CN211467924U - Printed matter adopting composite reverse glazing process - Google Patents

Abstract

The utility model discloses an adopt printed matter of compound reverse glazing technology, including the printing plate body and printing ink coating, the top of printing plate body is provided with printing ink coating, printing ink coating through the even top terminal surface department that covers in the printing plate body of spraying, printing ink coating's top is provided with reverse glazing china ink, reverse glazing china ink covers in printing ink coating's top middle part position department through the offset printing, reverse glazing china ink's top and printing ink coating top uncovered department are provided with UV gloss oil, UV gloss oil covers in reverse glazing china ink and printing ink coating's top terminal surface department through coating is even, the top of UV gloss oil is provided with the static and inhales the membrane, the static inhales the membrane and passes through the static absorption in UV gloss oil's top terminal surface department, such setting can be protected solidification UV gloss oil through the static inhales the membrane after the printed matter is the finished product, the phenomena of scratches, abrasion and the like caused by external force on the solidified UV gloss oil can be avoided.

Description

Printed matter adopting composite reverse glazing process

Technical Field

The utility model belongs to the technical field of reverse glazing technology is relevant, concretely relates to adopt printed matter of compound reverse glazing technology.

Background

The packaging requirements of industries such as cigarette and wine are continuously improved, the use of non-absorbent raw materials such as gold and silver paperboard and plastic sheets is emphasized, so that domestic printing enterprises strive to introduce and install UW curing equipment to be beneficial to printing on the materials, and reverse glazing is performed by reverse thinking as the name suggests, so that the traditional glazing law is broken through, and the registration problem is solved.

The existing reverse glazing process technology has the following problems: at present, after reverse glazing, the smooth surface is not protected, and then the phenomenon of scratch and smooth surface abrasion easily occurs under the action of the external environment after the printed matter is printed, so that the use value of the printed matter can be greatly reduced, and the problem of resource waste is caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adopt printed matter of compound reverse glazing technology to solve present that proposes in the above-mentioned background art and after reverse glazing, not protect the plain noodles, and then lead to the printed matter after the printing finishes, mar and plain noodles wearing and tearing phenomenon appear easily under the external environment effect, and this phenomenon can the use value of greatly reduced printed matter, causes the wasting of resources problem.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an adopt printed matter of compound reverse glazing technology, includes printing plate body and printing ink coating, the top of printing plate body is provided with printing ink coating, printing ink coating through the even top end face department that covers in printing plate body of spraying, printing ink coating's top is provided with reverse glazing ink, reverse glazing ink covers in printing ink coating's top middle part position department through the offset printing, reverse glazing ink's top and printing ink coating top do not cover the department and are provided with UV gloss oil, UV gloss oil is through the even top end face department that covers in reverse glazing ink and printing ink coating of coating, the top of UV gloss oil is provided with the static and inhales the membrane, the static is inhaled the membrane and is inhaled the top end face department that the membrane passes through static absorption in UV gloss oil.

Preferably, the ink coating is applied to the top of the printing plate body and then cured to offset the reverse ink on the top of the ink coating.

Preferably, the reverse glazing ink is arranged in a bright surface when viewed from the position of the UV gloss oil when the UV gloss oil covers the surface of the reverse glazing ink.

Preferably, the UV varnish is disposed in a non-glossy surface on a portion of the ink coating layer where the reverse ink is not offset.

Preferably, the UV gloss oil is coated on the surface of the ink coating and the reverse gloss ink, and then the UV gloss oil is required to be in a curing form so as to adsorb the electrostatic absorption film on the surface of the UV gloss oil.

Preferably, the electrostatic absorption film can be peeled from the end face of the top end of the UV gloss oil under the action of force, and the electrostatic absorption film cannot be adsorbed on the surface of the UV gloss oil again after being peeled.

Preferably, the thickness of a printed matter formed by the printing plate body, the ink coating, the reverse glazing ink, the UV gloss oil and the electrostatic absorption film is zero six millimeters.

Compared with the prior art, the utility model provides an adopt printed matter of compound reverse glazing technology possesses following beneficial effect:

the membrane is inhaled to static adsorbs the UV gloss oil surface after the solidification in the process that sets up, it is using to adhere to article surface through electrostatic adsorption and plays the guard action, generally be used for remaining more sensitive surface to gluing agent or glue, be used for glass more, the lens, highlight plastic face and ya keli etc. very glossy surface, such setting can be protected solidification UV gloss oil through the membrane is inhaled to static after the printed matter is the finished product, can avoid solidification UV gloss oil to receive phenomena such as external force effect appearance mar and wearing and tearing.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

fig. 1 is a schematic view of an overall structure of a printed matter using a composite reverse glazing process according to the present invention;

fig. 2 is a schematic view of a layered structure of a reverse glazing process in a printed matter using a composite reverse glazing process according to the present invention;

in the figure: 1. printing a plate body; 2. coating with ink; 3. reversely glazing the ink; 4. UV gloss oil; 5. and (5) electrostatic absorption of the film.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution for printed matter using composite reverse glazing process:

the utility model provides an adopt printed matter of compound reverse glazing technology, including printing plate body 1 and ink coating 2, the top of printing plate body 1 is provided with ink coating 2, ink coating 2 through the even top end face department that covers in printing plate body 1 of spraying, the top of ink coating 2 is provided with reverse glazing ink 3, reverse glazing ink 3 covers the top middle part position department in ink coating 2 through the offset printing, ink coating 2 must be the solidification form after covering in the top of printing plate body 1 and can be with reverse glazing ink 3 offset printing on the top of ink coating 2.

