阅读说明：本技术 一种基于京尼平着色原理的水墨纹身贴 (Ink tattoo paste based on genipin coloring principle ) 是由 廖静宜 于 2020-11-27 设计创作，主要内容包括：本发明提供一种基于京尼平着色原理的水墨纹身贴,包括带水溶性滑层的纸基和离型纸或膜,还包括设置所述纸基和离型纸或膜之间的无色粘胶A和含有京尼平的无色粘胶B,在所述纸基上使用丝网印刷技术将所述粘胶A和粘胶B依次叠加印在所述纸基上,将所述离型纸覆盖在印有所述粘胶A和粘胶B的所述纸基上。本发明将带图案的无色粘胶B和粘胶A贴在皮肤表面上,用水将纸基湿透,使带图案的粘胶B和粘胶A能够转移到皮肤上,通过粘胶B中的京尼平和人体皮肤中的氨基酸产生物理反应,在12-24小时内图案会慢慢显现并逐步成蓝黑色,达到与真纹身非常接近的效果,并且效果能够保持长达14天以上。(The invention provides an ink-water tattoo sticker based on a genipin coloring principle, which comprises a paper base with a water-soluble sliding layer, release paper or a film, colorless viscose A arranged between the paper base and the release paper or the film, and colorless viscose B containing genipin, wherein the viscose A and the viscose B are sequentially printed on the paper base in an overlapping manner by using a screen printing technology, and the release paper is covered on the paper base printed with the viscose A and the viscose B. According to the invention, the colorless viscose B and the colorless viscose A with patterns are pasted on the surface of the skin, the paper base is wetted through water, so that the viscose B and the viscose A with patterns can be transferred to the skin, and through the physical reaction of genipin in the viscose B and amino acid in the skin of a human body, the patterns can slowly appear and gradually become bluish black within 12-24 hours, so that the effect very close to the real tattoo is achieved, and the effect can be maintained for more than 14 days.)

1. The utility model provides an ink wash tattoo subsides based on genipin coloring principle, includes the paper base of taking water-soluble sliding layer and leaves type paper or membrane, its characterized in that: still including setting up the paper base with from between type paper or the membrane colorless viscose A and the colorless viscose B that contains genipin use screen printing technique will on the paper base viscose A and viscose B superpose in proper order and print on the paper base, will be printed with from type paper or membrane on the paper base viscose A and viscose B.

2. The ink tattoo patch according to claim 1, wherein the ink tattoo patch is characterized by: the paper base is a porous paper base provided with a plurality of pores and provided with a water-soluble sliding layer.

3. The ink tattoo patch according to claim 1, wherein the ink tattoo patch is characterized by: the viscose A consists of 75-85% of butyl methacrylate, methyl ester and acrylic acid polymer and 18-23% of cellulose acetate butyrate, and the viscose B consists of 0.04-0.07% of citric acid, 0.8-0.98% of genipin, 3.8-4.5% of ethanol, 50-60% of sucrose acetic isobutyric acid and 33-39% of dipropylene glycol dibenzoate.

4. The ink tattoo patch according to claim 3, wherein said patch is characterized by the following: viscose a consisted of 80% butyl methacrylate with a polymer of methyl and acrylic acid and 20% cellulose acetate butyrate, and viscose B consisted of 0.06% citric acid, 0.94% genipin, 4% ethanol, 57% sucrose acetate isobutyric acid and 38% dipropylene glycol dibenzoate.

5. The ink tattoo patch according to claim 3, wherein said patch is characterized by the following: viscose a consisted of 82% butyl methacrylate with a polymer of methyl and acrylic acid and 18% cellulose acetate butyrate, and viscose B consisted of 0.05% citric acid, 0.85% genipin, 4.1% ethanol, 56% sucrose acetate isobutyric acid and 39% dipropylene glycol dibenzoate.

6. The ink tattoo patch according to claim 1, wherein the ink tattoo patch is characterized by: and the viscose A and the viscose B are sequentially and additionally printed on the paper base according to the specified pattern I.

7. The ink tattoo patch according to claim 6, wherein the ink tattoo patch is characterized in that: and printing a pattern II which is the same as the viscose A and the viscose B on the other surface of the paper base by using printing ink.

8. The ink tattoo patch according to claim 7, wherein said patch is characterized by: the pattern II corresponds to the position of the pattern I.

Technical Field

The invention relates to the technical field of tattoo patches, in particular to an ink tattoo patch based on the genipin coloring principle.

