JPH0526675B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a transfer body for heat-sensitive recording used for recording by thermal transfer, and in particular to a transfer body effective for high-thermal energy recording such as using a sublimable dye as a coloring material. be.

Structure of conventional example and its problems The transfer body for thermal recording (hereinafter abbreviated as transfer body) is
There are wax methods and sublimation dye methods, depending on the constituent material of the coloring material layer. The wax method is currently in practical use, and its substrate is made of condenser paper or polyethylene terephthalate film.

On the other hand, the sublimation dye method is significantly superior to the wax method in reproducing midtones, so studies are currently underway to put it into practical use.
The substrate requires 2 to 3 times more recording heat energy, and polymer film with almost no density unevenness is more effective in reproducing halftones than condenser paper, which has large density unevenness. A necessary condition is to use a polymer film that can withstand the amount of heat.

However, when the inexpensive and general-purpose polyethylene terephthalate film substrate currently used in the wax method is applied to the sublimation dye method, it exhibits a phenomenon called stick, which adheres to the thermal head and makes it impossible to run. Further, in the case of the wax method, even when the amount of applied heat is increased in order to improve the recording speed, a sticking phenomenon occurs similarly to the above, and the transfer member cannot run stably over the thermal head.

In addition, because there are minute irregularities of several micrometers near the heating element of the thermal head, the polymer composition or additives are scraped off by the uneven pressure between the platen and the thermal head, and accumulate on the heating element, causing image damage. It has been found that print dropouts may occur in some cases.

Purpose of the invention The present invention solves the above-mentioned conventional drawbacks,
The purpose of the present invention is to provide a transfer member with excellent running stability without image dropouts.

Structure of the Invention The present invention is a transfer body for thermal recording, which has a polymer composition containing fine particles and a liquid lubricant substance and using a thermosetting resin as a binder on the lower surface of a base.

Due to the presence of fine particles in the polymer composition, the surface of the polymer composition is microscopically roughened, the contact area with the thermal head is reduced, and the polymer composition is scraped off even by uneven heating elements. do not have.
Furthermore, the liquid lubricant and thermosetting resin maintain running lubricity and heat resistance for the thermal head. As a result, no deposits are formed on the heating element, so dropouts do not occur and running stability is achieved.

Description of examples Examples of the present invention will be described below.

An example of the structure of a transfer body is shown in the figure as an embodiment of the present invention. In the figure, the transfer body includes a substrate 1, a coloring material layer 2, and a polymer composition 3.

Polymer composition 3 contains a thermosetting resin containing fine particles and a liquid lubricant. The material of the fine particles is not particularly limited, and various inorganic particles can be used. Examples include graphite, carbon, molybdenum disulfide, silica, alumina, titanium oxide, zinc oxide, calcium carbonate, aluminum carbonate, and the like.

In particular, when the fine particles themselves exhibit lubricity, they are advantageous as additive fine particles because excellent running stability can be obtained.

Further, it is desirable that the fine particles have better heat resistance than polyethylene terephthalate. The blending ratio may range from 0.1 to 100 parts by weight, preferably from 5 to 100 parts by weight, based on the polymer composition.

As for the size of the fine particles, the smaller the particle size, the less the influence on the image quality, and it is particularly preferable that the average particle size is 6 μm or less, preferably 0.1 μm or less, since dropout hardly occurs.

The liquid lubricating substance contained in the polymer composition is
Any substance may be used as long as it exhibits lubricity in a liquid state at room temperature and pressure, such as various silicone oils having dimethylsiloxane bonds. In particular, modified silicone oil is preferred because of its high lubricity.

Various thermosetting resins can be used as the binder of the polymer composition. Thermosetting resins have good adhesion to substrates and heat resistance, and in particular, cured oligoacrylates exhibit excellent properties.

In addition, since the photocurable resin is easily cured in a short time, it is easy to produce a long transfer body and exhibits good characteristics.
For example, a photocured product of the above-mentioned oligoacrylate or a photocured product of an epoxy resin using an aromatic diazonium salt catalyst are excellent.

Color materials include colored pigments, dyes, and color formers.

As the sublimable dye, it is possible to use a dye that starts to sublimate or evaporate at a temperature of 300° C. or lower, such as basic dyes and disperse dyes.

