CN110667276A

CN110667276A - Stereoscopic bright line coating process

Info

Publication number: CN110667276A
Application number: CN201910952764.3A
Authority: CN
Inventors: 李赛军
Original assignee: Zhuhai Saidecheng Technology Co Ltd
Current assignee: Zhuhai Saidecheng Technology Co Ltd
Priority date: 2019-10-09
Filing date: 2019-10-09
Publication date: 2020-01-10

Abstract

The invention discloses a stereoscopic bright line coating process which is realized by the following steps: s1: the magnetic jig is fixed on the workbench; s2: the printing stock is laid on the magnetic jig for positioning; s3, printing the magnetic paint on the printing stock to form a first pattern through silk-screen printing and thermal transfer printing; s4: the magnetic jig is used for magnetically attracting and shaping the first pattern; s5: drying the first pattern after the step S4; s6: and spraying UV gloss oil on the surface of the first pattern after the step S4 to enhance the surface strength and improve the surface brightness. By designing the magnetic circuit lines corresponding to the pictures and texts printed on the printing stock on the magnetic jig, the magnetic circuit lines carry out magnetic attraction and shaping on the pictures and texts printed and molded by the magnetic coating, the picture and text three-dimensional effect is enhanced, the pictures and texts are not easy to fall off, and the service life is prolonged; meanwhile, various pigments can be added into the magnetic coating to enhance the gradual change effect of the image-text textures and the bright lines, so that the attractiveness of the product is improved, and customers are attracted.

Description

Stereoscopic bright line coating process

[ technical field ] A method for producing a semiconductor device

The invention belongs to the technical field of surface treatment, and particularly relates to a three-dimensional bright line coating process.

[ background of the invention ]

The silk-screen printing, the thermal transfer printing and the spraying are three common process methods for pattern printing, have the advantages of large batch, low price, bright color, delivery block and the like, are accepted by more and more industries, are widely applied to the appearance decoration of cosmetic packaging materials, commodity packaging and the like of plastic cement, hardware, glass, leather, cloth products and paper products, and are closely related to our life.

But traditional silk screen printing, heat-transfer seal and spraying mostly can only be relatively simple print plane's picture and text effect, can not be fine embody comparatively three-dimensional picture and text effect, and the three-dimensional picture and text effect intensity that a small number can be made is not high, lacks pleasing to the eye degree, and the durability is not enough moreover, drops very easily, and life is short.

[ summary of the invention ]

In order to solve the existing problems in the background art, the invention provides a stereoscopic bright line coating process.

The invention adopts the following technical scheme:

a stereoscopic bright line coating process is realized by the following steps:

s1: the magnetic jig is fixed on the workbench;

s2: the printing stock is laid on the magnetic jig for positioning;

s3, printing the magnetic paint on the printing stock to form a first pattern through silk-screen printing and thermal transfer printing;

s4: the magnetic jig is used for magnetically attracting and shaping the first pattern;

s5: drying the first pattern after the step S4;

s6: and spraying UV gloss oil on the surface of the first pattern after the step S4 to enhance the surface strength and improve the surface brightness.

Furthermore, the magnetic jig comprises a jig body and a magnetic path concavely arranged on the jig body, and a second pattern formed by the magnetic path is correspondingly consistent with the first pattern.

Further, the magnetic path is formed by installing or magnetizing a magnetic strip of any one of neodymium iron boron, ferrite, rubber magnet and electromagnet.

Furthermore, the jig body is made of bakelite.

Further, the magnetic coating is magnetic ink or magnetic paint.

Further, the silk screen printing in step S3 includes a screen plate, a silk screen is laid in the screen plate and located above the printing stock, and the magnetic coating penetrates through the printing plate images and texts on the silk screen to form the first pattern.

Further, the thermal transfer step in the step S3 includes: the magnetic paint is first coated on the roller of the transfer machine, and then is shaped through step S4, and then is coated with a thermal transfer gum on the roller of the transfer machine, and finally is transferred to form the first pattern.

