CN207557515U - Multilayer film with anisotropy light transmission - Google Patents
Multilayer film with anisotropy light transmission Download PDFInfo
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- CN207557515U CN207557515U CN201721542423.1U CN201721542423U CN207557515U CN 207557515 U CN207557515 U CN 207557515U CN 201721542423 U CN201721542423 U CN 201721542423U CN 207557515 U CN207557515 U CN 207557515U
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Abstract
The utility model provides a kind of multilayer film with anisotropy light transmission, including:First light-transparent pattern layer, the first transparent filler layer, the first transparent substrate, the second light-transparent pattern layer, the second transparent filler layer, the second transparent substrate may also include the photosensitive macromolecule layer of multilayer, the first light transmission protecting film layer and the second light transmission protecting film layer.By the first light-transparent pattern layer and the second light-transparent pattern layer, it can be achieved that the unidirectional shielding of multilayer film;By the photosensitive macromolecule layer of multilayer, the unidirectional penetrability of multilayer film is adjusted;It can be made by fluorescent material softer or bright-coloured by the emergent ray of multilayer film;By the first light transmission protecting film layer through atomization process, make reverberation image blur;By the second light transmission protecting film through mirror surface treatment, make reverberation image definition.Multilayer film can be made to reach efficient unidirectional masking or unidirectionally penetrate effect by the utility model, daylighting, landscape are reached simultaneously with saving the purpose of secret privacy in region from damage.
Description
Technical field
The utility model is related to a kind of optical multilayer film structure therefors, have unidirectional masking more particularly to one kind or unidirectionally penetrate
Multilayer film.
Background technology
The penetrability of so-called glass is generally referred to as the two-way transparency of glass, i.e. glass is all in terms of any one direction
Can with light transmission and can normal imaging, the shielding of glass generally refers to light by mixed and disorderly diffusing transmission, can be from glass
Side is transmitted to opposite side, it is impossible to normal imaging, i.e., it cannot be seen that scenery outside opposite side.The glass generally used in life is all
There is good penetrability, and need to consider privacy or other specific demands in many occasions, so people can wish that glass has
The unidirectional performance covered or unidirectionally penetrated.
Existing one-way mirror is provided with one or more layers thin metal film or metal oxide film on the surface of base material, this
It is the coating with metal as made by nickel, chromium, silver or aluminium etc. or its associated metal oxide, it, can be with because of its very thin thickness
The light of reflective portion, but also the light of part is allowed to penetrate simultaneously, and a part of light can also be absorbed by metal or metal oxide,
Some light can be allowed to penetrate the one-way mirror reflected with some light or two-way mirror so as to be made, suited the particular use.In addition it builds
Glass or vehicle glass Chang Yihui reduce the brightness of direct sunlight, but such addition in a manner of adding colored colorants in glass
Glass or diaphragm made by the mode of dyestuff or color masterbatch, internal reflectivity difference about the same with outside is simultaneously little, makes
The people for obtaining outside can also see interior easily, and almost without confidentiality, with the one-way mirror made by upper type, can not all reach
The function of the unidirectional shielding of height, and even if when having shielding at this time to penetrate rate score generally excessively low, cause light transmittance mistake
It is low, indoor people is made also to be not easy the scenery of identification outside.
Therefore people develop liquid-crystalline glasses product according to the physical characteristic of liquid crystal molecule, and liquid-crystalline glasses are a kind of by liquid crystal
Molecular film is by way of high temperature and pressure, high-tech photoelectric glass product that sandwich package forms, and user can be by electric current
Control the arrangement of liquid crystal molecule whether energization, so as to reach the final purpose of control glass transparent and opaque state.In
Functional material of the liquid crystal film of interbed as dimming glass, application principle are:Liquid crystal molecule is arranged in a linear in the energized state,
At this moment liquid-crystalline glasses light transmission and transparent;During off-position, liquid crystal molecule is in scattering state, at this time liquid crystal film light transmission but impermeable
It is bright.It can be reached based on this principle liquid-crystalline glasses and penetrate/shielding function, but belong to double-sided symmetrical, while penetrate with hiding simultaneously
Cover, it is impossible to reach the demand for security of anisotropy, and it is of high cost involve great expense, need to control using additional power, outdoor use
Light transmittance is not high and product weatherability is not strong, easily leads to quality problem.
