CN107672330B - Process for printing reflective material on sliding plate by adopting thermal transfer printing mode - Google Patents

Abstract

A process for printing a reflective material on a sliding plate by adopting a thermal transfer printing mode comprises the following steps: a. b, preparing a release agent; c. coating a release agent in a scraping manner; d. coating transparent gloss oil; e. coating reflective ink in a scraping mode; f. and (4) transferring. Compared with the prior art, the invention has the following advantages: 1. the ink has high adhesion strength and is not easy to fall off. 2. The color is not easy to fade, and the reflecting effect is good. 3. The all-round visibility is good, does not have the heavy metal substance that leads to human pathological change, and safety ring protects, and the thermal transfer printing mode is convenient.

Description

Process for printing reflective material on sliding plate by adopting thermal transfer printing mode

Technical Field

The invention relates to an improvement of a process for printing a reflecting material.

Background

Partial patterns are often needed in the patterns of the sliding plate, a specific Logo needs to have a light reflecting effect, and the existing light reflecting film in the market can not be used for covering and decorating partial or irregular patterns, so that the use limitation of a light reflecting material can be broken through if the silk-screen printing and the heat transfer printing of light reflecting ink in different shapes can be completed at various different positions, and the development and the research of a heat transfer printing process are carried out on the light reflecting ink.

Disclosure of Invention

The invention aims to solve the technical problem of providing a process for printing a reflective material on a sliding plate in a thermal transfer printing mode, which has high adhesive strength and is not easy to fade.

The scheme of the invention is as follows:

a process for printing a reflective material on a sliding plate by adopting a thermal transfer printing mode is characterized by comprising the following steps:

a. preparing reflective ink, namely fully mixing transparent gloss oil, 250-mesh ~ 350-mesh glass bead reflective powder and slow dry water according to the weight ratio of 9 ~ 11:3.5 ~ 4.5.5: 0.5 ~ 1.5.5 to prepare ink for later use;

b. preparing a release agent, namely fully mixing 600LX matte release agent with slow dry water according to a mixing ratio of 45 ~ 55:0.5 ~ 1.5.5 by weight;

c. spreading a BOPP film, scraping the BOPP film for 2 ~ 3 times by using 300 ~ 400-mesh gauze, wherein the time interval between each time of scraping the release agent in a natural drying state is 1 ~ 3 minutes, and the whole thickness of the release agent is 0.4 ~ 0.6.6 mm;

d. coating transparent gloss oil, namely coating the transparent gloss oil on a BOPP film coated with a release agent in a blade coating manner, wherein the thickness of the transparent gloss oil is 0.1 ~ 0.3.3 mm;

e. coating reflective ink in a scraping way, namely scraping 2 ~ 3 times of reflective ink on a BOPP film coated with transparent gloss oil, wherein each time of scraping the reflective ink needs to be dried after the previous scraping of the reflective ink, and the overall thickness of the reflective ink is 0.3 ~ 0.5.5 mm;

f. transfer printing: and (3) transferring the BOPP film onto the sliding plate through a transfer machine, wherein the transfer temperature of the transfer machine is 180-200 ℃, and the rotating speed of the thermal transfer machine is 40-45r/min, so that the thermal transfer of the reflective ink is completed.

Compared with the prior art, the invention has the following advantages:

1. the ink has high adhesion strength and is not easy to fall off.

2. The color is not easy to fade, and the reflecting effect is good.

3. The all-round visibility is good, does not have the heavy metal substance that leads to human pathological change, and safety ring protects, and the thermal transfer printing mode is convenient.

Detailed Description

The present invention will be described in further detail below with reference to specific examples in order to facilitate understanding of the invention by those skilled in the art.

The process for printing the reflective material on the sliding plate by adopting the thermal transfer printing mode disclosed by the embodiment can be realized by conventional thermal transfer printing equipment, and specifically, the process comprises the following steps:

a. preparing reflective ink, namely fully mixing transparent gloss oil (the transparent gloss oil can be directly obtained from the market, such as transparent gloss oil produced by Huizhou Xinxin coating chemical industry Co., Ltd or Dongguan research color chemical technology Co., Ltd.), 250-mesh ~ 350-mesh glass bead reflective powder (the reflective powder can be directly obtained from the market, such as reflective powder produced by Suzhou Huanyi West chemical industry Co., Ltd or tin-free Yingcai reflective material Co., Ltd.), and slow dry water (the slow dry water can be directly obtained from the market, such as 783 slow dry water produced by Huizhou Huashide chemical industry Co., Ltd.) according to the weight ratio of 9 ~ 11:3.5 ~ 4.5.4: 0.5 ~ 1.5.5, and preparing the mixture into the ink for later use;

