CN109388014A - Projection screen and optical projection system - Google Patents

Abstract

The invention discloses a kind of projection screens, it can reflex to projection ray in the field range of viewer, the projection screen includes the light diffusion layer being sequentially arranged from the incident side of the projection ray, total reflection layer and light absorbing layer, the light absorbing layer can absorb incident light, the light diffusion layer is used to increase the angle of divergence of the light of outgoing, the total reflection layer includes at least the la m positioned at the microstructured layers of the light diffusion layer side and positioned at the light absorbing layer side, the refractive index of the microstructured layers is greater than the refractive index of the la m, multiple microstructure units are provided on the microstructured layers, multiple microstructure units are extended continuously in the plane of the projection screen and rotational symmetry, by the way that totally reflected micro-structure is dexterously arranged, it can make the projection ray from ultra short focal projector and come from focal length The projection ray of projector can be emitted in micro-structure through being totally reflected twice in succession, and one piece of screen is enabled to be used for ultra short focal projector and long focus projector.

Description

Projection screen and optical projection system

Technical field

The present invention relates to projection screens and optical projection system.In particular it relates to which one kind being capable of environment resistant light and energy Enough it is suitable for the multifocal section of optical projection system with projection screen and the use projection screen of long focus projector and ultra short focal projector.

Background technique

In recent years, with the continuous improvement of projector's brightness, projection display system is in the application of large scale home theater Advantage starts to embody.Compared to LCD TV and OLED TV, the size of projection display system is small, is easily installed, can be light Pine nut is now greater than 100 cun of display picture, and whole system price is relatively low.

Traditional projector is referred to as long focus projector, and the picture that this projector projects 80 cun on the screen usually needs Want 3 meters or more of distance, transmitted ray on the screen, therefore is also known as delivering directly projector with the incident angles of very little.By Limited in the interior space, long focus projector is often difficult to transmit big projected picture indoors, then short focus even ultrashort coke Projector comes into being.Ultra short focal projector on the market can transmit 80 cun or more of picture in the distance within 1 meter at present Face.Due to distance and position difference that long focus projector and ultra short focal projector are put relative to screen, so needing to have not The screen of same optical texture, causes one piece of screen that can not be shared by long focus projector and ultra short focal projector, increases user Use cost, reduce space utilization rate.

In addition, projection display system is often installed in parlor in family's application environment.Parlor usually has well Natural lighting condition and bright lighting source, thus there are a large amount of environment veiling glares.General projector screen can The light of reflective projector also can reflection environment light light.In this environment, due to being affected by ambient light, through throwing Contrast of the contrast for the picture that the light of shadow screen reflection is formed well below projector itself.In order to improve there are rings Display Contrast in the case where the light of border, at present the projection screen of environment resistant light all use array microstructure add reflection layer or The method of light absorbing layer is realized.

For example, proposing one kind in the Chinese patent application of Publication No. CN105408777A as shown in a and b of Fig. 1 The Fresnel optical screen structure of circular symmetry for ultra short focal projector.The screen adds light using array microstructure The technical solution of absorbed layer.The array microstructure of the screen is made of lens face 32 and non-lens surface 33.Lens face 32 and screen The angle of plane is less than the angle of non-lens surface 33 and screen plane, and the incident ray of projector is only incident on small angle On lens face 32.The light being incident on lens face 32 is constituted by by the multiple metallic films 25 for being laminated on the surface thereof Reflecting layer 20 reflexes to viewer side.Although the incident ray of projector can be reflected into the eyes of spectators, mirror by the screen Face reflecting layer 20 can inevitably while also reflect the light from other direction incidences, such as the veiling glare in environment, so nothing Method greatly improves the contrast of projection screen.In order to improve the contrast, it is also necessary to add one in the viewer side of array microstructure Layer coloring layer 42.Coloring layer 42 absorbs veiling glare, but also absorbs part projection ray.Therefore, although improving the comparison of screen Degree, but the optical efficiency of entire optical projection system is reduced, it is equivalent to and is compromised between contrast and optical efficiency.At present The screen gain that can be realized using the projection screen of the structure of volume production is only about 0.9~1.1 in the market.

