TWI598856B - Card structure having dot grating and manufacturing method thereof - Google Patents

Card structure having dot grating and manufacturing method thereof Download PDF

Info

Publication number
TWI598856B
TWI598856B TW105130059A TW105130059A TWI598856B TW I598856 B TWI598856 B TW I598856B TW 105130059 A TW105130059 A TW 105130059A TW 105130059 A TW105130059 A TW 105130059A TW I598856 B TWI598856 B TW I598856B
Authority
TW
Taiwan
Prior art keywords
dot
shading
grating
screen printing
plurality
Prior art date
Application number
TW105130059A
Other languages
Chinese (zh)
Other versions
TW201810216A (en
Inventor
陳家福
Original Assignee
台灣銘板股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 台灣銘板股份有限公司 filed Critical 台灣銘板股份有限公司
Priority to TW105130059A priority Critical patent/TWI598856B/en
Application granted granted Critical
Publication of TWI598856B publication Critical patent/TWI598856B/en
Publication of TW201810216A publication Critical patent/TW201810216A/en

Links

Description

Card structure with dot grating and manufacturing method thereof

The invention relates to a card structure and a manufacturing method thereof, in particular to a dot grating coating layer, a bottom layer and a coating layer after thermocompression, and then on a dot grating coating layer to print a dot circle. A card structure having a dot grating and a method of manufacturing the same.

Conventional columnar and dot lenses are in the form of a plastic card grating, and the grating sheets made of materials such as PP, PET, PMMA (acrylic) are bonded to the printing lines by cold pressing and gluing. Since the cards are mostly made of PVC, it is not possible to use hot-pressure phase fusion to prevent the grating from being pressed into a flat surface, and then to form a card by cold bonding; it is a method of extending the nickel-plate hot-pressed grating to achieve the grating Moire and the variable image. effect.

However, cold pressing has the risk of stripping the card's adhesion. On the other hand, the nickel plate requires expensive mastering and can only be produced in one piece and not in mass production.

In view of the above-mentioned problems, it is an object of the present invention to provide a card structure having a dot grating and a method of fabricating the same to solve the problems faced by the prior art.

Based on the above object, the present invention provides a card structure having a dot grating comprising a dot grating coating layer, a shading layer and a coating layer. One side of the dot grating coating layer has a plurality of screen printing dot dots printed on the screen. The shading layer is disposed on the dot grating coating layer opposite to one of the plurality of screen printing dot dots, and the shading layer corresponding to the dot grating coating layer has a plurality of first shading and a plurality of second shading The positions of the plurality of first shadings respectively correspond to the corresponding dot dots of the screen printing dots, and the positions of the plurality of second shadings respectively have an offset distance from the corresponding dot of each screen printing dot, each The offset distance of the second shading is proportional to the distance of each of the second shading distances from a starting point of the card structure of the dot grating, and each of the second shadings is offset toward the starting point. The coating layer is disposed on one side of the shading layer opposite to the dot grating coating layer.

Preferably, the screen printing dot dots may be a convex lens structure.

Preferably, the size of the dot of the screen printing dot is proportional to the thickness.

Preferably, the position of the dot of the screen printing dot can overlap the position of the corresponding first and second shading.

Preferably, in each of the directions extending from the starting point, the offset distances of two of the plurality of second shadings may differ by one pixel (pixel).

Based on the above object, the present invention further provides a method for manufacturing a card structure having a dot grating, which is suitable for manufacturing a card structure having a dot grating having a dot grating coating layer, a shading layer and a coating layer, having dots The method of manufacturing a card structure of a grating comprises the steps of: printing a plurality of first shadings and a plurality of second shadings on one side of the shading layer. The hot-pressed dot grating coating layer has a plurality of first shading and one of a plurality of second shading layers on the shading layer, and the coating layer is thermocompression bonded to the other side of the shading layer. a plurality of screen printing dot dots are printed on the dot screen of the dot grating coating layer, and the positions of the plurality of screen printing dot dots respectively correspond to the corresponding first shadings, and the plurality of The position of the dot of the screen printing dot has an offset distance from the corresponding second shading, and the offset distance of each second shading and the distance of each second shading have a card structure of a dot grating. The distance of the dots is proportional, and each of the second shadings is offset toward the starting point.

