CN208283710U - Lighting system and projection arrangement - Google Patents

Abstract

A kind of lighting system, including blue light source, excitation light source, the first recombination dichroic elements and Wavelength changing element.Blue light source is for providing light beam.Excitation light source is for providing excitation beam.First recombination dichroic elements are configured on the transmission path of light beam and excitation beam.Wavelength changing element is configured on the transmission path of excitation beam, is the light beam that is stimulated for converting excitation beam, wherein excitation beam passes through the first recombination dichroic elements to Wavelength changing element to be converted to the light beam that is stimulated.The light beam that is stimulated is transferred to the first recombination dichroic elements and reflects.The wavelength of light beam is greater than the wavelength of excitation beam, and blue light source and excitation light source are located at the same side of the first recombination dichroic elements.The lighting system and projection arrangement of the utility model can improve the partially purple problem of light beam.

Description

Lighting system and projection arrangement

Technical field

The utility model relates to a kind of optical system and Optical devices, and in particular to a kind of lighting system and Projection arrangement.

Background technique

Projection arrangement be it is a kind of for generating the display device of large scale picture, with the evolution and innovation of science and technology, All the time in progress.The image-forming principle of projection arrangement is to be converted into illuminating bundle caused by lighting system by light valve Image strip, then by image strip by projection lens projects to projection object (such as: on screen or metope), to form throwing Shadow picture.

In addition, lighting system is also with market to projection arrangement brightness, color saturation, service life, asepsis environment-protecting etc. It is required that belonging to ultrahigh pressure mercury lamp from ultra high performance light bulb (Ultra-high-performance lamp, UHP lamp) all the way Bubble, light emitting diode (Light-emitting diode, LED) evolve to always current state-of-the-art laser diode (laser diode, LD) light source.But in the illumination system, generating red, green light at present compared with the practice for meeting cost is to use indigo plant Ray laser diode excites the fluorescent powder of fluorescence colour wheel to generate green-yellow light.Then, then via optical element by required feux rouges Or green light filters out for using.

However, in well known illumination system structure, because of the blue light light that wavelength need to be used shorter in view of excitated fluorescent powder Source, therefore blue is presented in projection that more partially purple color can be presented in human eye vision, and the partially purple influence vision of blue light is caused to imitate The problem of fruit.

" background technique " is partially used only to help to understand the content of the present invention, therefore is taken off in " background technique " part The content of dew may include some well-known techniques without constituting road known to those skilled in the art.In " background technique " part institute The content of exposure does not represent the content or the utility model one or more embodiment problem to be solved, practical at this It has been readily known to those persons skilled in the art or has recognized before novel application.

Utility model content

The utility model provides a kind of lighting system and projection arrangement, can improve the partially purple problem of light beam.

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

It is to propose one kind up to one of above-mentioned or part or all of purpose or other purposes, an embodiment of the utility model Lighting system, including blue light source, excitation light source, the first recombination dichroic elements and Wavelength changing element.Blue light source is for providing Light beam.Excitation light source is for providing excitation beam.First recombination dichroic elements are configured at the transmitting of light beam and excitation beam On path.Wavelength changing element is configured on the transmission path of excitation beam, is the light beam that is stimulated for converting excitation beam, Middle excitation beam is by the first recombination dichroic elements to Wavelength changing element to be converted to the light beam that is stimulated.The light beam that is stimulated is transferred to One recombination dichroic elements simultaneously reflect.The wavelength of light beam is greater than the wavelength of excitation beam, and blue light source and excitation light source are located at the The same side of one recombination dichroic elements.

It is up to one of above-mentioned or part or all of purpose or other purposes, another embodiment of the utility model proposes one Kind projection arrangement, for providing projected light beam.Projection arrangement includes lighting system, at least a light valve and lens module.Illumination System provides illuminating bundle.Lighting system includes blue light source, excitation light source, the first recombination dichroic elements and Wavelength changing element. Blue light source is for providing light beam.Excitation light source is for providing excitation beam.First recombination dichroic elements are configured at light beam And on the transmission path of excitation beam.Wavelength changing element is configured on the transmission path of excitation beam, for converting exciting light Beam is the light beam that is stimulated, and wherein excitation beam passes through the first recombination dichroic elements to Wavelength changing element to be converted to the light beam that is stimulated. The light beam that is stimulated is transferred to the first recombination dichroic elements and reflects.At least a light valve is configured on the transmission path of illuminating bundle, is used for Illuminating bundle is converted into an at least image strip.Lens module is configured on at least transmission path of an image strip, is used for An at least image strip is formed into projected light beam, wherein the wavelength of light beam is greater than the wavelength of excitation beam, and blue light source And excitation light source is located at the same side of the first recombination dichroic elements.

Based on above-mentioned, the embodiments of the present invention at least have effects that following one of advantage or.It is practical new at this In above-described embodiment of type, lighting system provides the blue light components of illuminating bundle using blue light source, and uses exciting light Source is to provide the red light portion and green portions of illuminating bundle.Therefore, longer wavelengths of blue light source can be used to improve projection The partially purple problem of blue light in picture, and then promote the optical quality of projection arrangement.

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 projection arrangement schematic diagram of an embodiment of the present invention.

Fig. 2A is the front-view schematic diagram of the Wavelength changing element of the projection arrangement of Fig. 1.

Fig. 2 B is the front-view schematic diagram of another Wavelength changing element of the projection arrangement of Fig. 1.

Fig. 3 A and Fig. 3 B are respectively the front-view schematic diagram of the filter element of the different embodiments of the projection arrangement of Fig. 1.

Fig. 4 A to Fig. 4 C is respectively the timing diagram of the different embodiments of the projection arrangement of Fig. 1.

Fig. 5 is the projection arrangement schematic diagram of another embodiment of the utility model.

Fig. 6 is the projection arrangement schematic diagram of another embodiment of the utility model.

Fig. 7 A, Fig. 7 B and Fig. 7 C are respectively that the forward sight of the Wavelength changing element of the different embodiments of the projection arrangement of Fig. 6 is shown It is intended to.

Fig. 8 A, Fig. 8 B and Fig. 8 C are respectively the timing diagram of the different embodiments of the projection arrangement of Fig. 6.

Fig. 9 is the projection arrangement schematic diagram of another embodiment of the utility model.

Figure 10 is the projection arrangement schematic diagram of another embodiment of the utility model.

Figure 11 is the timing diagram of the projection arrangement of Figure 10.

Figure 12 is the projection arrangement schematic diagram of another embodiment of the utility model.

Specific embodiment

In relation to addressing other technologies content, feature and effect before the utility model, in following cooperation with reference to one of attached drawing In the detailed description of preferred embodiment, can clearly it present.The direction term being previously mentioned in following embodiment, such as: upper, Under, it is left and right, front or rear etc., be only the direction with reference to annexed drawings.Therefore, the direction term used is for illustrating not to use To limit the utility model.

