CN217499123U - Glitter powder with high adsorption capacity on surface - Google Patents

Abstract

The utility model relates to a gold spring onions powder that surface has high adsorption affinity, including gold spring onions powder main part, gold spring onions powder main part includes the substrate layer, functional coating and last functional coating down, and lower functional coating, substrate layer, last functional coating arrange its characterized in that from supreme in proper order down: the surface of the glitter powder main body is coated with a glycerin film layer. The glitter powder has high adsorption capacity on the surface, has good adsorption stability, and can meet the high adsorption capacity requirement of client products.

Description

Glitter powder with high adsorption capacity on surface

Technical Field

The utility model relates to a lamellar product, in particular to glitter powder with high adsorption capacity on the surface.

Background

Glitter powder is also called glitter powder, and glitter slices (or glitter slices) with larger particle size are also called glitter slices, and are generally formed by precisely cutting a film material (also called glitter powder base material) with extremely high brightness and a metal coating. The glitter powder can be produced from 0.004mm to 3.0mm in particle size, and has the shape of quadrangle, hexagon, rectangle, and the like, the colors of the glitter powder have various single colors of gold, silver, green, purple, blue, and the like, and the colors of fantasy colors, pearly colors, laser, and the like, which have fantasy color effects. The glitter powder is mainly used for surface decoration of articles.

The common glitter powder adopts a PET transparent film as a base material, and color coatings are transferred on two sides or one side of the base material by utilizing a gravure printing technology to form color layers, so that the base material has various colors; alternatively, other functional coatings (such as chemical resistant coatings, environmental protective coatings or physical optical coatings) are arranged on two sides of the PET transparent film. Because PET belongs to the plastic goods, ordinary glitter powder can produce certain static after with by the transparent balloon friction of PE material, makes glitter powder surface produce electrostatic adsorption to reach customer's demand, but this electrostatic adsorption often can receive the influence of external factors such as humidity, external force are patted, static elimination and its stability is relatively poor, causes ordinary glitter powder to be unstable in the absorption to transparent balloon. In addition, the weight of the common glitter powder is heavier for the common glitter powder with thicker particles and larger specification, the common glitter powder utilizes static electricity to generate adsorption, the adsorption time is shorter, and the high adsorption force requirement of a client product cannot be met in actual use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a gold scallion powder that the surface has high adsorption affinity is provided, and this kind of gold scallion powder not only surface has high adsorption affinity, and adsorption stability is good moreover, can satisfy the high adsorption affinity demand of customer end product. The technical scheme is as follows:

the utility model provides a gold spring onions powder that surface has high adsorption affinity, includes gold spring onions powder main part, and gold spring onions powder main part includes the substrate layer, functional coating and last functional coating down, and lower functional coating, substrate layer, last functional coating arrange its characterized in that from supreme in proper order down: the surface of the glitter powder main body is coated with a glycerin film layer.

The glycerin film layer is composed of glycerin attached to the surface of the glitter powder main body.

In the glitter powder with high adsorption capacity, the surface of the glitter powder main body is coated with the glycerol film layer, so that the adsorption capacity of the glitter powder main body surface can be effectively improved on the premise of not influencing the physical and chemical properties of the glitter powder, the surface adsorption capacity of the glitter powder main body surface is high, and the glycerol film layer can effectively improve the adsorption force and the adsorption time of the glitter powder on a transparent balloon due to the good adsorption capacity of the glycerol on a PE material, so that the adsorption time of the glitter powder on a plastic material is longer than that of a common glitter powder (taking the PE material as an example, under the same condition of glitter powder with the same thickness, size and weight, the adsorption time of the glitter powder is 24-36hr, and the adsorption time of the common glitter powder is 2-6 hr). In addition, the glycerol film layer can not permanently adsorb the client product, so that the client product is prevented from being irreversibly damaged, and the glitter powder is prevented from being stored without other influences.

