CN102110538A - Button structure generating virtual stereo images by adopting laser hologram and manufacturing method thereof - Google Patents

Abstract

The invention provides a button structure generating virtual stereo images by adopting laser hologram and a manufacturing method thereof. The structure comprises a laser hologram film unit, a base layer module, a top layer module and a button unit, wherein the laser hologram film unit is provided with a light transmissive layer and a plurality of laser hologram patterns formed on the light transmissive layer; the base layer module is arranged on the lower surface of the light transmissive layer of the laser hologram film unit; the top layer module is arranged on the upper surface of the light transmissive layer of the laser hologram film unit; and the button unit is provided with a plurality of light transmissive button bodies which are arranged on the upper surface of the top layer module and correspond to the laser hologram patterns. The button structure and the manufacturing method have the following beneficial effects: the genuine stereo patterns are not necessary to be put in the button structure but the button structure can generate the virtual stereo images by adopting laser hologram; the manufacturing method has simple process and can be used for mass production to substantially lower the production cost; and diversified stereo images can be provided.

Description

Produce press-key structure of virtual three-dimensional image and preparation method thereof with the laser holography

Technical field

The present invention relates to a kind of press-key structure and preparation method thereof, refer to a kind of press-key structure that produces the virtual three-dimensional image with the laser holography and preparation method thereof especially.

Background technology

Progress and development along with science and technology, the consumer is for mobile phone or personal digital aid (PDA) (PDA) now, the demand of super mobile computer electronic products such as (UMPC), the also more and more individualized shape-designing that reaches sophistication of trend, and these electronic product major parts all need to pass through keyboard, can reach the message transmission between user and the electronic product, and the user is for the button demand of electronic product, also constantly in seeking change and innovation, therefore how to develop and have more competitive button, to cater to masses' at present general user demand, become the important topic that the button manufacturer is studied.

Moreover, known press-key structure discloses a bottom, a patterned layer, a superficial layer and a coloured light transmission and films, wherein the front of patterned layer is convexly equipped with forming three-dimensional pattern, and superficial layer then is provided with and aforementioned space pattern corresponding matching groove, and with on the stacking front that is connected to patterned layer, surface; Film in the coloured light transmission of the back up of patterned layer, bottom then amplexiforms below light transmission is filmed; So, to constitute a press-key structure.

Yet above-mentioned real space pattern directly adopts entity to insert in the button, and directly reaching the effect of three-dimensional totem, but its cost is higher and processing procedure is complicated loaded down with trivial details relatively, and has the problem of contraposition control to produce.So as from the foregoing, above-mentioned known press-key structure on reality is used, obviously has inconvenience and exists with defective.So the improving of the above-mentioned defective of inventor's thoughts, and according to the correlation experience of being engaged in for many years in this respect concentratedly observed and study it, and cooperates the utilization of scientific principle, and propose a kind of reasonable in design and effectively improve the present invention of above-mentioned defective.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of press-key structure and preparation method thereof, and it utilizes the laser full-figure technique to produce the virtual three-dimensional image.

In order to solve the problems of the technologies described above, according to wherein a kind of scheme of the present invention, provide a kind of laser full-figure technique that utilizes to produce the press-key structure of virtual three-dimensional image, it comprises: a laser full figure film unit, basic unit's module, a top-level module and a push-button unit.Wherein, this laser full figure film unit has a photic zone and a plurality of laser full figure pattern (laser hologram pattern) that is formed on this photic zone.This basic unit's module is arranged at the euphotic lower surface of this laser full figure film unit.This top-level module is arranged at the euphotic upper surface of this laser full figure film unit.This push-button unit has on a plurality of upper surfaces that are arranged at this top-level module and the light-penetration key body of corresponding those laser full figure patterns.