A kind of reflection for ultra short focal projector is disclosed in the Chinese patent application of Publication No. CN1670618A Formula screen, the reflective viewing screen have the micro-structure as shown in a of Fig. 2.The unit of the micro-structure is made of two inclined-planes, by white The inclined-plane 3 that the reflection resin of color is formed is towards projector, and for reflecting the light from projector, chamfered surface upward is applied There is the light absorbing layer 4 of black, for absorbing incident ambient light above screen.Publication No. CN1693989A Chinese patent Screen disclosed in application is also for ultra short focal projector and there is similar structure to constitute micro- knot as shown in the b of Fig. 2 The base material of structure is light absorbing material, is reflected coated with white resin layer 6 from projector in chamfered surface directed downwardly Light.In addition, the Chinese patent application of Publication No. CN1954260A proposes a kind of radiation shield for long focus projector Curtain.As shown in the c of Fig. 2, light absorption department 14 and reflecting layer 13 form the micro-structure with isosceles trapezoid section, and environment light is inhaled by light Receipts portion 14 absorbs, and throw light is totally reflected on the surface of light absorption department 14, is reflected in trapezoidal narrow side bottom surface by reflecting layer 13.

In order to realize the purpose for improving contrast, it is respectively provided in the micro-structure of above-mentioned screen for absorbing light and/or anti- Penetrate the optical functional layer of light.But since the size of micro-structure is very small, spacing generally in the range of 25 to 250 microns, The technique of the coating optical functional layer of micro-structure surface selectivity is extremely complex, and yield rate is low, and optical efficiency is not high.

Summary of the invention

In view of the above-mentioned problems, present invention contemplates that provide it is a kind of it is being shared by long focus projector and ultra short focal projector, Environment resistant light and the simple projection screen of processing technology and optical projection system.

According to an embodiment of the invention, disclosing a kind of projection screen, projection ray can be reflexed to viewer's In field range, the projection screen includes light diffusion layer, the total reflection layer being sequentially arranged from the incident side of the projection ray And light absorbing layer, the light absorbing layer can absorb incident light, the light diffusion layer is used to increase the hair of the light of outgoing Angle is dissipated,

The total reflection layer is included at least positioned at the microstructured layers of the light diffusion layer side and positioned at the light absorbing layer side La m, the refractive index of the microstructured layers is greater than the refractive index of the la m, is provided on the microstructured layers multiple Microstructure unit, multiple microstructure units are extended continuously in the plane of the projection screen and rotational symmetry,

Wherein: each microstructure unit include the first plane, the second plane, third plane and fourth plane, described first Plane and second plane relative to different from the inclined direction of the parallel plane of the projection screen, the third plane and The fourth plane is relative to, first plane, described different from the inclined direction of the parallel plane of the projection screen Two planes, the third plane and the fourth plane are set relative to the inclination angle of the plane parallel with the projection screen To make:

With the projection ray of the incident angles within the scope of first angle continuously in first plane and described It is totally reflected at two planes, it is continuously flat in the third with the projection ray of the incident angles within the scope of second angle It is totally reflected at face and the fourth plane.

Invention additionally discloses a kind of optical projection systems, and the system comprises projection screen as described above and projectors.

As described above, projection screen according to the present invention and optical projection system at least have the advantages that

(1) by the way that totally reflected micro-structure is dexterously arranged, can make projection ray from ultra short focal projector and Projection ray from long focus projector can be emitted in micro-structure through being totally reflected twice in succession, enable one piece of screen Enough it is used for ultra short focal projector and long focus projector.

(2) back side for being integrally provided at micro-structure for absorbing the light absorbing layer of environment veiling glare, does not need in micro-structure Middle coated metal reflectance coating or light absorbing layer, reduce costs, improve yield rate.

(3) micro-structure using the angle selective properties of total reflection but base while reflecting throw light from projector This is not towards the viewing areas reflection environment veiling glare of viewer.Environment veiling glare from top largely penetrates total reflection micro-structure, It is absorbed by the light absorbing layer at the back side, fraction is reflected onto except the viewing areas of viewer, therefore is improving projected image Optical efficiency is improved while contrast.