When the glitter powder with high adsorption force on the surface is prepared, after the glitter powder main body is prepared, the glitter powder main body is placed in a continuous stirring machine, a glycerol diluent (namely an aqueous solution of glycerol) is sprayed on the surface of the glitter powder main body in a spraying mode and in a required dosage (1-3g/min) in the stirring process, and a thin glycerol film layer is formed on the surface of the glitter powder main body after water is evaporated. Compared with the common glitter powder, the glitter powder manufacturing process only adopts a glycerol diluent spraying process and a certain amount of glycerol diluent, the total cost difference is not increased by more than 0.1%, and the relative cost performance is high.

In a preferred scheme, the thickness of the glycerin film layer is 0.3-0.8 um.

In a preferred scheme, the lower functional coating is a lower color layer, and the upper functional coating is an upper color layer. The lower color layer and the upper color layer can be formed by printing or coating by using a conventional coating added with pigment or dye. The color of the glitter powder is determined by the upper color layer and the lower color layer, and one or more colors can be adopted according to the requirement.

The lower functional coating and the upper functional coating can also be chemical resistant coatings, environment-friendly coatings and physical and optical coatings, and can be specifically arranged according to the requirements of customers to form different products.

In a preferable scheme, the base material layer is a PET transparent film.

In a more preferable scheme, the glitter powder main body further comprises an aluminum-plated layer, and the aluminum-plated layer is arranged between the base material layer and the lower functional coating. The aluminized layer is formed by taking a PET transparent film as a base material and aluminizing the PET transparent film through evaporation.

In a further more preferred scheme, the glitter powder main body further comprises a PET laser film, and the PET laser film is arranged between the aluminum-plated layer and the base material layer.

In another more preferable scheme, the glitter powder main body further comprises a rainbow film, and the rainbow film is arranged between the substrate layer and the lower functional coating.

In another more preferred scheme, the glitter powder main body further comprises a lower rainbow film and an upper rainbow film, the lower rainbow film is arranged between the substrate layer and the lower functional coating, and the upper rainbow film is arranged between the substrate layer and the upper functional coating.

Compared with the prior art, the utility model, have following advantage:

this kind of gold spring onions powder that surface has high adsorption affinity sets up the cladding through the gold spring onions powder main part on the surface has the glycerine rete, can be under the prerequisite that does not influence the physics and the chemical properties of gold spring onions powder itself, effectively improve the adsorptivity on gold spring onions powder main part surface, make its surface adsorption affinity high, and because glycerine has good adsorptivity to PE material, so the glycerine rete can effectively improve gold spring onions powder to transparent balloon's adsorption effort and adsorption time, make the adsorption time of above-mentioned gold spring onions powder on the plastic material longer than ordinary gold spring onions powder. In addition, the glycerin film layer can not generate permanent adsorption to the client product, so that the client product is prevented from generating irreversible damage and the glitter powder is prevented from being stored without other influences, and the glycerin is an environment-friendly raw material, so that the application range of the glitter powder product can be enlarged.

Drawings

Fig. 1 is a schematic structural diagram of a first preferred embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a second preferred embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a third preferred embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a fourth embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a fifth embodiment of the present invention.

Detailed Description

Example one

As shown in fig. 1, the glitter powder with a high adsorption capacity on the surface comprises a glitter powder main body 1, wherein the glitter powder main body 1 comprises a PET transparent film 11, a lower functional coating 12 and an upper functional coating 13, and the lower functional coating 12, the PET transparent film 11 and the upper functional coating 13 are sequentially arranged from bottom to top; the surface of the glitter powder main body 1 is coated with a glycerin film layer 2.

In this embodiment, the glycerin layer 2 is formed by adhering glycerin to the surface of the glitter powder body 1.

In this embodiment, the thickness of the glycerin film layer 2 is 0.3-0.8 um.

In this embodiment, the lower functional coating 12 is a lower color layer and the upper functional coating 13 is an upper color layer. The lower color layer and the upper color layer can be formed by printing or coating by using a conventional coating added with pigment or dye. The color of the glitter powder is determined by the upper color layer and the lower color layer, and one or more colors can be adopted according to the requirement.

