JP2011167990A - Method for making three-dimensional printing image for display screen protective sheet and display screen protective sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for making a three-dimensional printing image for a display screen protective sheet by which a three-dimensional printing image can be formed even by using a soft material such as a PET film and to provide a three-dimensional printing sheet for protecting a display screen. <P>SOLUTION: [1] The method for making the three-dimensional printing image for the display screen protective sheet is characterized by having a step of forming the three-dimensional printing image by screen printing, where the number of meshes in a screen is in a range of 50 to 150 per inch, onto the display screen protective sheet. [2] The three-dimensional printing sheet for protecting the display screen is obtained by the method for making the three-dimensional printing image for the display screen protective sheet described in [1]. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a method for producing a three-dimensional printed image for a display screen protection sheet and a three-dimensional printed sheet for display screen protection, and more particularly to production of a three-dimensional printed image for a display screen protection sheet used for a liquid crystal display screen of a mobile phone or the like. The present invention relates to a method and a three-dimensional printing sheet for display screen protection.

Flat printing technology is the mainstream in ordinary printing technology, but printing technology that cannot be handled by flat printing technology is required due to diversification of consumer needs. In recent years, a method for producing a three-dimensional printed image has attracted attention as an example of such a printing technique.
Since the image expressed by the three-dimensional print image changes depending on the angle at which the actual imprint is observed as compared with the flat print image, it can be given to those who see an impression different from the flat print image.
For this reason, since it has the effect of attracting people's eyes more than the conventional flat print image, it is possible to give various kinds of information to a person who views it efficiently.
However, it is difficult to produce a three-dimensional printed image in comparison with a flat printed image. In the case of a flat print image, it can be manufactured in a large amount in a short time by a method such as transferring ink to a flat base material. There is a problem how to solve this point.

As a technique capable of mass-producing a flat base material having a three-dimensional printed image, a mold forming using a thermoplastic resin or the like can be considered.
It is possible to mass-produce a three-dimensional printed image having a fixed shape by melting a thermoplastic resin or the like and injecting it into the die and forming it in the shape of a cavity previously provided in the die.
However, when using molds for molding, when mass-producing many types of three-dimensional printed images for each image, it is necessary to prepare a mold that matches each three-dimensional printed image. In addition to being economically disadvantageous, it may be inferior in immediate response to consumer trends.

On the other hand, as a technique capable of mass-producing a flat base material having a three-dimensional printed image, a technique using an ink jet printer has been proposed (Patent Document 1).
If this technology uses an inkjet printer, even when mass-producing many kinds of three-dimensional printed images for each image, it can be dealt with by controlling a program for controlling the inkjet printer. Thereby, the problem seen in metal mold | die shaping | molding etc. does not arise.
However, in the case of a technique using an ink jet printer, fine ink is placed on a predetermined position of a flat base material so that it is difficult to detect with the naked eye when a soft resin sheet is used as the flat base material. There is a problem that it is difficult to obtain a three-dimensional printed image of a certain quality due to the influence of expansion and distortion of the resin sheet.

  In addition, a method using a photosensitive resin to form a three-dimensional printed image with unevenness has been proposed, but it is difficult or impossible to create a three-dimensional image with the unevenness intended by the producer. It is said that there is (Patent Document 1).

On the other hand, a polyester film such as a PET film (polyethylene terephthalate film) is generally used as a display screen protective sheet used for a liquid crystal display screen of a mobile phone or the like.
As techniques for printing characters, logo marks, etc. on such PET films, flat printing techniques such as offset printing, gravure printing, screen printing and letterpress printing are known. With these flat surface printing techniques, it is possible to perform precise multicolor printing and full-color printing such as photographs.
However, the printed matter obtained by these conventional techniques is planar, and it is difficult to three-dimensionally express characters, logo marks, and the like on a material such as a flexible PET film.
Although it is not impossible to form a three-dimensional printed image by thick film processing of conventional screen printing or gravure printing ink, there are technical restrictions on plate making in both screen printing and gravure printing. However, there is a problem that it is difficult to achieve both fine expression and thick ink film processing, and it is extremely difficult to express a precise full-color expression three-dimensionally and the reproducibility is poor.

Japanese Patent Application No. 2003-578148

  An object of the present invention is to provide a method for producing a three-dimensional printed image for a protective sheet for a display screen and a three-dimensional printed sheet for protecting a display screen, which can form a three-dimensional printed image even with a flexible material such as a PET film. It is in.