Fig. 1 is the projection arrangement schematic diagram of an embodiment of the present invention.Referring to FIG. 1, in the present embodiment, projection dress Set 10 for provide a projected light beam LP.Specifically, projection arrangement 10 includes a lighting system 100, at least a light valve 50, one Lens module 60 and even optical element 70, and lighting system 100 is for providing an illuminating bundle LB.Light valve 50 is configured at illumination light On the transmission path of beam LB, for illuminating bundle LB to be converted into an at least image strip LI.Lens module 60 is configured at image On the transmission path of light beam LI, for image strip LI to be formed projected light beam LP, and projected light beam LP is for being projected to one Projection target (is not painted), such as a screen or a metope.

In the present embodiment, light valve 50 be, for example, liquid crystal cover silicon plate (Liquid Crystal On Silicon panel, LCoS panel), the reflecting lights modulator such as digital micromirror elements (Digital Micro-mirror Device, DMD).In In some embodiments, light valve 50 is also possible to light transmitting liquid crystal panel (Transparent Liquid Crystal Panel), electricity Light modulator (Electro-Optical Modulator), maganeto-optic modulators (Maganeto-Optic modulator), acousto-optic The penetration light modulators such as modulator (Acousto-Optic Modulator, AOM).Kenel of the utility model to light valve 50 And its type and without restriction.The method that illuminating bundle LB is converted to image strip LI by light valve 50, detailed step and reality The mode of applying can be obtained enough teachings by the usual knowledge of technical field, suggest and implement to illustrate, therefore be repeated no more. In the present embodiment, the quantity of light valve 50 is one, e.g. uses the projection arrangement 10 of individual digit micro-mirror element, but at it It then can be multiple in his embodiment, the utility model is not limited to this.

Combination of the projection lens 60 for example including one or more optical mirror slips with diopter, it is saturating for example including concave-concave The various combinations of the non-planar eyeglass such as mirror, biconvex lens, concave-convex lens, meniscus, plano-convex lens and plano-concave lens.Yu Yi In embodiment, projection lens 60 can also include planar wave eyeglass, in reflection by the image strip LI from light valve 50 It is projected to projection target.The utility model is to the kenel and its type of projection lens 60 and without restriction.

Even optical element 70 is configured on the transmission path of illuminating bundle LB, for adjusting the light spot shape of illuminating bundle LB, So that the light spot shape of illuminating bundle LB is able to cooperate the shape (such as: rectangle) of the workspace of light valve 50, and have hot spot everywhere There are consistent or close luminous intensity, the luminous intensity of Uniform Illumination light beam LB.In the present embodiment, even optical element 70 is, for example, to integrate Column, but in other embodiments, even optical element 70 is also possible to the optical element of other appropriate kenels, such as lens array is (again Eyelens, fly eye lens array), the utility model is without being limited thereto.

In addition, in some embodiments, projection arrangement 10 also optionally includes reflecting element (mirror) 90.Reflection Element 90 is for guiding the illuminating bundle LB that lighting system 100 issues to light valve 50.However, the utility model is without being limited thereto, In other embodiments, other optical elements can also be used and guide illuminating bundle LB to light valve 50.

In the present embodiment, lighting system 100 includes a blue light source 110, an excitation light source 120, one first color separation member Part 130, a Wavelength changing element 140 and a filter element 150.Specifically, blue light source 110 provides a light beam L1, and excitation light source 120 provides an excitation beam L2.In the present embodiment, blue light source 110 and excitation light source 120 are laser Diode (Laser Diode, LD), but in other embodiments, blue light source 110 and excitation light source 120 can be luminous two Pole pipe (Light Emitting Diode, LED) or Organic Light Emitting Diode (Organic Light-Emitting Diode, OLED).Specifically, all implementable according to the light source for meeting demand in actual design, the utility model is to blue light source 110, the kenel and its type of excitation light source 120 and the other light sources in subsequent explanation and without restriction.Wavelength changing element 140 be, for example, fluorescent wheel (phosphor wheel), and filter element 150 is, for example, colour wheel (color wheel).

In the present embodiment, excitation light source 120 is short wavelength's blue light source.In other words, light beam L1 is long wavelength Light beam, and excitation beam L2 is short wavelength's light beam, the wavelength of light beam L1 is greater than the wavelength of excitation beam L2, lifts For example, light beam L1 can be 460 nanometers of (nm) wavelength, and excitation beam L2 can be 445 nanometers of (nm) wavelength.Therefore, this reality It applies long wavelength's light beam (i.e. light beam L1) in example for providing the blue light components of projected light beam LP, and short wavelength is blue Light light beam (i.e. excitation beam L2) provides its of projected light beam LP for the wavelength conversion material of excitation wavelength conversion element 140 His coloured light, such as yellow, green, red light portion.In this way, can avoid the purple partially of blue light provided in well-known technique and cause picture Purple problem partially, and then promote the optical quality of projection arrangement 10.

First recombination dichroic elements 130 are configured on the transmission path of light beam L1 and excitation beam L2, and blue light source 110 And excitation light source 120 is located at the same side of the first recombination dichroic elements 130.Blue light source 110 and Wavelength changing element 140 are located at first The opposite two sides of recombination dichroic elements 130.In the present embodiment, the first recombination dichroic elements 130 are the dichronic mirror for reflecting yellow light (Dichroic Mirror).However, the utility model is without being limited thereto, according to other embodiments, the first recombination dichroic elements 130 can also Think other types or form, other embodiments explanation will be cooperated in subsequent paragraph below.

Fig. 2A is the front-view schematic diagram of the Wavelength changing element of the projection arrangement of Fig. 1.Fig. 1 and Fig. 2A is please referred to, in this reality Apply in example, Wavelength changing element 140 is configured on the transmission path of excitation beam L2, and the first recombination dichroic elements 130 be set to it is sharp Between light emitting source 120 and Wavelength changing element 140.Blue light source 110 and Wavelength changing element 140 are located at the first recombination dichroic elements 130 opposite sides.There is wavelength conversion material (such as fluorescent material, Phosphor on Wavelength changing element 140 Material), it is stimulated light beam L3 with converting excitation beam L2 as one.Specifically, Wavelength changing element 140 includes one first Transition zone 142, one second transition zone 144 and an optics area 146, wherein the first transition zone 142 is used to turn excitation beam L2 It changes first into be stimulated light beam (yellow light), and the second transition zone 144 is used to excitation beam L2 being converted into second to be stimulated light beam (green light).In the present embodiment, the first transition zone 142 is, for example, yellow light transition material, and the second transition zone 144 is, for example, green light Transition material, but the utility model is not limited to this.

Fig. 2 B is the front-view schematic diagram of another Wavelength changing element of the projection arrangement of Fig. 1.It is different from the embodiment of Fig. 2A , in the present embodiment, the optics area 146A of Wavelength changing element 140A further includes wavelength conversion material, wherein optics area The wavelength conversion material of 146A is green light transition material, but the utility model is not limited to this.In the present embodiment, optics area The wavelength conversion material of 146A can be identical as the wavelength conversion material concentration of the second transition zone 144, therefore the wave of optics area 146A Excitation beam L2 is converted into green light by long transition material.In other embodiments, the concentration of wavelength conversion material can be different.It lifts For example, concentration of the optics area 146 with wavelength conversion material has the dense of wavelength conversion material less than the second transition zone 144 Degree, therefore excitation beam L2 is converted into green light by the wavelength conversion material of optics area 146A.