Above-mentioned surface has among the gold spring onions powder of high adsorption affinity, set up the cladding through gold spring onions powder main part 1 on the surface has glycerine rete 2, can be under the prerequisite that does not influence the physics and the chemical properties of gold spring onions powder itself, effectively improve the adsorptivity on gold spring onions powder main part 1 surface, make its surface adsorption capacity high, and because glycerine has good adsorptivity to the PE material, glycerine rete 2 can effectively improve gold spring onions powder to transparent balloon's adsorption effort and adsorption time, make the adsorption time of above-mentioned gold spring onions powder on the plastic material longer than ordinary gold spring onions powder. In addition, as the glycerin film layer 2 can not generate permanent adsorption condition to the client product, the client product is prevented from generating irreversible damage and the glitter powder is prevented from being stored without other influences, and the glycerin film layer 2 is an environment-friendly raw material, so that the application range of the glitter powder product can be enlarged.

The following table shows the adsorption time of glitter powder according to the first example and the adsorption time of regular glitter powder measured and compared with each other for the same glitter powder body 1 having the same thickness, size and weight using a transparent balloon made of PE material as an adsorption target (5 sample examples). As can be seen from the table, the adsorption time of glitter powder of the first example on the plastic material is longer than that of the common glitter powder.

Index (I)	Sample No. 1	Sample 2	Sample 3	Sample 4	Sample 5
						Adsorption duration (hours/H) of common glitter powder	3	4	3	3	4
The adsorption duration (hours/H) of glitter powder of example one	24	30	30	28	32

The following brief description is about the preparation method of the golden onion powder:

during the preparation, after the glitter powder main body 1 is prepared, the glitter powder main body 1 is placed in a continuous stirring machine, a glycerol diluent (namely an aqueous solution of glycerol) is sprayed on the surface of the glitter powder main body 1 in a spraying mode and a required dosage (1-3g/min) in the stirring process, and a thin glycerol film layer 2 is formed on the surface of the glitter powder main body 1 after water is evaporated. Compared with the common glitter powder, the glitter powder manufacturing process only adopts a glycerol diluent spraying process and a certain amount of glycerol diluent, the total cost difference is not increased by more than 0.1%, and the relative cost performance is high.

Example two

Referring to fig. 2, in the case where the other parts are the same as those of the first embodiment, the difference is: in this embodiment, the glitter powder body 1 further includes an aluminum-plated layer 14, and the lower functional coating 12, the aluminum-plated layer 14, the PET transparent film 11, and the upper functional coating 13 are sequentially arranged from bottom to top. The aluminum plating layer 14 is formed on the surface of the PET transparent film 11 by vapor plating using the PET transparent film 11 as a base material.

The following table shows the adsorption time of glitter powder obtained in example two and the adsorption time of regular glitter powder measured and compared with each other for the same glitter powder body 1 having the same thickness, size and weight using a transparent balloon made of PE material as an adsorption target (5 sample examples). As can be seen from the table, the adsorption time of glitter powder of example two on the plastic material is longer than that of the common glitter powder.

Index (I)	Sample No. 1	Sample 2	Sample 3	Sample 4	Sample 5
						Adsorption duration (hours/H) of common glitter powder	3	3	5	3	2
The adsorption duration (hours/H) of glitter powder of example two	24	26	36	30	32

EXAMPLE III

Referring to fig. 3, in the case where the other parts are the same as those of the first embodiment, the difference is: in this embodiment, the glitter powder body 1 further includes an aluminum-plated layer 14 and a PET laser film 15, and the lower functional coating 12, the aluminum-plated layer 14, the PET laser film 15, the PET transparent film 11, and the upper functional coating 13 are sequentially arranged from bottom to top. The aluminum plating layer 14 is formed on the surface of the PET transparent film 11 by vapor plating using the PET transparent film 11 as a base material.

The following table shows the adsorption time of glitter powder obtained in example three and the adsorption time of regular glitter powder measured and compared with each other for the same glitter powder body 1 having the same thickness, size and weight using a transparent balloon made of PE material as an adsorption target (5 sample examples). As can be seen from the table, the adsorption time of glitter powder of example III on the plastic material is longer than that of the common glitter powder.