According to the above, the card structure with the dot grating of the present invention and the manufacturing method thereof are printed in the screen printing manner, and the screen printing dot dots are relatively simple and convenient, so as to improve the conventional cold bonding and the nickel plate hot pressing. The problem of gratings has improved for mass production, card sealing and production costs.

In order to understand the features, contents, and advantages of the present invention, and the advantages thereof, the present invention will be described in conjunction with the drawings, and the description of the embodiments will be described in detail below. The use of the present invention and the accompanying drawings are not necessarily the true proportions and precise configurations of the present invention. Therefore, the scope and configuration of the attached drawings should not be construed as limiting the scope of the invention.

The advantages and features of the present invention, as well as the technical methods of the present invention, are described in more detail with reference to the exemplary embodiments and the accompanying drawings, and the present invention may be implemented in various forms and should not be construed as limited thereby. The embodiments of the present invention, and the embodiments of the present invention are intended to provide a more complete and complete and complete disclosure of the scope of the present invention, and The scope of the patent application is defined.

Please refer to FIGS. 1 and 2; FIG. 1 is an exploded perspective view of a card structure having a dot grating according to the present invention; and FIG. 2 is a screen printing dot dot of a card structure having a dot grating according to the present invention. A schematic diagram of the superposition of the first shading and the second shading. As shown, the card structure 100 of the present invention having a dot grating includes a dot grating coating layer 110, a texture layer 120, and a coating layer 130. The card structure 100 having a dot grating is formed by sequentially pressing and bonding the dot grating coating layer 110, the underprint layer 120, and the coating layer 130.

In other words, one side of the dot grating coating layer 110 has a plurality of screen printing dot dots 111 printed on the screen, and the touch can be felt when the surface is touched.

The shading layer 120 is disposed on one side of the dot grating coating layer 110 having a plurality of screen printing dot dots 111, that is, the dot grating coating layer 110 does not have a plurality of screen printing dot dots 111. one side. The face layer 120 has a plurality of first shadings 121 (such as "TN" in FIG. 2) and a plurality of second shadings 122 (such as "5" in FIG. 2) on one side of the dot grating coating layer 110. The positions of the plurality of first shadings 121 respectively correspond to the corresponding screen printing dot dots 111; and the positions of the plurality of second shadings 122 are respectively between the corresponding screen printing dot dots 111 Having an offset distance, the offset distance of each of the second shadings 122 is proportional to the distance of each of the second shadings 122 from the starting point A of the card structure 100 having the dot grating, as shown in FIG. The direction arrow extending from the starting point A, the second shading 122 adjacent to it is further away from the starting point A, and the offset is larger. In other words, since the first shading 121 is fixed, It can also be found that the further the distance from the starting point A is, the larger the first shading 121 of the second shading 122 is, and the offset direction of each second shading 122 is the direction relative to the starting point A.

Wherein, the position of the screen printing dot dot 111 overlaps the position of the corresponding first shading 121, and is fixed; further, after the dot grating coating layer 110 is thermally pressed with the shading layer 120, A shading 121 is located in the corresponding screen printing dot dot 111. However, the starting point A can be set according to requirements and other considerations, and the second shading 122 will be offset from the starting point, and the offset distance of the second shading 122 farther from the starting point A The larger the offset mentioned here is, the second shading 122 is interlaced with the position of the corresponding screen printing dot dot 111, and the continuous uninterrupted moving image can be observed from different viewing angles. A shading 121 is generally fixed and overlaps the position of the screen printing dot dot 111. In addition, among the directions extending from the starting point A, the offset distances of two adjacent ones of the plurality of second shadings 122 may differ by 1 pixel; that is, one direction from the starting point A The offset distances of two adjacent ones of the plurality of second shadings 122 will differ by one pixel. However, the above is only an example and should not be limited to this.