It should be appreciated that beneficial effects of the present invention are not limited to said effect, and can be described herein any beneficial Effect.

Detailed description of the invention

Fig. 1 is to show the exemplary schematic diagram of projection screen in the prior art.

Fig. 2 is to show the schematic diagram of the other examples of projection screen in the prior art.

Fig. 3 is to show the structural schematic diagram of optical projection system according to an embodiment of the present invention.

Fig. 4 is to show the signal of the totally reflected rotational symmetry structure of projection screen according to an embodiment of the present invention Figure.

Fig. 5 is to show the main cross section knot of the totally reflected microstructure unit of projection screen according to an embodiment of the present invention Structure schematic diagram.

Fig. 6 is to show the main cross section structure of the microstructure unit of projection screen according to an embodiment of the present invention and be used for The schematic diagram of optical path when ultra short focal projector.

Fig. 7 is to show the main cross section structure of the microstructure unit of projection screen according to an embodiment of the present invention and be used for The schematic diagram of optical path when long focus projector.

Fig. 8 is the light path schematic diagram shown when environment veiling glare is radiated at projection screen according to an embodiment of the present invention.

Fig. 9 be show the microstructure unit of projection screen according to another embodiment of the present invention main cross section structure and The schematic diagram of optical path when for ultra short focal projector and long focus projector.

Figure 10 is to show the schematic diagram of the scattering film layer of projection screen according to an embodiment of the present invention.

Specific embodiment

Each specific embodiment according to the present invention is described in detail next, with reference to attached drawing.It is emphasized that in attached drawing All sizes are only illustrative and are not necessarily according to actual proportions diagram, because without limited.For example, should Understand, thickness, thickness proportion and the angle for illustrating each layer in each layer structure in projection screen are not according to actual What size and ratio exemplified, merely to diagram is convenient.

One, total reflection optical projection system is summarized

Fig. 3 is to show the structural schematic diagram of optical projection system according to an embodiment of the present invention.As shown in Figure 3, projection system System includes projection screen 10 and projector 20.It should be noted that be shown in FIG. 3 be projector 20 be ultra short focal projector Example, but as described hereinafter, projection screen 10 can be used for long focus projector.Projection screen 10 includes from projector The incident side of projection ray stack gradually surface micro-structure layer 14, body diffused layer 13, total reflection layer 12 and the light absorption of arrangement Layer 11.Projection ray from projector 20 is incident to total reflection layer 12 through surface micro-structure layer 14, body diffused layer 13.Under The incident side of the projection ray of projection screen 10 is also known as the outside (that is, towards viewer) of screen, by light absorption by Wen Zhong Layer side is known as the inside (that is, backwards to viewer) of screen.Total reflection layer 12 is formed with microstructure unit array.Each micro-structure Unit includes the optical texture (being discussed in detail below) by ingehious design, so that either from long focus projector The projection ray that projection ray also comes from ultra short focal projector can be totally reflected in microstructure unit, finally quilt It reflexes in the field range of viewer, and the environment veiling glare above projection screen 10 is unable to satisfy in microstructure unit In the only condition that is totally reflected, thus transmission total reflection layer 12 is absorbed by light absorbing layer 11.Light absorbing layer 11 is, for example, black 's.

As shown in figure 4, the microstructure unit of total reflection layer 12 is in screen plane with the array arrangement knot of rotational symmetry Structure.Rotation center (optical centre) the axis normal to screen plane of the array arrangement structure of the rotational symmetry and it is located at screen Lower section.Preferably, projector 20 is arranged in the center of rotation axis.

Body diffused layer 13 and surface micro-structure layer 14 have been orderly arranged outside each in total reflection layer 12.Body diffused layer 13 and table Face microstructured layers 14 may be collectively referred to as light diffusion layer, be used to spread the collimated light beam reflected from total reflection layer 12, so as to throw Shadow screen 10 has bigger visible angle.Although it should be appreciated that illustrated in Fig. 3 while being provided with body diffused layer 13 and surface The example of microstructured layers 14, but projection screen 10 can be provided only with body diffused layer 13 or surface micro-structure layer 14.In addition, The outside of surface micro-structure layer 14 can also add setting protective layer to prevent scratch or chemical attack.It is, of course, also possible to root Need to be arranged other auxiliary functional layers according to design.