Thus it is necessary to research and develop a kind of membrane structure, which there is height unidirectionally to cover characteristic or the membrane structure and have
Highly unidirectional through characteristic.
Utility model content
In view of the foregoing deficiencies of prior art, the purpose of this utility model is to provide one kind to have anisotropy light transmission
Multilayer film, for solving the problem of that light can not realize unidirectional masking or unidirectionally penetrate by glass in the prior art.
In order to achieve the above objects and other related objects, the utility model provides a kind of multilayer with anisotropy light transmission
Film, it is characterised in that the multilayer film with anisotropy light transmission includes at least:First light-transparent pattern layer, the first transparent filler
Layer, the first transparent substrate, the second light-transparent pattern layer, the second transparent filler layer, the second transparent substrate;
First transparent substrate is in setting parallel at certain interval with second transparent substrate;
The first light-transparent pattern layer is formed in table of first transparent substrate far from second transparent substrate
On face, the first light-transparent pattern layer includes the period 1 property unit of several array arrangements, the period 1 property unit
Including first lug boss and at least one second lug boss, the height of first lug boss is more than second lug boss
Height, and the height of first lug boss is between the 1/8-1/2 of the two neighboring first lug boss spacing;
The first transparent filler layer is covered in the first light-transparent pattern layer;
The second light-transparent pattern layer is formed in table of second transparent substrate close to first transparent substrate
On face, the second light-transparent pattern layer includes the Secondary periodicity unit of several array arrangements, the Secondary periodicity unit
Including a third protrusion portion and at least one 4th lug boss, the height in the third protrusion portion is more than the 4th lug boss
Height, the height in the third protrusion portion is between the 1/8-1/2 of the two neighboring third protrusion spacing;
The second transparent filler layer is covered in the second light-transparent pattern layer;
The first light-transparent pattern layer is incident from the first light-transparent pattern layer to make with the second light-transparent pattern layer
The first light generate diffusing reflection and scattering, realize shielding function, and make the second light from second transparent substrate incidence
Line penetrates, and realization penetrates function.
Preferably, the Secondary periodicity unit is corresponded with the period 1 property unit and is arranged.
Preferably, first transparent substrate is formed on the surface of the second transparent filler layer, passes through described
Two transparent filler layers bond first transparent substrate.
Preferably, the first light-transparent pattern layer and first transparent substrate are angle o, the second light-transparent pattern layer
With second transparent substrate in δ angles, and 0 °<θ≤90 °, 0 °<δ≤90°.
Preferably, the two neighboring first lug boss spacing is between 10 μm -100 μm, the two neighboring third
Lug boss spacing is between 10 μm -100 μm.
Preferably, first lug boss and second lug boss include UV curable ink, it is gorgeous go out and gorgeous disappear
Mixture bulge-structure, the third protrusion portion and the 4th lug boss include UV curable ink, it is gorgeous go out and it is gorgeous
The mixture bulge-structure to disappear.
Preferably, first lug boss and second lug boss include fluorescent material, UV curable ink, it is gorgeous go out
And the gorgeous mixture bulge-structure to disappear, the third protrusion portion include fluorescent material, UV light with the 4th lug boss
Carburetion ink, it is gorgeous go out and the gorgeous mixture bulge-structure to disappear.
Preferably, first transparent substrate forms one kind in group, institute comprising PET material layer and PC material layers
It states the second transparent substrate and includes PET material layer and PC material layers and form one kind in group.
Further, the multilayer film, which further includes, is formed in second transparent substrate far from first transparent substrates
The photosensitive macromolecule layer of multilayer on the surface of layer, the refractive index of the photosensitive macromolecule layer of multilayer is along far from first transparent substrates
The direction of layer successively reduces, and the largest refractive index of the photosensitive macromolecule layer of the multilayer is less than the folding of second transparent substrate
Penetrate rate.
Further, the refractive index of first transparent substrate is between 1.5-1.56, second transparent substrates
For the refractive index of layer between 1.5-1.56, the largest refractive index of the photosensitive macromolecule layer of multilayer is less than 1.5.
Preferably, the multilayer film further includes the first light transmission protecting film being formed in the first transparent filler layer surface
Layer and be formed in the photosensitive high polymer layer far from the second light transmission protecting film layer on second transparent substrate.
Preferably, the first light transmission protecting film layer is cloudy surface light transmission protecting film layer.
Preferably, the second light transmission protecting film layer is mirror transparent protection film layer.