b. preparing a release agent, namely fully mixing 600LX matte release agent (which can be directly obtained from the market, such as the matte release agent sold by Dongguan Yuitai thermal transfer pyrography materials Co., Ltd. or Spatka New materials (Jiangsu) Co., Ltd.) with slow-drying water, wherein the mixing ratio is 45 ~ 55:0.5 ~ 1.5.5 by weight;

c. spreading the BOPP film, scraping 2 ~ 3 times of release agent (the release agent can be directly obtained from the market, such as the release agent sold by Taiflounder science and technology Co., Ltd. or Illinois tool products Co., Ltd.) on the BOPP film by using 300 ~ 400 mesh gauze, wherein the interval between each time of scraping the release agent in a natural drying state is 1 ~ 3 minutes, and the whole thickness of the release agent is 0.4 ~ 0.6 mm;

d. coating transparent gloss oil, namely coating the transparent gloss oil (the transparent gloss oil can be directly obtained from markets, such as the transparent gloss oil sold by Shenzhen Shenndi science and technology development Limited company or Xiameni but printing material Limited company) on a BOPP film coated with a release agent, wherein the thickness of the transparent gloss oil is 0.1 ~ 0.3.3 mm;

e. coating reflective ink (the reflective ink can be directly obtained from the market, such as the reflective ink sold by Yangzhou Duda reflective material Co., Ltd. or Shenzhen color art printing material science and technology Co., Ltd.) on a BOPP film coated with transparent gloss oil, 2 ~ 3 times of reflective ink is coated, each time of coating reflective ink needs to be dried by previous coating, and the whole thickness of the reflective ink is 0.3 ~ 0.5.5 mm;

f. transfer printing: and (3) transferring the BOPP film onto the sliding plate through a transfer machine, wherein the transfer temperature of the transfer machine is 180-200 ℃, and the rotating speed of the thermal transfer machine is 40-45r/min, so that the thermal transfer of the reflective ink is completed.

Through tests, the adhesive force of the reflective material is greater than 3N, and the reflective material has high adhesive strength. The reflective material layer has strong abrasion resistance, and the reflective material layer does not obviously change color when the rubbing paper (80G/m2 offset paper) adopts alcohol with 500G force of about 98 percent to make a round trip for 100 times.

While the foregoing embodiments are illustrative of the preferred embodiments of the present invention, it will be apparent to those skilled in the art that many minor variations and equivalents may be made in the foregoing descriptions, which are not repeated herein. Accordingly, it is intended to embrace all such alternatives, modifications, and variations that fall within the scope of the included claims.

Claims (1)

1. A process for printing a reflective material on a sliding plate by adopting a thermal transfer printing mode is characterized by comprising the following steps:

a. preparing reflective ink, namely fully mixing transparent gloss oil, 250-mesh ~ 350-mesh glass bead reflective powder and slow dry water according to the weight ratio of 9 ~ 11:3.5 ~ 4.5.5: 0.5 ~ 1.5.5 to prepare ink for later use;

b. preparing a release agent, namely fully mixing 600LX matte release agent with slow dry water according to a mixing ratio of 45 ~ 55:0.5 ~ 1.5.5 by weight;

c. spreading a BOPP film, scraping the BOPP film for 2 ~ 3 times by using 300 ~ 400-mesh gauze, wherein the time interval between each time of scraping the release agent in a natural drying state is 1 ~ 3 minutes, and the whole thickness of the release agent is 0.4 ~ 0.6.6 mm;

d. coating transparent gloss oil, namely coating the transparent gloss oil on a BOPP film coated with a release agent in a blade coating manner, wherein the thickness of the transparent gloss oil is 0.1 ~ 0.3.3 mm;

f. coating reflective ink in a scraping way, namely scraping 2 ~ 3 times of reflective ink on a BOPP film coated with transparent gloss oil, wherein each time of scraping the reflective ink needs to be dried after the previous scraping of the reflective ink, and the overall thickness of the reflective ink is 0.3 ~ 0.5.5 mm;

transfer printing: and (3) transferring the BOPP film onto the sliding plate through a transfer machine, wherein the transfer temperature of the transfer machine is 180-200 ℃, and the rotating speed of the thermal transfer machine is 40-45r/min, so that the thermal transfer of the reflective ink is completed.