Fig. 5 shows the cross section structure of the microstructure unit of the total reflection layer 12 of projection screen according to an embodiment of the present invention Schematic diagram.Shown in institute Fig. 5, total reflection layer 12 includes transparent substrate 120, microstructured layers 121 and la m 122.Transparent substrate 120 It contacts near light diffusion layer side and positioned at total reflection layer 12 with light diffusion layer, wherein the transparent substrate 120 includes The transparent materials such as PET, PC or PMMA.The phase for the side of transparent substrate 120 contacted with light diffusion layer is arranged in microstructured layers 121 Opposite side.Wherein, the microstructured layers 121 use resin material, and the resin is usually epoxide-resin glue system, acrylic adhesive System, polyester adhesive system, polyurethane adhesive system or polyimides glue system etc..Transparent substrate 120 and microstructured layers 121 pass through UV coating apparatus Or thermal forming device forms one.La m 122 is formed in the close light absorbing layer side of microstructured layers 121, and inhales with light Layer 11 is received to be in contact.The refractive index for forming the material of la m 122 is lower than the refractive index for forming the material of microstructured layers 121.Institute It states the surface adjacent with la m 122 of microstructured layers 121 and is provided with multiple microstructure units.Wherein, in the every of total reflection layer 12 In one microstructure unit, microstructured layers 121 are formed total reflection prism.Fig. 5 shows micro- in two microstructure units The main cross section diagram of the prism structure of structure sheaf 121.The side of each prism structure is by 4 intersecting planes 1241,1243,1244 It is constituted with 1242.In main cross section diagram shown in Fig. 5, this 4 intersecting planes are illustrated as relative to parallel with projection screen Plane (hereinafter referred to as " screen plane ") have different inclination angle 4 sequentially connected line segments 1241 to 1244.Its Middle plane 1241 and 1243, it is different relative to screen inclination angle with plane 1242 and 1244.In other words, in total reflection layer 12 In each microstructure unit, microstructured layers 121 are the ribs of the row's rotational symmetry formed on the surface of transparent substrate 120 Mirror, plane 1241,1243,1244 and 1244 are the boundaries between microstructured layers 121 and both the different material layers of la m 122 Face, wherein microstructured layers 121 are first material layer, and the la m 122 is second material layer.For example, such prism is logical It crosses using solidifying to coil coating cloth resin and UV or heat curing process is process.It is clear in order to illustrate in Fig. 5, illustrate only two A microstructure unit.It will more detail subsequently, since the projection ray of ultra short focal projector is incident to projection screen in as follows Incident angle range (first angle range, such as 30 degree to 80 degree) and the projection ray of long focus projector be incident to projection screen Incident angle range (second angle range, such as 0 degree to the 30 degree) difference of curtain is larger, so by the way that plane is dexterously arranged 1241,1243,1244 and 1244 inclined direction and tilt angle can make the incident ray 123 from ultra short focal projector (as shown in Figure 5) recurs at two planes 1241 and 1242 and is totally reflected twice, is finally reflected into the visual field of viewer In range, and make the incident ray 123 (being not shown in Fig. 5, please refer to Fig. 7) from long focus projector can be respectively at two It is totally reflected, is finally reflexed in the field range of viewer at plane 1243 and 1244.That is, in microstructured layers 121, it is micro- Interface between structure sheaf 121 and la m 122 includes two groups of planes, and one group (1241 and 1242) for making from ultrashort burnt throwing The incident ray of shadow machine occurs total reflection and enters in the field range of viewer, and another group (1243 and 1244) for making to come from The incident ray of long focus projector occurs total reflection and enters in the field range of viewer.

In addition, environment veiling glare 127 mostlys come from the ceiling light in room.In most cases, ceiling light is far from screen Microstructure unit rotational symmetry structure rotation axis.Therefore, the incidence angle of environment veiling glare 127 is less than from ultrashort burnt throwing The incident angle of the projection ray of shadow machine, but it is much larger than the incident angle of the projection ray from long focus projector.Therefore, ring Border veiling glare 127 is unable to satisfy in plane 1241 and plane 1242 or occurs to be totally reflected twice in succession in plane 1243 and 1244 Condition, the overwhelming majority penetrated microstructure unit and absorbed by light absorbing layer 11.