Wherein the wavelength conversion material of optics area 146A is green light transition material, but the utility model is not limited to this.

Fig. 3 A and Fig. 3 B are respectively the front-view schematic diagram of the filter element of the different embodiments of the projection arrangement of Fig. 1.It please be first With reference to Fig. 1 and Fig. 3 A, in the present embodiment, filter element 150 is configured at light beam L1 and the transmitting road for the light beam L3 that is stimulated On diameter.Therefore, when excitation light source 120 starts, excitation beam L2 passes through the first recombination dichroic elements 130 to Wavelength changing element 140 To be converted to the light beam L3 that is stimulated, and the light beam L3 that is stimulated is transferred to the first recombination dichroic elements 130 and reflex to filter element 150 with Generate feux rouges, green light or yellow light.Specifically, filter element 150 include one first filter area 152, one second filter area 154, One diffusion region (diffusionsection) 156 and a transparent area 158, wherein the light beam L3 that is stimulated includes the first red light beam L4 and green beam L5, and the first filter area 152, for passing through the first red light beam L4, the second filter area 154 is green for making Light light beam L5 passes through.

In addition, in other embodiments, the diffusion region 156 of filter element 150 may also include optical filtering with reference to Fig. 3 A and Fig. 3 B Coating, this filter coating is for allowing blue and green light or blueness (cyan) light to pass through.

Fig. 4 A to Fig. 4 C is respectively the timing diagram of the different embodiments of the projection arrangement of Fig. 1.Please also refer to Fig. 1, Fig. 2A, Fig. 3 A and Fig. 4 A, in the present embodiment, when lighting system 100 has one first timing, one second timing, a third when being executed Sequence and one the 4th timing, and blue light source 110 and excitation light source 120 respectively according to these timing be changed to open, close or Electricity-saving state, and then make received light beam (the i.e. illuminating bundle provided by lighting system changed according to timing of light valve 50 LB), as depicted in Fig. 4 A.

Specifically, at the first timing (t0~t1 or t4~t5), blue light source 110 is in off state or economizes on electricity shape State, and the first recombination dichroic elements 130 to the first of Wavelength changing element 140 are passed through by the excitation beam L2 that excitation light source 120 issues Transition zone 142 is to generate a part (i.e. first be stimulated light beam) of the light beam L3 that is stimulated.As produced by Wavelength changing element 140 A part of the light beam L3 that is stimulated be transferred to the first recombination dichroic elements 130 and be reflected through the first filter area of filter element 150 152 to generate the red light portion (i.e. the first red light beam L4) of illuminating bundle LB.In addition, herein person skilled in the art it is found that Electricity-saving state is defined as the weakened that light source is persistently opened but shone, or operating can just issue because light source needs a period of time Light beam, although that is, light source have current or voltage light source do not issue light beam.

At the second timing (t1~t2 or t5~t6), blue light source 110 is in off state or electricity-saving state, and by exciting Light source 120 issue excitation beam L2 by the first recombination dichroic elements 130 to Wavelength changing element 140 the second transition zone 144 with Generate the another part (i.e. second be stimulated light beam) for the light beam L3 that is stimulated.It is stimulated as caused by Wavelength changing element 140 Another part of light beam L3 is transferred to the first recombination dichroic elements 130 and is reflected through the second filter area 154 of filter element 150 to produce The green portions (i.e. green beam L5) of raw illuminating bundle LB.

At third timing (t2~t3 or t6~t7), excitation light source 120 is in off state or electricity-saving state, and by blue light The light beam L1 that light source 110 issues passes through the diffusion region 156 of the first recombination dichroic elements 130 and filter element 150 sequentially to generate The blue light components of illuminating bundle LB.Therefore, the blue light components of illuminating bundle LB can via by diffusion region 156 reach diffusion with Homogenized effect, the blue light components that diffusion region 156 is used to eliminate illuminating bundle LB are irradiated to the laser facula on projection target (laser speckle)。

At the 4th timing (t3~t4 or t7~t8), blue light source 110 is in off state or electricity-saving state, and by exciting Light source 120 issue excitation beam L2 by the first recombination dichroic elements 130 to Wavelength changing element 140 the first transition zone 142 with Generate a part (i.e. first be stimulated light beam) for the light beam L3 that is stimulated.The stimulated luminescence as caused by Wavelength changing element 140 A part of beam L3 is transferred to the first recombination dichroic elements 130 and is reflected through the transparent area 158 of filter element 150 to generate yellow light light Beam (is not painted).Therefore, when four timing in the present embodiment, excitation light source 120 may further provide yellow light light beam extremely Light valve 50 can further make projected light beam LP provided by projection arrangement 10 have preferable brightness and accurate color.

Then, Fig. 4 B is please referred to, in four timing of the above embodiments, blue light source 110 and excitation light source 120 can It is simultaneously open state.Specifically, the light beam L1 issued by blue light source 110 sequentially passes through the first recombination dichroic elements 130 And the transparent area 158 of filter element 150 is to generate the blue light components of illuminating bundle LB.The exciting light issued by excitation light source 120 Beam L2 is generated to the first transition zone 142 of Wavelength changing element 140 by the first recombination dichroic elements 130 and is stimulated the one of light beam L3 Part, and a part for the light beam L3 that is stimulated as caused by Wavelength changing element 140 is transferred to the first recombination dichroic elements 130 and anti- The transparent area 158 by filter element 150 is penetrated to generate yellow light light beam.In other words, in four timing, by blue light source Yellow part provided by blue light components provided by 110 and excitation light source 120 will be mixed into white light.In this way, project Projected light beam LP provided by device 10 has preferable brightness and optical quality.

Then, Fig. 1, Fig. 2A, Fig. 3 B and Fig. 4 C be please also refer to.It is unlike the embodiments above, in the present embodiment, The filter element 150 of lighting system 100 is replaced by filter element 150A, and lighting system 100 only have the first timing (t0~ T1 or t3~t4), the second timing (t1~t2 or t4~t5) and third timing (t3~t4 or t5~t6), blue light source 110 And excitation light source 120 is changed to open, close or electricity-saving state according to these timing respectively, and then keep light valve 50 received according to Timing and the light beam (i.e. illuminating bundle LB provided by lighting system) changed, as depicted in Fig. 4 C.

Specifically, the lighting system 100 of the present embodiment is in the execution side of the first timing, the second timing and third timing Formula is similar to above-described embodiment in the executive mode of the first timing, the second timing and third timing, and only the two difference exists In the filter element 150A of the present embodiment only includes the first filter area 152, the second filter area 154 and diffusion region 156.Therefore, The lighting system 100 of the present embodiment provides that illuminating bundle LB's is red in the first timing, the second timing and third timing respectively Light part, green portions and blue light components.Its detailed step and embodiment can be by the usual knowledge of technical field Enough teachings are obtained, suggests and implements to illustrate, therefore are repeated no more.

