CN209086653U - Projection arrangement and lighting system - Google Patents

Abstract

The utility model provides a kind of projection arrangement and lighting system.Projection arrangement includes lighting system, at least a light valve and projection lens.Lighting system includes light source, at least one expansion optical element and Wavelength Conversion Modules.At least one expansion optical element is arranged on the transmission path of the light beam from light source.There is tilt angle between the reference planes vertical with the transmission path of the light beam from light source and at least one expansion optical element.Wavelength Conversion Modules is arranged on the transmission path for the light beam for expanding optical element from inclined at least one.The extending direction for the boundary that the long axis direction for being incident upon the hot spot on Wavelength Conversion Modules expands optical element at least one perpendicular to reference planes.Wavelength Conversion Modules is used to the first part of the light beam from least one expansion optical element being converted into commutating optical beam.The second part of commutating optical beam and the light beam for expanding optical element from least one forms illuminating bundle.

Description

Projection arrangement and lighting system

Technical field

The utility model relates to a kind of Optical devices and optical system more particularly to a kind of projection arrangement and illumination systems System.

Background technique

Projection arrangement usually utilizes light-emitting component to arrange in pairs or groups Wavelength Conversion Modules (such as phosphor powder layer), illuminating to generate Light beam.However, phosphor powder layer can absorb extraneous energy.Under the irradiation of high-energy light beam (such as laser beam), phosphor powder layer Temperature can increase, and cause its light conversion efficiency to decline, or even be burned out.

" background technique " is partially used only to help to understand the content of the present invention, therefore public in " background technique " part institute The content opened may include some prior arts without constituting road known to those skilled in the art.In " background technique " part institute Disclosure does not represent the content or the utility model one or more embodiment problem to be solved, does not represent yet It has been readily known to those persons skilled in the art or has recognized before the present utility model application.

Utility model content

The utility model provides a kind of lighting system, helps to improve the light wave caused by excessively concentrating because of beam energy The problems such as long conversion module is burned out and light conversion efficiency declines.

The utility model provides a kind of projection arrangement, with good efficiency.

The other objects and advantages of the utility model can be obtained from technical characteristic disclosed in the utility model into one The understanding of step.

It is up to one of above-mentioned or part or all of purpose or other purposes, one embodiment of the utility model provides one Kind lighting system comprising light source, at least one expand optical element and Wavelength Conversion Modules.Light source is for issuing light beam.At least One expansion optical element is arranged on the transmission path of the light beam from light source.The ginseng vertical with the transmission path of the light beam from light source Examining between plane and at least one expansion optical element has tilt angle, so that at least one expands optical element relative to the light from light source The transmission path of beam tilts.The transmission path for the light beam for expanding optical element from inclined at least one is arranged in Wavelength Conversion Modules On.It is incident upon the boundary that the long axis direction of the hot spot on Wavelength Conversion Modules expands optical element at least one perpendicular to reference planes Extending direction.Wavelength Conversion Modules is used to the first part of the light beam from least one expansion optical element being converted into conversion light Beam.The second part of commutating optical beam and the light beam for expanding optical element from least one forms illuminating bundle.

It is up to one of above-mentioned or part or all of purpose or other purposes, one embodiment of the utility model provides one Kind of projection arrangement comprising above-mentioned lighting system, at least a light valve and projection lens.An at least light valve is arranged in illumination light On the transmission path of beam, and for illuminating bundle to be converted into image strip.The transmitting road of image strip is arranged in projection lens On diameter.

Based on above-mentioned, the embodiments of the present invention at least have effects that following one of advantage or.Using it is described extremely Few one expands optical element tilts relative to the transmission path of the light beam from light source, makes the hot spot being incident upon on Wavelength Conversion Modules Expand along single axial, to achieve the effect that the energy density for reducing light beam.Therefore, the illumination of the embodiments of the present invention System can be effectively improved the Wavelength Conversion Modules caused by excessively being concentrated because of the energy of light beam be burned out and light conversion efficiency under The problems such as drop.In addition, the projection arrangement application said lighting system of the embodiments of the present invention and can have good efficiency.

In order to make the above-mentioned features and advantages of the utility model more obvious and understandable, special embodiment below, and cooperate attached drawing It is described in detail below.

Detailed description of the invention

Fig. 1 is the schematic side view of the projection arrangement of first embodiment according to the present utility model；

Fig. 2 is the front view of the expansion optical element in Fig. 1；

Fig. 3 A and Fig. 3 B are the partial elevation view of Wavelength Conversion Modules in Fig. 1 respectively, are not inclined to compare expansion optical element Difference that is oblique and having the hot spot being incident upon on Wavelength Conversion Modules when inclination；

Fig. 4 is the schematic top plan view of the projection arrangement of second embodiment according to the present utility model；

Fig. 5 is the schematic top plan view of the projection arrangement of 3rd embodiment according to the present utility model；

Fig. 6 is the schematic top plan view of the projection arrangement of fourth embodiment according to the present utility model；

Fig. 7 is the front view of the expansion optical element in Fig. 6；

Fig. 8 A is the partial elevation view of Wavelength Conversion Modules in Fig. 6, is incident upon light when expanding optical element inclination to indicate Hot spot in wavelength convert module；

Fig. 8 B is the front view for going out light end of the even optical element in Fig. 6, even to indicate to be incident upon when expanding optical element inclination The hot spot for going out light end of optical element；

Fig. 9 is the schematic top plan view of the projection arrangement of the 5th embodiment according to the present utility model；

Figure 10 and Figure 11 is multiple two kinds of relative configuration relational graphs for expanding optical element respectively；

Figure 12 and Figure 13 is that there are two light valve and the partial schematic diagrams of the projection arrangement of three light valves for setting respectively.