As described above, the angle Selection sexual reflex of total reflection layer 12 is utilized in projection screen 10 according to an embodiment of the present invention Characteristic, so that in the field range that the projection ray from ultra short focal projector can either be reflexed to viewer by screen, and energy In enough field ranges that the projection ray from focal length projector is reflexed to viewer.Meanwhile projection screen 10 can also be certainly It is dynamic to distinguish projection ray and ambient light, and the light absorbing layer 11 for absorbing environment veiling glare is integrally provided at total reflection layer 12 inside reduces costs to realize high contrast and simplify processing technology, improves yield rate.

Two, the optical principle and angle Selection of microstructure unit are totally reflected

The total reflection micro-structure of projection screen 10 according to an embodiment of the present invention is described in detail next, with reference to Fig. 6 to Fig. 8 The optical principle of unit.Wherein, Fig. 6 shows the optical path example when projection screen 10 is for ultra short focal projector, and Fig. 7 is shown Optical path example when projection screen 10 is used for long focus projector, Fig. 8 are shown when environment veiling glare is incident to projection screen 10 When optical path example.

As shown in fig. 6, the refractive index of microstructured layers 121 is n₁Refractive index with la m 122 is n₂, the 4 of microstructure unit A inclined intersecting plane 1241,1242,1243 and 1244 is respectively θ relative to the inclination angle of screen plane₁、θ₂、θ₃And θ₄ (unit is degree, similarly hereinafter).Incident ray and the angle of reflection light and vertical direction are respectively α and β (unit is degree, similarly hereinafter). Wherein, when reflection light horizontal exit, β is obviously 0 degree, and is set: when reflection light below horizontal line (that is, be biased to Ground) when β be negative value, when reflection light (that is, be biased to ceiling) above the horizon, β is positive value.

It is complete twice in order to occur that the incident ray 123 from ultra short focal projector 20 on clinoplain 1241 and 1242 It is emitted after reflection towards the eyes direction of viewer, according to geometric optical theory and optical total-reflection condition, it is necessary to meet such as Under formula (1)~(3):

θ can not be determined completely based on above-mentioned formula (1)~(3)₁And θ₂Value, also there are certain design freedoms.It is false If the angle of intermediate rays and screen plane (that is, vertical direction) between incident ray and emergent ray is γ, and is set When intermediate rays are biased to viewer side, γ is positive value, and when intermediate rays are biased to viewer side, γ is negative value.Then according to geometric optics Principle and optical total-reflection condition can calculate:

By formula (4) and (5) as long as it is found that having determined the optical path of incident ray, emergent ray and intermediate rays (that is, really Determine α, β and γ), so that it may the tilt angle theta of two intersecting planes 1241 and 1242 of micro-structure is determined completely₁And θ₂。

In addition, being also known by formula (4) and (5), even if the case where the optical path of incident ray, emergent ray has been determined Under, can also according to according to different application demands, by adjusting intermediate rays optical path (that is, value of adjustment γ) certain To θ in range₁And θ₂Value selected.For example, projector is located at the lower section of screen, institute in the application of ultrashort out-of-focus projection It is always set up with α > 0；And the eyes of spectators are located at the top of projector, in order to guarantee that emergent ray is incident to spectators' eyes, institute It is also always set up with alpha+beta > 0；In the case, available by formula (1):

θ₁+θ₂< 90 (6)

By formula (6) it is found that in the application of ultrashort out-of-focus projection, the microstructure unit of projection screen according to the present invention The angle that two clinoplains 1241 and 1242 are formed is necessary for obtuse angle.

In addition, as the above analysis, the incident ray 123 from ultra short focal projector passes through the inclination of microstructure unit It is preferred that intermediate rays after the total reflection of plane 1241, which are advanced in microstructured layers 121 along the direction parallel with screen plane, 's.