It please also refer to Fig. 1, Fig. 2 B, Fig. 3 A and Fig. 4 A, in the present embodiment, lighting system 100 has one when being executed First timing, one second timing, a third timing and one the 4th timing, and blue light source 110 and excitation light source 120 respectively according to It is changed to unlatching, closing or electricity-saving state according to these timing, and then makes the received light beam changed according to timing of light valve 50 (i.e. Illuminating bundle LB provided by lighting system), as depicted in Fig. 4 A.

Specifically, at the first timing (t0~t1 or t4~t5), blue light source 110 is in off state or economizes on electricity shape State, and the first recombination dichroic elements 130 to the first of Wavelength changing element 140 are passed through by the excitation beam L2 that excitation light source 120 issues Transition zone 142 is to generate a part (i.e. first be stimulated light beam) of the light beam L3 that is stimulated.As produced by Wavelength changing element 140 A part of the light beam L3 that is stimulated be transferred to the first recombination dichroic elements 130 and be reflected through the first filter area of filter element 150 152 to generate the red light portion (i.e. the first red light beam L4) of illuminating bundle LB.

At the second timing (t1~t2 or t5~t6), blue light source 110 is in off state or electricity-saving state, and by exciting Light source 120 issue excitation beam L2 by the first recombination dichroic elements 130 to Wavelength changing element 140 the second transition zone 144 with Generate the another part (i.e. second be stimulated light beam) for the light beam L3 that is stimulated.It is stimulated as caused by Wavelength changing element 140 Another part of light beam L3 is transferred to the first recombination dichroic elements 130 and is reflected through the second filter area 154 of filter element 150 to produce The green portions (i.e. green beam L5) of raw illuminating bundle LB.

At third timing (t2~t3 or t6~t7), excitation light source 120 is open state, and blue light source 110 is to open Open state.The optics that the excitation beam L2 that excitation light source 120 issues passes through the first recombination dichroic elements 130 to Wavelength changing element 140 Area 146A is to generate another part (i.e. third be stimulated light beam, for example, green light or green light) of the light beam L3 that is stimulated, and simultaneously The light beam L1 issued with blue light source 110 is transferred to the diffusion region 156 of filter element 150, and therefore, third is stimulated light beam It is used to generate the blue light components of illuminating bundle LB with light beam L1.In this way, the chromaticity coordinates of adjustable blue light makes projected light beam The color of LP is more saturated, the color of image is really presented.

It is noted that in other embodiments, the intensity and blue light light of the excitation beam L2 that excitation light source 120 issues The intensity for the light beam L1 that source 110 issues is identical, and the wavelength conversion material and the second transition zone 144 of the optics area 146A that arranges in pairs or groups Wavelength conversion material concentration it is identical.In other embodiments, the intensity and blue light for the excitation beam L2 that excitation light source 120 issues The intensity for the light beam L1 that light source 110 issues is identical, and there is collocation optics area 146A the concentration of wavelength conversion material to be different from Second transition zone 144 has the concentration of wavelength conversion material.In other embodiments, the excitation beam that excitation light source 120 issues The intensity of L2 is different from the intensity for the light beam L1 that blue light source 110 issues.For example, what excitation light source 120 issued swashs The intensity of luminous beam L2 is less than the intensity for the light beam L1 that blue light source 110 issues, and collocation optics area 146A turns with wavelength The concentration of conversion materials is identical to the concentration that the second transition zone 144 has wavelength conversion material.

In the above-described embodiments, its object is to can adjust the chromaticity coordinates of blue light to make the color of projected light beam LP more full With the color of image is really presented.

At the 4th timing (t3~t4 or t7~t8), blue light source 110 is in off state or electricity-saving state, and by exciting Light source 120 issue excitation beam L2 by the first recombination dichroic elements 130 to Wavelength changing element 140 the first transition zone 142 with Generate a part (i.e. first be stimulated light beam) for the light beam L3 that is stimulated.The stimulated luminescence as caused by Wavelength changing element 140 A part of beam L3 is transferred to the first recombination dichroic elements 130 and is reflected through the transparent area 158 of filter element 150 to generate yellow light light Beam (is not painted).Therefore, when four timing in the present embodiment, excitation light source 120 may further provide yellow light light beam extremely Light valve 50 can further make projected light beam LP provided by projection arrangement 10 have preferable brightness and accurate color.It is in detail Thin step and embodiment can be obtained enough teachings, suggestion by the usual knowledge of technical field and implement to illustrate, because This is repeated no more.

Please continue to refer to Fig. 1, Fig. 3 A, Fig. 3 B and Fig. 4 A~Fig. 4 C, in the present embodiment, lighting system 100 further includes One red-light source 160 and one second recombination dichroic elements 170.Red-light source 160 is, for example, red laser diode or feux rouges hair Optical diode, for providing the second red light beam L6, the second recombination dichroic elements 170 are the dichronic mirror (Dichroic for reflecting feux rouges Mirror) and light beam L1 is allowed to pass through, the second recombination dichroic elements 170 are configured at the biography of light beam L1 and the second red light beam L6 It passs on path.Red-light source 160 is opened in the first timing of above-mentioned any embodiment to provide one second red light beam L6, and the Two red light beam L6 are transferred to the second recombination dichroic elements 170 to reflex to the first filter area 152, and then it is additional to provide illuminating bundle LB Red light portion.In this way, which projection arrangement 10 is mentioned in the situation for emphasizing color representation (e.g. family's theater situation) The projected light beam LP of confession has preferable color saturation and optical quality.In the present embodiment, red-light source 160 and second point Color component 170 is between the first recombination dichroic elements 130 and filter element 150, but the utility model is not limited to this.

Fig. 5 is the projection arrangement schematic diagram of another embodiment of the utility model.Referring to FIG. 5, the projection of the present embodiment fills The projection arrangement 10 that 10A is similar to Fig. 1 is set, only the two difference is, in the present embodiment, the red-light source of lighting system 100A 160 and second recombination dichroic elements 170 be located between blue light source 110 and the first recombination dichroic elements 130.Therefore, by 160 institute of red-light source The the second red light beam L6 provided is transferred to the second recombination dichroic elements 170 to be reflected through the first recombination dichroic elements 130 and first and filter Area 152, and then the additional red light portion of illuminating bundle LB is provided.

In addition, by Fig. 1 or Fig. 5, the first recombination dichroic elements 130 and the second recombination dichroic elements 170 are not parallel settings, first The extension line of recombination dichroic elements 130 and the extension line shape of the second recombination dichroic elements 170 have angle, and generally 90 degree of this angle.