Specific embodiment

Fig. 1 is the schematic side view of the projection arrangement of first embodiment according to the present utility model.Fig. 2 is to expand light in Fig. 1 The front view of element.Fig. 3 A and Fig. 3 B are the partial elevation view of Wavelength Conversion Modules in Fig. 1 respectively, to compare expansion optical element The difference of the hot spot on Wavelength Conversion Modules is incident upon when not tilting (Fig. 3 A) and when inclination (Fig. 3 B).

Fig. 1 is please referred to, the projection arrangement 100 of the first embodiment of the utility model includes lighting system 110, at least a light Valve (such as light valve 120) and projection lens 130.In the present embodiment, projection arrangement 100 for example only includes a light valve (i.e. light Valve 120), but the utility model is without being limited thereto.

Lighting system 110 includes light source 112, at least one expansion optical element (as expanded optical element 114) and light wavelength conversion mould Block 116.In the present embodiment, lighting system 110 only includes expansions optical element (expanding optical element 114), but the utility model It is without being limited thereto.

Light source 112 is for issuing light beam B.Light source 112 may include a plurality of light-emitting elements (not shown).The multiple luminous member Part may include the combination of multiple visible light light-emitting components, multiple non-visible light light-emitting components or above two light-emitting component.It can be seen that Light light-emitting component can be light emitting diode or laser diode, but not limited to this.Visible light light-emitting component may include blue light hair Optical element, non-visible light light-emitting component may include ultraviolet light-emitting diodes, but not limited to this.

Expand optical element 114 be arranged on the transmission path P of the light beam B from light source 112, and with the light from light source 112 There is tilt angle theta between the transmission path P of beam B vertical reference planes RF and expansion optical element 114, so that expanding optical element The 114 transmission path P inclination relative to the light beam B from light source 112.Fig. 1, Fig. 2 and Fig. 3 B are please referred to, makes to expand optical element 114 The inclined method of transmission path P relative to the light beam B from light source 112 is, for example, to make to expand optical element 114 with its first middle line M1 is shaft and rotates an angle (such as tilt angle theta) by initial surface of reference planes RF.In this way, passing through inclined expansion light member The light beam B of part 114 can be in the side vertical with shaft extending direction D1 (such as extending direction of the first middle line M1) of optical element 114 is expanded Expand on D2, i.e., can expand in the direction d 2 across the inclined light beam B for expanding optical element 114, turns so that being incident upon optical wavelength The long axis direction (such as direction D2 and its opposite direction) of the hot spot BP on block 116 is changed the mold perpendicular to reference planes RF in Fig. 1 and expands light The extending direction (such as shaft extending direction D1 and its opposite direction) of the boundary IF of element 114.

Compare Fig. 3 A and Fig. 3 B it is found that being set as and the transmitting of the light beam from light source compared to optical element will be expanded in Fig. 3 A Path orthogonal tilts the transmission path for expanding optical element and being arranged with respect to the light beam from light source in Fig. 3 B, and Fig. 3 B can be effective Expand the hot spot BP being incident upon on Wavelength Conversion Modules 116 along single axial (such as direction D2 and its opposite direction), reviews figure Hot spot BP0 in 3A does not have along the widened smooth shape of single axial.Since the energy density and hot spot BP of hot spot BP are incident upon light Area in wavelength convert module 116 is negative correlation, therefore is arranged with respect to the light from light source 112 for optical element 114 is expanded The transmission path P inclination of beam B can effectively achieve the effect of the decrease of power density, and improve because the energy of light beam excessively concentrates institute Caused by Wavelength Conversion Modules be burned out and light conversion efficiency decline the problems such as.

In the present embodiment, when tilt angle theta is bigger, light beam is more obvious with being extended, that is, the decrease of power density Effect be more obvious.However, the efficiency that light beam passes through expansion optical element may be decreased when tilt angle theta is excessive.In the present embodiment In, when tilt angle theta is greater than or equal to 15 degree and is less than or equal to 60 degree, light can be maintained while the decrease of power density Beam passes through the efficiency for expanding optical element.