In order to solve the problems of the technologies described above, according to wherein a kind of scheme of the present invention, provide a kind of laser full-figure technique that utilizes to produce the press-key structure of virtual three-dimensional image, it comprises: a laser full figure film unit, basic unit's module, a light emitting module, a top-level module and a push-button unit.Wherein, this laser full figure film unit has a photic zone and a plurality of laser full figure pattern that is formed on this photic zone.This basic unit's module is arranged at the euphotic lower surface of this laser full figure film unit.This light emitting module is arranged at the below of this basic unit's module.This top-level module is arranged at the euphotic upper surface of this laser full figure film unit.This push-button unit has on a plurality of upper surfaces that are arranged at this top-level module and the light-penetration key body of corresponding those laser full figure patterns.

In order to solve the problems of the technologies described above, according to wherein a kind of scheme of the present invention, provide a kind of with the manufacture method of laser full-figure technique with the press-key structure of generation virtual three-dimensional image, it comprises: at first, by the mode of encapsulating, a predetermined colloid is formed in one has on the metallic plate of a plurality of laser full figure figures; Then, solidifying should predetermined colloid, and forming a laser full figure film unit, it has a photic zone and a plurality ofly is formed on this photic zone and the laser full figure pattern of the laser full figure figure of corresponding this metallic plate; Then, basic unit's module and a top-level module are arranged at the euphotic lower surface and the upper surface of this laser full figure film unit respectively; At last, a push-button unit is arranged on this top-level module, wherein this push-button unit has on a plurality of upper surfaces that are arranged at this top-level module and the light-penetration key body of corresponding those laser full figure patterns.

Therefore, beneficial effect of the present invention is: the present invention need not insert real space pattern in the press-key structure, but utilizes the laser full-figure technique, can make press-key structure can produce virtual stereo-picture.Therefore, the present invention not only processing procedure is simple and can produce in a large number, and significantly reducing production costs, and the present invention also can provide diversified stereo-picture.

Reach technology, means and the effect that predetermined purpose is taked in order further to understand the present invention, see also following about detailed description of the present invention and accompanying drawing, believe purpose of the present invention, feature and characteristics, go deep into and concrete understanding when getting one thus, yet accompanying drawing only provides reference and explanation usefulness, is not to be used for the present invention is limited.

Description of drawings

Figure 1A utilizes the side-looking combination schematic diagram of laser full-figure technique with first embodiment of the press-key structure of generation virtual three-dimensional image for the present invention;

Figure 1B is the schematic side view of the laser full figure pattern of first embodiment of the invention;

Fig. 2 utilizes the side-looking combination schematic diagram of laser full-figure technique with second embodiment of the press-key structure of generation virtual three-dimensional image for the present invention;

Fig. 3 utilizes the side-looking combination schematic diagram of laser full-figure technique with the 3rd embodiment of the press-key structure of generation virtual three-dimensional image for the present invention;

Fig. 4 utilizes the side-looking combination schematic diagram of laser full-figure technique with the 4th embodiment of the press-key structure of generation virtual three-dimensional image for the present invention;

Fig. 5 utilizes the side-looking combination schematic diagram of laser full-figure technique with the 5th embodiment of the press-key structure of generation virtual three-dimensional image for the present invention;

Fig. 6 utilizes the side-looking combination schematic diagram of laser full-figure technique with the 6th embodiment of the press-key structure of generation virtual three-dimensional image for the present invention;

Fig. 7 A utilizes the flow chart of laser full-figure technique with the manufacture method of the press-key structure of generation virtual three-dimensional image for the present invention; And

Fig. 7 B is formed in a schematic side view that has on the metallic plate of a plurality of laser full figure figures for the present invention with a predetermined colloid.

