JPH0725219B2 - Image receptor for thermal transfer recording - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to an image receptor for recording by thermal transfer, particularly a sublimation type thermal transfer recording using a sublimable dye.

2. Description of the Related Art In sublimation type thermal transfer recording, an image is recorded by transferring a part of a sublimable dye in a color material layer to an image receptor. Since the sublimable dye in the color material layer used at one time is very small, it is possible to record many times with the same transfer body. As one of the methods of using a large number of times, a method is used in which the running speed of the transfer member is slower than that of the image receiving member, and the overlapping of the first use portion and the second use portion of the color material layer of the transfer body is slightly shifted. There is.

However, in this method, since the transfer member and the image receiving member have different running speeds, the conventional image receiving member has a large running frictional resistance with the transfer member and cannot stably run. A known substance such as a lubricant can be used as the substance for reducing the running frictional resistance, but a substance that has little influence on the chromaticity of the image material recorded on the image receptor is unknown.

It is an object of the present invention to obtain an image receptor that runs stably while relatively moving with respect to a transfer body, and has little change in chromaticity of a recorded image.

Means for Solving the Problems In the thermal transfer recording image receptor of the present invention, a dyeing layer made of a mixture of a polyoxyalkylene silicone copolymer and a resin is provided on one surface of a substrate.

By allowing the above-mentioned copolymer to exist in the dyeing layer of the image receptor, the running frictional force between the surface of the image receptor and the transfer body is reduced, and stable running is achieved. Further, the copolymer has almost no influence on chromaticity and has no other side effect.

Embodiment FIG. 1 shows a schematic sectional view of an image receiving body which is an embodiment of the present invention. The image receptor 3 is composed of a base material 1 and a dyeing layer 2. The polyoxyalkylene silicone copolymer (hereinafter, abbreviated as a copolymer) is contained in the inside and the surface of the dyeing layer 2. The general formula of the polyoxyalkylene silicone copolymer is shown below. In the formula, R is H, CH ₃ or C ₂ H ₅ ;
m and n are integers less than 2000 and m>n; a and b are both 30
The following integers.

FIG. 2 shows another embodiment. The image receptor 7 is a substrate 4, a dyeing layer
5, consisting of the overcoat layer 6, and the copolymer is contained in the overcoat layer 6. It may also be contained in the dyeing layer 5.

Specific examples will be shown below.

Water-based polyester resin [Vylonal MD on one side of high-quality paper
1200, Toyobo Co., Ltd.] and 15 parts by weight of water and 30 parts by weight of water were applied by a wire bar to obtain a dyeing layer having a thickness of about 5 μm.

Next, the following coating liquid 1 was applied onto the above dyeing layer with a wire bar, dried with a drier, and then irradiated with a high pressure mercury lamp of 1 KW to obtain an overcoat layer having a thickness of 0.7 μm.

(Coating liquid 1) Polyester acrylate resin 9 parts by weight 2-hydroxy-2-methylpropiophenone 0.45 parts by weight Polyoxyalkylene silicone copolymer [L-750
0: Nippon Unicar Co., Ltd.] 0.27 parts by weight Ethyl acetate 100 parts by weight Thus, an image receptor containing a polyoxyalkylene silicone copolymer in the overcoat layer was obtained.

Next, the following coating liquid 2 was applied to the upper surface of the polyimide film having a slipping layer on the lower surface, dried with a dryer and then irradiated with ultraviolet rays to obtain a particle-containing layer.

(Coating liquid 2) Epoxy acrylate resin 20 parts by weight Benzyl dimethyl ketal 1 part by weight Titanium oxide 14 parts by weight Silicone surfactant 0.2 parts by weight Ethyl acetate 100 parts by weight Next, the following ink composition liquid is wire-coated on this particle-containing layer. A transfer body was prepared by coating with a bar.

(Ink composition liquid) Sublimation dye (of the following chemical formula) 4 parts by weight Polycarbonate 5 parts by weight Titanium oxide 2 parts by weight Methylene chloride 100 parts by weight Recording was performed under the following recording conditions by using the above-mentioned image receiving member and the transfer member, doubling the running speed of the image receiving member as compared with the transfer member.

Main and sub-scanning linear density: 8 dots / mm Recording power: 0.4 W / dot Head heating time: 2.5 ms The transfer body and image receiver run well, and the CI of this recorded image
The chromaticity coordinates of the E color system were x = 0.3685y = 0.2065. Compared with the chromaticity coordinate x = 0.3622 y = 0.2103 of the recorded image obtained by running the transfer body and the image receiving body containing no polyoxyalkylene silicone copolymer at the same speed, almost no change in chromaticity is observed. Indicates that there was not.

(Comparative Example) The following coating solution containing no polyoxyalkylene silicone copolymer was applied onto the dyeing layer prepared in Example and irradiated with ultraviolet rays to form an overcoat layer having a thickness of 0.7 μm to form an image receptor. Obtained.

Polyester acrylate resin 9 parts by weight 2-Hydroxy-2-methylpropiophenone 0.45 parts by weight Ethyl acetate 100 parts by weight Using this image receptor and the transfer member of the example, the result of running under the same recording conditions as the example, The smoothness of the image receiving member and the transfer member was poor, and unrecorded portions of horizontal lines were included in the recorded image, and stable running was not possible.

EFFECTS OF THE INVENTION The present invention provides an image receptor that can stably run with a transfer member and hardly changes in chromaticity of a recorded image by holding a polyoxyalkylene silicone copolymer in a dyeing layer or an overcoat layer of the image receiver. can do.

[Brief description of drawings]

1 and 2 are schematic cross-sectional views of a thermal transfer recording image receptor that is an embodiment of the present invention. 1,4 …… Base material, 2,5 …… Dyeing layer, 3,7 …… Receptor, 6 ……
Overcoat layer.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Nobuyoshi Taguchi, No. 1006, Kadoma, Kadoma City, Osaka Prefecture, Matsushita Electric Industrial Co., Ltd. (56) References JP 61-199997 (JP, A)

Claims (2)

[Claims] 1. A thermal transfer recording image receptor having a dyeing layer made of a mixture of a polyoxyalkylene silicone copolymer and a resin on one surface of a substrate. 2. A thermal transfer recording in which a dyeing layer made of a resin is provided on one surface of a substrate, and an overcoat layer made of a mixture of a polyoxyalkylene silicone copolymer and a resin is provided on the surface of the dyeing layer. Image receptor.