CN100388055C - Optical apparatus and projection apparatus - Google Patents
Optical apparatus and projection apparatus Download PDFInfo
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- CN100388055C CN100388055C CNB2005100984938A CN200510098493A CN100388055C CN 100388055 C CN100388055 C CN 100388055C CN B2005100984938 A CNB2005100984938 A CN B2005100984938A CN 200510098493 A CN200510098493 A CN 200510098493A CN 100388055 C CN100388055 C CN 100388055C
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Abstract
An optical apparatus provided with a light combining prism having three light incident faces, receiving the three beams of light having different wavelength bands through the three light incident faces, and combining the three incident beams of light for output, three reflection type polarization plates, three plate-like reflection type polarization elements provided corresponding to the three reflection type liquid crystal panels, each receiving a different wavelength band of light among the three different wavelength bands, each selecting a first polarized beam component to pass and making it strike the corresponding reflection type liquid crystal panel by two perpendicular polarized beam components, and each making modulated light spatially modulated and converted to a second polarized beam component at the reflection type liquid crystal panel strike the corresponding incident face among the three light incident faces of the combining prism, and at least three fixing plates with surfaces which can be joined with the three light incident faces of the light combining prism, wherein at least the reflection type polarization elements between the reflection type polarization elements and reflection type liquid crystal panels are fixed to the corresponding light incident faces of the light combining prism via the fixing plates, and a projection apparatus using the same.
Description
Technical field
The present invention relates to be used for the optical instrument that will merge and the projection device that uses this optical instrument by the light of reflection type liquid crystal display device modulation.
Background technology
The present invention is contained in the relevant theme of submitting to the Japan special permission Room on September 6th, 2004 of Japanese patent application No.2004-258634, and its full content is in conjunction with being incorporated in this.
A kind of projection-type display apparatus known in the art, it is used for incident light is carried out spatial modulation and emission and the light of being launched being focused on and projection shows and is projected image according to the electric signal that offers spatial light modulation equipment.Colored Display projector instrument has lamp optical system, light-combining prism and projecting lens usually, wherein lamp optical system has the light source of being made up of lamp and condenser, light from light emitted is divided into three wave bands, and the light that will separate gathers corresponding spatial light modulation equipment to throw light on, the light that light-combining prism is used for being modulated by spatial light modulation equipment merges, and projecting lens is used for emission optical projection with light-combining prism to screen etc.(hereinafter projection device will be called as " projector ").
The spatial light modulation equipment that liquid crystal projector uses has used liquid crystal material (hereinafter being called " liquid crystal panel ").As known projector, transmission type projector makes light pass liquid crystal panel and in passing the process of liquid crystal panel light is modulated, and opaque projector is transmitted into liquid crystal panel with light, when it is modulated light when liquid crystal panel reflects with the change polarization axle.
Use the reflecting liquid crystal projector of reflection type liquid crystal panel to realize with high-resolution small size panel.Reflecting liquid crystal projector need use the polarizer that can merge and separate two bundle orhtogonal linear polarizaiton light (s polarized light and p polarized light).
As this polarizer, the polarization beam apparatus that is made of glass blocks is known (reference is open (Kokai) No.2001-350024 of unexamined Jap.P. still).As disclosed in open (Kokai) No.2001-350024 of unexamined Jap.P. still, rely on and form a plurality of films between two blocks of glass, can be separately or merge with two bunch polarized lights.
But this polarization beam apparatus that is made of glass material is subjected to the deformation characteristic influence of glass, so must use low deformed glass.For this reason, must in glass, fuse into lead etc., make glass have very high proportion.Therefore produced the problem that weight increases.
In contrast, as the projector that has realized the reflection type liquid crystal panel optical system that weight is lighter, the existing proposal (reference is open (Kokai) No.2003-508813 of unexamined Jap.P. still) of using the projector of reflective polarizer.Still the projector that open (Kokai) No.2003-508813 of unexamined Jap.P. proposes uses the wiregrating element that forms the clathrate plain conductor that incident light is divided into two bundle orhtogonal linear polarizaiton light, wherein a branch of polaroid that passes, and another bundle reflects on polaroid.Use the optical system of this reflective polarizer can realize weight reduction.
When using three reflection type liquid crystal panels, the three primary colors of light are input to panel, that will modulate is also photosynthetic again, can realize can panchromatic demonstration projector.
Fig. 1 is to use the structure principle chart of the liquid crystal projector optical system of three liquid crystal panels, and it can display color rather than the image of black and white.