[main element description of reference numerals]

The module B of basic unit

Top-level module T

Laser full figure film unit 1 photic zone 10

Laser full figure pattern 11

Prism 110

Center line C

Summit A

Offset X 1

Offset X 2

Offset X 3

Laser full figure film unit 1 ' photic zone 10 '

Laser full figure pattern 11 '

Push-button unit 2 light-penetration key bodies 20

Film coating unit 3 coatings 30

Film coating unit 3 ' coatings 30 '

Protected location 4 protective layers 40

Background color printing element 5 background color printed layers 50

Transmission region 500

Film unit 6 light transmission film layers 60

Metallic plate M laser full figure figure M1

Predetermined colloid G

Embodiment

See also shown in Figure 1A and Figure 1B, it is a kind of with the press-key structure of laser full-figure technique with generation virtual three-dimensional image that first embodiment of the invention provides, and it comprises: a laser full figure film unit 1, a module B of basic unit, a top-level module T and a push-button unit 2.

Wherein, this laser full figure film unit 1 has a photic zone 10 and a plurality of laser full figure pattern 11 (laser hologram pattern) 11 that is formed on this photic zone 10.The module B of this basic unit is arranged at the lower surface of the photic zone 10 of this laser full figure film unit 1.This top-level module T is arranged at the upper surface of the photic zone 10 of this laser full figure film unit 1, and this push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 of corresponding those laser full figure patterns 11.

Moreover each laser full figure pattern 11 can be made up of a plurality of prisms 110 that are used to produce anaclasis.By Figure 1B as can be known, what dotted line was described is: for each center line C, the right and left of each prism presents the situation of symmetry, and the summit A of each prism 110 provided by the present invention optionally departs from each center line C, that is the summit A of each prism 110 each center line C and optionally produce a predetermined side-play amount (X1 relatively, X2, X3).

With first embodiment of the invention for example, the module B of this basic unit comprises a film coating unit 3 and a protected location 4, and this top-level module T comprises a background color printing element 5 and a film unit 6.

In addition, this film coating unit 3 has a coatings (plating film layer) 30 of lower surface that is formed at the photic zone 10 of this laser full figure film unit 1.This protected location 4 has one and is formed at the lower surface of coatings 30 of this film coating unit 3 to be used to protect the protective layer 40 of this coatings 30.Wherein, the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 all have light transmission, and according to different design requirements, the transmittancy of the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 can be adjusted when making.

Moreover, this background color printing element 5 has a background color printed layers (ground printing layer) 50 of upper surface that is formed at the photic zone 10 of this laser full figure film unit 1, and this background color printed layers 50 has the transmission region 500 of a plurality of corresponding those laser full figure patterns 11, and wherein those transmission regions 500 of this background color printed layers 50 can be the entity of basket dummy section or tool light transmission.This film unit 6 has a light transmission film layer 60 of upper surface that is formed at the background color printed layers 50 of this background color printing element 5, and those light-penetration key bodies 20 are arranged at the upper surface of this light transmission film layer 60.

See also shown in Figure 2ly, second embodiment of the invention provides a kind of laser full-figure technique that utilizes to produce the press-key structure of virtual three-dimensional image, and it comprises: a laser full figure film unit 1, a module B of basic unit, a top-level module T and a push-button unit 2.

Wherein, this laser full figure film unit 1 has a photic zone 10 and a plurality of laser full figure pattern 11 that is formed on this photic zone 10.The module B of this basic unit is arranged at the lower surface of the photic zone 10 of this laser full figure film unit 1.This top-level module T is arranged at the upper surface of the photic zone 10 of this laser full figure film unit 1, and this push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 of corresponding those laser full figure patterns 11.

With second embodiment of the invention for example, the module B of this basic unit comprises a background color printing element 5, a film coating unit 3 and a protected location 4, and this top-level module T comprises a film unit 6.

In addition, this background color printing element 5 has a background color printed layers 50 of lower surface that is formed at the photic zone 10 of this laser full figure film unit 1, and this background color printed layers 50 has the transmission region 500 of a plurality of corresponding those laser full figure patterns 11, and wherein those transmission regions 500 of this background color printed layers 50 can be the entity of basket dummy section or tool light transmission.This film coating unit 3 has a coatings 30 of lower surface that is formed at the background color printed layers 50 of this background color printing element 5.This protected location 4 has one and is formed at the lower surface of coatings 30 of this film coating unit 3 to be used to protect the protective layer 40 of this coatings 30.Wherein, the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 all have light transmission, and according to different design requirements, the transmittancy of the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 can be adjusted when making.Moreover this film unit 6 has a light transmission film layer 60 of upper surface that is formed at the photic zone 10 of this laser full figure film unit 1, and those light-penetration key bodies 20 are arranged at the upper surface of this light transmission film layer 60.