  When the present inventors diligently studied to solve the above problems, by performing screen printing on the display screen protection sheet with screen printing having a mesh number range of 50 to 150 (lines / inch), The inventors have found that a three-dimensional printed image can be formed even with a flexible material such as a PET film, and completed the present invention.

That is, the present invention
[1] A display screen comprising a step of forming a three-dimensional print image by screen printing with a screen mesh number range of 50 to 150 (lines / inch) with respect to the display screen protection sheet. A method for producing a three-dimensional printed image for a protective sheet is provided.

The present invention also provides
[2] forming a flat print image by printing on the display screen protection sheet;
Forming a three-dimensional printed image on the display screen protection sheet by screen printing in which the range of the mesh number of the screen is in the range of 50 to 150 (lines / inch);
The present invention provides a method for producing a three-dimensional printed image for a display screen protection sheet.

The present invention also provides
[3] The step of forming a flat print image by printing on the display screen protection sheet is offset printing and / or a screen whose screen mesh number ranges from 151 to 800 (lines / inch). The present invention provides a method for producing a three-dimensional printed image for a display screen protection sheet according to the above [1] or [2], including printing.

The present invention also provides
[4] A method for producing a three-dimensional printed image for a display screen protection sheet according to any one of the above [1] to [3], wherein the display screen protection sheet contains a transparent synthetic resin.

The present invention also provides
[5] A three-dimensional print sheet for display screen protection obtained by the method for producing a three-dimensional print image for display screen protection sheet according to any one of [1] to [4].

The present invention also provides
[6] The display screen protecting three-dimensional printing sheet according to the above [5], in which an adhesive layer is provided on a surface opposite to the surface of the display screen protecting sheet on which the three-dimensional printed image is formed. .

The present invention also provides
[7] At least one display screen protection sheet selected from the group consisting of a mobile phone, a portable information terminal, a portable game device, a portable music player, a portable electronic dictionary, a clock, an in-vehicle monitor, and a notebook personal computer. The present invention provides a three-dimensional printing sheet for protecting a display screen according to the above [5] or [6].

According to the present invention, a three-dimensional printed image can be formed relatively easily on a display screen protective sheet such as a synthetic resin film used for a liquid crystal display screen of a mobile phone or the like.
As a result, a three-dimensional print sheet for protecting a display screen used for a liquid crystal display screen of a mobile phone, a portable information terminal, a portable game device, a portable music player, a portable electronic dictionary, a clock, an in-vehicle monitor, a notebook personal computer, etc. It can be provided with high production efficiency.
In particular, the present invention can form a three-dimensional printed image relatively easily on a display screen protection sheet such as a flexible synthetic resin film, so that characters, characters and figures can be easily displayed on a liquid crystal display screen of a mobile phone or the like. A logo mark including symbols and the like can be displayed three-dimensionally.

FIG. 3 is a schematic diagram for explaining a three-dimensional printed image for display screen protection sheet and a three-dimensional printed sheet for display screen protection obtained in Example 1. It is a schematic cross section which shows the cross section which cut | disconnected the three-dimensional printing sheet for display screen protection of FIG. 1 with the dashed-dotted line aa.

First, the display screen protection sheet used in the present invention will be described.
A synthetic resin is preferably used as the base material of the display screen protection sheet. Examples of such synthetic resins include polyester resins such as polyethylene terephthalate and polybutylene terephthalate, polyolefin resins such as polyethylene, polypropylene and polybutylene, halogenated resins such as fluorinated polyethylene, polyvinyl chloride and polyvinylidene chloride, polyvinyl alcohol resins, Examples thereof include vinyl resins such as polyethylene vinyl alcohol resin, polyurethane resins, polystyrene resins and the like.
The synthetic resin is preferably transparent. The synthetic resin may be colored and transparent or colorless and transparent, but is more preferably colorless and transparent.

The thickness of the display screen protective sheet is preferably in the range of 10 to 1000 μm, more preferably in the range of 20 to 500 μm, and even more preferably in the range of 50 to 300 μm.
When the thickness of the display screen protection sheet is less than 10 μm or exceeds 1000 μm, it may be difficult to install the display screen protection sheet on a liquid crystal display screen of a mobile phone or the like.

Moreover, it is preferable to provide an adhesive layer on one surface of the display screen protection sheet.
Examples of a method of providing such an adhesive layer on the substrate include a method of laminating an adhesive resin sheet and the substrate, and a method of applying an adhesive to the substrate.
In the case where an adhesive layer is provided on the base material, an operation of providing an adhesive layer on the base material after forming a flat print image and a three-dimensional print image on a surface of the base material on which the adhesive layer is not provided may be performed. Alternatively, an operation of providing an adhesive layer on the substrate may be performed before forming the flat print image and the three-dimensional print image.