The coating layer 130 is disposed on one side of the ground layer 120 opposite to the dot grating coating layer 110, that is, the bottom layer 120 does not have a plurality of first shadings 121 and a plurality of second shadings 122.

In addition, the screen printing dot dot 111 may be a convex lens structure, and the size of the screen printing dot dot 111 may be proportional to the thickness. However, before printing the dot printing dot 111, it is necessary to open a file to transfer out the dot pattern, and adjust the parameters such as the number of lines, angles and shapes, and modify the image processing such as edge, reverse, black and white. Thereafter, the file can be produced for subsequent printing of the dot printing dot dot 111.

Please refer to FIG. 3, which is a schematic diagram of a dot grating coating layer of a card structure having a dot grating of the present invention. As shown in the figure, the screen printing dot dot 111 is a convex lens structure, which is designed according to the formula, and the formula is as follows:

Where t is the focal length, that is, the thickness of the dot grating coating layer 110 plus the height of the dot printing dot dot 111; r is the radius of curvature of the screen printing dot dot 111; n is the refractive index, that is, used The refractive index of the material and the UV varnish used; D is the diameter of the screen printing dot dot 111; h is the height of the screen printing dot dot 111.

However, the principle of screen printing minimization is mainly based on superimposing lines of the same period to superimpose to generate a new pattern, which follows the following formula:

Among them, the W system is the size of the moiré; the P 1 system is the first group period; the P 2 system is the second group period; the θ system is the angle between the two groups of lines.

It is worth mentioning that the printed shading must be offset from the angle of the screen printing dot dot 111 so that any one cycle can correspond to the moire animation of the upper and lower dots. Since the screen printing dot dots 111 can be printed after the pressing, and the spacing and size of the screen printing dot dots 111 need to be fixed, if the distance between the dots is too close, the ink will stick together before the ultraviolet drying. Therefore, when designing, the screen printing dot dot 111 should not be too large to avoid the printing ink from expanding and sticking together. In addition, the ink viscosity is insufficient or the high temperature and high humidity environment causes the ink to flow to the side, so that the screen printing dot The height of the dot 111 is slightly lowered. However, when the screen printing dot dot 111 having a high film thickness is screen-printed, the lower the number of meshes, the more the effect can be exhibited. The present invention can use a 200-mesh screen, and the thickness of the screen emulsion is 12 um, which is printed. The thickness of the screen printing dot dot 111 is 30 um high. When the screen printing film thickness of the screen printing dot dot 111 is made, the ink liquid flows, so the UV type ink is used to instantaneously dry by ultraviolet light irradiation. However, the above is merely illustrative of the invention and is not intended to be limiting.

Although the foregoing description of the card structure having the dot grating of the present invention has been described in the foregoing description of the card structure having the dot grating of the present invention, for the sake of clarity, the flow is also illustrated below. The figure is described in detail.

Please refer to FIG. 4, which is a flow chart of a method for manufacturing a card structure having a dot grating according to the present invention. The manufacturing method of the card structure with the dot grating of the present invention is suitable for manufacturing a card structure having a dot grating with a dot grating coating layer, a shading layer and a coating layer; as shown in the figure, the invention has a circle The manufacturing method of the card structure of the dot grating includes the following steps:

In step S41, a plurality of first shadings and a plurality of second shadings are printed on one side of the shading layer.

In step S42, the hot-pressed dot grating coating layer has a plurality of first shading and one of a plurality of second shadings on the shading layer, and the coating layer is thermocompression bonded to the other side of the shading layer.

In step S43, a plurality of screen printing dot dots are printed on the dot screen of the dot grating coating layer, and the positions of the plurality of screen printing dot dots and the corresponding first shading respectively. Corresponding to each other, the positions of the plurality of screen printing dot dots respectively have an offset distance from the corresponding second shading, and the offset distance of each second shading and the second shading distance have a dot grating The distance from the starting point of the card structure is proportional, and each second shading is offset in the direction relative to the starting point.