As shown in Figure 1, liquid crystal projector 10 comprises light source 11 with lamp 111 and condenser 112, lamp optical system 12, three reflection type liquid crystal panel 13R, 13G and 13B, light-combining prism 14, and projecting lens 15.
Lamp optical system 12 comprises lens 121, dichronic mirror 122, catoptron 123, catoptron 124, dichronic mirror 125, polaroid 126R, polaroid 126G, polaroid 126B and optical lens 127 to 129, wherein the feasible light of exporting from optical system of the orientation of lens 121 is towards reflection type liquid crystal panel 13R, 13G and 13B emission, wherein said optical system has the function of the optical registration predetermined polarization (for example p polarization state) of will launch from light source 11, dichronic mirror 122 is used to be divided into the light LR with red wavelength zone and has green, the light LGB of blue wavelength region, catoptron 123 is used for the red light LR that reflecting dichroic mirror 122 is punished out, catoptron 124 is used for green and the blue light LGB that reflecting dichroic mirror 122 is punished out, dichronic mirror 125 is used for only being reflected in the green wavelength region of the light LGB that reflects at catoptron 124 places and blue wavelength region is passed from it, polaroid 126R is used to make the red light LR of the p polarization that reflects at catoptron 123 places to pass to make it to get to reflection type liquid crystal panel 13R from it, and with the process spatial modulation at reflection type liquid crystal panel 13R place and have the red reflective of s polarization state and make it to get to light-combining prism 14, polaroid 126G is used to make the green light LG of the p polarization that reflects at dichronic mirror 125 places to pass to make it to get to reflection type liquid crystal panel 13G from it, and with the process spatial modulation at reflection type liquid crystal panel 13G place and have the s polarization state the green light reflection and make it to get to light-combining prism 14, polaroid 126B is used to make the blue light LB of the p polarization that reflects at dichronic mirror 125 places to pass to make it to get to reflection type liquid crystal panel 13B from it, and with the process spatial modulation at reflection type liquid crystal panel 13B place and have the blue light reflection of s polarization state and make it to get to light-combining prism 14, optical lens 127 to 129 is arranged in polaroid 126R, the light incident side of 126G and 126B.
In liquid crystal projector 10, also aim at by unshowned integral optical system (integrator) homogenising by the definite predetermined polarisation direction of polarization conversion device (P-S converter) from the white light of light source 11 outputs.Afterwards, the lens 121 of lamp optical system 11 will be exported the light orientation to get to reflection type liquid crystal panel 13R, 13G and 13B, will be divided into three optical wavelength zones by the dichronic mirror that is made of dichronic mirror 122,125 etc. afterwards.The light beam of color separation is got to reflective polarizer.Have only the light of particular polarization just can be polarized sheet 126R, 126G and 126B selection and get to reflection type liquid crystal panel 13R, 13G and 13B.Reflection type liquid crystal panel 13R, 13G and 13B are subjected to impacting of rgb light.
To offer reflection type liquid crystal panel 13R, 13G and 13B corresponding to the vision signal (picture signal) of incident light color, incident beam is thereon according to the rotation of vision signal generation polarization state, modulated and output.Get to polaroid 126R, 126G and 126B once more from the modulated light beam of liquid crystal panel emission.Light-combining prism 14 is just selected and get to the polarized light component that only turns over 90 degree from the light beam of getting to polaroid 126R, 126G and 126B.The column of colour of modulating at three reflection type liquid crystal panel places is in the merging of light-combining prism 14 places and be transmitted into equidirectional.The light that merges emission from light-combining prism 14 is output and projects to screen etc. by projecting lens 15.
Summary of the invention
In having used the above-mentioned optical system of reflective polarizer, there is following shortcoming.
In liquid crystal projector 10, the light-combining prism 14 that the video light that three reflection type liquid crystal panel 13R, 13G and 13B obtain passes reflective polarizer 126R, 126G and 126B and is used to merge video light, three images are superposeed on screen by projecting lens 15 subsequently.Adjust the position of liquid crystal panel so that the image of three panels superposes on screen, panel is fixed on the appropriate location with bonding agent etc. afterwards.After it is fixed to the appropriate location, if the problem of position deviation in the image of image on projecting to screen of liquid crystal panel will appear in reflection type liquid crystal panel or moved to the element of projecting lens.This will be called as " deviation of the alignment ".
As shown in Figure 2, in the optical system of using reflective polarizer, pedestal chassis 16 comprised with light-combining prisms 14 bonding with it such as bonding agents in the past. Reflective polarizer 126R, 126G and 126B are installed on the pedestal chassis 16 with the position of fixation reflex formula polaroid with respect to light-combining prism 14 afterwards.