Fig. 6 is the projection arrangement schematic diagram of another embodiment of the utility model.Fig. 7 A and Fig. 7 B are respectively the projection dress of Fig. 6 The front-view schematic diagram of the Wavelength changing element for the different embodiments set.Fig. 8 A and Fig. 8 B are respectively the difference of the projection arrangement of Fig. 6 The timing diagram of embodiment.It please also refer to Fig. 6 to Fig. 8 B, the projection arrangement 20 of the present embodiment is similar to the projection arrangement 10 of Fig. 1. Both only the difference is that, in the present embodiment, an at least light valve 50 for projection arrangement 20 includes one first light valve 52 and one Second light valve 54 e.g. uses the projection arrangement 20 of two digital micromirror elements.Projection arrangement 20 further includes an at least color separation Piece (Dichroic Mirror) 80, is configured at and is stimulated on the transmission path of light beam L3, for allowing the first red light beam L4 and green The one of them of light light beam L5 passes through and is transferred to the first light valve 52, and wherein another one reflects through color separation film 80 and is transferred to Two light valves 54.Lighting system 100B further includes a diffused component (diffuser) 180, is configured at the transmission path of light beam L1 On, for spreading uniform light beam L1.

Lighting system 100B have when being executed the first timing (t0~t1 or t2~t3) and the second timing (t1~t2 or T3~t4), and blue light source 110 and excitation light source 120 are changed to unlatching, closing or electricity-saving state according to these timing respectively, And then make the first light valve 52 and received light beam (the i.e. illumination provided by lighting system changed according to timing of the second light valve 54 Light beam LB), as depicted in Fig. 8 A.

Specifically, at the first timing (t0~t1 or t2~t3), blue light source 110 is in off state or economizes on electricity shape State, and the first recombination dichroic elements 130 to the first of Wavelength changing element 140A are passed through by the excitation beam L2 that excitation light source 120 issues Transition zone 142 is to generate the light beam L3 that is stimulated, as depicted in Fig. 7 A.Be stimulated light beam as caused by Wavelength changing element 140A L3 is transferred to the first recombination dichroic elements 130 and is reflected through diffused component 180 to generate the red light portion and green light of illuminating bundle LB Partially (i.e. the first red light beam L4 and green beam L5).

Then, the red light portion of above-mentioned illuminating bundle LB and green portions are transferred to color separation film 80, and illuminating bundle LB Red light portion passes through color separation film 80 and is transferred to the first light valve 52, and the green portions of illuminating bundle LB reflect simultaneously through color separation film 80 It is transferred to the second light valve 54, as depicted in Fig. 8 A.Later, the first sub-image light caused by the first light valve 52 and the second light valve 54 Beam LI1 and the second sub-image light beam LI2 economic cooperation optical element 82 are whole and be transferred to lens module 60 for a part of image strip LI, Namely light combination element 82 reflects the first sub-image light beam LI1 and the second sub-image light beam LI2 is allowed to penetrate and be transferred to camera lens mould Block 60.However, in another embodiment, the red light portion of illuminating bundle LB can reflect through color separation film 80 and be transferred to the second light valve 54, and the green portions of illuminating bundle LB can pass through color separation film 80 and be transferred to the first light valve 52, but the utility model and unlimited In this.

At the second timing (t1~t2 or t3~t4), excitation light source 120 is in off state or electricity-saving state, and by blue light The light beam L1 that light source 110 issues passes through the first recombination dichroic elements 130 and diffused component 180 sequentially to generate illuminating bundle LB's Blue light components, and pass through color separation film 80 and be transferred to the first light valve 52, as shown in Figure 8 A.In another embodiment, illuminating bundle The blue light components of LB are transferred to the second light valve 54 by the reflection of color separation film 80, as shown in Figure 8 B.In addition, illuminating bundle LB Blue light components can reach diffusion-homogenization via by diffused component 180.With reference to Fig. 6, Fig. 8 A and Fig. 8 B, in the present embodiment, The blue light components of illuminating bundle LB are transferred to one that the first light valve 52 forms the first sub-image light beam LI1 by color separation film 80 Point, light combination element 82 allows a part of the first sub-image light beam LI1 to reflect and be transferred to lens module 60.In other embodiments In, the blue light components of illuminating bundle LB can reflect by color separation film 80 and be transferred to the second light valve 54, and the utility model is also unlimited In this.

In the present embodiment, Wavelength changing element 140A includes the first transition zone 142 and optics area 146.In the second timing When (t1~t2 or t3~t4), this optics area 146 will not receive the excitation beam L2 from excitation light source 12, therefore, can save Save partial wavelength conversion material.But in other embodiments, Wavelength changing element 140A is also replaced by Wavelength changing element 140B, only configuration has the first transition zone 142 of wavelength conversion material to simplify the manufacturing process of Wavelength changing element 140A, such as Depicted in Fig. 7 B, the utility model is not limited to this.

With reference to Fig. 6, in the present embodiment, lighting system 100B can also further comprise red-light source 160 and second point Color component 170.Second recombination dichroic elements 170 are the dichronic mirror (Dichroic Mirror) for reflecting feux rouges, and are configured at light beam On the transmission path of L1 and the second red light beam L6.Red-light source 160 is opened in first timing of above-described embodiment to provide the Two red light beam L6, and the second red light beam L6 is transferred to the second recombination dichroic elements 170 to reflex to diffused component 180, Jin Erti For the additional red light portion of illuminating bundle LB.In this way, (e.g. family's theater feelings in the situation for emphasizing color representation Border), projected light beam LP provided by projection arrangement 20 has preferable color saturation and optical quality.In the present embodiment, Red-light source 160 and the second recombination dichroic elements 170 are between the first recombination dichroic elements 130 and diffused component 180, but the utility model It is not limited to this.

Fig. 7 C is the front-view schematic diagram of the another Wavelength changing element of the projection arrangement of Fig. 6.It is different from the embodiment of Fig. 7 A , in the present embodiment, the optics area 146 of Wavelength changing element 140C further includes wavelength conversion material, wherein optics area 146 Wavelength conversion material be green light transition material, but the utility model is not limited to this.In the present embodiment, optics area 146 Excitation beam L2 is converted into green light or green light by wavelength conversion material.But the utility model is not limited to this.

Please refer to Fig. 6, Fig. 7 C and Fig. 8 C, the projection arrangement 20 of the present embodiment.In the present embodiment, lighting system 100B There is the first timing (t0~t1 or t2~t3) and the second timing (t1~t2 or t3~t4), and blue light source when being executed 110 and excitation light source 120 respectively according to these timing be changed to open, close or electricity-saving state, and then make the first light valve 52 and The received light beam (i.e. illuminating bundle LB provided by lighting system) changed according to timing of second light valve 54, as Fig. 8 C is drawn Show.

Specifically, at the first timing (t0~t1 or t2~t3), blue light source 110 is in off state or economizes on electricity shape State, and the first recombination dichroic elements 130 to the first of Wavelength changing element 140C are passed through by the excitation beam L2 that excitation light source 120 issues Transition zone 142 is to generate the light beam L3 that is stimulated, as depicted in Fig. 7 C.Be stimulated light beam as caused by Wavelength changing element 140C L3 is transferred to the first recombination dichroic elements 130 and is reflected through diffused component 180 to generate the red light portion and green light of illuminating bundle LB Partially (i.e. the first red light beam L4 and green beam L5).Then, the red light portion of above-mentioned illuminating bundle LB and green portions pass It is handed to color separation film 80, and the red light portion of illuminating bundle LB passes through color separation film 80 and is transferred to the first light valve 52, and illuminating bundle The green portions of LB reflect through color separation film 80 and are transferred to the second light valve 54, as depicted in Fig. 8 C.