Preferably, the first light transmission protecting film layer is Triafol T light transmission protecting film layer, and second light transmission is protected
Cuticular layer is Triafol T light transmission protecting film layer.
As described above, the utility model provides a kind of multilayer film with anisotropy light transmission, including:First light-transparent pattern
Layer, the first transparent filler layer, the first transparent substrate, the second light-transparent pattern layer, the second transparent filler layer, the second transparent substrates
Layer, preferably may also include the photosensitive macromolecule layer of multilayer, the first light transmission protecting film layer and the second light transmission protecting film layer.This practicality is new
Type has the advantages that:By the first light-transparent pattern layer and the second light-transparent pattern layer, it can be achieved that multilayer film
Unidirectional shielding;By the photosensitive macromolecule layer of the multilayer, the unidirectional penetrability of multilayer film is adjusted;It can be made by fluorescent material
It is softer or bright-coloured by the emergent ray of multilayer film;By the first light transmission protecting film layer through atomization process, make
The image that the reflection light of one light transmission protecting film layer side generates becomes fuzzy;It is protected by second light transmission through mirror surface treatment
Cuticula makes the image that the reflection light of the second light transmission protecting film side generates become clear.The utility model energy conveniently regulating and controlling is more
The unidirectional masking of tunic or unidirectional through characteristic reach efficient unidirectional masking or unidirectionally penetrate effect, by daylighting, landscape and guarantor
The purpose of region-wide interior secret privacy is reached simultaneously.
Description of the drawings
Fig. 1 is shown as an example structure schematic diagram of the multilayer film with anisotropy light transmission of the utility model, and Fig. 1 is said
The bright light from front surface A incidence makes the back of the body of multilayer film by the first light-transparent pattern layer and the second light-transparent pattern layer diffusing reflection and scattering
Face B realizes shielding function.
Fig. 2 is shown as period 1 property unit or the second round of the multilayer film with anisotropy light transmission of the utility model
The structure diagram of property unit.
Fig. 3 is shown as an example structure schematic diagram of the multilayer film with anisotropy light transmission of the utility model, and Fig. 3 is said
It is bright from the light-transmissive of the back surface B incidence multilayer film, realize the front surface A of multilayer film and penetrate function.
Fig. 4 is shown as another example structure schematic diagram of the multilayer film with anisotropy light transmission of the utility model, Fig. 4
Illustrate from the light of front surface A incidence by first the first light-transparent pattern layer and the second light-transparent pattern layer diffusing reflection and scattering, it is then more
The layer total reflection of layer photosensitive high polymer, makes the back surface B of multilayer film realize impenetrable function.
Fig. 5 is shown as another example structure schematic diagram of the multilayer film with anisotropy light transmission of the utility model, Fig. 5
Illustrating, which from the light-transmissive of the back surface B incidence multilayer film realizes, the front surface A of multilayer film, penetrates function.
Component label instructions
1 first light-transparent pattern layer
11 period 1 property units
111 first lug bosses
112 second lug bosses
2 first transparent filler layers
3 first transparent substrates
4 second light-transparent pattern layers
41 Secondary periodicity units
411 third protrusion portions
412 the 4th lug bosses
5 second transparent filler layers
6 second transparent substrates
The photosensitive macromolecule layer of 7 multilayers
M1-Mn individual layer photosensitive high polymer layers
8 first light transmission protecting film layers
9 second light transmission protecting film layers
Specific embodiment
Illustrate the embodiment of the utility model below by way of specific specific example, those skilled in the art can be by this theory
Content disclosed by bright book understands other advantages and effect of the utility model easily.The utility model can also be by addition
Different specific embodiments are embodied or practiced, and the various details in this specification can also be based on different viewpoints with answering
With carrying out various modifications or alterations under the spirit without departing from the utility model.
Please refer to Fig.1-Fig. 5.It should be noted that the diagram provided in the present embodiment only illustrates this reality in a schematic way
With novel basic conception, only the display component related with the utility model rather than group during according to actual implementation in schema then
Number of packages mesh, shape and size are drawn, and kenel, quantity and the ratio of each component can be a kind of random change during actual implementation,
And its assembly layout kenel may also be increasingly complex.
Embodiment 1
As shown in Figure 1, the present embodiment provides a kind of multilayer films with anisotropy light transmission, it is characterised in that described with different
The multilayer film of tropism light transmission includes at least:First light-transparent pattern layer 1, the first transparent filler layer 2, the first transparent substrate 3, second
Light-transparent pattern layer 4, the second transparent filler layer 5, the second transparent substrate 6;First transparent substrate 3 and second light transmission
Substrate layer 6 is in setting parallel at certain interval.