In Fig. 1 and Fig. 3 B, expanding optical element 114 is one angle (such as tilt angle of rotation using the first middle line M1 as shaft θ), so that expand optical element 114 relative to the light beam B from light source 112 transmission path P tilt, and then allow hot spot BP with turn Expand on axis extending direction D1 vertical direction D2, but the utility model is without being limited thereto.Specifically, as shown in Fig. 2, expanding light member Part 114 also has the second middle line M2, wherein the first middle line M1 is mutually perpendicular to the second middle line M2, and in the first middle line M1 and second Line M2 is respectively perpendicular to the transmission path P of the light beam B from light source 112.In another embodiment, expanding optical element 114 can be with Second middle line M2 rotates an angle as initial surface as shaft and using the reference planes RF of Fig. 1.Under this framework, inclination is passed through The light beam of expansion optical element can expand on the direction vertical with the extending direction of the second middle line.That is, when expanding optical element 114 rotate an angle using the second middle line M2 as shaft, so that expanding biography of the optical element 114 relative to the light beam B from light source 112 When passing path P inclination, the hot spot being incident upon on Wavelength Conversion Modules 116 can turn 90 degrees presentation with the hot spot BP in Fig. 3 B.

Expanding optical element 114 may include diffusion sheet or lens array, but not limited to this.Lens array is by multiple lens units Array arranges.Each lens unit can be plano-convex lens, plano-concave lens, biconcave lens, biconvex lens, concave-convex lens or convex Concavees lens.Although the shape for expanding optical element 114 in Fig. 2 is rectangle, wherein the first middle line M1 is by a pair of short edges in rectangle Two midpoints are formed by connecting, and the second middle line M2 is formed by connecting by two midpoints of long side a pair of of in rectangle, but expand optical element 114 shape can change according to demand.For example, the shape for expanding optical element 114 is also possible to round, other kinds of four side Shape or other polygons.In addition, the first middle line M1 and the second middle line M2 are to define in order to facilitate subsequent explanation, therefore expanding It can not have to entity on optical element 114 and indicate the first middle line M1 and the second middle line M2.

Referring again to Fig. 1, the transmitting from the inclined light beam B for expanding optical element 114 is arranged in Wavelength Conversion Modules 116 On path.Wavelength Conversion Modules 116 is used to that conversion light will to be converted into from the first part B1 for the light beam B for expanding optical element 114 Beam C.The second part B2 of commutating optical beam C and the light beam B from expansion optical element 114 form illuminating bundle IB.Specifically, light wave Long conversion module 116 may include optical wavelength converting layer (not shown), carry the substrate (not shown) of optical wavelength converting layer and wear The central rotating shaft S at the center of substrate is crossed, but not limited to this.The material of optical wavelength converting layer may include fluorescent powder, quantum dot or preceding The combination of two kinds of materials is stated, but not limited to this.Substrate can be transparent substrates or reflective substrate (such as metal substrate, but be not limited to This).

In the present embodiment, Wavelength Conversion Modules 116 is penetration Wavelength Conversion Modules 116.Furthermore, it is understood that In the present embodiment, substrate is transparent substrates, and transparent substrates have penetrating region and at least one smooth transition zone.Penetrating region and institute At least one smooth transition zone is stated to be circumferentially positioned at around central rotating shaft S.Optical wavelength converting layer is located at at least one smooth transition zone In and expose penetrating region.Wavelength Conversion Modules 116 is suitable for along central rotating shaft turn S, so that at least one smooth transition zone And penetrating region is cut in turn on the transmission path of light beam B for expanding optical element 114.When described at least one smooth transition zone incision When on the transmission path of light beam B for expanding optical element 114, the first part B1 of light beam B is converted by optical wavelength converting layer Light beam C is changed, and commutating optical beam C passes through transparent substrates and transmits towards light valve 120.When penetrating region incision is from expansion optical element 114 When on the transmission path of light beam B, the second part B2 of light beam B passes through transparent substrates and transmits towards light valve 120.Such as art technology Known to personnel, the substrate of Wavelength Conversion Modules 116 can be driven by motor (figure does not indicate) and turn along the central rotating shaft S of motor It is dynamic.With the rotation of substrate, light transition zone and non-smooth transition zone (such as penetrating region above-mentioned) are cut in turn from expansion light member On the transmission path of the light beam B of part 114, light beam B can alternately be radiated at the light transition zone (light wave of Wavelength Conversion Modules 116 Long conversion layer) Ji Feiguang transition zone (such as penetrating region above-mentioned).The first part B1 of above-mentioned light beam B, which refers to, is radiated at light conversion The light beam in area's (optical wavelength converting layer), and the second part B2 of light beam B refers to that being radiated at non-smooth transition zone (such as above-mentioned penetrates Area) light beam.More specifically, in the present embodiment, when light transition zone turns on the transmission path of light beam B, this The light beam B that moment exposes to light transition zone (optical wavelength converting layer) is its first part B1, can be by light transition zone (light wavelength conversion Layer) it is converted into commutating optical beam C.On the other hand, in the present embodiment, when non-smooth transition zone (such as penetrating region above-mentioned) turns to When on the transmission path of light beam B, this moment expose to non-smooth transition zone (such as penetrating region above-mentioned) light beam B be its Two part B2 can pass through transparent substrates and transmit towards light valve 120.In other words, the utility model specification and claims institute " first part of light beam " and " second part of light beam " is claimed not imply that light beam light beam or two light beams comprising there are two types of, but From light source 112 same light beam but be radiated at Wavelength Conversion Modules 116 respectively in different timing (time), such as not It is radiated at light transition zone (optical wavelength converting layer) Ji Feiguang transition zone (such as penetrating region above-mentioned) respectively with the time, for convenience Illustrate to be radiated at light transition zone (optical wavelength converting layer) Ji Feiguang transition zone (example of Wavelength Conversion Modules 116 in different time Penetrating region as the aforementioned) light beam, so be known as " first part of light beam " and " second part of light beam ".In short, light beam B First part B1 refer to the light beam for being radiated at light transition zone (optical wavelength converting layer) because turning to positioned at light when light transition zone When on the transmission path of beam B, light beam B1 is radiated at light transition zone, and light beam B1 can be converted to by light transition zone (optical wavelength converting layer) Commutating optical beam C.The second part B2 of light beam B refers to the light beam for being radiated at non-smooth transition zone (such as penetrating region above-mentioned).Similarly, In other embodiments, when substrate is reflective substrate (metal substrate), non-smooth transition zone embodiment can be transparent area, be also possible to Non-transparent smooth area, when non-smooth transition zone is alternatively non-transparent district, non-smooth transition zone is a part of metallic substrate surfaces, at this time light beam The second part B2 of B refers to the light beam for being radiated at the surface of non-smooth transition zone of metal substrate.