The substrate of the present invention is not particularly limited as long as it is a polymer film, and examples thereof include polyester polymers such as polyethylene terephthalate, polyethylene naphthalate, and polycarbonate, amide polymers such as nylon, acetyl cellulose, and cellophane. Cellulose polymers, polyvinylidene fluoride, tetrafluoroethylene-hexafluoropropylene copolymer, fluorocarbon polymers such as Teflon, polyether polymers such as polyoxymethylene, polyacetal, polystyrene, polyethylene, polypropylene, methyl Olefinic polymers such as pentene polymers, imide polymers such as polyimide, polyetherimide, etc. can be used.

In particular, polyester-based polymers are useful because they are thin, have a certain degree of heat resistance, and are inexpensive.

This will be explained in more detail below.

Example 1 A 12 μm thick polyethylene terephthalate (hereinafter abbreviated as PET) film was used as the substrate. An epoxy acrylate resin (viscosity 150 poise) having the following molecular structure A is placed on the bottom surface of this film. A resin prepared by mixing benzyl dimethyl ketal, stearic acid monoglyceride, modified silicone oil (L-7500 manufactured by Nippon Unicar Co., Ltd., hereinafter the same) and methylene chloride as a sensitizer in a weight ratio of 20:1:0.4:0.3:100, respectively. A liquid was prepared. This resin liquid is referred to as a.

Next, epoxy acrylate resin, benzyl dimethyl ketal, furnace carbon with an average particle size of 200 Å, L-7500, and methylene chloride were mixed in a 20:1 ratio.
The resin liquid mixed at a weight ratio of 0.2:0.3:100 is
shall be.

After each resin solution a and b was applied to the lower surface of a separate PET film using a wire bar, the methylene chloride was evaporated with hot air at 60°C, and the film was cured by irradiation with a 1KW high-pressure mercury lamp.

Next, 2 parts by weight of a dye represented by the molecular structure B below, 4 parts by weight of polycarbonate, and methylene chloride.
A transfer body was prepared by applying 100 parts by weight of ink to the upper surface of PET, which had been cured by coating the lower surface of each of the above resin liquids, with a wire bar, and then drying with hot air at 60°C. The transfer bodies coated with resin liquids a and b are referred to as a' and b', respectively.

Each of the transfer bodies was recorded on A-5 plate activated clay coated paper under the following thin film type thermal head recording conditions.

Linear density of main and sub-scanning: 4 dots/mm Recording power: 0.7 W/Dot head heating time: 8 msec Recording area: A-5 plate As a result of printing 5 sheets of activated clay coated paper for each transfer body, A' had dropouts that caused white lines on the images from the second sheet onward, but b' ran well without any dropouts.

The above results also show that wax type (melting type)
Similarly good characteristics were shown in the case of ink transfer bodies and thick film thermal heads.

Note that as a structure of the transfer body, an undercoat layer may be provided on the upper and lower surfaces of the substrate, and a coloring material layer and a polymer composition layer may be formed thereon.

Effects of the Invention As described above, the heat-sensitive recording transfer body of the present invention can be applied to low heat-resistant films such as polyester films, which conventionally could not be used for high thermal energy recording.
It improves the running stability of backcoated films against thermal heads, and can be particularly used to improve the recording speed of sublimable dyes and various transfer materials.

[Brief explanation of the drawing]

The figure is a sectional view of a transfer body for thermal recording in an embodiment of the present invention. 1...Substrate, 2...Coloring material layer, 3...Polymer composition.

Claims (1)

[Claims] 1. A heat-sensitive recording comprising a coloring material layer provided on the upper surface of a substrate, and a polymer composition containing fine particles and a liquid lubricant material and using a thermosetting resin as a binder provided on the lower surface of the substrate. Transfer material for use. 2. The transfer body for thermal recording according to claim 1, wherein the substrate is a polyester polymer. 3. The heat-sensitive recording transfer body according to claim 1, wherein the colorant in the colorant layer is a sublimable dye. 4. The transfer material for thermal recording according to claim 1, wherein the average particle diameter of the fine particles is 6 μm or less. 5. The transfer body for thermal recording according to claim 1, wherein the binder having a polymeric composition is a photocurable resin. 6. The thermal recording transfer material according to claim 1, wherein the binder of the polymer composition is a cured product of oligoacrylate.