A printed matter adopting a composite reverse glazing process comprises a top end of a reverse glazing ink 3 and a top end uncovered part of an ink coating 2, wherein UV gloss oil 4 is uniformly coated on the top end faces of the reverse glazing ink 3 and the ink coating 2, the reverse glazing ink 3 is viewed from the UV gloss oil 4 to be in a bright surface arrangement when the UV gloss oil 4 covers the surface of the reverse glazing ink 3, and the part of the non-offset reverse glazing ink 3 is in a non-bright surface arrangement when the UV gloss oil 4 covers the surface of the ink coating 2.

The utility model provides an adopt printed matter of compound reverse glazing technology, top including UV gloss oil 4 is provided with electrostatic absorption membrane 5, electrostatic absorption membrane 5 adsorbs in the top end face department of UV gloss oil 4 through static, UV gloss oil 4 covers must be the solidification form after printing ink coating 2 and reverse glazing ink 3 surfaces and can adsorb membrane 5 in the surface of UV gloss oil 4 with static, electrostatic absorption membrane 5 can peel off from the top end face department of UV gloss oil 4 under the effect of force, electrostatic absorption membrane 5 can't adsorb again in the surface of UV gloss oil 4 after peeling off, such setting, can be after the printed matter is the finished product protect solidification UV gloss oil 4 through electrostatic absorption membrane 5, can avoid solidification UV gloss oil 4 to receive phenomena such as external force effect appearance mar and wearing and tearing.

The utility model discloses a theory of operation and use flow: in the printing process, the ink coating 2 is uniformly sprayed on the surface of the printing plate body 1, after the ink coating 2 is cured, contents which are displayed in a key position on the ink coating 2 are layered by coating the UV gloss oil 4 on the ink coating 2 and the reverse gloss ink 3, when the UV gloss oil 4 covers the surface of the reverse gloss ink 3 in the layering process, the reverse gloss ink 3 is viewed from the UV gloss oil 4 and is arranged in a bright surface, when the UV gloss oil 4 covers the surface of the ink coating 2, the part which is not subjected to offset printing and is coated with the reverse gloss ink 3 is arranged in a non-bright surface, when the electrostatic absorption film 5 is adsorbed on the surface of the cured UV gloss oil 4 in the setting process, the electrostatic absorption film 5 is adsorbed on the surface of the cured UV gloss oil 4, and is adhered on the surface of an article through electrostatic absorption to play a role in protection when the electrostatic absorption film is used, and is generally used for a surface which is sensitive to glue or glue residue, the utility model discloses a be used for very glossy surfaces such as glass, lens, highlight plastic face and ya keli, such setting can be protected solidification UV gloss oil 4 through static suction film 5 after the printed matter is the finished product, can avoid solidification UV gloss oil 4 to receive external force effect phenomenon such as mar and wearing and tearing to appear, should set up and do not have any influence to solidification UV gloss oil 4, and the guard action is good, and the practicality is better.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A printed matter adopting a composite reverse glazing process comprises a printing plate body (1) and an ink coating (2), and is characterized in that: the top of printing plate body (1) is provided with ink coating (2), ink coating (2) through the even top end face department that covers in printing plate body (1) of spraying, the top of ink coating (2) is provided with reverse glazing ink (3), reverse glazing ink (3) cover in the top middle part position department of ink coating (2) through the offset printing, the top and the ink coating (2) top of reverse glazing ink (3) do not cover the department and are provided with UV gloss oil (4), UV gloss oil (4) cover in the top end face department of reverse glazing ink (3) and ink coating (2) through coating is even, the top of UV gloss oil (4) is provided with electrostatic absorption membrane (5), electrostatic absorption membrane (5) are in the top end face department of UV gloss oil (4) through electrostatic absorption.

2. A printed matter using a composite reverse glazing process according to claim 1, wherein: the ink coating (2) is covered on the top end of the printing plate body (1) and then is in a curing state, so that the reverse ink coating (3) can be offset printed on the top end of the ink coating (2).

3. A printed matter using a composite reverse glazing process according to claim 1, wherein: when the UV gloss oil (4) covers the surface of the reverse gloss ink (3), the reverse gloss ink (3) is viewed from the UV gloss oil (4) and is arranged in a bright surface.

4. A printed matter using a composite reverse glazing process according to claim 1, wherein: when the UV gloss oil (4) covers the surface of the ink coating (2), the UV gloss oil is arranged on the part of the ink (3) which is not subjected to offset printing and is in a non-bright surface.

5. A printed matter using a composite reverse glazing process according to claim 1, wherein: the UV gloss oil (4) is covered on the surfaces of the ink coating (2) and the reverse gloss ink (3) and then is in a curing state, so that the electrostatic absorption film (5) can be absorbed on the surface of the UV gloss oil (4).

6. A printed matter using a composite reverse glazing process according to claim 1, wherein: the electrostatic absorption film (5) can be peeled off from the end face of the top end of the UV gloss oil (4) under the action of force, and the electrostatic absorption film (5) cannot be adsorbed on the surface of the UV gloss oil (4) again after being peeled off.

7. A printed matter using a composite reverse glazing process according to claim 1, wherein: the thickness of a printed matter formed by the printing plate body (1), the ink coating (2), the reverse glazing ink (3), the UV gloss oil (4) and the electrostatic absorption film (5) is zero six millimeters.

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