CN105652572B - Light-source system and projector equipment - Google Patents

Abstract

The invention provides light-source system and projector equipment, light-source system includes at least two light sources, Wavelength converter, the first smooth guide member and the second smooth guide member, at least two light source includes exciting light sources and the first supplement light source, and exciting light sources are used to send exciting light；First smooth guide member is used to guide exciting light to the Wavelength converter, and the Stimulated Light of Wavelength converter outgoing is guided to dodging device；Wavelength converter is used to exciting light being converted into Stimulated Light, and by Stimulated Light outgoing to the described first smooth guide member；First supplement light source sends the first supplement light, and the etendue of the first supplement light is less than the Stimulated Light；Second smooth guide member is used to guide the first supplement light to dodging device, wherein the size of the second smooth guide member is less than the size of the first smooth guide member.The present invention can greatly improve the light utilization efficiency of the first supplement light.

Description

Light-source system and projector equipment

The application is based on Application No. 201410284185.3, entitled light-source system and projector equipment, application Day is the divisional application of 2014-06-23 patent application.

Technical field

The present invention relates to optical technical field, more specifically to light-source system and projector equipment.

Background technology

At present, the features such as solid state light emitter is due to its long lifespan, environmental protection, it is aobvious in general illumination, special lighting and projection It is widely used in showing.Wherein, white solid state light source is even more to have huge development potentiality in lighting field.

Prior art provides a kind of white light source that super brightness is realized using LASER Excited Fluorescence powder, the white light light Source excites YAG using the bluish violet color laser of 440nm-455nm wavelength：The yellow fluorescent powder of Ce materials, generates efficient yellow Fluorescence, then using wavelength in the 440nm-470nm blue laser formation blue laser complementary with yellow fluorescence, yellow fluorescence and White light source is formed after blue laser closing light.

This white light source can be used for the field of projection display for needing higher source luminance.Such as 3DLP, 3LCD, or 3LCOS projecting apparatus etc..The white light that this white light source is sent spectrally is divided into feux rouges, three kinds of primary lights of green glow and blue light, Incide respectively on one or more optical modulation device, such as DMD, LCD chip, or LCOS chip.By optical modulation device Three kinds of primary lights of RGB after modulation are spectrally put together to be output on screen by a projection lens and formed again Coloured image.Because the efficiency comparison of bluish violet color laser is high, heat endurance and long-term reliability are good.YAG：The fluorescent material of Ce materials Luminous quantum efficiency it is high, heat endurance is good, so bluish violet color laser and YAG：Ce fluorescent material combined to form one efficiently The white light source of rate, high reliability, and high brightness.

However, exciting YAG using bluish violet color laser：In the white light source of the fluorescent material formation white light of Ce materials, due to YYAG：The yellow spectrum intensity of the fluorescent material stimulated emission of Ce materials is to weaken in red color segment, so that this kind of white light light There is white balance in source, i.e., white light equalization point deviates Planck blackbody curve, and a kind of green white partially is presented.

In order to avoid white balance problem, prior art provides green color components superfluous in a kind of white light for filtering synthesis, So that white balance point is returned on Planck blackbody curve, to solve the problems, such as white balance.But this method is due to having filtered green glow Composition, so as to reduce the light extraction efficiency of the white light source.

Prior art provides the method for another increase red laser in yellow fluorescence to solve the white of white light source Equilibrium problem, supplements laser of the spectral region near 638nm or 650nm, to increase in closing light such as in yellow fluorescence Red color components, so as to solve the problems, such as white balance.

As shown in figure 1, the structure of the light-source system for increasing red laser in yellow fluorescence provided for prior art.Should Light-source system includes blue excitation light source 11, red supplement light source 12, the light splitting optical filter with central area and fringe region 13, colour wheel 14, collector lens 15 and dodging device 16.Wherein the central area of light splitting optical filter 13 transmits blue light and feux rouges, Reflect green glow, fringe region reflection feux rouges, green glow and blue light.So, blue laser light source 11 is sent blue excitation light and The yellow that central area of the feux rouges through light splitting optical filter 13 that red supplement light source 12 is sent is transmitted through on colour wheel 14, colour wheel 14 is glimmering Light powder absorb blue excitation light simultaneously feux rouges is scattered, outgoing yellow fluorescence and scattering after feux rouges, yellow fluorescence and dissipate Feux rouges after penetrating is incident to light splitting optical filter 13 through collector lens 15, and the yellow for being incident to the central area of light splitting optical filter 13 is glimmering Green glow in light is reflected onto dodging device 16, be incident to the yellow fluorescence and feux rouges of the fringe region of light splitting optical filter 13 also by Dodging device 16 is reflexed to, and after the feux rouges being incident in the yellow fluorescence of the central area of light splitting optical filter 13 and scattering Feux rouges is transmitted and lost.

In above-mentioned existing white light source, because the feux rouges that red supplement light source is sent causes to damage by fluorescent material scattering Lose, substantially lose 5%-10%.Formed to be collected by collector lens after lambert's light distribution and caused damage, substantially lose 10%, then by The central area of light splitting optical filter transmits and loses a part of light, substantially loses 10% or so, so as to cause red supplement light source The loss of the feux rouges sent is larger, and the light utilization efficiency of feux rouges is relatively low, probably in 60-70% or so.