See also shown in Figure 3, third embodiment of the invention provide a kind of with the laser full-figure technique to produce the press-key structure of virtual three-dimensional image, it comprises: a laser full figure film unit 1, a module B of basic unit, a top-level module T and a push-button unit 2.

Wherein, this laser full figure film unit 1 has a photic zone 10 and a plurality of laser full figure pattern 11 that is formed on this photic zone 10.The module B of this basic unit is arranged at the lower surface of the photic zone 10 of this laser full figure film unit 1.This top-level module T is arranged at the upper surface of the photic zone 10 of this laser full figure film unit 1, and this push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 of corresponding those laser full figure patterns 11.

With third embodiment of the invention for example, the module B of this basic unit comprises a film coating unit 3 and a protected location 4, and this top-level module T comprises a film unit 6 and a background color printing element 5.

In addition, this film coating unit 3 has a coatings 30 of lower surface that is formed at the photic zone 10 of this laser full figure film unit 1.This protected location 4 has one and is formed at the lower surface of coatings 30 of this film coating unit 3 to be used to protect the protective layer 40 of this coatings 30.Wherein, the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 all have light transmission, and according to different design requirements, the transmittancy of the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 can be adjusted when making.

Moreover this film unit 6 has a light transmission film layer 60 of upper surface that is formed at the photic zone 10 of this laser full figure film unit 1.This background color printing element 5 has a background color printed layers 50 of upper surface that is formed at the light transmission film layer 60 of this film unit 6, wherein this background color printed layers 50 has the transmission region 500 of a plurality of corresponding those laser full figure patterns 11, those light-penetration key bodies 20 are arranged at the upper surface of this background color printed layers 50, and those transmission regions 500 of this background color printed layers 50 can be the entity of basket dummy section or tool light transmission.

See also shown in Figure 4ly, fourth embodiment of the invention provides a kind of and produces the press-key structure of virtual three-dimensional image with the laser holography, and it comprises: a laser full figure film unit 1, a module B of basic unit, a top-level module T and a push-button unit 2.

Wherein, this laser full figure film unit 1 has a photic zone 10 and a plurality of laser full figure pattern 11 that is formed on this photic zone 10.The module B of this basic unit is arranged at the lower surface of the photic zone 10 of this laser full figure film unit 1.This top-level module T is arranged at the upper surface of the photic zone 10 of this laser full figure film unit 1, and this push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 of corresponding those laser full figure patterns 11.

With fourth embodiment of the invention for example, the module B of this basic unit comprises a film unit 6, a background color printing element 5 and a protected location 4, and this top-level module T comprises a film coating unit 3.

In addition, this film unit 6 has a light transmission film layer 60 of lower surface that is formed at the photic zone 10 of this laser full figure film unit 1.This background color printing element 5 has a background color printed layers 50 of lower surface that is formed at the light transmission film layer 60 of this film unit 6, and this background color printed layers 50 has the transmission region 500 of a plurality of corresponding those laser full figure patterns 11, and wherein those transmission regions 500 of this background color printed layers 50 can be the entity of basket dummy section or tool light transmission.

Moreover this protected location 4 has one and is formed at the lower surface of background color printed layers 50 of this background color printing element 5 to be used to protect the protective layer 40 of this background color printed layers 50.This film coating unit 3 has a coatings 30 of upper surface that is formed at the photic zone 10 of this laser full figure film unit 1, and those light-penetration key bodies 20 are arranged at the upper surface of this coatings 30.Wherein, the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 all have light transmission, and according to different design requirements, the transmittancy of the coatings 30 of this film coating unit 3 and the protective layer 40 of this protected location 4 can be adjusted when making.