Background

Tattooing is a technology which has been used for many years, and is used for making patterns or words on the skin by using ink needle which is punched into the bottom layer of the skin, so as to achieve the effect of leaving marks on the skin for a long time. However, once the tattoo is completed on the skin, it is difficult to remove the tattoo, and an irregular tattooing process is likely to cause the transmission of infectious diseases. In order to avoid the problems of difficult erasing and sanitation of tattoos, tattoo stickers are created to replace the permanent tattooing technique, so as to achieve the effect of making some patterns or words on the skin.

The existing tattoo sticker is produced by generally using a porous paper base of a water-soluble sliding layer printed by ink, and then pasting an ink printing layer on the skin, although the existing tattoo sticker can not cause wound to the skin, the existing tattoo sticker has the defects that the color keeping time can only be 3-7 days generally, the effect is not vivid, the color is unnatural, the tattoo sticker has certain luster, and the impression of real tattoo cannot be achieved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a long-acting matte surface vivid ink tattoo patch based on the genipin coloring principle.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: the utility model provides a wash ink tattoo subsides based on coloring principle of genipin, includes water-soluble sliding layer paper base and leaves type paper or membrane, still including setting up water-soluble sliding layer paper base and from colorless viscose A between type paper or the membrane and the colorless viscose B that contains genipin use screen printing technique will on the paper base viscose A and viscose B superpose in proper order and print on the paper base, will be printed on from type paper or membrane viscose A and viscose B on the paper base.

Preferably, the paper base is a porous paper base provided with a number of fine pores.

Preferably, said viscose a consists of 75-85% of polymers of butyl methacrylate with methyl ester and acrylic acid and 18-23% of cellulose acetate butyrate, and said viscose B consists of 0.04-0.07% of citric acid, 0.9-0.98% of genipin, 3.8-4.5% of ethanol, 50-60% of sucrose acetate isobutyric acid and 33-39% of dipropylene glycol dibenzoate.

Further, viscose a consisted of 80% butyl methacrylate polymer with methyl and acrylic acid and 20% cellulose acetate butyrate, viscose B consisted of 0.06% citric acid, 0.94% genipin, 4% ethanol, 57% sucrose acetate isobutyric acid and 38% dipropylene glycol dibenzoate.

Further, viscose a consisted of 82% polymers of butyl methacrylate with methyl and acrylic acid and 18% cellulose acetate butyrate, and viscose B consisted of 0.05% citric acid, 0.85% genipin, 4.1% ethanol, 56% sucrose acetate isobutyric acid and 39% dipropylene glycol dibenzoate.

Preferably, the viscose A and the viscose B are sequentially and overlappingly printed on the paper base according to the specified pattern I.

Further, a pattern II which is the same as the viscose A and the viscose B is printed on the other surface of the paper base by ink.

Further, the pattern II corresponds to the position of the pattern I.

According to the scheme, the colorless viscose B and the colorless viscose A with patterns are pasted on the surface of the skin, the paper base is thoroughly wetted by water, the viscose B and the viscose A with the patterns can be transferred to the skin, the pattern can slowly appear and gradually become bluish black within 12-24 hours through the physical reaction of genipin in the viscose B and amino acid in the skin of a human body, the effect very close to that of a real tattoo is achieved, and the effect can be kept for more than 14 days.

Description of the drawings:

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

fig. 3 is a schematic diagram of embodiment 4 of the present invention.

Detailed Description

The invention will be further illustrated with reference to specific examples:

example 1:

as shown in fig. 1-2, the ink-water tattooing sticker based on genipin coloring principle according to the present embodiment includes a paper base 1 with a water-soluble sliding layer, a release paper or a film 4, a colorless adhesive a2 and a colorless adhesive 3 containing genipin, which are disposed between the paper base 1 and the release paper or the film 4, the paper base 1 is printed with the adhesive a2 and the adhesive B3 sequentially by overlaying using a screen printing technique, the adhesive a2 and the adhesive B3 are printed on the paper base 1 sequentially according to a specified pattern i 5, and the release paper or the film 4 is covered on the paper base 1 printed with the adhesive a2 and the adhesive B3 to prevent the paper base 1 from being adhered together and damaging the pattern i 5.

The paper base 1 is the porous paper base that is provided with a plurality of pores, and when the subsides of tattooing of being convenient for were used, hydroenergy was enough more average, rapid permeability in the paper base 1, make paper base 1 is wet completely.