As Figure 1-Figure 2, the first light-transparent pattern layer 1 is formed in first transparent substrate 3 far from described
On the surface of two transparent substrates 6, the first light-transparent pattern layer 1 includes the period 1 property unit of several array arrangements
11, the period 1 property unit 11 include first lug boss 111 and at least one second lug boss 112, described first
The height H of lug boss 111 is more than the height of second lug boss 112, and the height H of first lug boss 111 is between phase
Between the 1/8-1/2 of two 111 spacing P of the first lug boss of neighbour.The first light-transparent pattern layer 1 and the first light transmission base
Plate layer 3 can be angle o, and 0 °<θ≤90 °, in the present embodiment, the first light-transparent pattern layer 1 and the first light transmission base
The selection of plate layer 3 in 90 ° of angles, also may be selected the first light-transparent pattern layer 1 and first transparent substrate 3 in 30 °, 45 °,
60 °, 75 ° angles etc., certainly, example that place enumerates that it's not limited to that.
Preferably, two neighboring first lug boss, 111 spacing P is between 10 μm -100 μm.
Preferably, first lug boss 111 and second lug boss 112 include UV curable ink, it is gorgeous go out with
And the gorgeous mixture bulge-structure to disappear.
It is highly preferred that first lug boss 111 includes fluorescent material with second lug boss 112, ultraviolet light cures
Ink, it is gorgeous go out and the gorgeous mixture bulge-structure to disappear.
The first transparent filler layer 2 is covered in the first light-transparent pattern layer 1, passes through the first transparent filler layer 2
Cure the first light-transparent pattern layer 1 and bonding first transparent substrate 3, wherein, first transparent substrate 3
It may be selected to form one kind in group comprising PET material layer and PC material layers.
The second light-transparent pattern layer 4 is formed in second transparent substrate 6 close to first transparent substrate 3
On surface, the second light-transparent pattern layer 4 includes the Secondary periodicity unit 41 of several array arrangements, the Secondary periodicity
Unit 41 includes a third protrusion portion 411 and at least one 4th lug boss 412, the height H in the third protrusion portion 411
More than the height 412 of the 4th lug boss, the height H in the third protrusion portion 411 is between the two neighboring third protrusion
Between the 1/8-1/2 of 411 spacing P of portion.The second light-transparent pattern layer 4 can be in δ angles with second transparent substrate 6, and
0°<δ≤90 °, in the present embodiment, the second light-transparent pattern layer 4 are in 90 ° of angles with second transparent substrate 6 selection,
Also it is in 30 °, 45 °, 60 °, 75 ° angles etc. that the second light-transparent pattern layer 4, which may be selected, with second transparent substrate 6, certainly, and
It is not limited to example recited herein.Preferably, the Secondary periodicity unit 41 and the period 1 property unit 11 1
One corresponds to arrangement.
Preferably, two neighboring 411 spacing P of the third protrusion portion is between 10 μm -100 μm.
Preferably, the third protrusion portion 411 and the 4th lug boss 412 include UV curable ink, it is gorgeous go out with
And the gorgeous mixture bulge-structure to disappear.
It is highly preferred that the third protrusion portion 411 includes fluorescent material with the 4th lug boss 412, ultraviolet light cures
Ink, it is gorgeous go out and the gorgeous mixture bulge-structure to disappear.
The second transparent filler layer 5 is covered in the second light-transparent pattern layer 4, passes through the second transparent filler layer 5
Cure the second light-transparent pattern layer 4 and bonding second transparent substrate 6, wherein, second transparent substrate 6
It may be selected to form one kind in group comprising PET material layer and PC material layers.
Preferably, first transparent substrate 3 is formed on the surface of the second transparent filler layer 5, by described
Second transparent filler layer 5 bonds first transparent substrate 3.
The first light-transparent pattern layer 1 is with the second light-transparent pattern layer 4 making to enter from the first light-transparent pattern layer 1
The first light penetrated generates diffusing reflection and scattering, realizes shielding function, and makes second from 6 incidence of the second transparent substrate
Light penetrates, and realization penetrates function.
