CN110077154B - Positioning cold wave manufacturing process and positioning cold wave printing product - Google Patents

Abstract

The application discloses a positioning cold-stamping manufacturing process and a positioning cold-stamping printed product. The positioning cold wave manufacturing process comprises the following steps: importing the graph, the text and other contents processed by the software into the laser recording software to customize the thermoprinting film; the spliced nickel plate is put into a special film press and is subjected to film pressing through high-permeability PET (polyethylene terephthalate) with primer pre-coated in film pressing equipment, so that a hot stamping film is formed by pressing, the temperature and tension control are kept consistent during film pressing, the molding environment with constant temperature and constant pressure is ensured, the molding stability is ensured, and the printing quality is improved; and finally, printing by using a full rotary printing machine. The cold-stamping printed product manufactured by the positioning cold-stamping manufacturing process is attractive in appearance and high in definition. Meanwhile, the application also provides a positioning cold-stamping printed product, which comprises a substrate layer and a positioning cold-stamping layer printed on the surface of the substrate layer, wherein the substrate is made of self-adhesive, plastic, paper and hot melt adhesive plastic packaging film. The water caltrop of the positioning cold-stamping printed product formed by the positioning cold-stamping layer is clear, and the three-dimensional effect is strong.

Description

Positioning cold wave manufacturing process and positioning cold wave printing product

Technical Field

The application relates to a process and a product in the printing field, in particular to a positioning cold-stamping manufacturing process and a positioning cold-stamping printed product.

Background

With the improvement of national economy and the development of the printing and packaging industry, the requirements on the appearance of the printing products are higher and higher. In the post-press processing of printed products, the hot stamping process is favored by people for its unique surface finishing effect. The hot stamping process refers to a hot stamping production method of gold stamping, silver stamping or other hot stamping materials, and can be called as a gold stamping process.

Currently, the stamping process is generally hot stamping, and aluminum foil is printed on a corresponding printing material by heating a template. The common thermoprint is the plane printing, and the printing effect is single, and is not pleasing to the eye enough, and is difficult to accurately master the matching between gilding equipment and thermoprint time and the thermoprint temperature. And a plurality of printing materials shrink and deform when being heated, so that the hot stamping fastness and the definition of image-text outlines are influenced, and the printing effect and the printing quality of a printed matter are influenced.

Disclosure of Invention

In order to overcome the defects of the prior art, the application provides a high-quality positioning cold-stamping manufacturing process with clear and three-dimensional graphics and a positioning cold-stamping printing product.

The technical scheme adopted for solving the technical problems is as follows:

a positioning cold wave manufacturing process comprises the following steps:

firstly, importing graphics and text contents processed by software into laser recording software to customize a thermoprinting film;

step two, putting the nickel plate with the spliced plate into a special film press, performing film pressing through high-permeability PET which is pre-coated with base oil in film pressing equipment, and pressing into a hot stamping film;

step three, carrying out vacuum silver plating or gold plating on the plating surface, wherein the silver plating or gold plating surface and the film pressing surface are on the same surface;

step four, gluing is carried out on the electroplated surface;

fifthly, cutting the electroplated ironing film into rolls according to the size of the printing typesetting;

and step six, filling cold-stamping glue special for the printing plate, the hot-stamping film and the positioning hot-stamping film into a full-rotary printing machine for printing. Forming a positioning cold-ironing layer.

The printing apparatus, which comprises a printing apparatus system and printing apparatus hardware devices, is retrofitted prior to the above operations.

Retrofitting a printing equipment system includes: implanting a secondary tracking program, and adding an automatic correction positive and negative tolerance value, wherein the range of the automatic correction value is +/-1 mm of the length;

the modification of the hardware device of the printing equipment comprises the following steps: and a servo automatic discharging device, a tension detection device and a servo tension control are added.

The manufacturing process of the hot stamping film plate in the first step comprises the steps of manufacturing a glass plate, copying a nickel plate by using the glass plate, and splicing the nickel plate into a printing imposition with the circumference corresponding to the length of the printing plate or the multiple of the corresponding circumference. The perimeter of the printing imposition is 0.75mm-1mm shorter than the perimeter of the printing imposition.