The viscose A2 consists of 75-85% of butyl methacrylate, methyl ester and acrylic acid polymer and 18-23% of cellulose acetate butyrate, and the viscose B3 consists of 0.04-0.07% of citric acid, 0.9-0.98% of genipin, 3.8-4.5% of ethanol, 50-60% of sucrose acetate isobutyric acid and 33-39% of dipropylene glycol dibenzoate.

Viscose A component:

name (R)	CAS. number	Ratio of
			Polymers of butyl methacrylate with methyl ester and acrylic acid	33031-74-2	75%-85%
Cellulose acetate butyrate	9004-36-8	18%-23%

Viscose B component:

name (R)	CAS. number	Ratio of
			Citric acid (citric acid)	77-92-9	0.04%-0.07%
Genipin	6902-77-8	0.9%-0.98%
			Ethanol	64-17-5	3.8%-4.5%
Sucrose acetate isobutyric acid	34482-63-8	50%-60%
			Dipropylene glycol dibenzoate	27138-31-4	33%-39%

Example 2:

the difference from example 1 is that: viscose a2 consisted of 80% butyl methacrylate and methyl and acrylic acid polymer and 20% cellulose acetate butyrate, viscose B3 consisted of 0.06% citric acid, 0.94% genipin, 4% ethanol, 57% sucrose acetate isobutyric acid and 38% dipropylene glycol dibenzoate.

Viscose A component:

name (R)	CAS. number	Ratio of
			Polymers of butyl methacrylate with methyl ester and acrylic acid	33031-74-2	80%
Cellulose acetate butyrate	9004-36-8	20%

Viscose B component:

name (R)	CAS. number	Ratio of
			Citric acid (citric acid)	77-92-9	0.06%
Genipin	6902-77-8	0.94%
			Ethanol	64-17-5	4%
Sucrose acetate isobutyric acid	34482-63-8	57%
			Dipropylene glycol dibenzoate	27138-31-4	38%

Example 3:

the difference from example 1 is that: viscose a2 consisted of 82% butyl methacrylate polymer with methyl and acrylic acid and 18% cellulose acetate butyrate, viscose B3 consisted of 0.05% citric acid, 0.85% genipin, 4.1% ethanol, 56% sucrose acetate isobutyric acid and 39% dipropylene glycol dibenzoate.

Viscose A component:

name (R)	CAS. number	Ratio of
			Polymers of butyl methacrylate with methyl ester and acrylic acid	33031-74-2	82%
Cellulose acetate butyrate	9004-36-8	18%

Viscose B component:

name (R)	CAS. number	Ratio of
			Citric acid (citric acid)	77-92-9	0.05%
Genipin	6902-77-8	0.85%
			Ethanol	64-17-5	4.1%
Sucrose acetic acidIsobutyric acid	34482-63-8	56%
			Dipropylene glycol dibenzoate	27138-31-4	39%

Example 4:

the difference from example 1 is that: as shown in fig. 3, since the adhesive a2 and the adhesive B3 are colorless transparent adhesives, for the convenience of clarifying the positions of the pattern i 5 and the pattern ii 6, the pattern ii 5 identical to the adhesive a2 and the adhesive B3 is printed on the other surface of the paper base 1 by using ink, the pattern ii 6 corresponds to the position of the pattern i 5, and when in use, a user can know what the pattern is according to the pattern ii 6 on the back surface, know the position of the pattern i 5, and accurately select the pattern to be attached to the part of the body to which the user wants to attach.

Experimental groups:

name (R)	Retention time	Ratio of genipin
			Prior Art	3-7 days	0
Example 2	14-25 days	0.94%
			Example 3	14-20 days	0.85%

The using method comprises the following steps:

cleaning the skin surface of the corresponding part, selecting a favorite pattern by a user, removing the release paper or the membrane 4, aligning the release paper or the membrane to the corresponding skin surface according to the pattern II 6, attaching one side of the viscose A2 and the viscose B3 with the pattern I5 to the skin surface, then wetting the porous paper base 1 through water, transferring the viscose A2 and the viscose B3 with the pattern I5 from the porous paper base 1 to the skin, wherein the viscose A2 and the viscose B3 are colorless, and at the time, genipin generates a physical reaction with amino acid in the skin of a human body, the pattern slowly shows up and gradually becomes bluish black within 12-24 hours, the pattern becomes very close to a true tattoo, false tattoo can be achieved, and the retention time can be more than 14+ days.