CN114393940A

CN114393940A - Processing technology of UV impressing wire drawing texture

Info

Publication number: CN114393940A
Application number: CN202111657259.XA
Authority: CN
Inventors: 颜世强; 王娟; 邱吉有; 芮斌
Original assignee: Siai Industrial Technology Haian Co ltd
Current assignee: Siai Industrial Technology Haian Co ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-04-26

Abstract

The invention discloses a processing technology of UV impressing and drawing textures, which comprises the following steps: s1: selecting a metal plate, and cutting the metal plate into a product design outline by using a blanking die; s2: printing an ink layer on the surface of the metal plate in the S1 through screen printing, and baking the metal plate printed with the ink layer in a baking oven at the temperature of 100-140 ℃ for 1-2 h. The invention adopts the UV impressing wire drawing process, has good environmental protection, does not damage the surface of the metal layer in the wire drawing impressing process, does not need corrosion prevention treatment, can realize the combination of various colors and textures by matching the ink layer and the UV wire drawing layer, improves the texture, and can improve the connection firmness between the metal plate and the UV wire drawing layer by arranging the ink layer, thereby meeting the use requirement.

Description

Processing technology of UV impressing wire drawing texture

Technical Field

The invention relates to the technical field of UV impressing and drawing textures, in particular to a processing technology of UV impressing and drawing textures.

Background

Along with the improvement of the requirements of people on living quality, the requirements on quality and attractiveness are increased in addition to the requirements on comfort and the like on vehicles for going out; in Europe and America, various vehicle enterprises and domestic vehicle enterprises use metal welcome pedals more and more in new vehicle types, the materials of the welcome pedals are mainly metal, and the surface effect of the metal becomes a very important concern in vehicle selection;

at present, the footboard in the automobile decoration market, main metal surface wire drawing is the physics wire drawing, the mode of physics wire drawing has dust and noise pollution, and all will carry out surface treatment such as oxidation treatment for anticorrosive after the wire drawing, not only destroyed the physical surface property of metalwork itself, also environmental protection, in order to solve this problem, its improved mode adopts the mode of change material or change surface treatment mostly, its improved mode still has the drawback, can not effectual improvement environmental protection effect, can not satisfy the user demand, therefore we have proposed the processing technology of a UV impression wire drawing texture and be used for solving above-mentioned problem.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a processing technology of UV impressing and drawing textures.

The invention provides a processing technology of UV impressing and drawing textures, which comprises the following steps:

s1: selecting a metal plate, and cutting the metal plate into a product design outline by using a blanking die;

s2: printing an ink layer on the surface of the metal plate in S1 by screen printing, and baking the metal plate printed with the ink layer in a baking oven at 100-140 ℃ for 1-2 h;

s3: taking the metal plate in the S2 out of the baking oven, coating a UV resin layer on the surface of the ink layer, putting the coated metal plate into the baking oven in the S2 again for baking for 10-20min, and realizing the initial fixation of the UV resin layer;

s4: taking the metal plate out of the baking oven in the step S3, then coating a UV resin layer on the top of the UV resin layer, and baking the metal plate again in the same manner as in the step S3 to realize secondary fixation of the UV resin layer;

s5: taking out the metal plate in the step S4, and blowing and cooling the metal plate for 1-2 hours by using an air cooler;

s6: and (3) placing the metal plate in the S5 on a nano-imprinting machine, and imprinting the surface of the UV resin layer through the nano-imprinting machine to enable the surface of the UV resin layer to present textures, so that the UV wire-drawing layer is obtained.

Preferably, in S1, the thinnest thickness of the metal plate is 0.4 mm.

Preferably, in the S3, the power of the initial setting energy is controlled to be 1000mJ/c square meter at 800-.

Preferably, in the step S4, the power of two solid energies is controlled to be 500-600 mJ/c square meter.

Preferably, in S3, the UV resin layer is one or more of acrylic resin, epoxy acrylic resin and polyester acrylic resin.