In the present embodiment, there are two light transition zones for transparent substrates tool, such as feux rouges transition zone and green light transition zone.At this In embodiment, optical wavelength converting layer includes red light wavelength transition material and green wavelength transition material, and wherein red light wavelength turns Conversion materials are located in feux rouges transition zone, and green wavelength transition material is located in green light transition zone.In the present embodiment, feux rouges turns Area, green light transition zone and penetrating region is changed for example to cut in turn on the transmission path of light beam B for expanding optical element 114, so that Feux rouges C1, green light C2 and blue light (the second part B2 of light beam B) sequentially export from Wavelength Conversion Modules 116 and towards light valves 120 transmitting.

In another embodiment, Wavelength Conversion Modules 116 can only have a light transition zone (such as yellow light transition zone), And Wavelength Conversion Modules 116 can be integrated with filter element (not shown), to export feux rouges, green light and blue light, but be not limited to This.In another embodiment, filter element is configurable between Wavelength Conversion Modules 116 and light valve 120.In addition, optical wavelength Between conversion module 116 and filter element and/or expands between optical element 114 and Wavelength Conversion Modules 116 and can further be arranged An at least lens element.

In the present embodiment, lighting system 110 further includes even optical element 118.The even setting of optical element 118 is coming from optical wavelength On the transmission path of the illuminating bundle IB of conversion module 116, to provide illuminating bundle IB shaping and the effect of homogenization.Citing For, even optical element 118 is integration rod, but not limited to this.

In the present embodiment, the shape for going out light end X2 of even optical element 118 corresponds to the screen shape of light valve 120, so that Match from the shape of hot spot for going out light end X2 output of even optical element 118 with the screen shape of light valve 120.In general, light The screen shape of valve 120 is rectangle, therefore the shape for going out light end X2 of even optical element 118 is generally also rectangle.In this reality It applies in example, the long side for going out light end X2 of even optical element 118 corresponds to the long side of the screen of light valve 120.In addition, in the present embodiment In, the shape of the light inputting end X1 of even optical element 118 is related to the shape for the hot spot BP being incident upon on Wavelength Conversion Modules 116. In the present embodiment, the shape of the light inputting end X1 of even optical element 118 is, for example, to have the rectangle of a pair of of long side and a pair of short edges, And long axis direction of the long side of light inputting end X1 for example corresponding to hot spot BP in Fig. 3 B.In the present embodiment, even optical element 118 go out It is also parallel other than the long side of screen of the long side of light end X2 in addition to correspond to/being parallel to light valve 120 and the long side of light inputting end X1 The long axis direction of hot spot BP in Fig. 3 B, but not limited to this.Light efficiency and light utilization efficiency are preferably received in this way, can have.

Light valve 120 is arranged on the transmission path of the illuminating bundle IB from even optical element 118, and is used for illuminating bundle IB is converted into image strip MB.Light valve 120 may include digital micro-mirror device (Digital Micro-mirror Device, DMD), liquid crystal on silicon (Liquid Crystal on Silicon, LCOS) or liquid crystal display panel (Liquid Crystal Display Panel, LCD panel), but not limited to this.

Projection lens 130 is arranged on the transmission path of image strip MB, and being used for will be from the image strip of light valve 120 MB is projected to imaging surface (not shown).The projection lens of any pattern can be used in projection lens 130, without restriction in this.