The shielding of so-called multilayer film refers to, when light is from the incidence of the side of multilayer film, by mixed and disorderly diffusing reflection and dissipates
It penetrates, can be emitted from the opposite side of multilayer film, but be unable to normal imaging, i.e., cannot be seen in multilayer film beam projecting face side more
The scenery of tunic plane of light incidence side claims multilayer film beam projecting face to have shielding function, if multilayer film only has one at this time
Face has shielding function, then is known as unidirectional masking, if there is shielding function on the two sides of multilayer film, referred to as two-way masking;Institute
Meaning multilayer film penetrability refer to, when light from the side of multilayer film incidence, not only can from the opposite side of multilayer film be emitted and
Energy normal imaging, can see the scenery of multilayer film plane of light incidence side in multilayer film beam projecting face side, claim at this time more
Tunic beam projecting face has the function of to penetrate, if multilayer film only has one side to have the function of to penetrate, is known as unidirectionally penetrating, if
The two sides of multilayer film penetrates function, then referred to as two-way to penetrate.
Multilayer film provided in this embodiment with anisotropy light transmission passes through the first light-transparent pattern layer 1 and described the
Two light-transparent pattern layers 4 realize the unidirectional masking characteristic of multilayer film, and specifically as shown in figures 1 and 3, A is the utility model multilayer film
The front of structure, B are the back side of the utility model multi-layer film structure, as shown in Figure 1, when light is from front surface A incidence, light warp
After crossing the first light-transparent pattern layer 1 and the second light-transparent pattern layer 4, due to the different lug boss of the height, light
Line is diffusely reflected and scatters, wherein a small part light is reflected back front surface A, another major part light is dispersedly emitted from back surface B,
Overleaf B can not generate clear object image, make the back surface B of the multilayer film have shielding function;As shown in figure 3, work as light
Line is from during back surface B incidence, and light is after the first light-transparent pattern layer 1 and the second light-transparent pattern layer 4, due to the height
Low different lug boss can be penetrated smoothly in the back side of incident ray, incident ray, and clear object image is generated in front surface A,
Thus reach the unidirectional shielding of multilayer film.In addition, in first lug boss 111, the second lug boss 112, third protrusion portion
411 and the 4th fluorescent material is added in lug boss 412, emergent ray can be made to become softer or bright-coloured.
Embodiment 2
As shown in fig. 4-5, a kind of multilayer film with anisotropy light transmission provided in this embodiment compared with Example 1,
It is further included difference lies in the multilayer film and is formed in table of second transparent substrate 6 far from first transparent substrate 3
The photosensitive macromolecule layer 7 of multilayer in face, the refractive index of the photosensitive macromolecule layer 7 of multilayer is along far from first transparent substrate 3
Direction successively reduce, and the largest refractive index of the photosensitive macromolecule layer 7 of the multilayer be less than second transparent substrate 6 folding
Rate is penetrated, wherein, the photosensitive macromolecule layer 7 of multilayer may be configured as M1-Mn layers of individual layer photosensitive high polymer layer, can be according to different need
It is more than two layers to seek the setting individual layer photosensitive high polymer layer.
As a preferred embodiment of the present embodiment, the refractive index of first transparent substrate 3 between 1.5-1.56 it
Between, the refractive index of second transparent substrate 6 is between 1.5-1.56, the maximum folding of the photosensitive macromolecule layer 7 of multilayer
Rate is penetrated less than 1.5.
Further, the multilayer film may also include the first light transmission being formed on 2 surface of the first transparent filler layer
Protection film layer 8 and the photosensitive macromolecule layer 7 of the multilayer is formed in far from the second light transmission on second transparent substrate 6
Protection film layer 9.Wherein, the first light transmission protecting film layer 8 is set as Triafol T light transmission protecting film layer, and described second thoroughly
Light protection film layer 9 is set as Triafol T light transmission protecting film layer.
In order to weaken the clarity from the 1 reflected object image of the first light-transparent pattern layer, first light transmission
Protection film layer 8 may be configured as cloudy surface light transmission protecting film layer.
In order to enhance the clarity from the photosensitive 7 reflected object image of macromolecule layer of the multilayer, described second thoroughly
Light protection film layer 9 may be configured as mirror transparent protection film layer.