At this point, θ is worked as in γ=0 degree, β=0 degree₂=45 degree, emergent ray along outgoing, that is, β=0 degree with screen vertical, Again according to θ known to above-mentioned formula (6)₁< 45 degree namely θ₁<θ₂。

Since one group of clinoplain 1241 and 1242 of microstructure unit has optical texture as described above, in Fig. 6 It is shown, one group clinoplain 1241 He of a part of incident ray 123 from ultra short focal projector 20 in microstructure unit Occur to be totally reflected twice at 1242, be reflected onto the field range of viewer；And another portion from ultra short focal projector 20 Incident ray 123 is divided to be radiated on another group of clinoplain 1243 and 1244 of microstructure unit, due to 1243 He of clinoplain 1244 do not have above-mentioned optical texture, so the incident ray 123 from ultra short focal projector 20 is in 1243 He of clinoplain Total reflection condition is unsatisfactory at least one of 1244, then this some light penetrates total reflection layer, by the light absorbing layer of inside 11 absorb.

Fig. 7 illustrates the optical path example when projection screen 10 is for long focus projector.When projection screen 10 be used to grow When focus projector, as shown in fig. 7, a part of incident ray 123 is at one group of clinoplain 1243 and 1244 of microstructure unit Generation is totally reflected twice, is reflected onto the field range of viewer.Since the incident ray of long focus projector may be considered With the approximate angle incidence with vertical screen plane, so in order to reflex to incident ray in the field range of viewer, Clinoplain 1243 and 1244 needs to meet following relational expression relative to the inclination angle of screen plane:

θ₃+θ₄=90 (6)

In addition, another part incident ray 123 is radiated on another group of clinoplain 1241 and 1242 of microstructure unit, Since the inclination angle of clinoplain 1241 and 1242 is unsatisfactory for relational expression (6), so the incident ray 123 from long focus projector Total reflection condition is unsatisfactory at least one of clinoplain 1241 and 1242, then this some light penetrates total reflection layer, It is absorbed by the light absorbing layer 11 of inside.

In microstructure unit, other than the tilt angle relative to screen plane, ultrashort coke is come from for being totally reflected The plane 1241 and 1242 of the projection ray of projector and the plane for being totally reflected the projection ray from long focus projector The relationship of the development length of 1243 and 1244 this two groups of planes also has large effect to the optical property of screen.Pass through experiment It is found that when plane 1243 and 1244 development length and plane 1241,1242,1243 and 1244 the ratio between extension total length (that is, In the main cross section figure of Fig. 6 to Fig. 8, the sum of length of line segment 1243 and line segment 1244 and 1241 line segment 1242 of line segment, line segment 1243 and line segment 1244 total length ratio) 0.2 and less than 0.8 should be greater than.

It compares with above situation, Fig. 8 illustrates the optical path example when environment veiling glare is incident to projection screen 10.It is throwing In the practical service environment of shadow system, environment veiling glare is generally mainly derived from the lamps and lanterns above ceiling or wall.Thus, environment What the incident angle of veiling glare on the projection screen will be issued much smaller than the ultra short focal projector from being located at screen lower section short distance The incidence angle of projection ray.Therefore, when environment veiling glare 127 is incident on projection screen from ceiling side, environment is miscellaneous Light is unable to satisfy in plane 1241 and 1242 or recurs the condition being totally reflected twice in plane 1243 and 1244, but It is fully absorbed through total reflection layer by the light absorbing layer 11 of inside.

In addition, being to set gradually 1241,1243,1244 and in the figure of main cross section from top to bottom in the above description The explanation carried out in case where 1242.However, by analysis above it is found that the order of placement of four planes is without being limited thereto.Example Such as, as shown in figure 9, can also by be used for be totally reflected from the projection ray of long focus projector one group of plane (that is, 1243 and 1244) be set to outside, in other words, according to be followed successively by from top to bottom 1243,1241,1242 and 1244 sequence arrange This four planes.Wherein, as described above, the angle of plane 1243 and plane 1244 is 90 degree, plane 1241 and plane 1241 Angle is obtuse angle.