Preferably, in S2, the ink layer may be a plurality of color inks with the same adhesion, and the drawn base color is changed by the color of the ink layer.

Preferably, in S6, the texture on the UV drawing layer may be different textures.

Compared with the prior art, the invention has the beneficial effects that:

the invention adopts the UV impressing wire drawing process, has good environmental protection, does not damage the surface of the metal layer in the wire drawing impressing process, does not need corrosion prevention treatment, can realize the combination of various colors and textures by matching the ink layer and the UV wire drawing layer, improves the texture, and can improve the connection firmness between the metal plate and the UV wire drawing layer by arranging the ink layer, thereby meeting the use requirement.

Drawings

Fig. 1 is a schematic cross-sectional structural view of a metal plate, an ink layer and a UV wire drawing layer connecting piece in the UV impressing wire drawing texture processing technology provided by the invention.

In the figure: 1. a metal plate; 2. an ink layer; 3. and (5) a UV wiredrawing layer.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Example one

Referring to fig. 1, the present embodiment provides a processing process of UV embossed drawn texture, including the following steps:

s1: selecting a metal plate 1, and cutting the metal plate 1 into a product design outline by using a blanking die, wherein the thinnest thickness of the metal plate 1 is 0.4 mm;

s2: printing an ink layer 2 on the surface of a metal plate 1 in S1 by screen printing, placing the metal plate 1 printed with the ink layer 2 in a baking oven for baking, wherein the baking oven has a temperature of 100 ℃ and a baking time of 1h, the ink layer 2 can adopt a plurality of colors of ink with the same adhesive force, the drawing ground color is changed by the color of the ink layer 2, and the connection between a subsequent UV drawing layer 3 and the metal plate 1 can be increased by the ink layer 2;

s3: taking the metal plate 1 in the S2 out of the baking oven, coating a UV resin layer on the surface of the ink layer 2, putting the coated metal plate 1 into the baking oven in the S2 again for baking for 10min to realize initial fixation of the UV resin layer, wherein the power of initial fixation energy is controlled to be 800mJ/c square meter, and the UV resin layer is one or more of acrylic resin, epoxy acrylic resin and polyester acrylic resin;

s4: taking the metal plate 1 in the S3 out of the baking oven, then coating a UV resin layer on the top of the UV resin layer, and baking the metal plate 1 again in the same manner as in the S3 to realize secondary curing of the UV resin layer, wherein the power of secondary curing energy is controlled at 500mJ/c square meter;

s5: taking out the metal plate 1 in the step S4, and blowing and cooling the metal plate 1 by using an air cooler for 1 hour;

s6: the metal plate 1 in S5 is placed on a nano-imprinting machine, and the surface of the UV resin layer is imprinted by the nano-imprinting machine, so that the surface of the UV resin layer exhibits texture, thereby obtaining the UV drawing layer 3, wherein the texture on the UV drawing layer 3 may be different texture.

Example two

s2: printing an ink layer 2 on the surface of a metal plate 1 in S1 by screen printing, placing the metal plate 1 printed with the ink layer 2 in a baking oven for baking, wherein the temperature of the baking oven is 120 ℃, the baking time is 1.5h, the ink layer 2 can adopt a plurality of colors of ink with the same adhesive force, the wire drawing ground color is changed by the color of the ink layer 2, and the connection between a subsequent UV wire drawing layer 3 and the metal plate 1 can be increased by the ink layer 2;

s3: taking the metal plate 1 in the S2 out of the baking oven, coating a UV resin layer on the surface of the ink layer 2, putting the coated metal plate 1 into the baking oven in the S2 again for baking for 15min to realize initial fixation of the UV resin layer, wherein the power of initial fixation energy is controlled at 900mJ/c square meter, and the UV resin layer is one or more of acrylic resin, epoxy acrylic resin and polyester acrylic resin;

s4: taking the metal plate 1 in the S3 out of the baking oven, then coating a UV resin layer on the top of the UV resin layer, and baking the metal plate 1 again in the same manner as in the S3 to realize secondary curing of the UV resin layer, wherein the power of secondary curing energy is controlled to be 550mJ/c square meter;

s5: taking out the metal plate 1 in the step S4, and blowing and cooling the metal plate 1 by using an air cooler for 1.5 hours;