And step two, the thickness of the high-permeability PET is 0.025mm. And step two, the tension and the temperature of the film press are constant when film pressing is carried out. The mould pressing temperature adopts an oil heating mode, and the heating temperature is 80 ℃.

And step six, the hot stamping film plate comprises an independent color code, and the independent color code is used for tracking marks during printing.

Meanwhile, the application also provides a positioning cold-stamping printed product, which comprises a substrate layer and a positioning cold-stamping layer printed on the surface of the substrate layer, wherein the substrate is made of self-adhesive, plastic, paper and hot melt adhesive plastic packaging film.

As an improvement of the technical scheme, the surface of the positioning cold wave layer comprises a plurality of layers of lasers.

As an improvement of the technical scheme, the surface of the positioning cold wave layer is directly covered with a protective film layer, and the protective film layer is a light film or a matte film, light oil or matte oil.

As a further improvement of the technical scheme, the surface of the positioning cold wave layer can be further covered with a color printing layer, and the color printing layer is covered with a protective film layer.

The beneficial effects of the application are as follows: the cold-stamping printed product manufactured by the positioning cold-stamping manufacturing process is attractive in appearance and high in definition. The constant temperature and constant pressure molding environment ensures the molding stability and improves the printing quality.

Drawings

The application will be further described with reference to the drawings and examples.

FIG. 1 is a flow chart of a localized cold stamping process;

FIG. 2 is a schematic view of a first embodiment of a positioning cold stamping product;

fig. 3 is a schematic structural view of a second embodiment for positioning a cold-stamping product.

1. A substrate layer; 2. positioning a cold ironing layer; 3. a color printing layer; 4. and a protective film layer.

Detailed Description

The conception, specific structure, and technical effects produced by the present application will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present application. It is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present application based on the embodiments of the present application. In addition, all the coupling/connection relationships referred to in the patent are not direct connection of the single-finger members, but rather, it means that a better coupling structure can be formed by adding or subtracting coupling aids depending on the specific implementation. The technical features in the application can be interactively combined on the premise of no contradiction and conflict.

A positioning cold wave manufacturing process comprises the following steps:

step one, importing the graph and text contents processed by software into laser transcription software to customize a thermoprinting film; the process is that firstly, the glass plate is manufactured, then the nickel plate is duplicated by the glass plate, and then the nickel plate is spliced into the printing splicing plate with the circumference corresponding to the length of the printing plate or the multiple of the corresponding circumference. The perimeter of the printing imposition is 0.75mm-1mm shorter than the perimeter of the printing imposition.

And step two, loading the nickel plate with the spliced plate into a special film press, and pressing the nickel plate into a hot stamping film through high-permeability PET (polyethylene terephthalate) with the primer pre-coated in film pressing equipment, wherein the thickness of the high-permeability PET is 0.025mm. The tension control is required to be consistent when the film is pressed, the molding temperature is controlled by adopting an oil heating mode and a computer temperature, and the temperature is always kept at 80 ℃.

And thirdly, carrying out vacuum silver plating or gold plating on the plating surface, wherein the silver plating or gold plating surface and the film pressing surface are on the same surface.

And fourthly, gluing the electroplated surface.

Fifthly, cutting the electroplated ironing film into rolls according to the size of the printing typesetting.

Step six, the manufactured printing plate is put into a printing seat with a positioning function of a full-rotary printing machine, a thermoprinting film is put into the printing seat, and special cold stamping glue for the positioning thermoprinting film is put into the printing seat. Debugging the color code position of the hot stamping film, setting a tension parameter, setting a perimeter parameter, setting a printing tooth number and setting a positive and negative correction value parameter. Printing is carried out after the completion to form the positioning cold stamping layer 2. The thermoprinting film board comprises an independent color code, and the independent color code is used for tracking marks during thermoprinting.

Prior to the above operations, the printing apparatus is retrofitted, which comprises a printing apparatus system and printing apparatus hardware devices.

Retrofitting a printing equipment system includes: implanting a secondary tracking program, and adding an automatic correction positive and negative tolerance value, wherein the range of the automatic correction value is +/-1 mm of the length;

the modification of the hardware device of the printing equipment comprises the following steps: and a servo automatic discharging device, a tension detection device and a servo tension control are added. The length of the material is controlled by tension, and the tightness is used for enhancing the accuracy of the position.