In addition, and including multiple micro-structures as described above, projection screen according to the present invention 10 has rotational symmetry structure Unit.Therefore, the angle design of each microstructure unit can be same or different.For example, in order to make emergent ray begin The direction of whole horizontally directive viewer, so β=0 degree and θ₂=45 degree are set up always.According to analog result it is found that micro-structure The θ of unit₁It is gradually reduced with the top of close screen, and θ₁<θ₂, thus meet above-mentioned formula (6).Alternatively, can also be Under the premise of meeting above-mentioned formula (1) to (6), along the direction from screen center to screen edge, the micro-structure of projection screen The θ of unit₁Value constantly reduce and θ₂Value constantly increase.

Three, it is totally reflected the refractive index selection of microstructure unit

In addition to θ₁To θ₄Value except, by optical total-reflection formula it is found that meeting the total reflection micro-structure that is totally reflected twice Unit is also by the refractive index n of microstructured layers 121₁With the refractive index n of la m 122₂Influence.Projection screen according to the present invention The microstructured layers 121 of curtain are usually made of transparent resin material, and refractive index is in the range of 1.3~1.7.Alternatively, micro- Structure sheaf 121 also can be used the other materials with similar refractive index and be made.Furthermore it is also possible to microstructured layers 121 are made Material in adulterate scattered ion(s) or absorbing material etc..Thus, in order to meet the condition of total reflection, need to consider la m 122 Refractive index n₂Selection.Incident ray V can be expressed as (V_x,V_y,V_z), wherein z-axis normal to screen, and X, Y-axis are parallel to Screen.Obviously, the total reflection region of incident ray depends on V_xAnd V_yValue range.V_zMeet:

It is assumed that emergent ray is towards the eyes of viewer and the refractive index n of microstructured layers 121₁It is 1.6, according to above-mentioned formula (2) and (3) can obtain the component (V for meeting the incident ray of total reflection condition_x,V_y) value range with la m 122 folding Penetrate rate n₂Variation tendency.With n₂Increase, meet the incident ray that is totally reflected on two inclined-planes of microstructure unit Region constantly reduce.In other words, with n₂Increase, the light issued from projector can not be at two of microstructure unit tiltedly Face occurs the probability being totally reflected twice and increases.Therefore, it in order to guarantee certain screen reflection efficiency, needs to make n₁And n₂Meet:

n₂<n₁-0.2 (8)

It should be appreciated that la m 122 can be air layer in the case where meeting above-mentioned condition.In the case, micro- knot The tip of the reflecting prism of structure layer 121 can directly be bonded to light absorbing layer 11.

Four, the selection of light diffusion layer

As described above, projection ray is after the reflection of total reflection layer 12, the angle of divergence of emergent ray generally all very little, in order to Increase the visual range of projected picture, light diffusion layer can be set in the outside of total reflection layer 12.In the example depicted in fig. 3, Total reflection layer 12 has been orderly arranged outside each body diffused layer 13 and surface micro-structure layer 14 as light diffusion layer.However, it is also possible to It is provided only with one layer of light diffusion layer.A~c of Figure 10 respectively illustrates 3 kinds of commercialization optical scatterings that may be used as light diffusion layer Membrane structure: volume scattering film, irregular surface scatter film and regular surfaces microlens array film.These types scattering film Material may serve to increase the visual range of screen, and can according to need exclusive use or stacking use.For example, can be with The micro- knot of body diffused layer 13 and surface in Fig. 3 is formed using volume scattering film and regular surfaces microlens array film by superposition Structure layer 14.The value volume and range of product of stacking is without being limited thereto.

In the case where using optical scattering film as light diffusion layer, total reflection layer and light diffusion layer is first respectively prepared, Then optics is bonded.Alternatively, different surfaces can also be carried out by two surfaces to same substrate (for example, PET) Processing, is respectively formed light scattering layer and total reflection layer.

Although above, with reference to the accompanying drawings of luminaire according to the present invention, but the invention is not restricted to this, And it will be understood by those skilled in the art that in the case where the spirit or scope limited without departing from appended claim of the present invention, Various changes, combination, secondary combination and modification can be made.

