except that an aqueous paint composed of 40 parts was used.
I got Comparative Example 2. Transparent polyester film having a thickness of 100 μm (Example 1)
(Same as the one used for the base film). The three kinds of films of Example 1 and Comparative Examples 1 and 2 are cut into a predetermined size to obtain a single-wafer film. The sheet film is applied to an offset printing machine using a lithographic printing process ink to actually perform multicolor printing. In addition, printing by a wire dot printer and printing by a thermal transfer printer are performed, and the suitability of each is evaluated. The transparency (total light transmittance, haze degree, JIS K 6714) of each film was measured, and the scratch resistance, heat blocking property,
The wet heat blocking resistance was also evaluated. Incidentally heat blocking resistance, a load of 100 g / cm ² by superimposing the ink fixing layer surface of a commercially available copy paper and the film, 60
After leaving for 72 hours under the condition of absolute dryness at ℃, it was determined whether the peeling state of the copy paper and the film and the transparency of the ink fixing layer were not impaired. The moisture and heat blocking property was determined by applying a load of 100 g / cm ^{2 on} the copy paper and the surface of the ink fixing layer of the film, and applying a load of 72 g at 40 ° C. and 85% RH.
After leaving for a while, a similar decision was made. Table 1 below shows the evaluation results. [Effects of the Invention] As described above, the recording film to which the present invention is applied exhibits good absorptivity and good fixability to various types of printing, printing by various printers such as a wire dot printer, and a thermal transfer printer. By mixing colloidal silica, the general properties of a transparent recording film such as heat blocking property, moisture and heat blocking property, scratch resistance, stain resistance, and slipping property have been significantly improved without impairing transparency. is there. The printed matter using the film of the present invention has excellent properties of beautiful finish and high print strength after printing. Therefore, the recording film of the present invention can be used for various purposes such as various cards, slips, labels, films for overhead projects, and has versatility.
Each characteristic will be fully exhibited.

   ────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Hiroyoshi Midaigawa               1140 Kamiokutomi, Sayama City Dynic shares               Inside the Tokyo factory (72) Inventor Jun Arikawa               3-1-1 Higashiikebukuro, Toshima-ku, Tokyo               Co., Ltd. Tokyo Head Office                (56) References JP-A-61-280983 (JP, A)                 JP-A-61-144394 (JP, A)                 JP-A-52-107306 (JP, A)

Claims (1)

(57) [Claims] On at least one side of the plastic film, carboxy-modified styrene-butadiene copolymer latex,
An ink fixing layer formed by applying a mixed solution containing colloidal silica having an average particle diameter of 3 to 100 μm as a main component and silica powder of 2 to 20 μm is provided, and the carboxy-modified styrene-butadiene copolymer is provided. The weight ratio of the resin component of the latex to the silica component of the colloidal silica is
100: 15 to 100: 150, a versatile transparent recording film.