When performing the operation of providing an adhesive layer on the substrate before forming a flat print image and a three-dimensional print image on the surface of the substrate on which the adhesive layer is not provided, the surface of the adhesive layer is the adhesive layer. It is preferable to cover it with a protective sheet.
As the pressure-sensitive adhesive layer protective sheet, the same substrate as described above can be used.

  Examples of the display screen protective sheet used in the present invention include those composed of the above-mentioned base material, those obtained by laminating an adhesive layer on the base material, and an adhesive layer laminated on the base material, and further sticking to the adhesive layer. The thing of the three-layer structure to which the layer protective sheet was affixed can be used.

Next, a process of forming a flat print image on the display screen protection sheet will be described.
Examples of a method for forming a flat print image on the display screen protective sheet include letterpress printing such as letterpress printing, planographic printing such as offset printing, intaglio printing such as gravure printing, stencil printing such as screen printing, and ink jet transfer. Examples of the method include plateless printing.

The method for forming a flat print image on the display screen protection sheet is preferably at least one of offset printing and screen printing.
Offset printing and screen printing can be performed precisely on the display screen protection sheet.

  Since offset printing has a thin print film thickness and inferior surface concealment properties, flyers and wrapping papers that use high-speed digital control centered on paper and other materials, taking advantage of the smoothness and whiteness of these materials. Used for the production of books. This offset printing is inexpensive and is a technique capable of printing in large quantities and precisely, and therefore is excellent as a method for forming a flat print image on the display screen protection sheet.

  On the other hand, screen printing can be applied to a wide range of objects, and is suitable for printing wood, leather, cloth, glass, metal, ceramics, etc. in addition to paper. Especially, the printing method for the display screen protection sheet As best.

  When using a screen, there are few restrictions on the ink to be selected, printing is possible even if there is a chemical reaction after printing or there are irregularities on the printing surface, and the pressure during printing, that is, the printing pressure is also small, It also has a feature that does not change its shape.

  Printing machines that can perform screen printing are commercially available from hand printers to rotary machines, so that they can be easily obtained according to the intended use.

  The screen printing used in the present invention preferably uses a so-called high mesh screen having a screen mesh number range of 151 to 800 (lines / inch).

  The screen mesh number is preferably in the range of 200 to 700 (lines / inch), more preferably in the range of 250 to 600 (lines / inch).

By at least one of offset printing and screen printing, color printing is performed on the display screen protection sheet using a graphic image, an illustration image, a logo design image, etc. as a flat print image.
The selection and arrangement of colors are appropriately selected according to the target image.
By the method described above, it is possible to perform colored printing with excellent drawing properties such as shading, imprint, and color tone on the display screen protection sheet.

Next, the process of forming a three-dimensional printed image on the display screen protection sheet will be described.
When forming a three-dimensional printed image, printing is performed by screen printing in which the range of the mesh number of the screen is in the range of 50 to 150 (lines / inch).
The range of the mesh number of the screen is preferably in the range of 60 to 140 (lines / inch), and more preferably in the range of 80 to 120 (lines / inch).
In particular, the screen printing in which the screen mesh number is in the range of 50 to 150 (lines / inch) is characterized in that the printing film pressure is easily controlled.

The screen used for screen printing when forming a three-dimensional printed image is a screen 得 obtained by knitting nylon, polyester, metal wire, etc. in a mesh shape, so the yarn diameter (紗 diameter) and coarse mesh Depending on the thickness (number of meshes), the amount and shape of ink discharged during screen printing can be freely controlled.
When a photosensitive emulsion is used for forming a three-dimensional printed image, it is easy to control the film thickness of the photosensitive emulsion if the screen mesh number is in the range of 50 to 150 (lines / inch). This is preferable.

  The film thickness of the photosensitive emulsion on the screen used for screen printing is preferably in the range of 50 to 200 μm, more preferably in the range of 80 to 120 μm.

  Next, for example, when forming a three-dimensional print image on the display screen protection sheet on which the flat print image is formed, the graphic image, the illustration image, the logo design image, etc. produced in the previous process are three-dimensionally emphasized. A three-dimensional printed image is formed at a place to be formed.

  Compared to the screen used for the flat print image, the ink amount during conventional flat print is larger than the screen used for the flat print image and the screen has a mesh number range of 50 to 150 (lines / inch). A three-dimensional printed image can be formed by disposing an increased amount of the photosensitive emulsion as compared with the above and using an ultraviolet curable ink or a two-component curable ink.