The detailed description and embodiments of the method for manufacturing a card structure having a dot grating of the present invention have been described above with reference to the card structure of the present invention having a dot grating, and will not be described again for the sake of brevity.

According to the above, the card structure with the dot grating of the present invention and the manufacturing method thereof are printed in the screen printing manner, and the screen printing dot dots are relatively simple and convenient, so as to improve the conventional cold bonding and the nickel plate hot pressing. The problem of gratings has improved for mass production, card sealing and production costs.

The embodiments described above are merely illustrative of the technical spirit and the features of the present invention, and the objects of the present invention can be understood by those skilled in the art, and the scope of the present invention cannot be limited thereto. That is, the equivalent variations or modifications made by the spirit of the present invention should still be included in the scope of the present invention.

100‧‧‧Card structure with dot grating
110‧‧‧Dot grating coating
111‧‧‧ Screen printing dot dots
120‧‧‧ shading layer
121‧‧‧First shading
122‧‧‧Second shading
130‧‧‧Layer layer
A‧‧‧ starting point
S41 to S43‧‧‧ steps

Figure 1 is an exploded perspective view of a card structure having a dot grating of the present invention. Fig. 2 is a schematic view showing the superposition of the dot printing dot, the first shading and the second shading of the card structure having the dot grating of the present invention. Fig. 3 is a schematic view showing a dot grating coating layer of a card structure having a dot grating of the present invention. Fig. 4 is a flow chart showing a method of manufacturing a card structure having a dot grating of the present invention.

100‧‧‧Card structure with dot grating

110‧‧‧Dot grating coating

120‧‧‧ shading layer

130‧‧‧Layer layer

Claims (10)

  1. A card structure having a dot grating, comprising: a dot grating coating layer having a plurality of screen printing dot dots printed on the screen by one side; a shading layer disposed on the dot The grating coating layer has one surface of the plurality of screen printing dot dots, and the surface layer corresponding to one of the dot grating coating layers has a plurality of first shading and a plurality of second shading, the plural The positions of the first shadings respectively correspond to the corresponding dots of the screen printing dot, and the positions of the plurality of second shadings respectively have an offset distance from the corresponding dot of the screen printing dot. The offset distance of each of the second shadings is proportional to the distance of each of the second shading distances from a starting point of the card structure having the dot grating, and each of the second shading lines is opposite to the starting The direction of the point is offset; and a coating layer is disposed on the surface of the ground layer opposite to the dot grating coating layer.
  2. A card structure having a dot grating as described in claim 1, wherein the screen printing dot dot is a convex lens structure.
  3. A card structure having a dot grating as described in claim 1, wherein the size of the dot of the screen printing dot is proportional to the thickness.
  4. The card structure having a dot grating according to claim 1, wherein the position of the dot of the screen printing dot overlaps the position of the first shading and the second shading.
  5. The card structure having a dot grating according to claim 1, wherein in the respective directions extending from the starting point, the offset distance of two adjacent ones of the plurality of second shadings is The difference is 1 pixel.
  6. A method for manufacturing a card structure having a dot grating, which is suitable for manufacturing a card structure having a dot grating coating layer, a shading layer and a coating layer having a dot grating, the card structure having a dot grating The manufacturing method comprises the steps of: printing a plurality of first shadings and a plurality of second shadings on one side of the shading layer; thermally pressing the dot grating coating layer on the shading layer to have the plurality of a shading and one of the plurality of second shadings, and the coating layer is thermocompression bonded to the other side of the shading layer; and the dot grating coating layer is screen printed on one of the shading layers a plurality of screen printing dot dots, wherein the positions of the plurality of screen printing dot dots respectively correspond to the corresponding first shadings, and the positions of the plurality of screen printing dot dots respectively correspond to corresponding An offset distance between the second shadings, the offset distance of each of the second shadings being proportional to a distance of each of the second shading distances from a starting point of the card structure having a dot grating, and Each of the second shading lines is opposite to the starting point Offset.
  7. The method for manufacturing a card structure having a dot grating as described in claim 6, wherein the screen printing dot dot is a convex lens structure.
  8. The method for manufacturing a card structure having a dot grating as described in claim 6, wherein the size of the dot of the screen printing dot is proportional to the thickness.
  9. The method for manufacturing a card structure having a dot grating according to claim 6, wherein the position of the dot of the screen printing dot overlaps the position of the first shading and the second shading.
  10. The method for manufacturing a card structure having a dot grating according to claim 6, wherein in each of the directions extending from the starting point, the two of the plurality of second shadings are offset. The shift distance is 1 pixel apart.
TW105130059A 2016-09-14 2016-09-14 Card structure having dot grating and manufacturing method thereof TWI598856B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
TW105130059A TWI598856B (en) 2016-09-14 2016-09-14 Card structure having dot grating and manufacturing method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW105130059A TWI598856B (en) 2016-09-14 2016-09-14 Card structure having dot grating and manufacturing method thereof