See also shown in Figure 5ly, fifth embodiment of the invention provides a kind of and produces the press-key structure of virtual three-dimensional image with the laser holography, and it comprises: a laser full figure film unit 1, a module B of basic unit, a top-level module T and a push-button unit 2.

Wherein, this laser full figure film unit 1 has a photic zone 10 and a plurality of laser full figure pattern 11 that is formed on this photic zone 10.The module B of this basic unit is arranged at the lower surface of the photic zone 10 of this laser full figure film unit 1.This top-level module T is arranged at the upper surface of the photic zone 10 of this laser full figure film unit 1, and this push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 of corresponding those laser full figure patterns 11.

With fifth embodiment of the invention for example; the module B of this basic unit comprises a background color printing element 5, a film coating unit 3 and a protected location 4, and this top-level module T comprises a film unit 6, another laser full figure film unit 1 ' and another film coating unit 3 '.

In addition, this background color printing element 5 has a background color printed layers 50 of lower surface that is formed at the photic zone 10 of this laser full figure film unit 1, and this background color printed layers 50 has the transmission region 500 of a plurality of corresponding those laser full figure patterns 11, and wherein those transmission regions 500 of this background color printed layers 50 can be the entity of basket dummy section or tool light transmission.This film coating unit 3 has a coatings 30 of lower surface that is formed at the background color printed layers 50 of this background color printing element 5.This protected location 4 has one and is formed at the lower surface of coatings 30 of this film coating unit 3 to be used to protect the protective layer 40 of this coatings 30.

Moreover this film unit 6 has a light transmission film layer 60 of upper surface that is formed at the photic zone 10 of this laser full figure film unit 1.Above-mentioned another laser full figure film unit 1 ' has photic zone 10 ' and other a plurality of laser full figure patterns 11 ' that are formed on above-mentioned another photic zone 10 ' of the upper surface of another light transmission film layer 60 that is formed at this film unit 6.Above-mentioned another film coating unit 3 ' has the coatings 30 ' of the upper surface of another another photic zone 10 ' that is formed at above-mentioned another laser full figure film unit 1 ', and those light-penetration key bodies 20 are arranged at the upper surface of above-mentioned another coatings 30 '.Wherein, another coatings 30 ' of the coatings 30 of this film coating unit 3, the protective layer 40 of this protected location 4 and above-mentioned another film coating unit 3 ' all has light transmission; and according to different design requirements, the transmittancy of another coatings 30 ' of the coatings 30 of this film coating unit 3, the protective layer 40 of this protected location 4 and above-mentioned another film coating unit 3 ' can be adjusted when making.

See also shown in Figure 6, it is a kind of with the press-key structure of laser full-figure technique with generation virtual three-dimensional image that sixth embodiment of the invention provides, and it comprises: a laser full figure film unit 1, a module B of basic unit, a light emitting module 3, a top-level module T and a push-button unit 2.Wherein, this laser full figure film unit 1 has a photic zone 10 and a plurality of laser full figure pattern 11 that is formed on this photic zone 10.The module B of this basic unit is arranged at the lower surface of the photic zone 10 of this laser full figure film unit 1.This light emitting module 3 is arranged at the below of the module B of this basic unit.This top-level module T is arranged at the upper surface of the photic zone 10 of this laser full figure film unit 1.This push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 of corresponding those laser full figure patterns 11.In other words, the press-key structure of above-mentioned other the five kinds of embodiment of the present invention also can cooperate this light emitting module 3 to use.