EXAMPLE III

s2: printing an ink layer 2 on the surface of a metal plate 1 in S1 by screen printing, placing the metal plate 1 printed with the ink layer 2 in a baking oven for baking, wherein the baking oven has a temperature of 140 ℃ and baking time of 2h, the ink layer 2 can adopt a plurality of colors of ink with the same adhesive force, the drawing ground color is changed by the color of the ink layer 2, and the connection between a subsequent UV drawing layer 3 and the metal plate 1 can be increased by the ink layer 2;

s3: taking the metal plate 1 in the S2 out of the baking oven, coating a UV resin layer on the surface of the ink layer 2, putting the coated metal plate 1 into the baking oven in the S2 again for baking for 20min to realize initial fixation of the UV resin layer, wherein the power of initial fixation energy is controlled to be 1000mJ/c square meter, and the UV resin layer is one or more of acrylic resin, epoxy acrylic resin and polyester acrylic resin;

s4: taking the metal plate 1 in the S3 out of the baking oven, then coating a UV resin layer on the top of the UV resin layer, and baking the metal plate 1 again in the same manner as in the S3 to realize secondary curing of the UV resin layer, wherein the power of secondary curing energy is controlled at 600mJ/c square meter;

s5: taking out the metal plate 1 in the step S4, and blowing and cooling the metal plate 1 by using an air cooler for 2 hours;

The experimental data for the UV embossed textured patterns produced in examples one to three, compared to the conventional UV embossed textured patterns, are shown in the following table:

from the above table, the processing technology of the UV embossed drawn texture provided by the present invention has significantly improved environmental protection performance, texture and connection firmness, and the second embodiment is the best embodiment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The processing technology of the UV impressing and drawing texture is characterized by comprising the following steps of:

s1: selecting a metal plate (1), and cutting the metal plate (1) into a product design outline by using a blanking die;

s2: printing an ink layer (2) on the surface of a metal plate (1) in S1 by screen printing, and baking the metal plate (1) printed with the ink layer (2) in a baking oven at the temperature of 100-140 ℃ for 1-2 h;

s3: taking the metal plate (1) in the S2 out of the baking oven, coating a UV resin layer on the surface of the ink layer (2), putting the coated metal plate (1) into the baking oven in the S2 again for baking for 10-20min, and realizing the initial fixation of the UV resin layer;

s4: taking the metal plate (1) in the S3 out of the baking oven, then coating a UV resin layer on the top of the UV resin layer, and baking the metal plate (1) again in the same manner as in the S3 to realize secondary fixation of the UV resin layer;

s5: taking out the metal plate (1) in the step S4, and blowing and cooling the metal plate (1) by using an air cooler for 1-2 hours;

s6: and (3) placing the metal plate (1) in the S5 on a nano-imprinting machine, and imprinting the surface of the UV resin layer through the nano-imprinting machine to enable the surface of the UV resin layer to present textures, so that the UV wiredrawing layer (3) is obtained.

2. The process of claim 1, wherein in the step S1, the thinnest thickness of the metal plate (1) is 0.4 mm.

3. The process of claim 1, wherein the power of the initial setting energy in S3 is controlled to be 1000mJ/c square meter.

4. The process according to claim 1, wherein the power of two solid energies in S4 is controlled to 500 to 600mJ/c square meter.

5. The process of claim 1, wherein in the step S3, the UV resin layer is one or more of acrylic resin, epoxy acrylic resin and polyester acrylic resin.

6. The process of claim 1, wherein in the step S2, the ink layer (2) may be a plurality of inks with the same adhesion, and the under-stringing color is changed by the color of the ink layer (2).

7. The process of claim 1, wherein in the step S6, the texture on the UV wiredrawing layer (3) can be different textures.