  If the image to be formed on the display screen protection sheet is not delicate in design and is composed only of rough processing, etc., the formation of the flat print image is omitted, and the screen mesh number range is 50 to 150 ( A three-dimensional printed image can also be formed by printing only by screen printing in the range of (book / inch).

In the above description, the method of forming a three-dimensional print image after forming a flat print image on the display screen protection sheet has been described, but conversely, a three-dimensional print image may be formed first and then forming a flat print image. it can.
Also, only a three-dimensional print image can be formed on the display screen protection sheet.

  The three-dimensional printed sheet for protecting the display screen of the present invention is a liquid crystal display screen, plasma display screen, such as a mobile phone, a portable information terminal, a portable game device, a portable music playback device, a portable electronic dictionary, a clock, an in-vehicle monitor and a notebook personal computer. It is used for protection applications such as EL display screens.

A display screen of a mobile phone or the like can be protected by sticking a three-dimensional printing sheet for display screen protection directly to the display screen of the mobile phone or the like.
In addition, a fitting part or the like fitted with a three-dimensional print sheet for display screen protection is attached around the display screen of a mobile phone or the like, or a three-dimensional print sheet for display screen protection is inserted in a slot provided around the display screen of a mobile phone or the like. By inserting the outer peripheral portion, the display screen protecting three-dimensional printing sheet can be directly attached to the display screen of a mobile phone or the like.

  EXAMPLES Next, although an Example demonstrates this invention further in detail, this invention is not limited at all by these Examples.

An illustration of an anime character was printed on a commercially available PET film with a film thickness of 100 μm using a regular four colors of cyan, magenta, yellow and black and a full color separation color of white using a UV offset printer.
Next, a 100-mesh screen plate in which a photosensitive emulsion film thickness of 100 μm is applied to the outline of the anime character and the portion to be three-dimensionally emphasized on the solid surface using a commercially available transparent UV ink (ultraviolet curable ink). Three-dimensional thick UV printing was performed using The display unit for the number of meshes is [lines / inch]. The same applies hereinafter.
As a result, a three-dimensional printed image for the display screen protection sheet was formed. The thickness of the three-dimensional printed image portion was 120 μm.
Next, the printed PET film was punched by using a Thomson die in the form of a liquid crystal screen for a mobile phone to produce a three-dimensional printed sheet for display screen protection for protecting the liquid crystal screen of the mobile phone.

FIG. 1 is a schematic diagram for explaining the three-dimensional printed image for display screen protection sheet and the three-dimensional printed sheet for display screen protection obtained in Example 1. FIG.
As shown in FIG. 1, the three-dimensional printing sheet 1 for protecting the display screen uses a UV offset printing machine, and uses the regular four colors of cyan, magenta, yellow and black and the full color separation color of white, and the anime character 3 A flat print image 2 expressing the illustrations and the arrangement of the foliage plants 6 to 8 in the flower pot 9 is formed on the surface of the three-dimensional print sheet 1 for protecting the display screen.

FIG. 2 is a schematic cross-sectional view showing a cross section of the three-dimensional printed sheet for display screen protection shown in FIG. 1 cut along a one-dot broken line aa.
Three-dimensional thick UV printing is applied to the contour lines of the illustrations of the anime character 3 and the flower pot 9, the eyes 4 and arms 5 of the anime character 3, the ornamental plants 6 to 8, etc., and the anime character 3 and the ornamental plant 6 to 8 can be three-dimensionally formed.

Using a commercially available PET film with a film thickness of 100 μm that has an adhesive layer formed on one side and can be re-peeled, the same operation as in Example 1 was performed, and the three-dimensional printing for the display screen protection sheet A three-dimensional printed sheet for display screen protection for protecting the liquid crystal screen of the mobile phone after the image was formed was manufactured.
The thickness of the three-dimensional printed image portion of Example 2 was 120 μm as in Example 1.

A commercially available PET film having a thickness of 100 μm and having an adhesive layer formed on one surface and capable of re-peeling was used.
The PET film was subjected to three-dimensional thick UV printing with a transparent UV ink (ultraviolet curable ink) using a 100 mesh screen plate coated with a photosensitive emulsion film thickness of 100 μm.
Next, regular, full-color printing of cyan, magenta, yellow, and black was performed on a 350 mesh screen plate to form a three-dimensional printed image for a display screen protection sheet.
In addition, a three-dimensional printed image-containing display screen protective sheet for protecting the liquid crystal screen of the mobile phone was manufactured by the same operation as in Example 1.