The multilayer film with anisotropy light transmission of the present embodiment, by second transparent substrate 6 far from described
The surface setting photosensitive macromolecule layer 7 of multilayer of one transparent substrate 3, the refractive index of the photosensitive macromolecule layer 7 of multilayer is along separate
The direction of first transparent substrate 3 successively reduces, and the largest refractive index of the photosensitive macromolecule layer 7 of the multilayer is less than described
The refractive index of second transparent substrate 6 realizes the unidirectional through characteristic of multilayer film, and specifically as shown in Figure 4 and Figure 5, A is this practicality
The front of novel multi-layer membrane structure, B is the back side of the utility model multi-layer film structure, as shown in figure 4, when light enters from front surface A
When penetrating, light is after the first light-transparent pattern layer 1 and the second light-transparent pattern layer 4 are diffusely reflected and scatter, into folding
The photosensitive macromolecule layer 7 of multilayer that the rate of penetrating is sequentially reduced, most of light can occur complete on photosensitive 7 surface of macromolecule layer of the multilayer
Reflection, the light of very little part reflect back surface B from the photosensitive macromolecule layer 7 of multilayer, here can be by adjusting the photosensitive height of multilayer
The number of plies control of molecular layer 7 reflects the intensity of the light of back surface B, can be set according to different demands, when the light for reflecting back surface B
When the intensity of line is set as very little or is close to zero, even if the back surface B of multilayer film realizes impenetrable function;As shown in figure 5,
When light is from back surface B incidence, due to the photosensitive macromolecule layer 7 of multilayer refractive index successively be incremented by, light can gather layer by layer without
It can be totally reflected, most light is made smoothly to penetrate out front surface A, realize the front surface A of multilayer film and penetrate function, it is thus real
The unidirectional through characteristic of existing multilayer film.
As described above, the utility model provides a kind of multilayer film with anisotropy light transmission, including:First light-transparent pattern layer
1st, the first transparent filler layer 2, the first transparent substrate 3, the second light-transparent pattern layer 4, the second transparent filler layer 5, the second light transmission base
Plate layer 6 preferably may also include the photosensitive macromolecule layer 7 of multilayer, the first light transmission protecting film layer 8 and the second light transmission protecting film layer 9.This
Utility model has the advantages that:By the first light-transparent pattern layer 1 and the second light-transparent pattern layer 2, it can be achieved that
The unidirectional shielding of multilayer film;By the photosensitive macromolecule layer 7 of the multilayer, the unidirectional penetrability of multilayer film is adjusted;By glimmering
Luminescent material can make softer or bright-coloured by the emergent ray of multilayer film;It is protected by first light transmission through atomization process
Film layer 8 makes the image that the reflection light of 8 side of the first light transmission protecting film layer generates become fuzzy;By described through mirror surface treatment
The second light transmission protecting film 9, the image that the reflection light of 9 side of the second light transmission protecting film generates is made to become clear.This practicality is new
The unidirectional masking of type energy conveniently regulating and controlling multilayer film or unidirectional through characteristic reach efficient unidirectional masking or unidirectionally penetrate effect,
Daylighting, landscape are reached simultaneously with saving the purpose of secret privacy in region from damage, so, the utility model effectively overcomes existing skill
Various shortcoming in art and have high industrial utilization.
The above embodiments are only illustrative of the principle and efficacy of the utility model, new not for this practicality is limited
Type.Any person skilled in the art can all carry out above-described embodiment under the spirit and scope without prejudice to the utility model
Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the revealed essence of the utility model
All equivalent modifications completed under refreshing and technological thought or change, should be covered by the claim of the utility model.
Claims (14)
1. a kind of multilayer film with anisotropy light transmission, it is characterised in that the multilayer film with anisotropy light transmission at least wraps
It includes:First light-transparent pattern layer, the first transparent filler layer, the first transparent substrate, the second light-transparent pattern layer, the second transparent filler
Layer, the second transparent substrate;
First transparent substrate is in setting parallel at certain interval with second transparent substrate;
The first light-transparent pattern layer is formed on surface of first transparent substrate far from second transparent substrate,
The first light-transparent pattern layer includes the period 1 property unit of several array arrangements, and the period 1 property unit includes one
A first lug boss and at least one second lug boss, the height of first lug boss are more than the height of second lug boss
Degree, and the height of first lug boss is between the 1/8-1/2 of the two neighboring first lug boss spacing;
The first transparent filler layer is covered in the first light-transparent pattern layer;
The second light-transparent pattern layer is formed in second transparent substrate on the surface of first transparent substrate,
The second light-transparent pattern layer includes the Secondary periodicity unit of several array arrangements, and the Secondary periodicity unit includes one
A third protrusion portion and at least one 4th lug boss, the height in the third protrusion portion are more than the height of the 4th lug boss
Degree, the height in the third protrusion portion is between the 1/8-1/2 of two neighboring third protrusion portion spacing;
The second transparent filler layer is covered in the second light-transparent pattern layer;
The first light-transparent pattern layer and the second light-transparent pattern layer to make from the first light-transparent pattern layer it is incident the
One light generates diffusing reflection and scattering, realizes shielding function, and makes the second light from second transparent substrate incidence saturating
It crosses, realization penetrates function.
2. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:The Secondary periodicity unit
It corresponds and arranges with the period 1 property unit.
3. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:First transparent substrate
It is formed on the surface of the second transparent filler layer, is glued first transparent substrate by the second transparent filler layer
It closes.
4. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:The first light-transparent pattern layer
Angle o with first transparent substrate, the second light-transparent pattern layer and second transparent substrate are in δ angles, and 0 °<θ
≤ 90 °, 0 °<δ≤90°.
5. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:Two neighboring described first is convex
Portion's spacing is played between 10 μm -100 μm, two neighboring third protrusion portion spacing is between 10 μm -100 μm.
6. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:First lug boss and institute
State the second lug boss include UV curable ink, it is gorgeous go out and the gorgeous mixture bulge-structure to disappear, the third protrusion portion with
4th lug boss include UV curable ink, it is gorgeous go out and the gorgeous mixture bulge-structure to disappear.
7. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:First lug boss and institute
State the second lug boss include fluorescent material, UV curable ink, it is gorgeous go out and the gorgeous mixture bulge-structure to disappear, the third
Lug boss and the 4th lug boss include fluorescent material, UV curable ink, it is gorgeous go out and the gorgeous mixture protrusion knot to disappear
Structure.
8. the multilayer film according to claim 1 with anisotropy light transmission, it is characterised in that:First transparent substrate
One kind in group is formed comprising PET material layer and PC material layers, second transparent substrate includes PET material layer and PC
Material layer forms one kind in group.
9. there is the multilayer film of anisotropy light transmission according to claim 1-8 any one of them, it is characterised in that:The multilayer film
The photosensitive macromolecule layer of multilayer for being formed in surface of second transparent substrate far from first transparent substrate is further included,
The refractive index of the photosensitive macromolecule layer of multilayer successively reduces, and the multilayer along the direction far from first transparent substrate
The largest refractive index of photosensitive high polymer layer is less than the refractive index of second transparent substrate.
10. the multilayer film according to claim 9 with anisotropy light transmission, it is characterised in that:First transparent substrates
For the refractive index of layer between 1.5-1.56, the refractive index of second transparent substrate is described more between 1.5-1.56
The largest refractive index of layer photosensitive high polymer layer is less than 1.5.
11. the multilayer film according to claim 9 with anisotropy light transmission, it is characterised in that:The multilayer film further includes
The first light transmission protecting film layer for being formed in the first transparent filler layer surface and to be formed in the photosensitive high polymer layer remote
From the second light transmission protecting film layer on second transparent substrate.
12. the multilayer film according to claim 11 with anisotropy light transmission, it is characterised in that:The first light transmission protection
Film layer is cloudy surface light transmission protecting film layer.
13. the multilayer film according to claim 11 with anisotropy light transmission, it is characterised in that:The second light transmission protection
Film layer is mirror transparent protection film layer.
14. the multilayer film according to claim 11 with anisotropy light transmission, it is characterised in that:The first light transmission protection
Film layer is Triafol T light transmission protecting film layer, and the second light transmission protecting film layer is Triafol T light transmission protecting film
Layer.
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CN201721542423.1U CN207557515U (en) | 2017-11-17 | 2017-11-17 | Multilayer film with anisotropy light transmission |
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CN201721542423.1U CN207557515U (en) | 2017-11-17 | 2017-11-17 | Multilayer film with anisotropy light transmission |
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Effective date of registration: 20191212 Address after: Yangshe Town, Zhangjiagang City, Suzhou City, 215600, Jiangsu Province Patentee after: Suzhou red medium Photoelectric Technology Co.,Ltd. Address before: No.1300 Keyuan Road, Pudong New Area (near zhangheng Road) 410 international talent City Patentee before: Liu Jiezhong |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20180629 Termination date: 20211117 |