See also shown in Fig. 7 A and Fig. 7 B, the invention provides a kind of with the manufacture method of laser full-figure technique with the press-key structure of generation virtual three-dimensional image, it comprises: at first, by the mode of encapsulating, a predetermined colloid G is formed in a metallic plate M with a plurality of laser full figure figure M1 goes up (step S100); Then, solidifying should predetermined colloid G, and forming a laser full figure film unit 1, it has a photic zone 10 and a plurality ofly is formed on this photic zone 10 and the laser full figure pattern 11 (step S102) of the laser full figure figure M 1 of corresponding this metallic plate M; Then, a module B of basic unit and a top-level module T are arranged at the lower surface and the upper surface (step S104) of the photic zone 10 of this laser full figure film unit 1 respectively; At last, a push-button unit 2 is arranged on this top-level module T, wherein this push-button unit 2 has on a plurality of upper surfaces that are arranged at this top-level module T and the light-penetration key body 20 (step S106) of corresponding those laser full figure patterns 11.In other words, all embodiment of the press-key structure of the invention described above all can finish by above-mentioned manufacture method.

In sum, the present invention need not insert real space pattern in the press-key structure, but utilizes the laser full-figure technique, can make press-key structure can produce virtual stereo-picture.Therefore, the present invention not only processing procedure is simple and can produce in a large number, and significantly reducing production costs, and the present invention also can provide diversified stereo-picture.

All scopes of the present invention should be as the criterion with claim of the present invention; all closing in the embodiment of the spirit variation similar of claim protection range of the present invention with it; all should be contained in the category of the present invention; any those of ordinary skills in the field of the invention, can think easily and variation or revise all can be encompassed in the claim protection range of the present invention.

Claims (20)

1. One kind with the laser full-figure technique to produce the press-key structure of virtual three-dimensional image, it is characterized in that, comprising:

   One laser full figure film unit, it has a photic zone and a plurality of laser full figure pattern that is formed on this photic zone;

   One basic unit's module, it is arranged at the euphotic lower surface of this laser full figure film unit;

   One top-level module, it is arranged at the euphotic upper surface of this laser full figure film unit; And

   One push-button unit, it has on a plurality of upper surfaces that are arranged at this top-level module and the light-penetration key body of corresponding those laser full figure patterns.
2. 2. as claimed in claim 1 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a film coating unit and a protected location, and this top-level module comprises a background color printing element and a film unit;

   Wherein this film coating unit has a coatings that is formed at the euphotic lower surface of this laser full figure film unit;

   Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

   Wherein this background color printing element has a background color printed layers that is formed at the euphotic upper surface of this laser full figure film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

   Wherein this film unit has a light transmission film layer of upper surface that is formed at the background color printed layers of this background color printing element, and those light-penetration key bodies are arranged at the upper surface of this light transmission film layer.
3. 3. as claimed in claim 2 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image; it is characterized in that: those transmission regions of this background color printed layers are the basket dummy section, and the protective layer of the coatings of this film coating unit and this protected location all has light transmission.
4. 4. as claimed in claim 1 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a background color printing element, a film coating unit and a protected location, and this top-level module comprises a film unit;

   Wherein this background color printing element has a background color printed layers that is formed at the euphotic lower surface of this laser full figure film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

   Wherein this film coating unit has a coatings of lower surface that is formed at the background color printed layers of this background color printing element;

   Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

   Wherein this film unit has a light transmission film layer that is formed at the euphotic upper surface of this laser full figure film unit, and those light-penetration key bodies are arranged at the upper surface of this light transmission film layer.
5. 5. as claimed in claim 4 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image; it is characterized in that: those transmission regions of this background color printed layers are the basket dummy section, and the protective layer of the coatings of this film coating unit and this protected location all has light transmission.
6. 6. as claimed in claim 1 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a film coating unit and a protected location, and this top-level module comprises a film unit and a background color printing element;

   Wherein this film coating unit has a coatings that is formed at the euphotic lower surface of this laser full figure film unit;

   Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

   Wherein this film unit has a light transmission film layer that is formed at the euphotic upper surface of this laser full figure film unit;