Furthermore, the second pattern is correspondingly carved by a bakelite carving machine, and then any one of the magnetic strips of the neodymium iron boron, the ferrite, the rubber magnet and the electromagnet is filled by a punching head arranged on the magnetic punching machine.

The invention has the following beneficial effects:

the magnetic jig is designed, the magnetic circuit lines corresponding to the pictures and texts printed on the printing stock are designed on the magnetic jig, and the magnetic circuit lines are used for carrying out magnetic attraction and shaping on the pictures and texts printed and molded by the magnetic coating, so that the picture and text three-dimensional effect is enhanced, the pictures and texts are not easy to fall off, and the service life is prolonged; meanwhile, various pigments can be added into the magnetic coating to enhance the gradual change effect of the image-text textures and the bright lines, so that the attractiveness of the product is improved, and customers are attracted.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of a screen plate, a printing stock and a magnetic jig in the screen printing process of the present invention;

FIG. 2 is another schematic view of FIG. 1;

FIG. 3 is a schematic structural view of a magnetic fixture;

FIG. 4 is a schematic structural diagram of the magnetizing apparatus.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention.

In view of the simple picture and text effect can only be made among current silk screen printing and the heat-transfer seal technology, pleasing to the eye degree not enough moreover, be difficult to attract the customer, the intensity of picture and text is not enough moreover, drops easily, lacks the durability, and specially, this scheme designs a three-dimensional bright line coating technology, realizes through following comprehensive step: referring to fig. 1-4;

s1: the magnetic jig is fixed on the workbench; the magnetic jig is designed according to the shape and size of the printing stock 1, and has local magnetic performance.

S2: the printing stock 1 is laid on the magnetic jig for positioning; for the scheme, the graphic printing of the packaging material of the daily necessities is mainly aimed at, the process steps of the scheme can also be applied to proper product packaging, the adaptability is strong, after the thickness of the printing stock 1 is not too large, generally within the range of 1cm, the magnetic force of the magnetic jig is insufficiently formed due to too large thickness, and the desired result cannot be achieved.

And S3, printing the magnetic paint on the printing stock 1 to form a first pattern through silk-screen printing and thermal transfer printing.

S4: the magnetic jig is used for magnetically attracting and shaping the first pattern; because first pattern is formed by the printing of magnetic coating, the magnetism tool carries out the magnetism actuation to first pattern and stereotypes the reinforcement to its structure, improves the shaping intensity of first pattern, promotes the durability.

S5: the first pattern after the step S4 is dried.

For the above embodiment, referring to fig. 3, the magnetic jig includes a jig body 2 and a magnetic path 3 concavely disposed on the jig body 2, a second pattern formed by the magnetic path 3 is corresponding to and consistent with the first pattern, wherein the jig body 2 is made of bakelite, and a magnetic path line 3 is made of a second pattern consistent with the first pattern, in this embodiment, a magnetic stripe made of any one of neodymium iron boron, ferrite, rubber magnet, and electromagnet is used for filling, and certainly, a magnetizing manner can be adopted, and flexible selection is achieved according to requirements of a work site and corresponding configuration of products, and the magnetic jig is manufactured by the following steps:

firstly, selecting a bakelite plate with a proper size, and cutting the bakelite plate into a corresponding size by a cutting machine;

then, carving a magnetic path consistent with the first pattern by using a bakelite carving machine;

finally, as shown in fig. 4, the jig body 2 is mounted on the support table 41 of the magnetic punch 4, then the magnetic strip is placed at the position corresponding to the magnetic circuit wire 3, and the magnetic punch 42 is controlled to press down to press the magnetic strip tightly in the magnetic circuit wire 3, thereby completing the manufacturing process of the magnetic jig.