At the second timing (t1~t2 or t3~t4), excitation light source 120 is open state, and blue light source 110 is to open Open state.The optics that the excitation beam L2 that excitation light source 120 issues passes through the first recombination dichroic elements 130 to Wavelength changing element 140C Area 146A to generate another part (i.e. third be stimulated light beam, for example, green light or green light) of the light beam L3 that is stimulated, while with The light beam L1 that blue light source 110 issues is transferred to diffused component 180, to generate the blue light components of illuminating bundle LB, wherein Light beam L1 passes through color separation film 80 and is transferred to the first light valve 52, and the another part for the light beam L3 that is stimulated (i.e. be excited by third Shine beam, for example, green light or green light) it is then reflected by color separation film 80 and is transferred to the second light valve 54.In the above-described embodiments, Its object is to can adjust the chromaticity coordinates of blue light to be saturated the color of projected light beam LP more, the face of image is really presented Color.

Fig. 9 is the projection arrangement schematic diagram of another embodiment of the utility model.Referring to FIG. 9, the projection of the present embodiment fills The projection arrangement 20 that 20A is similar to Fig. 6 is set, only the two difference is, in the present embodiment, the red-light source of lighting system 100C 160 and second recombination dichroic elements 170 be located between blue light source 110 and the first recombination dichroic elements 130.Therefore, by 160 institute of red-light source The the second red light beam L6 provided is transferred to the second recombination dichroic elements 170 by reflection and by diffused component 180 and the first color separation Element 130, and then the additional red light portion of illuminating bundle LB is provided.Diffused component 180 may be disposed at the second recombination dichroic elements 170 with Between first recombination dichroic elements 130.

Figure 10 is the projection arrangement schematic diagram of another embodiment of the utility model.Figure 11 is the timing of the projection arrangement of Figure 10 Figure.It please also refer to Figure 10 and Figure 11, the projection arrangement 30 of the present embodiment is similar to the projection arrangement 20 of Fig. 6.Only the two is different Place is that in the present embodiment, an at least light valve 50 for projection arrangement 30 includes the first light valve 52, the second light valve 54 and one Third light valve 56 e.g. uses the projection arrangement 30 of three digital micromirror elements.In addition, in the present embodiment, due to blue light Light source 110 and excitation light source 120 are not required to the change according to different timing and open, close or electricity-saving state, that is, blue light light Source 110 and excitation light source 120 are synchronous for unlatching, closed state or electricity-saving state.And then make the first light valve 52, the second light valve 54 And third light valve 56 receives light beam (i.e. illuminating bundle LB provided by lighting system), as depicted in Figure 11.

Therefore illuminating bundle LB provided by lighting system 100B is by then generating mixed light beam L7 after even optical element 70.And Mixed light beam L7 (for example, white light) can be by optical elements different in projection arrangement 30 (such as colour splitting prism (dichroic Prism color separation effect)) is respectively formed and provides light beam L1, green beam L5 and the first red light beam L4 to first Light valve 52, the second light valve 54 and third light valve 56, and then distinguished by the first light valve 52, the second light valve 54 and third light valve 56 It forms the first sub-image light beam LI1, the second sub-image light beam LI2 and third sub-image light beam LI3 and is transferred to lens module 60.In addition to this, with reference to Figure 10, in the present embodiment, the red-light source 160 and the second recombination dichroic elements 170 such as Fig. 6 be can configure With in the situation for emphasizing color representation (e.g. family's theater situation) provide have preferable color saturation and optics product The projected light beam LP of matter.Red-light source 160 and the second recombination dichroic elements 170 are configured to provide the method for the second red light beam L6, To replace the first red light beam L4 being stimulated in light beam L3.Its detailed step and embodiment can be by technical fields Usual knowledge obtains enough teachings, suggests and implement to illustrate, therefore repeats no more.

Figure 12 is the projection arrangement schematic diagram of another embodiment of the utility model.It please also refer to Figure 12, the present embodiment Projection arrangement 30A is similar to the projection arrangement 30 of Figure 10.Both only the difference is that, in the present embodiment, lighting system The red-light source 160 of 100C and the second recombination dichroic elements 170 are located between blue light source 110 and the first recombination dichroic elements 130.Therefore, The second red light beam L6 as provided by red-light source 160 is transferred to the second recombination dichroic elements 170 to reflect and pass through diffused component 180 and first recombination dichroic elements 130, and then the additional red light portion of illuminating bundle LB is provided.Diffused component 180 is located at the second color separation Between element 170 and the first recombination dichroic elements 130.

In conclusion the embodiments of the present invention at least have effects that following one of advantage or.It is practical new at this In above-described embodiment of type, lighting system provides the blue light components of illuminating bundle using blue light source, and uses exciting light Source is to provide the red light portion and green portions of illuminating bundle.Therefore, longer wavelengths of blue light source can be used to improve projection The partially purple problem of blue light in picture, and then promote the optical quality of projection arrangement.

Only as described above, the only preferred embodiment of the utility model, when the utility model cannot be limited with this The range of implementation, i.e., all simple equivalence changes made according to the utility model claims book and utility model content with repair Change, all still belongs in the range that the utility model patent covers.In addition any embodiment or claim of the utility model are not necessary to Reach the disclosed whole purpose of the utility model or advantage or feature.In addition, abstract and topic are intended merely to auxiliary patent text Part search is used, and not is used to limit the interest field of the utility model.In addition, being referred in this specification or claim " first ", the terms such as " second " only to name the title or the different embodiments of difference or range of element (element), and simultaneously It is non-to be used to the quantitative upper limit of restriction element or lower limit.

Symbol description:

10,10A, 20,20A, 30,30A: projection arrangement

50: light valve

52: the first light valves

54: the second light valves

56: third light valve

60: lens module

70: even optical element

80: color separation film

82: light combination element

90: reflecting element

100,100A, 100B, 100C: lighting system

110: blue light source

120: excitation light source

130: the first recombination dichroic elements

140,140A, 140B, 140C: Wavelength changing element

142: the first transition zones

144: the second transition zones

146,146A: optics area

150,150A: filter element

152: the first filter areas

154: the second filter areas

156: diffusion region

158: transparent area

160: red-light source

170: the second recombination dichroic elements

180: diffused component

L1: light beam

L2: excitation beam

L3: be stimulated light beam

L4: the first red light beam

L5: green beam

L6: the second red light beam

L7: mixed light beam

LB: illuminating bundle

LI: image strip

LI1: the first sub-image light beam

LI2: the second sub-image light beam

LI3: third sub-image light beam

LP: projected light beam.