Fig. 4 is the schematic top plan view of the projection arrangement of second embodiment according to the present utility model.Referring to figure 4., this reality The projection arrangement 100 of Fig. 1 is similar to the projection arrangement 200 of novel second embodiment.The main difference of two embodiments is said It is bright as follows.In projection arrangement 200, lighting system 210 further includes light combination element 212 and multiple reflecting element (such as reflectors Part 214, reflecting element 216 and reflecting element 218).The transmitting from the light beam B for expanding optical element 114 is arranged in light combination element 212 On path.In the present embodiment, the reflection of light combination element 212 from the light beam B for expanding optical element 114 and allows commutating optical beam C to pass through.Light Wavelength convert module 116 is arranged on the transmission path of the light beam B from light combination element 212.In the present embodiment, optical wavelength turns Mold changing block 116 is used to light combination element 212 and second part B2 be allowed to pass through commutating optical beam C transmitting (reflection).In the present embodiment In, the multiple reflecting element (such as reflecting element 214, reflecting element 216 and reflecting element 218) setting turns from optical wavelength On the transmission path for changing the mold the second part B2 of block 116, and for second part B2 to be transmitted (reflection) to light combination element 212.

Fig. 5 is the schematic top plan view of the projection arrangement of 3rd embodiment according to the present utility model.Referring to figure 5., this reality The projection arrangement 200 of Fig. 4 is similar to the projection arrangement 300 of novel 3rd embodiment.The main difference of two embodiments is said It is bright as follows.In the lighting system 310 of projection arrangement 300, light combination element 212 allow from expand optical element 114 light beam B pass through and Reflect commutating optical beam C.

Fig. 6 is the schematic top plan view of the projection arrangement of fourth embodiment according to the present utility model.Fig. 7 is to expand light in Fig. 6 The front view of element.Fig. 8 A is the partial elevation view of Wavelength Conversion Modules in Fig. 6, projection when indicating to expand optical element inclination Hot spot on Wavelength Conversion Modules.Fig. 8 B is the front view for going out light end of even optical element in Fig. 6, expands optical element to indicate The hot spot for going out light end of even optical element is incident upon when inclination.

Fig. 6 is please referred to, the projection arrangement 400 of the fourth embodiment of the utility model is similar to the projection arrangement 300 of Fig. 5. The main difference of two embodiments is described as follows.In the lighting system 410 of projection arrangement 400, expands the configuration of optical element 114 and closing Optical element 212 is towards on the surface S of light source 112.Specifically, light combination element 212 is usually relative to the light beam from light source 112 The transmission path P of B is tilted, such as light combination element 212 is usually arranged as and the transmission path P of the light beam B from light source 112 folder 45 Degree.Therefore, the present embodiment will expand optical element 114 and be combined together with light combination element 212 using this inclination/angle characteristic.? Under such framework, the reference planes RF vertical with the transmission path P of light beam B from light source 112 and expand optical element 114 it Between also have tilt angle theta so that expand optical element 114 relative to the light beam B from light source 112 transmission path P tilt.Inclination Angle, θ is, for example, 45 degree, but not limited to this.

Fig. 6 to Fig. 8 B is please referred to, in the present embodiment, expanding optical element 114 is using its second middle line M2 as shaft and with ginseng Examining plane RF is initial surface to rotate an angle (such as tilt angle theta).In this way, passing through the inclined light beam B meeting for expanding optical element 114 First expand on the direction D2 vertical with shaft extending direction D1 (such as extending direction of the second middle line M2) of optical element 114 is expanded, Can first it expand in the direction d 2 across the inclined light beam B for expanding optical element 114, so that being incident upon Wavelength Conversion Modules 116 On hot spot BP long axis direction (such as direction D2 and its opposite direction) perpendicular to reference planes RF in Fig. 6 and expand optical element 114 The extending direction (such as shaft extending direction D1 and its opposite direction) of boundary IF.In addition, in the present embodiment, even optical element 118 The shape of light inputting end X1 is, for example, to have the rectangle of a pair of of long side and a pair of short edges, the length of the light inputting end X1 of even optical element 118 The extending direction (such as direction D3 and its opposite direction) on side is set perpendicularly to the hot spot BP being incident upon on Wavelength Conversion Modules 116 Long axis direction (such as direction D2 and its opposite direction) and boundary IF extending direction (such as shaft extending direction D1 and its negative side To).Therefore, as the light inputting end X1 of the incident even optical element 118 of hot spot BP, the long side of light inputting end X1 just can correspond to hot spot BP Long axis direction, so can have and preferably receive light efficiency and light utilization efficiency.

Fig. 9 is the schematic top plan view of the projection arrangement of the 5th embodiment according to the present utility model.Please refer to Fig. 9, this reality The projection arrangement 300 of Fig. 5 is similar to the projection arrangement 500 of the 5th novel embodiment.The main difference of two embodiments is said It is bright as follows.In the lighting system 510 of projection arrangement 500, light source 112 includes multiple first light-emitting component 112A and multiple the (Fig. 9 is schematically painted multiple first light-emitting component 112A and multiple second with two square boxes and shines two light emitting 112B Element 112B).The multiple first light-emitting component 112A issues multiple first beamlet BA, and (Fig. 9 is schematically painted more with arrow A first beamlet BA).The multiple second light-emitting component 112B issues multiple second beamlet BB, and (Fig. 9 is schematic with arrow It is painted multiple second beamlet BB).