The content of the invention

In view of this, the invention provides a kind of light-source system and projector equipment, to solve red in the prior art supplement The problem of light utilization ratio for the feux rouges that light source is sent is low.

To achieve the above object, the present invention provides following technical scheme：A kind of light-source system, the light-source system is included extremely Few two light sources, Wavelength converter, the first smooth guide member and the second smooth guide member, at least two light source include swashing Illuminating source and the first supplement light source, wherein：

The exciting light sources are used to send exciting light；

The first smooth guide member is used to guide the exciting light to the Wavelength converter, and by the wavelength The Stimulated Light of conversion equipment outgoing is guided to dodging device；

The Wavelength converter is used to the exciting light being converted into Stimulated Light, and by the Stimulated Light outgoing to described First smooth guide member；

The first supplement light source sends the first supplement light, and the etendue of the first supplement light is less than described be excited Light；

The second smooth guide member is used to guide the described first supplement light to the dodging device, and second light draws The size for leading part is less than the size of the described first smooth guide member.

Present invention also offers a kind of projector equipment, the projector equipment includes above-mentioned light-source system.

Compared with prior art, technical scheme provided by the present invention has advantages below：

The present invention supplements light by supplementing first in Stimulated Light, so as to improve the ratio of the first supplement light in closing light Example, simultaneously because the first smooth guide member directly guides the first supplement light to dodging device, without by wavelength convert dress The scattering put, so as to avoid the light loss that the first supplement light is caused due to the scattering of Wavelength converter, is greatly carried The high light utilization efficiency of the first supplement light.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Other accompanying drawings are obtained according to these accompanying drawings.

The structure chart for the light-source system that Fig. 1 provides for prior art；

The structural representation for the light-source system that Fig. 2 provides for first embodiment of the invention；

Fig. 3 is the optical filtering curve schematic diagram of optical filter provided in an embodiment of the present invention；

The structural representation for the light-source system that Fig. 4 provides for second embodiment of the invention；

The structural representation for the light-source system that Fig. 5 provides for third embodiment of the invention；

The structural representation for the light-source system that Fig. 6 provides for fourth embodiment of the invention；

The structural representation for the light-source system that Fig. 7 provides for fifth embodiment of the invention；

Fig. 8 is the structural representation of light-source system provided in an embodiment of the present invention；

The structural representation for the light-source system that Fig. 9 provides for sixth embodiment of the invention；

The structural representation for the light-source system that Figure 10 provides for seventh embodiment of the invention；

The structural representation for the light-source system that Figure 11 provides for eighth embodiment of the invention.

Embodiment

The invention provides a kind of light-source system, the light-source system includes at least two light sources, Wavelength converter, first Light guide member and the second smooth guide member, wherein at least two light source include exciting light sources and the first supplement light source, wherein：

Exciting light sources are used to send exciting light；

First smooth guide member is used for the exciting light that sends exciting light sources and guided to Wavelength converter, and by wavelength The Stimulated Light of conversion equipment outgoing is guided to dodging device；

Wavelength converter is used to the exciting light being converted into Stimulated Light, and by the Stimulated Light outgoing to the first smooth guide portion Part；

First supplement light source sends the first supplement light, and the etendue of the first supplement light is less than Stimulated Light；

Second smooth guide member is used to guide the first supplement light to dodging device, and the size of the second smooth guide member is small In the size of the first smooth guide member.

It is preferred that, the size of the second smooth guide member can be according to exciting light through light loss during the second smooth guide member Amount, the first supplement light are through amount of light loss during the second smooth guide member, the second supplement light through light loss during the second smooth guide member Vector, Stimulated Light are configured through one or more kinds of combinations in amount of light loss during the second smooth guide member.It is preferred that, should The area of second smooth guide member is less than the 50% of useful facula area.Wherein useful facula area refers to that Wavelength converter goes out The area for the hot spot that the Stimulated Light penetrated is formed on the first smooth guide member.

Present invention also offers a kind of projector equipment, including light-source system as described above.

Light-source system provided by the present invention include at least two light sources, at least two light source include exciting light sources and First supplement light source, the exciting light that exciting light sources are sent is guided to Wavelength converter by the first smooth guide member, passed through Wavelength converter is converted into Stimulated Light, and Stimulated Light is guided to dodging device by the first smooth guide member, the first supplement light source The propagation sent be less than Stimulated Light first supplement light dodging device is directed directly to by the second smooth guide member, obtain by The closing light of laser and the first supplement light, so supplements light by supplementing first in Stimulated Light, so as to improve in closing light the The ratio of one supplement light, simultaneously because the first smooth guide member directly guides the first supplement light to dodging device, without passing through The scattering of Wavelength converter is crossed, so as to avoid the light loss that the first supplement light is caused due to the scattering of Wavelength converter Lose, greatly improve the light utilization efficiency of the first supplement light.

Above is the core concept of the present invention, to enable the above objects, features and advantages of the present invention more obvious easily Understand, the embodiment to the present invention is described in detail below in conjunction with the accompanying drawings.

Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still the present invention can be with It is different from other manner described here using other to implement, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar application, therefore the present invention is not limited by following public specific embodiment.