Claims (35)

1. a kind of lighting system, which is characterized in that the lighting system includes blue light source, excitation light source, the first recombination dichroic elements And Wavelength changing element:

The blue light source is for providing light beam；

The excitation light source is for providing excitation beam；

First recombination dichroic elements are configured on the transmission path of the light beam and the excitation beam；And

The Wavelength changing element is configured on the transmission path of the excitation beam, is to be excited for converting the excitation beam Shine beam, wherein the excitation beam is converted to described be excited to the Wavelength changing element by first recombination dichroic elements Shine beam, and the light beam that is stimulated is transferred to first recombination dichroic elements and reflects, and the wavelength of the light beam is greater than described The wavelength of excitation beam, and the blue light source and the excitation light source are located at the same side of first recombination dichroic elements.

2. lighting system as described in claim 1, which is characterized in that further include:

Filter element, is configured on the transmission path of the light beam and the light beam that is stimulated, and the filter element includes First filter area, the second filter area and diffusion region, wherein the blue light source is in off state or economizes on electricity in the first timing State, the excitation beam are transferred to the first transition zone of the Wavelength changing element to convert out first and be stimulated light beam, and Described first be stimulated light beam by first filter area to generate the first red light beam, in the second timing, the blue light Light source is in off state or electricity-saving state, and the excitation beam is transferred to the second transition zone of the Wavelength changing element to convert Second be stimulated light beam out, and described second be stimulated light beam by second filter area to generate green beam, in third When timing, the excitation light source is in off state or electricity-saving state, and the light beam passes through the diffusion region, wherein described The light beam that is stimulated includes that described first light beam that is stimulated is stimulated light beam with described second.

3. lighting system as claimed in claim 2, which is characterized in that further include:

Red-light source, for providing the second red light beam；And

Second recombination dichroic elements are configured on the light beam and the transmission path of second red light beam, wherein described red Radiant is opened in first timing, and to be transferred to second recombination dichroic elements described to reflex to for second red light beam First filter area of filter element.

4. lighting system as claimed in claim 3, which is characterized in that the red-light source and second recombination dichroic elements are located at Between the blue light source and first recombination dichroic elements.

5. lighting system as claimed in claim 3, which is characterized in that first recombination dichroic elements and second recombination dichroic elements It is not parallel setting, the extension line of the extension line of first recombination dichroic elements and second recombination dichroic elements forms angle.

6. lighting system as claimed in claim 2, which is characterized in that the filter element further includes transparent area, at the 4th When sequence, the excitation beam is by first transition zone of first recombination dichroic elements to the Wavelength changing element to convert The light beam that is stimulated out, and the light beam that is stimulated passes through the transparent area.

7. lighting system as described in claim 1, which is characterized in that the Wavelength changing element further includes optics area, described Optics area does not receive the excitation beam.

8. lighting system as described in claim 1, which is characterized in that the Wavelength changing element further includes optics area, described Optics area has wavelength conversion material.

9. lighting system as claimed in claim 8, which is characterized in that further include:

Filter element, is configured on the transmission path of the light beam and the light beam that is stimulated, and the filter element includes First filter area, the second filter area and diffusion region, wherein the blue light source is in off state or economizes on electricity in the first timing State, the excitation beam are transferred to the first transition zone of the Wavelength changing element to convert out first and be stimulated light beam, and Described first be stimulated light beam by first filter area to generate the first red light beam, in the second timing, the blue light Light source is in off state or electricity-saving state, and the excitation beam is transferred to the second transition zone of the Wavelength changing element to convert Second be stimulated light beam out, and described second be stimulated light beam by second filter area to generate green beam, in third When timing, the excitation light source is open state, and the blue light source is to open, and the excitation beam passes through first color separation Element generates third and is stimulated light beam to the optics area of the Wavelength changing element, while passing with the light beam L1 It is handed to the diffusion region, and passes through the diffusion region.

10. lighting system as described in claim 1, which is characterized in that further include:

Diffused component is configured on the transmission path of the light beam, wherein the blue light source is to close in the first timing Closed state or electricity-saving state, the first conversion that the excitation beam passes through first recombination dichroic elements to the Wavelength changing element Area is to convert out the light beam that is stimulated, and the light beam transmitting that is stimulated reflexes to the diffusion through first recombination dichroic elements Element, in the second timing, the excitation light source is in off state or electricity-saving state, and the light beam passes through described first point Color component and the diffused component, wherein the stimulated luminescence beam includes the first red light beam and green beam.

11. lighting system as claimed in claim 10, which is characterized in that the Wavelength changing element further includes optics area, institute It states optics area and does not receive the excitation beam.

12. lighting system as claimed in claim 8, which is characterized in that further include:

Diffused component is configured on the transmission path of the light beam, wherein the blue light source is to close in the first timing Closed state or electricity-saving state, the first conversion that the excitation beam passes through first recombination dichroic elements to the Wavelength changing element Area is to convert out the light beam that is stimulated, and the light beam transmitting that is stimulated reflexes to the diffusion through first recombination dichroic elements Element, in the second timing, the excitation light source is open state, and the blue light source is open state, the exciting light Beam is converted out third by the optics area of first recombination dichroic elements to the Wavelength changing element and is stimulated light beam, and The third light beam transmitting that is stimulated through first recombination dichroic elements reflexes to the diffused component, and the light beam passes through institute It states the first recombination dichroic elements and is transferred to the diffused component.

13. lighting system as claimed in claim 10, which is characterized in that further include:

Red-light source, for providing the second red light beam；And

Second recombination dichroic elements are configured on the light beam and the transmission path of second red light beam, wherein described red Radiant is opened in first timing, and to be transferred to second recombination dichroic elements described to reflex to for second red light beam Diffused component.

14. lighting system as claimed in claim 13, which is characterized in that the red-light source and second recombination dichroic elements Between the diffused component and first recombination dichroic elements.

15. lighting system as claimed in claim 13, which is characterized in that the red-light source, second recombination dichroic elements with And the diffused component is between the blue light source and first recombination dichroic elements.

16. lighting system as described in claim 1, which is characterized in that it is described be stimulated light beam include the first red light beam and Green beam, the lighting system further include:

Red-light source, for providing the second red light beam；

Diffused component is configured on the light beam and the transmission path of second red light beam；And

Second recombination dichroic elements are configured on the light beam and the transmission path of second red light beam, and are located at described Between blue light source and the diffused component, wherein the blue light source, the excitation light source and the red-light source are simultaneously Open state, closed state or electricity-saving state.

17. lighting system as described in claim 1, which is characterized in that the light beam is the blue light light of 460 nano wave lengths Beam, and the excitation beam is the light beam of 445 nano wave lengths.

18. lighting system as described in claim 1, which is characterized in that the blue light source and the Wavelength changing element position In the opposite side of first recombination dichroic elements.