Index (I)	Sample 1	Sample 2	Sample 3	Sample 4	Sample 5
						Adsorption duration (hours/H) of common glitter powder	3	3	4	3	2
The adsorption duration (hours/H) of glitter powder of example three	26	26	36	30	32

Example four

Referring to fig. 4, in the case where the other parts are the same as those of the first embodiment, the difference is: in this embodiment, the glitter powder body 1 further comprises a rainbow film 16, and the lower functional coating 12, the rainbow film 16, the PET transparent film 11, and the upper functional coating 13 are sequentially arranged from bottom to top.

The following table shows the adsorption time of glitter powder obtained in example three and the adsorption time of regular glitter powder measured and compared with each other for the same glitter powder body 1 having the same thickness, size and weight using a transparent balloon made of PE material as an adsorption target (5 sample examples). As can be seen from the table, the adsorption time of the glitter powder of example three on the plastic material is longer than that of the common glitter powder.

Index (I)	Sample 1	Sample 2	Sample(s)3	Sample 4	Sample 5
						Adsorption duration (hours/H) of common glitter powder	3	3	3	3	2
The adsorption duration (hours/H) of glitter powder of example three	22	25	34	31	32

EXAMPLE five

Referring to fig. 5, in the case where the other parts are the same as those of the first embodiment, the difference is: in this embodiment, the glitter powder body 1 further includes a lower rainbow film 17 and an upper rainbow film 18, and the lower functional coating 12, the lower rainbow film 17, the PET transparent film 11, the upper rainbow film 18, and the upper functional coating 13 are sequentially arranged from bottom to top.

The following table shows the adsorption time of glitter powder obtained in example three and the adsorption time of regular glitter powder measured and compared with each other for the same glitter powder body 1 having the same thickness, size and weight using a transparent balloon made of PE material as an adsorption target (5 sample examples). As can be seen from the table, the adsorption time of glitter powder of example III on the plastic material is longer than that of the common glitter powder.

Index (I)	Sample 1	Sample 2	Sample 3	Sample 4	Sample 5
						Adsorption duration (hours/H) of common glitter powder	4	4	5	4	3
The adsorption duration (hours/H) of glitter powder of example three	28	26	38	31	30

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides a gold spring onions powder that surface has high adsorption affinity, includes gold spring onions powder main part, and gold spring onions powder main part includes the substrate layer, functional coating and last functional coating down, and lower functional coating, substrate layer, last functional coating arrange its characterized in that from supreme in proper order down: the surface of the glitter powder main body is coated with a glycerin film layer.

2. The glitter powder with high adsorbability according to claim 1, wherein the glitter powder comprises: the thickness of the glycerin film layer is 0.3-0.8 um.

3. The glitter powder with high adsorbability according to claim 1, wherein: the lower functional coating is a lower color layer, and the upper functional coating is an upper color layer.

4. Glitter powder having a high adsorption force on its surface, according to any one of claims 1 to 3, wherein: the substrate layer is a PET transparent film.

5. The glitter powder with high adsorbability according to claim 4, wherein: the glitter powder main body further comprises an aluminum-plated layer, and the aluminum-plated layer is arranged between the base material layer and the lower functional coating.

6. The glitter powder with high adsorbability according to claim 5, wherein: the glitter powder main body further comprises a PET laser film, and the PET laser film is arranged between the aluminum plating layer and the base material layer.

7. The glitter powder with high adsorbability according to claim 4, wherein the glitter powder comprises: the glitter powder main body further comprises a rainbow film, and the rainbow film is arranged between the base material layer and the lower functional coating.

8. The glitter powder with high adsorbability according to claim 4, wherein: the glitter powder main body further comprises a lower rainbow film and an upper rainbow film, wherein the lower rainbow film is arranged between the substrate layer and the lower functional coating, and the upper rainbow film is arranged between the substrate layer and the upper functional coating.

Images