Secondly, the present invention is described in detail with reference to schematic diagram, when the embodiment of the present invention is described in detail, for purposes of illustration only, table Show that the profile of device architecture can disobey general ratio and make partial enlargement, and the schematic diagram is example, and it should not herein Limit the scope of protection of the invention.In addition, the three-dimensional space of length, width and depth should be included in actual fabrication.

It is described in detail below by several embodiments.

Embodiment one

A kind of light-source system is present embodiments provided, as shown in Fig. 2 the light-source system includes two light sources, is respectively swashed Illuminating source 21 and first supplements light source 22, in addition to the first smooth guide member 23, Wavelength converter 24, the second smooth guide portion Part 25 and dodging device 26.In the present embodiment, the first smooth guide member 25 of smooth guide member 23 and second is real using wavelength Existing light splitting closing light.The first smooth guide member 23 includes the optical filter 231 with center diaphragm and edge diaphragm, the guiding of the second light Part 25 is the center diaphragm of the optical filter 231.Wherein：

The exciting light sources 21 send exciting light.The exciting light sources 21 are semiconductor diode or semiconductor diode Array.The semiconductor diode can be laser diode (LD) or light emitting diode (LED) etc..The exciting light be blue light, Purple light or ultraviolet light etc..

First smooth guide member 23 guides the exciting light that exciting light sources 21 are sent to Wavelength converter 24, and by ripple The Stimulated Light of the long outgoing of conversion equipment 24 is guided to dodging device 26.In the present embodiment, the first smooth guide member 23 includes Optical filter 231 with center diaphragm and edge diaphragm.Center diaphragm and edge diaphragm can be integral type diaphragm, or be each From separate type diaphragm.

Wherein the size of the center diaphragm is less than the size of edge diaphragm.The size of the center diaphragm can be mended according to first Fill light through amount of light loss during center diaphragm, exciting light through amount of light loss during center diaphragm, Stimulated Light through during center diaphragm One or more kinds of combinations in amount of light loss are configured.May be sized to of the center diaphragm passes through the first supplement light Amount of light loss during center diaphragm is less than preset ratio makes the amount of light loss of Stimulated Light be less than the arbitrary value of preset ratio simultaneously.It is excellent Choosing, the area of the center diaphragm is less than the 50% of useful facula area.

If Wavelength converter 24 is reflective Wavelength converter, the center diaphragm transmission of the optical filter 231 is excited Light and the first supplement light and reflection Stimulated Light or a part in Stimulated Light or reflection except exciting light and the first supplement light with Outer other light, the edge diaphragm of the optical filter 231 is reflector plate, or the edge diaphragm reflection Stimulated Light；

If Wavelength converter 24 is transmission-type Wavelength converter, the center diaphragm transmission first of the optical filter 231 Supplement light and reflection Stimulated Light or the other light of a part or reflection in addition to the first supplement light in Stimulated Light, the optical filtering The edge diaphragm of piece 231 is reflector plate, or the edge diaphragm reflection Stimulated Light.Fig. 3 a and 3b are referred to, is implementation of the present invention Center diaphragm and one of example of the optical filtering curve of edge diaphragm that example is provided.But the optical filtering of center diaphragm and edge diaphragm Curve is not limited with Fig. 3 a and Fig. 3 b, can also be carried out according to exciting light, the first supplement light, the different of the spectral region of Stimulated Light Set.When exciting light is the light that wave-length coverage is less than 480nm, such as blue light, purple light or ultraviolet light, the first supplement light are wavelength model When enclosing the light, such as feux rouges more than 620nm, the optical filtering curve of center diaphragm can as shown in Figure 3 a, the optical filtering curve of edge diaphragm Can be as shown in Figure 3 b.Fig. 3 a are referred to, the center diaphragm is more than 480nm to wavelength and the light less than 620nm reflects, right Wavelength is less than 480nm or wavelength is more than 620nm light transmission.Fig. 3 b are referred to, the edge diaphragm is more than 480nm's to wavelength Light is reflected, and the light that wavelength is less than 480nm is transmitted.

In a preferred embodiment of the invention, the first smooth guide member 23 also includes being arranged at optical filter 231 and even light dress Put the collector lens 232 between 26 light path.The collector lens 232 is used to collect the light of the guiding of optical filter 231 and converged to even Electro-optical device 26.

The the first smooth guide member 23 of reception of Wavelength converter 24 is guided or the direct outgoing of exciting light sources to wavelength turns The exciting light of changing device 24, Stimulated Light is converted to by the exciting light, and by the Stimulated Light outgoing to the first smooth guide member 23. In the present embodiment, the light of the outgoing of Wavelength converter 24 includes Stimulated Light, or turns including Stimulated Light and not by wavelength The exciting light of changing device conversion.The exciting light outgoing that the Wavelength converter 24 is not changed by Stimulated Light and to the first light draws Lead the exciting light that the edge diaphragm of the optical filter 231 in part 23, the first smooth guide member 23 is not changed by Stimulated Light and Guide to dodging device 26, the optical filter 231 in the first smooth guide member 23 center diaphragm is by Stimulated Light and is not turned The first supplement light spectrum that the exciting light sent in the exciting light changed with exciting light sources 21 and the first supplement light source 22 are sent The different light of scope reflexes to dodging device 26.