Meanwhile, the application also provides a positioning cold wave printing product which comprises a substrate layer 1 and a positioning cold wave layer 2 printed on the surface of the substrate layer, wherein the substrate is made of self-adhesive, plastic, paper and hot melt adhesive plastic packaging film.

The surface of the positioning cold stamping layer 2 can be subjected to hot stamping with other lasers according to the needs of guests.

Referring to fig. 2, in a first embodiment of the positioning cold stamping product, the surface of the positioning cold stamping layer 2 is directly covered with a protective film layer 4, and the protective film layer may be a light film or a matte film, or may be light oil or matte oil.

Referring to fig. 3, in a second embodiment of the positioning cold stamping product, the surface of the positioning cold stamping layer 2 may be further covered with a color printing layer 3, and the color printing layer 3 is further covered with a protective film layer 4. The protective film layer 4 may be a gloss film or a matte film, or may be gloss oil or matte oil.

While the preferred embodiment of the present application has been described in detail, the present application is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present application, and the equivalent modifications or substitutions are included in the scope of the present application as defined in the appended claims.

Claims (10)

1. A positioning cold wave manufacturing process is characterized in that: the method comprises the following steps:

firstly, importing graphics and text contents processed by software into laser recording software to customize a thermoprinting film;

step two, putting the nickel plate with the spliced plate into a film press, performing film pressing through high-permeability PET which is pre-coated with base oil in film pressing equipment, and pressing into a hot stamping film;

step three, carrying out vacuum silver plating or gold plating on the plating surface, wherein the silver plating or gold plating surface and the film pressing surface are on the same surface;

step four, gluing is carried out on the electroplated surface;

fifthly, cutting the electroplated ironing film into rolls according to the size of the printing typesetting;

and step six, filling cold stamping glue of the printing plate, the hot stamping film and the positioning hot stamping film into a full-rotary printing machine for printing to form a positioning cold stamping layer (2).

2. The localized cold wave process of claim 1, wherein: retrofitting a printing device prior to performing step one, the printing device comprising a printing device system and a printing device hardware arrangement;

retrofitting a printing equipment system includes: implanting a secondary tracking program, and adding an automatic correction positive and negative tolerance value, wherein the range of the automatic correction positive and negative tolerance value is +/-1 mm of the length;

the modification of the hardware device of the printing equipment comprises the following steps: and a servo automatic discharging device, a tension detection device and a servo tension control are added.

3. The localized cold wave process of claim 1, wherein: the manufacturing process of the hot stamping film plate in the first step comprises the steps of manufacturing a glass plate, copying a nickel plate by using the glass plate and splicing the nickel plate into a printing imposition, wherein the circumference of the printing imposition is 0.75-1 mm shorter than that of the printing imposition.

4. The localized cold wave process of claim 2, wherein: the thermoprinting film board comprises an independent color code, and the independent color code is used for tracking marks during printing.

5. The localized cold wave process of claim 1, wherein: and step two, the thickness of the high-permeability PET is 0.025mm.

6. The localized cold wave process of claim 1, wherein: and step two, the die pressing tension and the die pressing temperature are constant when the film pressing machine is used for die pressing, and the die pressing temperature adopts an oil heating mode, and the heating temperature is 80 ℃.

7. A positioning cold stamping product, which is characterized in that: the cold stamping adhesive comprises a substrate layer (1) and a positioning cold stamping layer (2) printed on the surface of the substrate layer (1), wherein the substrate is a self-adhesive, plastic, paper or hot melt adhesive plastic packaging film; the positioning cold wave layer is a positioning cold wave layer manufactured by the positioning cold wave manufacturing process according to any one of claims 1-6.

8. A localized cold wave printed product according to claim 7, wherein: the surface of the positioning cold wave layer (2) is directly covered with a protective film layer (4), and the protective film layer (4) is a light film or a matte film, light oil or matte oil.

9. A localized cold wave printed product according to claim 7, wherein: the surface of the positioning cold wave layer (2) is covered with a color printing layer (3), and the color printing layer (3) is covered with a protective film layer (4).

10. A localized cold wave printed product according to claim 7, wherein: the surface of the positioning cold wave layer (2) comprises a plurality of layers of lasers.