Publications (2)

Publication Number Publication Date
TWI598856B true TWI598856B (en) 2017-09-11
TW201810216A TW201810216A (en) 2018-03-16

Family

ID=60719343

Family Applications (1)

Application Number Title Priority Date Filing Date
TW105130059A TWI598856B (en) 2016-09-14 2016-09-14 Card structure having dot grating and manufacturing method thereof

Country Status (1)

Country Link
TW (1) TWI598856B (en)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWM309165U (en) * 2006-09-15 2007-04-01 Beautiful Card Corp Improved card structure
TWM476054U (en) * 2013-12-16 2014-04-11 Taiwan Name Plate Co Ltd Optical microstructure card
CN203543423U (en) * 2013-07-25 2014-04-16 汕头市晟琪塑胶制品有限公司 Card
US20140223191A1 (en) * 2005-05-31 2014-08-07 Semiconductor Energy Laboratory Co., Ltd. Communication System and Authentication Card

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20140223191A1 (en) * 2005-05-31 2014-08-07 Semiconductor Energy Laboratory Co., Ltd. Communication System and Authentication Card
TWM309165U (en) * 2006-09-15 2007-04-01 Beautiful Card Corp Improved card structure
CN203543423U (en) * 2013-07-25 2014-04-16 汕头市晟琪塑胶制品有限公司 Card
TWM476054U (en) * 2013-12-16 2014-04-11 Taiwan Name Plate Co Ltd Optical microstructure card

Also Published As

Publication number Publication date
TW201810216A (en) 2018-03-16

Similar Documents

Publication Publication Date Title
TWI441744B (en) Multi-layer body with micro-lens arrangement
KR101288198B1 (en) Input apparatus and method for manufacturing the same
US20140198264A1 (en) Metal mesh conductive layer and touch panel having the same
TWI301210B (en) Optically variable element and use thereof
US6256150B1 (en) Lenticular optical system having parallel fresnel lenses
CA2826027C (en) Patterned flexible transparent conductive sheet and manufacturing method thereof
US6989931B2 (en) Lenticular optical system
US7974006B2 (en) Stereoscopic sheet structure
US7731813B2 (en) Manufacture of display devices with ultrathin lens arrays for viewing interlaced images
CN104221071A (en) Seamless display panel tiling using an optical expansion layer
KR20100052511A (en) Improved micro-optic security device
CN106030376A (en) Improvements in and relating to waveguides
US20080112056A1 (en) Ultrathin lens arrays for viewing interlaced images with dual lens structures
US7298533B2 (en) Optical films for creating unique optical effects
CN103608186A (en) Security device
CN101460914A (en) Keypad with virtual image
US8018655B2 (en) Method and assembly for three-dimensional products
US7130126B1 (en) Three-dimensional plastic sheet
WO1999039221A2 (en) Method and devices for producing lens-grid alternating images
DE102009032697B3 (en) Multi-layer body
US7394596B1 (en) Plane lens sheet using light transmission rate difference
US20140376088A1 (en) Injection-molded product having three-dimensional security element and production method therefor
JP2012083752A (en) Printing micro convex lens for lenticular printing
JP5442910B2 (en) Image display sheet
US8474874B2 (en) Layered image display sheet