The Wavelength converter 24 can be transmission-type Wavelength converter (as included transparency carrier and mixing transparent Material for transformation of wave length inside substrate) or reflective Wavelength converter (be such as applied directly to wavelength in reflective to turn Change layer).Wherein material for transformation of wave length includes but is not limited to fluorescent material, quanta point material etc..Wavelength conversion layer is wavelength convert material Diaphragm that the bed of material or material for transformation of wave length are sintered with bonding agent etc..It is preferred that, the material for transformation of wave length can be gold-tinted Fluorescent material, yellow-green fluorescence powder, green light fluorescent powder etc..

Referring to Fig. 2, the Wavelength converter is reflective Wavelength converter.The filter that first smooth guide member 23 includes Mating plate 231 is arranged between the light path of exciting light sources 21 and Wavelength converter 24, the exciting light that exciting light sources 21 are sent Center diaphragm through the optical filter 231 is transmitted through Wavelength converter 24, the Stimulated Light of the outgoing of Wavelength converter 24, Huo Zheshou Laser and be not wavelength-converted device 24 conversion exciting light reflex to dodging device 26 through the optical filter.

In an alternative embodiment of the invention, if the Wavelength converter 24 is that transmission-type Wavelength converter is (not shown Go out), then the optical filter 231 that the first smooth guide member 23 includes be arranged on Wavelength converter 23 and dodging device 26 light path it Between, the exciting light that exciting light sources 21 are sent can be directly transmitted to Wavelength converter, without passing through the first smooth guide portion The guiding for the optical filter that part includes, the optical filter is by the Stimulated Light of the outgoing of Wavelength converter 24, or Stimulated Light and not by ripple The exciting light that long conversion equipment 24 is changed reflexes to dodging device 26.

First supplement light source 22 sends the first supplement light.The first supplement light source 22 is semiconductor diode or semiconductor Diode array.The semiconductor diode can be laser diode (LD) or light emitting diode (LED) etc..First supplement The spectral region of light is different from the spectral region of the exciting light, and the spectral region of the first supplement light is narrower than the spectrum model of Stimulated Light Enclose, with the color saturation for the closing light for improving Stimulated Light and the first supplement light.It is preferred that, the etendue of the first supplement light is small In the etendue of Stimulated Light.

In the present embodiment, the color for the first supplement light that the first supplement light source 22 is sent can be according to Stimulated Light Difference requires to be configured, such as when lacking the light of certain color in Stimulated Light, then the first supplement light is this kind of color Light, such as the first supplement light can be feux rouges, blue light.

In the present embodiment, in the optical filter 231 that the second smooth guide member 25 includes for the first smooth guide member 23 Heart diaphragm.The center diaphragm guides the first supplement light that the first supplement light source 22 is sent to dodging device 26.

In a preferred embodiment of the invention, the first smooth guide member 23 also includes being arranged at optical filter 231 and even light dress Put the collector lens 232 between 26 light path.The collector lens 232 is used to collect the light of the guiding of optical filter 231 and converged to even Electro-optical device 26.

In the present embodiment, the exciting light that exciting light sources are sent is guided to wavelength convert by the first smooth guide member Device, and the Stimulated Light of Wavelength converter outgoing is guided to dodging device, first is supplemented by the second smooth guide member The first supplement light that light source is sent is directed directly to dodging device, so as to pass through the first smooth guide member and the second smooth guide member Can obtain Stimulated Light with first supplement light closing light, and due to first supplement light be directed directly to by the second smooth guide member it is even Electro-optical device so that first supplements scattering of the light without Wavelength converter, so as to greatly reduce the light of the first supplement light Loss, improves the light utilization efficiency of the first supplement light.

Above-mentioned light-source system provided in an embodiment of the present invention is illustrated with a specific example below.Assuming that exciting The exciting light that radiant is sent is blue excitation light, and the first supplement light that the first supplement light source is sent is feux rouges, wavelength convert dress It is set to reflective Wavelength converter, and material for transformation of wave length is yellow fluorescent powder, then the light path principle of above-mentioned light-source system is such as Under：

Center diaphragm in filtered of blue excitation light is transmitted through Wavelength converter, the blue excitation light excitation wavelength The yellow fluorescent powder of conversion equipment, outgoing yellow Stimulated Light or yellow Stimulated Light and the blue excitation light do not changed extremely filter Piece.Yellow Stimulated Light or yellow Stimulated Light on outgoing to optical filter edge diaphragm and the blue excitation light do not changed are by this Edge diaphragm reflection, and after collector lens collection and assembling, it is incident to even light device.On outgoing to filter center diaphragm The light of red color spectrum range in yellow Stimulated Light and the blue excitation light do not changed are transmitted and lost by the center diaphragms, The light of the yellow Stimulated Light Green spectral region reflexes to dodging device by the center diaphragm.

Filtered center diaphragm of feux rouges that first supplement light source is sent is had an X-rayed to dodging device.So, it can be excited Feux rouges is supplemented in light.Due to scattering of the feux rouges without Wavelength converter, directly it is transmitted through by the center diaphragm of optical filter Dodging device, so as to reduce the light loss of the feux rouges, improves the light utilization efficiency of the feux rouges.

