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Anti-counterfeiting transfer printing technology

A technology of transfer printing and process, applied in the direction of transfer printing, rotary printing machine, printing, etc., can solve the problems of high energy consumption, slow production speed of heat transfer printing machine, great influence of layer peeling effect, etc., to save aluminum material, easy to rapidly degrade effect

Inactive Publication Date: 2011-03-23
江苏中印印务集团有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008]Although this process adopts an indirect printing method, that is, thermal transfer printing method, the impact of single-handed production equipment, materials, environmental protection, efficiency and cost has great significance. limitation:
[0009]1. Limited to the use of sublimation ink, the color saturation of the printed product is very low;
[0010]2. Changes in temperature have a greater impact on the peeling effect of the layer;
[0011]3. Use a special heat transfer machine to complete the transfer of the color film. The heat transfer machine has slow production speed, low efficiency and high cost
[0012]4. Production requires high temperature of 200~300℃, which consumes a lot of energy and is dangerous to operators
[0015]2. The ordinary water-based transfer glue used in the transfer film can peel the aluminum sprayed layer from the release agent material, but because there are still some Thick ink layer, the side can not meet the effective transfer of printing ink layer and aluminum spray layer from the release layer at the same time

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] An anti-counterfeiting transfer printing process, the printing process comprises the following process steps:

[0041] The first step: plate making process, making a laser plate with graphic information;

[0042] The second step: coating process, using coating equipment to uniformly and densely coat a layer of release agent or imaging coating on the PET base film;

[0043] The third step: the aluminum plating process, the PET base film coated with a release agent or imaging coating on the surface and the aluminum material are installed in a vacuum evaporation machine, and the vacuum evaporation machine is vacuumed with a vacuum pump, and then the described The aluminum material is heated to 1200°C to 1400°C, so that the gaseous aluminum particles are deposited on the surface of the moving release agent or imaging coating, and then cooled to form a continuous and bright metal aluminum layer;

[0044] Step 4: Molding process, using the heat-changing performance of the ch...

Embodiment 2

[0050] On the basis of Example 1, the preferred technical solution is that the manufacturing process of the laser plate includes: firstly sensitizing the surface of the dry plate with full information graphics, and sensitizing the sensitized The dry plate uses the chemical spraying method to generate a photoresist plate on the silver surface of a thin film layer, and the composite of the dry plate and the photoresist plate is placed in the electroplating tank, and the photoresist plate on the silver surface is connected to the negative electrode of the power supply. Connect, also be provided with nickel plate and electroplating solution in described electroplating tank, nickel plate is connected with the positive pole of power supply, can be coated with nickel layer on the surface of the photoresist plate of described silver surface after turning on power supply, will The composite plate after nickel plating is taken out from the electroplating tank, and then the photoresist pl...

Embodiment 3

[0052] On the basis of Example 2, the preferred technical solution is that in the manufacturing process of the laser plate, the thickness of the master plate is controlled at 0.1 μm to 0.2 μm, and the thickness of the laser plate for molding is The thickness is controlled between 450μm and 550μm.

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PUM

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Abstract

The invention relates to an anti-counterfeiting transfer printing technology which comprises the following steps: preparing a laser plate; coating a layer of mold release agent or imaging paint on a PET base film; carrying out vacuum pumping on the PET base film and an aluminum material device in a vacuum plating evaporator; then heating the aluminum material and depositing gaseous aluminum particles on the surface of the moving PET base film and / or the surface of the mold release agent or the imaging paint; stamping an embossing pattern on the laser plate on a mold release agent layer or an imaging paint layer and / or an aluminum layer so as to make a holographic transfer film for transfer; bonding the holographic transfer film and backing paper together; separating the PET base film fromthe paper, wherein the stripped PET base film can be repeatedly used for a coated base film; and coating a layer of aqueous varnish on the surface of the transferred paint layer and / or the aluminum layer. The technology can combine an anti-counterfeiting printing technology with a transfer printing technology, and an aluminum plating layer transferred on the paper can be made to be thin, thereby saving the aluminum material; in addition, the base film used in transfer printing can be repeatedly utilized and does not pollute the environment.

Description

technical field [0001] The invention relates to a printing process technology, in particular to an anti-counterfeiting transfer printing process. Background technique [0002] In the traditional printing process, the ink is directly dried on the surface of the self-made substrate. Due to the flatness of the paper and the absorbency of the paper surface, it is not conducive to the leveling of the ink. If the paper's ability to absorb ink is too strong, it will cause print defects such as powdering of the imprint, low gloss, print-through, reduced ink layer density, and change in hue. Therefore, for printed matters with high requirements for color and tone reproducibility, one method is to use plastic film composite paper such as OPP or PET for printing. The disadvantage of this process is that the plastic film is a non-degradable material, which will pollute the environment and is not conducive to environmental protection. Another way is to use UV (ultraviolet light) to irr...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C23C18/42C23C14/24B41F16/00C23C18/28C23C14/20C25D7/06
Inventor 蔡雪秋徐斯伦陈吉
Owner 江苏中印印务集团有限公司
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