The magnetic coating is magnetic ink or magnetic paint, the magnetic ink selects magnetizable pigments, such as iron oxide black and iron oxide brown, most of the particles are needle crystals smaller than 1 mu m, the particles are easily arranged with magnetism after being processed by a magnetic field, higher residual magnetism is obtained, the ink prepared by adding the magnetic ink shows magnetism and becomes the magnetic ink, other pigments, fillers and additives are added according to the color and the effect to be presented by the graph and text to be printed, and the addition of the fillers can reduce the using amount of the pigments on one hand, so that the ink cost is reduced; on the other hand, according to different requirements of the characteristics of the product, the properties of the ink, such as thickness, fluidity and the like, can be adjusted; the added additives are various and have different functions, and respectively comprise a stabilizer, a drying agent, a plasticizer, a coupling agent, a lubricant, a solvent and the like, wherein the coupling agent can be selected from silane, and the silane can be used for bonding a magnet, so that high mechanical property is obtained, the comprehensive performance of the pictures and texts is improved, and the durable effect is achieved.

And aiming at the magnetic paint, iron powder is doped into the paint for modulation, so that the paint has magnetic performance.

For silk screen printing, as shown in fig. 1, the components include a screen 5 and a screen, wherein the screen is provided with a printing plate image and text through which a magnetic coating can penetrate, the screen is laid in the screen 5, the magnetic coating is uniformly coated on the screen by using a scraper, the magnetic coating penetrates through the printing plate image and text and is printed on a printing stock 1 to form a first pattern, a magnetic path 3 on a magnetic jig is just in contact with and corresponds to the first pattern from top to bottom, the first pattern is subjected to magnetic suction molding, and the structural strength of the first pattern is enhanced by accelerating the molding; then taking down the magnetic jig, and drying the first pattern; finally, a layer of UV gloss oil is coated on the first pattern, and the UV gloss oil and the auxiliary agent in the magnetic coating are added, so that the image-text effect presents various beautiful effects such as bright lines, flashing or gradual change, and the product attractiveness is enhanced.

In the thermal transfer process, the magnetic paint is firstly coated on the roller of the transfer machine, then the roller is dried after being processed by the step S4, then the thermal transfer gum is coated on the roller of the transfer machine, and finally the first pattern is transferred on the printing stock.

Of course, the method can also be applied to a spraying process, the magnetic coating is sprayed on the surface or the inner wall of a product, magnetic setting is carried out through a magnetic jig, and the product is taken down and dried.

The invention has the advantages that:

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims

1. A stereoscopic bright line coating process is characterized in that: the method is realized by the following steps:

s1: the magnetic jig is fixed on the workbench;

s2: the printing stock is laid on the magnetic jig for positioning;

s5: drying the first pattern after the step S4;

2. The process of claim 1, wherein the step of coating the bright solid line comprises the following steps: the magnetic jig comprises a jig body and a magnetic path concavely arranged on the jig body, wherein a second pattern formed by the magnetic path is correspondingly consistent with the first pattern.

3. The process of claim 2, wherein the step of coating the bright solid line comprises the following steps: the magnetic path is formed by installing or magnetizing any one magnetic strip of neodymium iron boron, ferrite, rubber magnet and electromagnet.

4. The process of claim 3, wherein the step of coating the bright solid line comprises the following steps: the jig body is made of bakelite.

5. The process of claim 4, wherein the step of coating the bright solid line comprises the following steps: the magnetic coating is magnetic ink or magnetic paint.

6. The process of claim 5, wherein the step of coating the bright solid line comprises the following steps: the silk screen printing in the step S3 includes a screen plate, a silk screen is laid in the screen plate and is located above the printing stock, and the magnetic coating penetrates through the printing plate pictures and texts on the silk screen to form the first pattern.

7. The process of claim 6, wherein the step of coating the bright solid line comprises the following steps: the thermal transfer step in the step S3 includes: the magnetic paint is first coated on the roller of the transfer machine, and then is shaped through step S4, and then is coated with a thermal transfer gum on the roller of the transfer machine, and finally is transferred to form the first pattern.

8. The process of claim 2, wherein the step of coating the bright solid line comprises the following steps: the second pattern is correspondingly carved by a bakelite carving machine, and then any one of the magnetic stripes of the neodymium iron boron, the ferrite, the rubber magnet and the electromagnet is filled by a punching head arranged on the magnetic punching machine.