Embodiment two

Another light-source system is present embodiments provided, referring to Fig. 4, the light-source system and the light-source system shown in Fig. 2 Difference be that the second smooth guide member 25 realizes light splitting closing light using propagation.Specially with the reflector plate 431 with through hole It instead of the optical filter 231 with center diaphragm and edge diaphragm in Fig. 2.In the present embodiment, the first smooth guide member 43 Including the reflector plate 431 with through hole, the second smooth guide member 25 is the through hole on the reflector plate 431.

Wherein the size of the through hole is less than the size of reflector plate 431.The size of the through hole can be according to the first supplement light warp One kind in amount of light loss when amount of light loss when amount of light loss during through hole, exciting light via through holes, Stimulated Light via through holes or Person's multiple combinations are configured.May be sized to of the center diaphragm makes amount of light loss during the first supplement light via through holes small The amount of light loss of Stimulated Light is set to be less than the arbitrary value of preset ratio simultaneously in preset ratio.It is preferred that, the area of the through hole is less than The 50% of useful facula area.

In the present embodiment, exciting light is incident to Wavelength converter, wavelength convert dress by the through hole on reflector plate 431 Put and exciting light is changed, outgoing Stimulated Light or Stimulated Light and the exciting light extremely reflector plate with through hole do not changed 431, the Stimulated Light of outgoing to the through hole of reflector plate 431 and the exciting light do not changed lose through through hole, and outgoing is to anti- Penetrate Stimulated Light and the exciting light do not changed at the rest of piece and be reflected onto dodging device.First supplements first that light source 22 is sent Supplement light dodging device is incident to by the through hole on reflector plate 431, so by the reflector plate with through hole can obtain by The closing light of laser and the first supplement light, or obtain the closing light of Stimulated Light, the exciting light do not changed and the first supplement light.Due to First supplement light is directly incident to dodging device by the through hole on reflector plate 431, so as to avoid Wavelength converter to the One light loss for supplementing the scattering of light and causing, greatly improves the light utilization efficiency of the first supplement light.

Embodiment three

Another light-source system is present embodiments provided, as shown in figure 5, the light-source system and the light-source system shown in Fig. 2 Difference be that the second smooth guide member realizes light splitting closing light using polarization state.Specially：Optical filter in the light-source system 531 include polarizer and edge diaphragm, and wherein edge diaphragm is identical with the edge diaphragm in embodiment one, the difference is that by Fig. 2 The center diaphragm of middle optical filter 231 has been substituted for polarizer.

In the present embodiment, the first smooth guide member 53 is the optical filter 531 with polarizer and edge diaphragm, the second light Guide member 25 is the polarizer in the optical filter 531.The polarizer is reflected the light with the first polarization state, to second The light transmission of polarization state.Wherein the first polarization state is P states, and the second polarization state is S states, or the first polarization state is S states, and second is inclined Polarization state is P states.

Wherein polarizer can be the polarizer for all wavelengths light, or for the polarization of specified wavelength light Piece.Polarizer wherein for all wavelengths light refers to all wavelengths light reflection with the first polarization state, to second The all wavelengths light transmission of polarization state.Refer to for the polarizer of specified wavelength light to the specified wavelength light with the first polarization state Reflection, to the specified wavelength light transmission with the second polarization state.Wherein specified wavelength specifies a wave-length coverage to specify Multiple wave-length coverages.It is preferred that, the specified wavelength is one kind in the wave-length coverage of exciting light, the wave-length coverage of the first supplement light Or two kinds, as specified wavelength can for wave-length coverage in 480nm to 620nm, now, polarizer is to wave-length coverage in 480nm To light reflections of the 620nm with the first polarization state, to wave-length coverage 480nm to 620nm the light with the second polarization state Transmission.

In the present embodiment, when exciting light is blue light, and polarizer is blue light polarizer, then Wavelength converter outgoing If, can be by Wavelength converter outgoing to blue light polarizer by blue light polarizer including the blue light do not changed in light A part in the blue light do not changed at place reflexes to dodging device and is utilized, so as to improve the utilization rate of blue light.

Example IV

Another light-source system is present embodiments provided, as shown in fig. 6, the light-source system and the light source shown in Fig. 2,4,5 The difference of system is the second smooth guide member 65, and light source also includes the second supplement light source 67.

This second supplement light source 67 send the second supplement light, this second supplement light by the second smooth guide member 65 guide to Dodging device 26.The second supplement light source 67 is semiconductor diode or semiconductor diode array.The semiconductor diode Can be laser diode (LD) or light emitting diode (LED) etc..The spectral region of the second supplement light is excited different from this The spectral region of light, the spectral region of the second supplement light is narrower than the spectral region of Stimulated Light, to improve Stimulated Light, the first supplement light With the color saturation of the closing light of the second supplement light.It is preferred that, the etendue of the second supplement light is less than the optics of Stimulated Light Propagation.

In the present embodiment, this second supplement light source 67 send second supplement light color can according to Stimulated Light with The different of the closing light of first supplement light require to be configured, and such as work as Stimulated Light with lacking certain color in the closing light of the first supplement light Light when, then this second supplement light be this kind of color light, such as this second supplement light can be blue light.