Claims (14)

1. a kind of projection screen can reflex to projection ray in the field range of viewer, which is characterized in that

The projection screen includes light diffusion layer, total reflection layer and the light absorption being sequentially arranged from the incident side of the projection ray Layer, the light absorbing layer can absorb incident light, and the light diffusion layer is used to increase the angle of divergence of the light of outgoing,

The total reflection layer is included at least positioned at the microstructured layers of the light diffusion layer side and in the light absorbing layer side Side layer, the refractive index of the microstructured layers are greater than the refractive index of the la m, are provided with multiple micro- knots on the microstructured layers Structure unit, multiple microstructure units are extended continuously in the plane of the projection screen and rotational symmetry,

Wherein: each microstructure unit includes the first plane, the second plane, third plane and fourth plane, first plane It is different relative to the inclined direction of the plane parallel from the projection screen with second plane, the third plane and described Fourth plane is first plane, described second flat relative to different from the inclined direction of the parallel plane of the projection screen Face, the third plane and the fourth plane are arranged to make relative to the inclination angle of the plane parallel with the projection screen :

With the projection ray of the incident angles within the scope of first angle continuously in first plane and described second flat Be totally reflected at face, with the projection ray of the incident angles within the scope of second angle continuously in the third plane and It is totally reflected at the fourth plane.

2. projection screen according to claim 1, which is characterized in that the total reflection layer further includes transparent substrate layer, institute Microstructure unit is stated by coating resin, and solidify in the transparent substrate layer by UV solidification or thermoforming mode.

3. projection screen according to claim 1, which is characterized in that the first material layer of each microstructure unit It is arranged to the total reflection prism of rotational symmetry, first plane, second plane, the third plane and described Siping City Face is respectively θ relative to the inclination angle of the plane parallel with the projection screen₁、θ₂、θ₃And θ₄, wherein

θ₁And θ₂Meet relationship: θ₁+θ₂< 90, and

θ₃And θ₄Meet relationship: θ₃+θ₄=90.

4. projection screen according to claim 3, which is characterized in that in multiple microstructure units, the θ₂It is 45 degree.

5. projection screen according to claim 3, which is characterized in that in multiple microstructure units, the θ₁It is not With, the θ₂It is different, the θ₃It is different, and the θ₄Also it is different.

6. projection screen according to claim 1, which is characterized in that the refractive index n of the first material layer₁With described The refractive index n of two material layers₂Meet relationship: n₂<n₁-0.2。

7. projection screen according to claim 1, which is characterized in that first plane, second plane, described Three planes and the fourth plane totally reflected along vertical direction and are being parallel to the plane of the projection screen just described The first length L is respectively provided in the main cross section of friendship₁, the second length L₂, third length L₃With the 4th length L₄, the L₁, the L₂、 The L₃With the L₄Meet following relationship:

8. projection screen according to any one of claim 1 to 6, which is characterized in that the light diffusion layer is dissipated by body Penetrate film, irregular surface scattering one of film and regular surfaces microlens array film are formed；Or

The light diffusion layer is thin by stacking volume scattering film, irregular surface scattering film and regular surfaces microlens array At least one of film and formed.

9. projection screen according to any one of claim 1 to 8, which is characterized in that the second material layer is air Layer.

10. projection screen according to any one of claim 1 to 8, which is characterized in that first plane and described Two planes are provided so that place occurs after being totally reflected for the first time one of in both for the projection ray, along with institute The parallel direction of projection screen is stated to advance.

11. projection screen according to any one of claim 1 to 8, which is characterized in that rotational symmetry it is multiple described micro- The center of rotation axis of structural unit is perpendicular to the plane parallel with the projection screen and positioned at the lower section of the projection screen.

12. a kind of optical projection system, the system comprises as described in any one of claims 1 to 11 projection screen and projection Machine.

13. optical projection system as claimed in claim 12, which is characterized in that the projector is located at below the projection screen Ultra short focal projector, the projection ray from the projector with the incident angles within the scope of the first angle extremely The projection screen.

14. optical projection system as claimed in claim 12, which is characterized in that the projector is long focus projector, from described The projection ray of projector is with the incident angles within the scope of the second angle to the projection screen.