19. a kind of projection arrangement, which is characterized in that the projection arrangement is for providing projected light beam, including lighting system, at least One light valve and lens module:

The lighting system provides illuminating bundle, including blue light source, excitation light source, the first recombination dichroic elements and wavelength convert member Part:

The blue light source is for providing light beam；

The excitation light source is for providing excitation beam；

First recombination dichroic elements are configured on the transmission path of the light beam and the excitation beam；And

The Wavelength changing element is configured on the transmission path of the excitation beam, is to be excited for converting the excitation beam Shine beam, and the excitation beam is converted to the stimulated luminescence to the Wavelength changing element by first recombination dichroic elements Beam, the light beam that is stimulated are transferred to first recombination dichroic elements and reflect；

An at least light valve is configured on the transmission path of the illuminating bundle, for the illuminating bundle to be converted at least One image strip；And

The lens module is configured on at least transmission path of an image strip, for an at least image strip by described in The projected light beam is formed, wherein the wavelength of the light beam is greater than the wavelength of the excitation beam, and the blue light source And the excitation light source is located at the same side of first recombination dichroic elements.

20. projection arrangement as claimed in claim 19, which is characterized in that the quantity of an at least light valve is one, described Lighting system further includes filter element, is configured on the transmission path of the light beam and the light beam that is stimulated, the filter Optical element includes the first filter area, the second filter area and diffusion region, wherein the blue light source is to close in the first timing State or electricity-saving state, the first transition zone that the excitation beam is transferred to the Wavelength changing element are excited with converting out first Shine beam, and described first be stimulated light beam by first filter area to generate the first red light beam, in the second timing, The blue light source is in off state or electricity-saving state, and the excitation beam is transferred to the second conversion of the Wavelength changing element Area is stimulated light beam with converting out second, and described second be stimulated light beam by second filter area to generate green light light Beam, in third timing, the excitation light source is in off state or electricity-saving state, and the light beam passes through the diffusion Area, wherein the stimulated luminescence beam includes that described first light beam that is stimulated is stimulated light beam with described second.

21. projection arrangement as claimed in claim 20, which is characterized in that the lighting system further includes red-light source and Two recombination dichroic elements, the red-light source are configured at the blue light light for providing the second red light beam, second recombination dichroic elements On beam and the transmission path of second red light beam, wherein the red-light source is opened in first timing, and described Two red light beams are transferred to second recombination dichroic elements to reflex to first filter area of the filter element.

22. projection arrangement as claimed in claim 21, which is characterized in that the red-light source and second recombination dichroic elements position Between the blue light source and first recombination dichroic elements.

23. projection arrangement as claimed in claim 20, which is characterized in that the filter element further includes transparent area, the 4th When timing, the excitation beam is by first transition zone of first recombination dichroic elements to the Wavelength changing element to turn It swaps out and described first is stimulated light beam, and described first light beam that is stimulated passes through the transparent area.

24. projection arrangement as claimed in claim 19, which is characterized in that the Wavelength changing element further includes optics area, institute It states optics area and does not receive the excitation beam.

25. projection arrangement as claimed in claim 19, which is characterized in that the Wavelength changing element further includes optics area, institute Optics area is stated with wavelength conversion material.

26. projection arrangement as claimed in claim 25, which is characterized in that the quantity of an at least light valve is one, described Lighting system further includes filter element, is configured on the transmission path of the light beam and the light beam that is stimulated, the filter Optical element includes the first filter area, the second filter area and diffusion region, wherein the blue light source is to close in the first timing State or electricity-saving state, the first transition zone that the excitation beam is transferred to the Wavelength changing element are excited with converting out first Shine beam, and described first be stimulated light beam by first filter area to generate the first red light beam, in the second timing, The blue light source is in off state or electricity-saving state, and the excitation beam is transferred to the second conversion of the Wavelength changing element Area is stimulated light beam with converting out second, and described second be stimulated light beam by second filter area to generate green light light Beam, in third timing, the excitation light source is open state, and the blue light source is to open, and the excitation beam passes through institute The first recombination dichroic elements are stated to the optics area of the Wavelength changing element, third is generated and is stimulated light beam, at the same with the indigo plant Light light beam L1 is transferred to the diffusion region, and passes through the diffusion region.

27. projection arrangement as claimed in claim 19, which is characterized in that an at least light valve includes the first light valve and second Light valve, the lighting system further include diffused component, are configured on the transmission path of the light beam, wherein in the first timing When, the blue light source is in off state or electricity-saving state, and the light beam transmitting that is stimulated is anti-through first recombination dichroic elements It is incident upon the diffused component and passes through, in the second timing, the excitation light source is in off state or electricity-saving state, and the indigo plant For light light beam by first recombination dichroic elements and the diffused component, the light beam that is stimulated includes the first red light beam and green light Light beam.

28. projection arrangement as claimed in claim 27, which is characterized in that the Wavelength changing element further includes optics area, institute It states optics area and does not receive the excitation beam.

29. projection arrangement as claimed in claim 25, which is characterized in that the lighting system further includes diffused component, configuration In on the transmission path of the light beam, wherein the blue light source is in off state or electricity-saving state in the first timing, The excitation beam by first recombination dichroic elements converted out to the first transition zone of the Wavelength changing element it is described by Excitation beam, and the light beam transmitting that is stimulated reflexes to the diffused component through first recombination dichroic elements, in the second timing When, the excitation light source is open state, and the blue light source is open state, and the excitation beam passes through described first point Color component converts out third to the optics area of the Wavelength changing element and is stimulated light beam, and the third stimulated luminescence Beam transmitting reflexes to the diffused component through first recombination dichroic elements, the light beam by first recombination dichroic elements simultaneously It is transferred to the diffused component.

30. projection arrangement as claimed in claim 27, which is characterized in that the lighting system further includes red-light source and Two recombination dichroic elements, the red-light source are configured at the blue light light for providing the second red light beam, second recombination dichroic elements On beam and the transmission path of second red light beam, wherein the red-light source is opened in first timing, and described Two red light beams are transferred to second recombination dichroic elements to reflex to the diffused component.

31. projection arrangement as claimed in claim 30, which is characterized in that the red-light source, second recombination dichroic elements with And the diffused component is between the blue light source and first recombination dichroic elements.

32. projection arrangement as claimed in claim 19, which is characterized in that further include:

An at least color separation film, be configured at it is described be stimulated on the transmission path of light beam, for allowing first red light beam and institute The one of them for stating green beam passes through and is transferred to first light valve, and wherein another one is anti-through an at least color separation film It penetrates and is transferred to second light valve.

33. projection arrangement as claimed in claim 19, which is characterized in that it is described be stimulated light beam include the first red light beam and Green beam, an at least light valve include the first light valve, the second light valve and third light valve, and the lighting system further includes feux rouges Light source, diffused component and the second recombination dichroic elements, the red-light source are matched for providing the second red light beam, the diffused component It is placed on the light beam and the transmission path of second red light beam, second recombination dichroic elements are configured at the blue light On light beam and the transmission path of second red light beam, and between the blue light source and the diffused component, wherein The blue light source, the excitation light source and the red-light source are simultaneously open state, closed state or electricity-saving state.

34. projection arrangement as claimed in claim 33, which is characterized in that the red-light source, second recombination dichroic elements with And the diffused component is between the blue light source and first recombination dichroic elements.

35. projection arrangement as claimed in claim 19, which is characterized in that further include:

Even optical element is configured on the transmission path of the light beam and the light beam that is stimulated.