The second smooth guide member 65 is the center diaphragm of the optical filter 231 in embodiment one, and the center diaphragm, which is transmitted, to swash Luminous, the first supplement light and the second supplement light and reflection Stimulated Light or a part in Stimulated Light or reflection except exciting light, Other light beyond first supplement light, the second supplement light.Or the second smooth guide member 65 leads to for having in embodiment two Through hole on the reflector plate 431 in hole.Or the second smooth guide member 65 is the polarization in the optical filter 531 in embodiment three Piece, the polarizer is that one or more kinds of polarizers in light are supplemented for exciting light, the first supplement light, second, i.e., this is inclined Piece shake to the exciting light with the first polarization state, the first supplement light and the second supplement light reflection, to swashing with the second polarization state Luminous, the first supplement light and the second supplement light transmission.

In the present embodiment, by the supplement light of supplement second in closing light of the Stimulated Light with the first supplement light, so as to improve Stimulated Light and the ratio of the second supplement light in the closing light of the first supplement light, improve the brightness of closing light.

Embodiment five

Another light-source system is present embodiments provided, as shown in fig. 7, the light-source system includes two light sources, is respectively Exciting light sources 71 and first supplement light source 72, in addition to the guiding of the first smooth guide member 73, Wavelength converter 74, the second light Part and dodging device 76.In the present embodiment, the second smooth guide member is arranged at the first smooth guide member 73 and filled with even light Put between 76 light path.Wherein：

Exciting light sources 71 are identical with the exciting light sources 21 in embodiment one, in Wavelength converter 74 and embodiment one Wavelength converter 24 it is also identical, will not be repeated here.

First smooth guide member 73 guides the exciting light that exciting light sources 71 are sent to Wavelength converter 74, and by ripple The Stimulated Light of the long outgoing of conversion equipment 74 is guided to dodging device 76.In the present embodiment, the first smooth guide member 73 includes First optical element 731.

If Wavelength converter 74 is reflective Wavelength converter, first optical element 731, which can be arranged at, to be excited Between the light path of radiant 71 and Wavelength converter 74, and first optical element 731 transmission exciting light and reflection Stimulated Light Or other light of the reflection in addition to exciting light.

If Wavelength converter 74 is transmission-type Wavelength converter, first optical element 731 can be arranged at wavelength Between the light path of conversion equipment 74 and dodging device 76, and first optical element 731 can be the optical filter of reflection Stimulated Light Or be reflector plate.

In an alternative embodiment of the invention, the first smooth guide member 73 also include being arranged at the first optical element 731 with First collector lens 732 between the light path of dodging device 76.The first collector lens 732 are used to collect the first optical element The light of 731 guiding simultaneously converges to dodging device 76.

First supplement light source 72 sends the first supplement light.The first supplement light source 72 and the first supplement light in embodiment one Source 22 is identical, will not be repeated here.

Second smooth guide member is the second optics between the light path of the first smooth guide member 73 and dodging device 76 Element, second optical element reflection first supplement light and transmission Stimulated Light or partially-excited light or except first supplement light with Outer other light are to dodging device 76.Wherein second optical element can for reflection first supplement light and transmission Stimulated Light or The optical filter 751 (as shown in Figure 7) of the other light of partially-excited light either in addition to the first supplement light is reflector plate 851 (as shown in Figure 8), or second optical element include reflector plate and the fixture (not shown) for fixing the reflector plate, Or be polarizer etc..

Wherein the size of reflector plate 851 can be passed through according to amount of light loss during the first supplement light reflected 851, Stimulated Light One or more kinds of combinations in amount of light loss during reflector plate 851 are configured.The reflector plate 851 may be sized to Amount of light loss during the first supplement light reflected 851 is less than preset ratio and preset while being less than the amount of light loss of Stimulated Light The arbitrary value of ratio.It is preferred that, the area of the reflector plate 851 is less than the 50% of useful facula area.

Polarizer can be the polarizer for the first supplement light, i.e. the polarizer is mended to first with the first polarization state Fill light to be reflected, the first supplement light with the second polarization state is transmitted.

In the present embodiment, the second smooth guide member is arranged between the light path of the first smooth guide member and dodging device, And second smooth guide member by first supplement light reflex to dodging device so that first supplement light converging focal point can position In the front end of the light inlet of dodging device, the light inlet that intersection point is located at dodging device is assembled relative to the existing first supplement light Surface for, the closing light that can improve the first supplement light and Stimulated Light carries out the uniformity coefficient after even light by dodging device.

Embodiment six

Another light-source system is present embodiments provided, as shown in figure 9, the light-source system and the light source shown in Fig. 7, Fig. 8 The difference of system is the first supplement light source 92.The first supplement light source 92 includes solid-state light-emitting component and the second optically focused is saturating Mirror (not shown).Wherein：

Solid-state light-emitting component, for sending the first supplement light.The solid-state light-emitting component be single Sony ericsson mobile comm ab or It is to include the Sony ericsson mobile comm ab array of multiple Sony ericsson mobile comm abs.Wherein Sony ericsson mobile comm ab can for laser diode or Light emitting diode etc..

Second collector lens, the first supplement light for solid-state light-emitting component to be sent converges to the second smooth guide member, And first supplement light converging focal point on the second smooth guide member.