   Wherein this background color printing element has a background color printed layers of upper surface that is formed at the light transmission film layer of this film unit, wherein this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns, and those light-penetration key bodies are arranged at the upper surface of this background color printed layers.
7. 7. as claimed in claim 6 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image; it is characterized in that: those transmission regions of this background color printed layers are the basket dummy section, and the protective layer of the coatings of this film coating unit and this protected location all has light transmission.
8. 8. as claimed in claim 1 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a film unit, a background color printing element and a protected location, and this top-level module comprises a film coating unit;

   Wherein this film unit has a light transmission film layer that is formed at the euphotic lower surface of this laser full figure film unit;

   Wherein this background color printing element has a background color printed layers of lower surface that is formed at the light transmission film layer of this film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

   Wherein this protected location has one and is formed at the lower surface of background color printed layers of this background color printing element to be used to protect the protective layer of this background color printed layers;

   Wherein this film coating unit has a coatings that is formed at the euphotic upper surface of this laser full figure film unit, and those light-penetration key bodies are arranged at the upper surface of this coatings.
9. 9. as claimed in claim 8 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image; it is characterized in that: those transmission regions of this background color printed layers are the basket dummy section, and the protective layer of the coatings of this film coating unit and this protected location all has light transmission.
10. 10. as claimed in claim 1 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a background color printing element, a film coating unit and a protected location, and this top-level module comprises a film unit, another laser full figure film unit and another film coating unit;

    Wherein this background color printing element has a background color printed layers that is formed at the euphotic lower surface of this laser full figure film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

    Wherein this film coating unit has a coatings of lower surface that is formed at the background color printed layers of this background color printing element;

    Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

    Wherein this film unit has a light transmission film layer that is formed at the euphotic upper surface of this laser full figure film unit;

    Wherein above-mentioned another laser full figure film unit has photic zone and other a plurality of laser full figure patterns that are formed on above-mentioned another photic zone of the upper surface of another light transmission film layer that is formed at this film unit;

    Wherein above-mentioned another film coating unit has another coatings that is formed at another euphotic upper surface of above-mentioned another laser full figure film unit, and those light-penetration key bodies are arranged at the upper surface of above-mentioned another coatings.
11. 11. it is as claimed in claim 10 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image; it is characterized in that: those transmission regions of this background color printed layers are the basket dummy section, and the coatings of this film coating unit, the protective layer of this protected location and another coatings of above-mentioned another film coating unit all have light transmission.
12. 12. as claimed in claim 1 with the laser full-figure technique to produce the press-key structure of virtual three-dimensional image, it is characterized in that: each laser full figure pattern is made up of a plurality of prisms that are used to produce anaclasis.
13. 13. one kind with the laser full-figure technique to produce the press-key structure of virtual three-dimensional image, it is characterized in that, comprising:

    One laser full figure film unit, it has a photic zone and a plurality of laser full figure pattern that is formed on this photic zone;

    One basic unit's module, it is arranged at the euphotic lower surface of this laser full figure film unit;

    One light emitting module, it is arranged at the below of this basic unit's module;

    One top-level module, it is arranged at the euphotic upper surface of this laser full figure film unit; And

    One push-button unit, it has on a plurality of upper surfaces that are arranged at this top-level module and the light-penetration key body of corresponding those laser full figure patterns.
14. 14. as claimed in claim 13 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a film coating unit and a protected location, and this top-level module comprises a background color printing element and a film unit;

    Wherein this film coating unit has a coatings that is formed at the euphotic lower surface of this laser full figure film unit;

    Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

    Wherein this background color printing element has a background color printed layers that is formed at the euphotic upper surface of this laser full figure film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

    Wherein this film unit has a light transmission film layer of upper surface that is formed at the background color printed layers of this background color printing element, and those light-penetration key bodies are arranged at the upper surface of this light transmission film layer.
15. 15. as claimed in claim 13 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a background color printing element, a film coating unit and a protected location, and this top-level module comprises a film unit;

    Wherein this background color printing element has a background color printed layers that is formed at the euphotic lower surface of this laser full figure film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