But make on pedestal chassis 16 normally metal material.As metal material,, can consider aluminium (linear expansion coefficient 23.5 * 10 if consider moulding
-6K
-1) and magnesium (linear expansion coefficient 27 * 10
-6K
-1).But they all have relatively large thermal expansivity (linear expansion coefficient).Therefore, thereby the air temperature variations outside the instrument etc. will cause that pedestal chassis expansion causes the position relationship change between reflective polarizer and the light-combining prism, and the possibility that deviation of the alignment takes place is very big.
As mentioned above, wish that realizing lowering deviation of the alignment possible optical instrument simple in structure and projection device occur.
First aspect according to the embodiment of the invention provides a kind of optical instrument, and it comprises that the light-combining prism with three light entrance faces is used for receiving the three-beam with different-waveband by three light entrance faces, and the three beams incident light is merged with output; Three reflection type liquid crystal panels; Three tabular reflection type polarization elements, itself and three corresponding layouts of reflection type liquid crystal panel, each receives the light of an independent wave band in three different-wavebands, respectively select the first light beam composition and make it to get to corresponding reflection type liquid crystal panel, respectively provide by spatial modulation and be converted into the described corresponding plane of incidence of light in described three light entrance faces of described light-combining prism of the modulation of the second light beam composition at described reflection type liquid crystal panel place; And at least three fixed heads that have the surface, it can combine with three light entrance faces of light-combining prism, wherein between reflection type polarization element and reflection type liquid crystal panel at least the reflection type polarization element be installed to the corresponding light entrance face of light-combining prism by fixed head.
Preferably, each fixed head is formed the column of triangular section, and in three sides, side forms the composition surface with the light entrance face of light-combining prism, and second side forms the surface that the reflection type polarization element is installed.The 3rd side forms the surface that reflection type liquid crystal panel is installed, and reflection type polarization element and reflection type liquid crystal panel are installed in the corresponding light entrance face of light-combining prism by fixed head.
Preferably, the light entrance face of light-combining prism has combination optical clear dividing plate thereon, and fixed head combines with light entrance face with the state that is supported by the lateral parts of dividing plate.
Preferably, a plurality of fixed heads combine with predetermined space with the light entrance face of light-combining prism.
Preferably, fixed head comprises the prism side carriage that combines with it, and reflection type liquid crystal panel comprises the panel lateral bracket fastening with it, thereby the prism side carriage combines with the panel lateral bracket and reflection type liquid crystal panel is installed to the corresponding light entrance face of light-combining prism.
Preferably, fixed head has 10 * 10
-6K
-1Or littler linear expansion coefficient.Preferably, fixed head is made by glass material.Perhaps, fixed head is formed by stainless steel or FeNiCo.
Second aspect according to the embodiment of the invention, a kind of projection device is provided, it comprises light source, optical instrument and projection section, wherein optical instrument is used for the light that light source produces is divided into three beams according to wave band, three light beams of modulating are merged and launch the merging gained, projection section is used for light output and projection from the optical instrument emission, wherein said optical instrument comprises the light-combining prism with three light entrance faces, it is used for receiving the three-beam with different-waveband by three light entrance faces, and the three beams incident light is merged so that output; Three reflection type liquid crystal panels; Three tabular reflection type polarization elements, itself and three corresponding layouts of reflection type liquid crystal panel, each receives the light of an independent wave band in three different-wavebands, respectively select the first light beam composition and make it to get to corresponding reflection type liquid crystal panel, respectively provide by spatial modulation and be converted into the described corresponding plane of incidence of light in described three light entrance faces of described light-combining prism of the modulation of the second light beam composition at described reflection type liquid crystal panel place; And at least three fixed heads that have the surface, it can combine with three light entrance faces of light-combining prism, wherein between reflection type polarization element and the reflection type liquid crystal panel at least the reflection type polarization element be installed to the corresponding light entrance face of light-combining prism by fixed head.
According to embodiments of the invention, tabular (also comprising membranaceous) polarizer is fixed to the light entrance face of light-combining prism by the relatively low fixed head of (for example) linear expansion coefficient.
According to embodiments of the invention, can prevent the deviation of the alignment of liquid crystal projector with simple structure.