In the present embodiment, because the convergence intersection point of the first supplement light is on the second smooth guide member, and the second light is guided First supplement light is reflexed to dodging device 76 by part, so that the first supplement light is reflected and entered by the second smooth guide member Be incident upon before dodging device 76 and there is certain angle of divergence, so as to improve the closing light of the first supplement light and Stimulated Light pass through it is even Electro-optical device carries out the uniformity coefficient after even light.

It is preferred that, the difference between the convergence angle of the first supplement light and the convergence angle of Stimulated Light is in default error range It is interior.It is preferred that, it is within 30% to preset error range.The convergence angle of wherein first supplement light refers to the second collector lens by the One supplement light converges to convergence angle during the second smooth guide member 75；The convergence angle of Stimulated Light refers to first collector lens 732 converge to Stimulated Light convergence angle during dodging device.

In the present embodiment, because the difference between the convergence angle of the first supplement light and the convergence angle of Stimulated Light is pre- If in error range, so as to further improve the uniformity of Stimulated Light and the closing light of the first supplement light.

It is preferred that, the first supplement light source 92 also includes eliminating coherence device (not shown), and the eliminating coherence device is to solid-state The first supplement light that luminescence component is sent carries out eliminating coherence processing.The relevant apparatus that disappears can be the diffusion sheet of rotation, vibration Diffusion sheet etc..

In the present embodiment, because the first supplement light sent by eliminating coherence device to solid-state light-emitting component carries out the phase that disappears Dry-cure, so as to avoid Stimulated Light and the speckle phenomena of the closing light presence of the first supplement light.

Embodiment seven

Another light-source system is present embodiments provided, as shown in Figure 10, the light-source system and the light source shown in Fig. 7,8,9 The difference of system is the first smooth guide member 103, and the light-source system also includes the second supplement light source 107.Second supplement Light source 107 sends the second supplement light, and the second supplement light is guided to dodging device 76 by the first smooth guide member 103.

The second supplement light source 107 is semiconductor diode or semiconductor diode array.The semiconductor diode can Think laser diode (LD) or light emitting diode (LED) etc..The spectral region of the second supplement light is different from the exciting light Spectral region, the spectral region of the second supplement light is narrower than the spectral region of Stimulated Light, with improve Stimulated Light, the first supplement light and The color saturation of the closing light of second supplement light.It is preferred that, the etendue of the second supplement light is less than the optics expansion of Stimulated Light Zhan Liang.

The first smooth guide member 103 guides the exciting light that exciting light sources 71 are sent to Wavelength converter 74, and The Stimulated Light of the outgoing of Wavelength converter 74 is guided to dodging device 76, and the second benefit that the second supplement light source 103 is sent Light is filled to guide to dodging device 76.In the present embodiment, the first smooth guide member 103 includes transmission exciting light and the second supplement The other light of light and reflection Stimulated Light or a part in Stimulated Light or reflection in addition to exciting light and the second supplement light First optical element.

In the present embodiment, if Wavelength converter 74 is reflective Wavelength converter, first optical element can be with Between the light path for being arranged at exciting light sources 71 and Wavelength converter 74.First optical element is transmission exciting light and second Supplement light and the optical filtering of reflection Stimulated Light or the other light of a part or reflection in addition to the second supplement light in Stimulated Light Piece (not shown), or first optical element is the optical filter 1031 with center diaphragm and edge diaphragm (such as Figure 10 institutes Show), either first optical element is for the reflector plate (not shown) with through hole or for polarizer and edge diaphragm Optical filter (not shown).

Wherein there is the optical filter 1031 of center diaphragm and edge diaphragm with there is center diaphragm and side in embodiment five The difference of the optical filter of velum piece is that the center diaphragm of optical filter is transmission exciting light and the second supplement light and reflection Stimulated Light Or the diaphragm of the other light of a part or reflection in addition to exciting light and the second supplement light in Stimulated Light.

Polarizer can be the polarizer for exciting light and the second supplement light, i.e., the polarizer is to the first polarization state Exciting light and second supplement light reflection, to the exciting light with the second polarization state and second supplement light transmission.

If Wavelength converter 74 is transmission-type Wavelength converter, first optical element can be arranged at wavelength convert Between the light path of device 74 and dodging device 76, and first optical element can supplement light and reflection Stimulated Light for transmission second Or the diaphragm of the other light of a part or reflection in addition to the second supplement light in Stimulated Light, as first optical element is Transmission second supplements light and reflection Stimulated Light or a part in Stimulated Light or reflection are other in addition to the second supplement light The optical filter of light, either first optical element is optical filter or first optics with center diaphragm and edge diaphragm Element is the reflector plate with through hole, or is the optical filter with polarizer and edge diaphragm.Wherein center diaphragm transmission the Two supplement light and reflection Stimulated Light or the other light of a part or reflection in addition to the second supplement light in Stimulated Light.Polarization Piece be for second supplement light polarizer, i.e., the polarizer to the first polarization state second supplement light reflect, to Second supplement light transmission of the second polarization state.

In an alternative embodiment of the invention, the first smooth guide member 103 also include be arranged at the first optical element with it is even First collector lens 1032 between the light path of electro-optical device 76.The first collector lens 1032 and the collector lens in embodiment five 732 is identical, will not be repeated here.