In addition, other than light combination element 212, reflecting element 214, reflecting element 216 and reflecting element 218, illumination system System 510 further includes focal element 511 and collimating element 512.Focal element 511 is arranged in from the multiple of light source 112 On the transmission path of first beamlet BA and the multiple second beamlet BB.The setting of collimating element 512 is carrying out self-aggregation member On the transmission path of the multiple first beamlet BA of part 511 and the multiple second beamlet BB.Light combination element 212 is set Set the transmission path in the multiple first beamlet BA and the multiple second beamlet BB from collimating element 512 On.The multiple first beamlet BA and the multiple from light combination element 212 is arranged in Wavelength Conversion Modules 116 On the transmission path of two beamlet BB.

Hold above-mentioned, it includes other elements that lighting system 510 is also alternative.For example, lighting system 510 can also wrap Include reflecting element R1, reflecting element R2, lens element 513 and lens element 514.Reflecting element R1 setting is from multiple the It, will be from the more of multiple first light-emitting component 112A on the transmission path of multiple first beamlet BA of one light-emitting component 112A A first beamlet BA reflexes to focal element 511.Reflecting element R2 is arranged in from the more of multiple second light-emitting component 112B On the transmission path of a second beamlet BB, it will be reflected from multiple second beamlet BB of multiple second light-emitting component 112B To focal element 511.The multiple first beamlet BA from light combination element 212 and described is arranged in lens element 513 On the transmission path of multiple second beamlet BB.The multiple first sub-light for carrying out lens element 513 is arranged in lens element 514 On the transmission path of beam BA and the multiple second beamlet BB.The setting of Wavelength Conversion Modules 116 is coming from lens element On the transmission path of 514 the multiple first beamlet BA and the multiple second beamlet BB, and come from light combination element 212 the multiple first beamlet BA and the multiple second beamlet BB are sequentially via lens element 513 and lens Element 514 and converge to Wavelength Conversion Modules 116.

In the present embodiment, expand optical element 114 quantity be one, and expand optical element 114 setting focal element 511 with Between collimating element 512, but not limited to this.In one embodiment, expansion optical element 114 may be provided at the multiple first and shine Between element 112A and focal element 511 (such as between the multiple first light-emitting component 112A and reflecting element R1 or reflect Between element R1 and focal element 511), it is (such as described more between the multiple second light-emitting component 112B and focal element 511 Between a second light-emitting component 112B and reflecting element R2 or between reflecting element R2 and focal element 511) or collimating element 512 Between light combination element 212.

In another embodiment, lighting system 510 may include multiple expansion optical elements, and the multiple expansion optical element can be distinguished Be arranged between the multiple first light-emitting component 112A and focal element 511, the multiple second light-emitting component 112B and converge Between poly- element 511, between focal element 511 and collimating element 512 or between collimating element 512 and light combination element 212.This Outside, the multiple expansion optical element can be connected to each other or be separated from each other.

Figure 10 and Figure 11 is multiple two kinds of relative configuration relational graphs for expanding optical element respectively, to indicate multiple expansion optical elements The case where being connected to each other.However, multiple expansion optical elements are not limited to depicted in Figure 10 and Figure 11 the case where being connected to each other.In addition, Although Figure 10 and Figure 11 only show the relative configuration relationship of two expansion optical elements, expansion optical element included by lighting system Quantity can also be more than two.For the case where multiple expansion optical elements are connected to each other, as shown in Figure 10, expand optical element 114A with And expansion optical element 114B can be connected with unilateral.Alternatively, as shown in figure 11, expanding optical element 114A and expanding optical element 114B can hand over Fork setting.Multiple expansion optical elements depicted in Figure 10 and Figure 11 can be applied to the implementation of (but being not limited to) Fig. 1, Fig. 4, Fig. 5 or Fig. 9 Example.When being applied to the embodiment of Fig. 9, the multiple expansion optical element can be separately positioned on more cited by (but being not limited to) Fig. 9 One of them at a position, and can to correspond to one or more beamlets (such as one or more corresponding for the multiple expansion optical element A first beamlet BA, corresponding second beamlet BB of one or more, correspondence the first beamlet BA of one or more and one or The combination of multiple second beamlet BB).The multiple beamlet can be from all the first light-emitting component 112A (or second Light-emitting component 112B) the first beamlet BA (or second beamlet BB) or from part the first light-emitting component 112A (or Second light-emitting component 112B) the first beamlet BA (or second beamlet BB).

For the case where multiple expansion optical elements are separated from each other, the multiple expansion optical element can be separately positioned on listed by Fig. 9 One of them at the multiple positions lifted, and each optical element that expands can correspond to one or more beamlets.Alternatively, the multiple expansion light Element can be separately positioned at least two at multiple positions cited by Fig. 9, and each optical element that expands corresponds to one or more sons Light beam.

In addition, the case where being either connected to each other or be separated from each other, multiple tilt angles for expanding optical elements can be identical or not Together.In addition, multiple shafts for expanding optical element may be the same or different when multiple expansion optical elements are separated from each other.