A commercially available PET film having a thickness of 100 μm and having an adhesive layer formed on one surface and capable of re-peeling was used.
The PET film was three-dimensionally embossed by white printing with a transparent two-component curable epoxy ink using a 100 mesh screen plate coated with a photosensitive emulsion film thickness of 100 μm.
Next, bronze-based gold powder printing was overlapped and printed on a part of the white printing by the 250 mesh screen plate.
Next, three-color regular, full-color printing of cyan, magenta, yellow, and black is performed on the remaining white three-dimensional thick print surface and the unprinted immediate part on the 350 mesh screen plate, and the three-dimensional display screen protection sheet. A printed image was formed.
In addition, a three-dimensional printed image-containing display screen protective sheet for protecting the liquid crystal screen of the mobile phone was manufactured by the same operation as in Example 1.

A commercially available PET film having a thickness of 100 μm and having an adhesive layer formed on one surface and capable of re-peeling was used.
Next, three-dimensional emboss printing was performed using a 100 mesh screen plate coated with a photosensitive emulsion film thickness of 100 μm using a red two-component curable urethane ink (commercially available).
As a result, a three-dimensional printed image for the display screen protection sheet was formed. The thickness of the three-dimensional printed image portion was 120 μm.
In addition, a three-dimensional printed image-containing display screen protective sheet for protecting the liquid crystal screen of the mobile phone was manufactured by the same operation as in Example 1.

A method for producing a three-dimensional printed image for a display screen protection sheet and a three-dimensional print sheet for display screen protection according to the present invention are rapidly developed in recent years in mobile phones, portable information terminals, portable game devices, portable music playback devices, and portable electronic dictionaries. It can be suitably used for liquid crystal display screens, plasma display screens, EL display screens, etc. for watches, in-vehicle monitors and notebook personal computers.
In order to prevent the visibility of these display screens from being deteriorated due to dust, dirt, scratches, etc., the user of the above equipment purchases the above equipment in order to keep the display screen transparent and clean at all times. Immediately after that, a favorite protective sheet is attached, and if the protective sheet becomes old or deteriorates, it is often replaced with a new protective sheet.
The users of the above devices are not simply using the protective cover for the purpose of protection but affixing a more decorative and favorite protective sheet to demand the value as a product that can be self-satisfied and appeal to others.
For this reason, companies as suppliers of protective sheets strive to provide manga, animation, corporate PR, trendy designs, etc. in an effective and prominent way in order to meet the demands of these users.
The present invention has been made in view of these circumstances, and not only satisfies the curiosity and satisfaction of young people, but also leads to the creation of value for the supplier.

1 Three-dimensional printed sheet for display screen protection 2 Planar printed image 3 Anime character 4 Anime character's eyes 5 Anime character 3 arm 6, 7, 8 Houseplant 9 Flowerpot

Claims (7)

  For a display screen protection sheet, comprising a step of forming a three-dimensional print image by screen printing with a screen mesh number range of 50 to 150 (lines / inch) with respect to the display screen protection sheet Production method of 3D print image. Forming a flat print image by printing on the display screen protection sheet;
Forming a three-dimensional printed image on the display screen protection sheet by screen printing in which the range of the mesh number of the screen is in the range of 50 to 150 (lines / inch);
A method for producing a three-dimensional printed image for a display screen protection sheet, comprising:   The step of forming a flat print image by printing on the display screen protection sheet includes offset printing and / or screen printing in which the screen mesh number ranges from 151 to 800 (lines / inch). A method for producing a three-dimensional printed image for a display screen protection sheet according to claim 1 or 2.   The production method of the three-dimensional printed image for display screen protection sheets in any one of Claims 1-3 in which the said display screen protection sheet contains a transparent synthetic resin.   A three-dimensional printing sheet for display screen protection obtained by the method for producing a three-dimensional printed image for display screen protection sheet according to claim 1.   The three-dimensional printing sheet for display screen protection according to claim 5, wherein an adhesive layer is provided on a surface opposite to the surface of the display screen protection sheet on which the three-dimensional printed image is formed.   The display screen protection sheet is for protecting at least one display screen selected from the group consisting of a mobile phone, a portable information terminal, a portable game device, a portable music player, a portable electronic dictionary, a clock, an in-vehicle monitor, and a notebook personal computer. The three-dimensional printing sheet for display screen protection according to claim 5 or 6.