    Wherein this film coating unit has a coatings of lower surface that is formed at the background color printed layers of this background color printing element;

    Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

    Wherein this film unit has a light transmission film layer that is formed at the euphotic upper surface of this laser full figure film unit, and those light-penetration key bodies are arranged at the upper surface of this light transmission film layer.
16. 16. as claim 13 described with the laser full-figure technique to produce the press-key structure of virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a film coating unit and a protected location, and this top-level module comprises a film unit and a background color printing element;

    Wherein this film coating unit has a coatings that is formed at the euphotic lower surface of this laser full figure film unit;

    Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

    Wherein this film unit has a light transmission film layer that is formed at the euphotic upper surface of this laser full figure film unit;

    Wherein this background color printing element has a background color printed layers of upper surface that is formed at the light transmission film layer of this film unit, wherein this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns, and those light-penetration key bodies are arranged at the upper surface of this background color printed layers.
17. 17. as claim 13 described with the laser full-figure technique to produce the press-key structure of virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a film unit, a background color printing element and a protected location, and this top-level module comprises a film coating unit;

    Wherein this film unit has a light transmission film layer that is formed at the euphotic lower surface of this laser full figure film unit;

    Wherein this background color printing element has a background color printed layers of lower surface that is formed at the light transmission film layer of this film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

    Wherein this protected location has one and is formed at the lower surface of background color printed layers of this background color printing element to be used to protect the protective layer of this background color printed layers;

    Wherein this film coating unit has a coatings that is formed at the euphotic upper surface of this laser full figure film unit, and those light-penetration key bodies are arranged at the upper surface of this coatings.
18. 18. it is as claimed in claim 13 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this basic unit's module comprises a background color printing element, a film coating unit and a protected location, and this top-level module comprises a film unit, another laser full figure film unit and another film coating unit;

    Wherein this background color printing element has a background color printed layers that is formed at the euphotic lower surface of this laser full figure film unit, and this background color printed layers has the transmission region of a plurality of corresponding those laser full figure patterns;

    Wherein this film coating unit has a coatings of lower surface that is formed at the background color printed layers of this background color printing element;

    Wherein this protected location has one and is formed at the lower surface of coatings of this film coating unit to be used to protect the protective layer of this coatings;

    Wherein this film unit has a light transmission film layer that is formed at the euphotic upper surface of this laser full figure film unit;

    Wherein above-mentioned another laser full figure film unit has photic zone and other a plurality of laser full figure patterns that are formed on above-mentioned another photic zone of the upper surface of another light transmission film layer that is formed at this film unit;

    Wherein above-mentioned another film coating unit has another coatings that is formed at another euphotic upper surface of above-mentioned another laser full figure film unit, and those light-penetration key bodies are arranged at the upper surface of above-mentioned another coatings.
19. 19. as claimed in claim 13 with the press-key structure of laser full-figure technique with generation virtual three-dimensional image, it is characterized in that: this light emitting module is made up of many light-emitting components or is made up of a light-guide device and many light-emitting components that are arranged at this light-guide device side that are arranged at the below of this basic unit's module.
20. 20. one kind with the manufacture method of laser full-figure technique with the press-key structure that produces the virtual three-dimensional image, it is characterized in that, comprising:

    By the mode of encapsulating, a predetermined colloid is formed in one has on the metallic plate of a plurality of laser full figure figures;

    Solidifying should predetermined colloid, and forming a laser full figure film unit, it has a photic zone and a plurality ofly is formed on this photic zone and the laser full figure pattern of the laser full figure figure of corresponding this metallic plate;

    One basic unit's module and a top-level module are arranged at the euphotic lower surface and the upper surface of this laser full figure film unit respectively; And

    One push-button unit is arranged on this top-level module, and wherein this push-button unit has on a plurality of upper surfaces that are arranged at this top-level module and the light-penetration key body of corresponding those laser full figure patterns.

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