Although it includes a light valve that above-described embodiment, which is all painted projection arrangement only, the utility model is without being limited thereto.Figure 12 And Figure 13 is that there are two light valve and the partial schematic diagrams of the projection arrangement of three light valves for setting respectively.Please refer to Figure 12, projection dress Set may include light valve 121, light valve 122 and spectrophotometric unit U.Spectrophotometric unit U is arranged on the transmission path of illuminating bundle IB, and The light beam of different colours in illuminating bundle IB for being directed to different light valves by spectrophotometric unit U.Light valve 121 and light valve 122 It is arranged on the transmission path of the illuminating bundle IB from spectrophotometric unit U, and light valve 121 and light valve 122 are used for illumination light Beam IB is converted into image strip MB.Spectrophotometric unit U is also used to image strip MB being transferred to projection lens 130.

Figure 13 is please referred to, other than light valve 121, light valve 122 and spectrophotometric unit U shown in Figure 12, projection arrangement can It further comprise light valve 123.Light valve 121, light valve 122 and light valve 123 are arranged in the illuminating bundle IB's from spectrophotometric unit U On transmission path, and light valve 121, light valve 122 and light valve 123 are used to illuminating bundle IB being converted into image strip MB.Light splitting Unit U is also used to image strip MB being transferred to projection lens 130.

In Figure 12 and Figure 13, spectrophotometric unit U may include multiple prisms.In addition, spectrophotometric unit U may also comprise dichronic mirror (dichroic mirror) or color separation (dichroic) layer being formed on prism.In one embodiment, when being provided with dichronic mirror Or when dichroic layer, lighting system can not have to setting filter element.

In summary, the embodiments of the present invention at least have effects that following one of advantage or.Using it is described extremely Few one expands optical element tilts relative to the transmission path of the light beam from light source, makes the hot spot being incident upon on Wavelength Conversion Modules Expand along single axial, to achieve the effect that the energy density for reducing light beam.Therefore, the illumination of the embodiments of the present invention System can be effectively improved the Wavelength Conversion Modules caused by excessively being concentrated because of the energy of light beam be burned out and light conversion efficiency under The problems such as drop.In addition, the projection arrangement application said lighting system of the embodiments of the present invention and can have good efficiency. In one embodiment, described at least one tilt angle for expanding optical element can be made to be greater than or equal to 15 degree and be less than or equal to 60 Degree, while the decrease of power density, to maintain light beam to pass through described at least one efficiency for expanding optical element.In another embodiment In, the expansion optical element (such as array lens) of high unit price can be replaced, with the expansion optical element (such as diffusion sheet) of low unit price to reduce cost And reduce influence of the assembling tolerance for optical quality.In yet another embodiment, lighting system may include multiple expansion optical elements, And it can be incident upon by the relative configuration relationship for adjusting tilt angle and these expansion optical elements that these expand optical element to adjust The shapes and sizes of hot spot on Wavelength Conversion Modules.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (14)

1. a kind of projection arrangement, which is characterized in that including lighting system, at least a light valve and projection lens:

The lighting system includes light source, at least one expansion optical element and Wavelength Conversion Modules:

The light source is for issuing light beam；

At least one expansion optical element is arranged on the transmission path of the light beam from the light source, wherein with from described There is tilt angle between the vertical reference planes of the transmission path of the light beam of light source and at least one expansion optical element, So that described at least one expands transmission path inclination of the optical element relative to the light beam from the light source；And

The transmission path for the light beam for expanding optical element from inclined described at least one is arranged in the Wavelength Conversion Modules On, wherein the long axis direction for the hot spot being incident upon on the Wavelength Conversion Modules perpendicular to the reference planes and it is described at least One expands the extending direction of the boundary of optical element, institute of the Wavelength Conversion Modules for will expand optical element from described at least one The first part for stating light beam is converted into commutating optical beam, and the commutating optical beam and the light for expanding optical element from described at least one The second part of beam forms illuminating bundle；

An at least light valve is arranged on the transmission path of the illuminating bundle, and for the illuminating bundle to be converted into shadow As light beam；And

The projection lens is arranged on the transmission path of the image strip.

2. projection arrangement according to claim 1, which is characterized in that it is described at least one expansion optical element include diffusion sheet or thoroughly Lens array.

3. projection arrangement according to claim 1, which is characterized in that the lighting system further include:

Even optical element is arranged on the transmission path of the illuminating bundle, wherein the long axis side for going out light end of the even optical element To the long axis direction for being parallel to the hot spot.

4. projection arrangement according to claim 1, which is characterized in that the lighting system further include:

Light combination element is arranged on the transmission path for the light beam for expanding optical element from described at least one, wherein the light wave Long conversion module is arranged on the transmission path of the light beam from the light combination element, and the Wavelength Conversion Modules is used for The commutating optical beam is transferred to the light combination element and the second part is allowed to pass through；And

Multiple reflecting elements are arranged on the transmission path of the second part from the Wavelength Conversion Modules, are used in combination In the second part is transferred to the light combination element.

5. projection arrangement according to claim 4, which is characterized in that described at least one expands optical element configuration in the light combination On surface of the element towards the light source, and the lighting system further include:

Even optical element is arranged on the transmission path of the illuminating bundle, wherein the long axis side for going out light end of the even optical element To perpendicular to the hot spot being incident upon on the Wavelength Conversion Modules the long axis direction and the boundary described in Extending direction.