Description of drawings
According to the following description of with reference to the accompanying drawings preferred embodiment being carried out, these and other purpose of the present invention and details will become clearer.In the accompanying drawings:
Fig. 1 is the view of the reflecting liquid crystal projector example of structure of correlation technique;
Fig. 2 is the view that the reflection type polarization element is installed to the example of pedestal;
Fig. 3 has been to use the view according to the liquid crystal projector of the optical instrument of the first embodiment of the present invention;
Fig. 4 A and 4B are the views of the explanation light-combining prism plane of incidence and the surface of emission;
Fig. 5 is the view according to fixed head example of structure of the present invention;
Fig. 6 is the view of the state that combines with three planes of incidence of light-combining prism of fixed head;
Fig. 7 A and 7B are the views that is installed to the state of fixed head by the reflection type polarization element that light beam filtrator (PBF) constitutes;
Fig. 8 A and 8B are the views that reflection type liquid crystal panel is installed to the state of fixed head;
Fig. 9 A and 9B are the views of example that is used for reflection type liquid crystal panel is installed to the preferred structure of fixed head;
The vertical view of the more preferably structure that Figure 10 reflection type polarization element that to be explanation constitute PBF and reflection type liquid crystal panel are installed to fixed head;
The skeleton view of the more preferably structure that Figure 11 reflection type polarization element that to be explanation constitute PBF and reflection type liquid crystal panel are installed to fixed head;
The skeleton view of the more preferably structure that Figure 12 reflection type polarization element that to be explanation constitute PBF and reflection type liquid crystal panel are installed to fixed head;
The skeleton view of the more preferably structure that Figure 13 reflection type polarization element that to be explanation constitute PBF and reflection type liquid crystal panel are installed to fixed head;
When Figure 14 is to use the mounting structure of Figure 10 to 13, the view of structure after the optical instrument assembling;
Figure 15 is the view of the example of integrally formed fixed head;
Figure 16 A and 16B illustrate the skeleton view that has used according to the liquid crystal projector of the optical instrument of second embodiment of the invention;
Figure 17 is the view that illustrates the example of the light source in the image projection instrument shown in Figure 16 A and the 16B.
Figure 18 is the view that reflection type liquid crystal panel is installed to the state of the fixed head among second embodiment.
Figure 19 A and 19B illustrate the part-structure of image projection instrument shown in Figure 16 A and the 16B and the view of beam path;
Figure 20 is the view that illustrates the beam path of light-combining prism ambient light shown in Figure 16 A and the 16B.
Figure 21 A and 21B are the views that PBF and polarization beam apparatus (PBS) characteristic are shown.
Embodiment
The main element of projector
Below with reference to Fig. 3 the projector according to the first embodiment of the present invention is described.Note with Fig. 1 in identical label be endowed the lamp optical system that has with identical structure illustrated in fig. 1.
As shown in Figure 3, liquid crystal projector 100 comprises light source 11 with lamp 111 and condenser 112, lamp optical system 12, three reflection type liquid crystal panels 201,202 and 203, the first light beam wave filter (PBF) 261, the 2nd PBF 262, the 3rd PBF 263, light-combining prism 210 and projecting lens 216.
Lamp optical system 12 comprises lens 121, dichronic mirror 122, catoptron 123, catoptron 124, dichronic mirror 125, the one PBF 261, the 2nd PBF 262, the 3rd PBF 263 and optical lens 127 to 129, wherein the feasible light of exporting from optical system of the orientation of lens 121 is towards reflection type liquid crystal panel 201,202 and 203 emissions, wherein said optical system has the function of the optical registration predetermined polarization (for example p polarization state) of will launch from light source 11, dichronic mirror 122 is used to be divided into the light LR with red wavelength zone and has green, the light LGB of blue wavelength region, catoptron 123 is used for the red light LR that reflecting dichroic mirror 122 places separate, catoptron 124 is used for green and the blue light LGB that reflecting dichroic mirror 122 places separate, dichronic mirror 125 is used for only being reflected in the green wavelength region of the light LGB that reflects at catoptron 124 places and blue wavelength region is passed from it, the one PBF 261 is used to make the red light LR of the p polarization that reflects at catoptron 123 places to pass to make it to get to reflection type liquid crystal panel 201 from it, and with the process spatial modulation at reflection type liquid crystal panel 201 places and have the red reflective of s polarization state and make it to get to light-combining prism 210, PBF 262 is used to make the green light LG of the p polarization that reflects at dichronic mirror 125 places to pass to make it to get to reflection type liquid crystal panel 202 from it, and with the process spatial modulation at reflection type liquid crystal panel 202 places and have the green light reflection of s polarization state and make it to get to light-combining prism 210, the 3rd PBF 263 is used to make the blue light LB of the p polarization that reflects at dichronic mirror 125 places to pass to make it to get to reflection type liquid crystal panel 203 from it, and with the process spatial modulation at reflection type liquid crystal panel 203 places and have the blue light reflection of s polarization state and make it to get to light-combining prism 210, optical lens 127 to 129 is arranged in first, the second and the 3rd PBF 261,262 and 263 light incident side.