Embodiment eight

Another light-source system is present embodiments provided, as shown in figure 11, the light-source system and the light source shown in Fig. 7,8,9 The difference of system is the second smooth guide member, and the light-source system also includes the second supplement light source 117.The second supplement light source 117 send the second supplement light, and the second supplement light is guided to dodging device 76 by the second smooth guide member.The second supplement light Source 117 is identical with the second supplement light source 107 in embodiment seven, is not repeating herein.

Wherein second smooth guide member is with the second smooth difference of guide member 75 in embodiment five, the second optics Element reflection first supplements light and the second supplement light to dodging device 76, transmission Stimulated Light or partially-excited light or except the Other light beyond one supplement light and the second supplement light are to dodging device 76.

It is preferred that, the light path of the second supplement light source 117 is identical with the light path of the first supplement light source 72, or is mended first Fill light to converge to before the second smooth guide member through the second collector lens, the second supplement that the second supplement light source 117 is sent The light path of light is merged into the light path of the first supplement light.In the present embodiment, due to the first supplement light and the light of the second supplement light Road is identical, so that the Illumination Distribution that the first supplement light and the second supplement light are formed in the end of dodging device 76 is close to one Cause, so can further improve the uniformity of the closing light of Stimulated Light, the first supplement light and the second supplement light.

In an alternative embodiment of the invention, the second supplement light source 117 and the first supplement light source 92 in embodiment six Structure is identical, is not repeating herein.

Present invention also offers a kind of projector equipment, the projector equipment includes the light-source system in any of the above-described embodiment.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the scope of the invention, it is every to utilize Equivalent structure that description of the invention and accompanying drawing content are made or directly, be used in other related technical fields indirectly, It is considered as and is included within the scope of the present invention.

Claims (14)

1. a kind of light-source system, it is characterised in that turn including exciting light sources, the first supplement light source, the first optical element, wavelength Changing device, the second optical element, first collector lens, the second collector lens and equal electro-optical device, wherein：

The exciting light sources are used to send exciting light；

The first supplement light source is used to send the first supplement light；

First optical element is used to guide the exciting light to the Wavelength converter；

The Wavelength converter is used to the exciting light being converted into Stimulated Light, and by the Stimulated Light outgoing to described first Optical element；

First optical element is additionally operable to guide the Stimulated Light so that the Stimulated Light goes out from the first optical element outgoing Penetrate the light incident side that side is incident to first optical element different from the exciting light；

The first collector lens are used to collect the Stimulated Light of the first optical element guiding and assembled；

Second optical element is arranged at the Stimulated Light from the light path after the first optical element outgoing；

The first supplement light that second collector lens is used to send the described first supplement light source converges to second optics Element；

Second optical element is used to guide the first supplement light or guides the first supplement light and at least partly described Stimulated Light so that described first supplements light and at least partly described Stimulated Light from identical exit channel outgoing；The light Device is located on the exit channel；

Difference between the convergence angle of the first supplement light and the convergence angle of the Stimulated Light is in default error range It is interior；The convergence angle of wherein described first supplement light refers to that the first supplement light is converged to the second optics by second collector lens Convergence angle during element；The convergence angle of the Stimulated Light refers to the convergence when Stimulated Light converges to the equal electro-optical device Angle.

2. light-source system according to claim 1, it is characterised in that the exciting light sources are semiconductor diode or half Conductor diode array.

3. light-source system according to claim 1, it is characterised in that the exciting light is blue light, purple light or ultraviolet light.

4. light-source system according to claim 1, it is characterised in that the first supplement light source be semiconductor diode or Semiconductor diode array.

5. the light-source system according to claim 2 or 4, it is characterised in that the semiconductor diode be laser diode or Person's light emitting diode.

6. light-source system according to claim 1, it is characterised in that the first supplement light is blue light, or, described first Supplement light is feux rouges.

7. light-source system according to claim 1, it is characterised in that the Wavelength converter includes wavelength convert material Material, the material for transformation of wave length is yellow fluorescent powder.

8. light-source system according to claim 1, it is characterised in that first optical element transmit the exciting light and At least partly described Stimulated Light of reflection.

9. light-source system according to claim 1, it is characterised in that the second optical element reflection first supplement Light and at least partly described Stimulated Light of transmission.

10. light-source system according to claim 9, it is characterised in that second optical element is reflection described first Supplement the optical filter of light and at least partly described Stimulated Light of transmission.

11. light-source system according to claim 9, it is characterised in that second optical element includes reflector plate, described At least partly described first supplement light of reflector plate reflection is to the exit channel, and at least partly described Stimulated Light is not by the reflection The reflection of piece and outgoing are to the exit channel.

12. light-source system according to claim 11, it is characterised in that the first supplement light source includes solid luminescent group Part and the second collector lens, wherein：

The solid-state light-emitting component is used to send the first supplement light；

The first supplement light that second collector lens is used to send the solid-state light-emitting component converges to described second Optical element, and it is described first supplement light converging focal point on the second optical element.

13. light-source system according to claim 1, it is characterised in that the etendue of the first supplement light is less than The etendue of the Stimulated Light.

14. a kind of projector equipment, it is characterised in that the projector equipment includes the light source described in any one of claim 1 to 13 System.