6. projection arrangement according to claim 1, which is characterized in that the light source include multiple first light-emitting components and Multiple second light-emitting components, the multiple first light-emitting component issue multiple first beamlets, the multiple second light-emitting component Issue multiple second beamlets, the lighting system further include:

Focal element is arranged on the transmission path of the multiple first beamlet and the multiple second beamlet；

The multiple first beamlet and the multiple second beamlet from the focal element is arranged in collimating element Transmission path on；

The multiple first beamlet and the multiple second beamlet from the collimating element is arranged in light combination element Transmission path on, wherein the multiple first beamlet from the light combination element is arranged in the Wavelength Conversion Modules And on the transmission path of the multiple second beamlet, the Wavelength Conversion Modules is for the commutating optical beam to be transferred to The light combination element simultaneously allows the second part to pass through；And

Multiple reflecting elements are arranged on the transmission path of the second part from the Wavelength Conversion Modules, are used in combination In the second part is transferred to the light combination element, wherein described at least one expands optical element setting in the multiple first hair Between optical element and the focal element, between the multiple second light-emitting component and the focal element, the focal element Between the collimating element or between the collimating element and the light combination element.

7. projection arrangement according to claim 6, which is characterized in that it is described at least one expand optical element quantity be it is multiple, And multiple expansion optical elements are separately positioned between the multiple first light-emitting component and the focal element, the multiple Between two light emitting and the focal element, between the focal element and the collimating element or the collimating element and institute It states between light combination element.

8. a kind of lighting system, which is characterized in that including light source, at least one expand optical element and Wavelength Conversion Modules:

The light source is for issuing light beam；

At least one expansion optical element is arranged on the transmission path of the light beam from the light source, wherein with from described There is an inclination angle between the vertical reference planes of the transmission path of the light beam of light source and at least one expansion optical element Degree, so that described at least one expands transmission path inclination of the optical element relative to the light beam from the light source；And

The transmission path for the light beam for expanding optical element from inclined described at least one is arranged in the Wavelength Conversion Modules On, wherein the long axis direction for the hot spot being incident upon on the Wavelength Conversion Modules perpendicular to the reference planes and it is described at least One expands the extending direction of the boundary of optical element, institute of the Wavelength Conversion Modules for will expand optical element from described at least one The first part for stating light beam is converted into commutating optical beam, and the commutating optical beam and the light for expanding optical element from described at least one The second part of beam forms illuminating bundle.

9. lighting system according to claim 8, which is characterized in that it is described at least one expansion optical element include diffusion sheet or thoroughly Lens array.

10. lighting system according to claim 8, which is characterized in that further include:

Even optical element is arranged on the transmission path of the illuminating bundle, wherein the long axis side for going out light end of the even optical element To the long axis direction for being parallel to the hot spot.

11. lighting system according to claim 8, which is characterized in that further include:

Light combination element is arranged on the transmission path for the light beam for expanding optical element from described at least one, wherein the light wave Long conversion module is arranged on the transmission path of the light beam from the light combination element, and the Wavelength Conversion Modules is used for The commutating optical beam is transferred to the light combination element and the second part is allowed to pass through；And

Multiple reflecting elements are arranged on the transmission path of the second part from the Wavelength Conversion Modules, are used in combination In the second part is transferred to the light combination element.

12. lighting system according to claim 11, which is characterized in that described at least one expands optical element configuration in the conjunction On surface of the optical element towards the light source, and the lighting system further include:

Even optical element is arranged on the transmission path of the illuminating bundle, wherein the long axis side for going out light end of the even optical element To perpendicular to the hot spot being incident upon on the Wavelength Conversion Modules the long axis direction and the boundary described in Extending direction.

13. lighting system according to claim 8, which is characterized in that the light source include multiple first light-emitting components with And multiple second light-emitting components, the multiple first light-emitting component issue multiple first beamlets, the multiple second luminous member Part issues multiple second beamlets, the lighting system further include:

Focal element is arranged on the transmission path of the multiple first beamlet and the multiple second beamlet；

The multiple first beamlet and the multiple second beamlet from the focal element is arranged in collimating element Transmission path on；

The multiple first beamlet and the multiple second beamlet from the collimating element is arranged in light combination element Transmission path on, wherein the multiple first beamlet from the light combination element is arranged in the Wavelength Conversion Modules And on the transmission path of the multiple second beamlet, the Wavelength Conversion Modules is for the commutating optical beam to be transferred to The light combination element simultaneously allows the second part to pass through；And

Multiple reflecting elements are arranged on the transmission path of the second part from the Wavelength Conversion Modules, are used in combination In the second part is transferred to the light combination element, wherein described at least one expands optical element setting in the multiple first hair Between optical element and the focal element, between the multiple second light-emitting component and the focal element, the focal element Between the collimating element or between the collimating element and the light combination element.

14. lighting system according to claim 13, which is characterized in that described at least one quantity for expanding optical element is more It is a, and multiple expansion optical elements are separately positioned between the multiple first light-emitting component and the focal element, are described more Between a second light-emitting component and the focal element, between the focal element and the collimating element or the collimating element Between the light combination element.