First, second and the 3rd PBF 261,262 and 263 and reflection type liquid crystal panel 201,202 and 203 install by fixed head 310-1,310-2 and 310-3, make them corresponding with the light entrance face of light-combining prism 210.
In liquid crystal projector 100, carry out integration by unshowned integral optical system (integrator) and aim at by the definite predetermined polarisation direction of polarization conversion device (P-S converter) from the white light of light source 11 output.Output light is directed so that get to reflection type liquid crystal panel 201,202 and 203 by the lens 121 of lamp optical system 11, is divided into three optical wavelength zones by the dichronic mirror that is made of dichronic mirror 122,125 etc. afterwards.The light beam of color separation is got to reflective polarizer.Have only the light of particular polarization to be selected and to get to reflection type liquid crystal panel 201,202 and 203 by first, second and the 3rd PBF 261,262 and 263.Reflection type liquid crystal panel 201,202 and 203 is impacted by rgb light.
To offer reflection type liquid crystal panel 201,202 and 203 corresponding to the vision signal (picture signal) of incident light color, incident beam is thereon according to the rotation of vision signal generation polarization state, modulated and output.Get to PBF 261,262 and 263 once more from the modulated light beam of liquid crystal panel emission.Light-combining prism 210 is selected and got to the polarized light component that only turns over 90 degree just from the light beam of getting to PBF 261,262 and 263.The column of colour of modulating at three reflection type liquid crystal panel places is in the merging of light-combining prism 210 places and be transmitted into equidirectional.The light that merges emission from light-combining prism 210 is output and projects to screen etc. by projecting lens 216.
Optical instrument structure
At first, the structure to the PBF that is used to install optical instrument 300 describes.
Fig. 4 A and 4B are the views that is used to illustrate the light-combining prism plane of incidence and the surface of emission.
Close light (closing look) prism 210 by for example a plurality of glass prisms (four have identical shaped substantially isosceles right-angle prism) and be formed on two of glass prism faying face place have the predetermined optical characteristic interference filter in conjunction with constituting.The first interference filter reflect blue light also allows red light and green light is passed through from it.The second interference filter reflection red light also allows green and blue light to pass through from it.Therefore, merged by the column of colour of reflection type liquid crystal panel 201,202,203 modulation and got to projecting lens 216.
Light-combining prism 210 has square or rectangular shape.First surface 2101 forms the reflection of the 3rd PBF 263 places and the plane of incidence of the light modulated by liquid crystal panel 203, be formed on the reflection of the 2nd PBF 262 places and the plane of incidence of the light modulated by liquid crystal panel 202 perpendicular to the second surface 2102 of first surface 2101, be formed on the reflection of a PBF 261 places and the plane of incidence of the light modulated by liquid crystal panel 201 towards first surface 2101 and perpendicular to the 3rd surface 2103 of second surface 2102.Also have in the light-combining prism 210 perpendicular to first surface 2101 and the 3rd surface 2013 and towards the 4th surface 2104 of second surface 2102, it forms the surface of emission of synthetic light.
In described embodiment, has for example fixed head that forms of glass material of the usefulness that combines with it by three planes of incidence of first 2101, second 2102 and the 3rd 2103 light-combining prisms that constitute 210.First to the 3rd PBF 261 to 263 and reflection type liquid crystal panel 201 to 203 are installed on these fixed heads.
Fig. 5 is the view according to fixed head topology example of the present invention.As shown in Figure 5, fixed head 310 is formed by the column dish of for example triangular-section, and it has the lateral section that forms isosceles right triangle.In three sides 311 to 313, side 311 is faces of contact light-combining prism, and side 312 is the faces that contact the reflection type polarization element that is made of PBF, and side 313 becomes the face of supporting reflex formula liquid crystal panel.
Fig. 6 is the combine view of state of fixed head and three planes of incidence of light-combining prism.
Light-combining prism 210 combines as shown in Figure 6 with fixed head 310.In the example of this figure, the last lower limb of a plane of incidence of light-combining prism 210 combines with two fixed heads among Fig. 6.Particularly, the side 311 that the shape and size of fixed head 310-1U and 310-1B are all identical is attached to first 2101 of light-combining prism 210 by bonding agent etc.The side 311 that the shape and size of fixed head 310-2U and 310-2B are all identical is attached to second 2102 of light-combining prism 210 by bonding agent etc.The side 311 that the shape and size of fixed head 310-3U and 310-3B are all identical is attached to the 3rd 2103 of light-combining prism 210 by bonding agent etc.
At this moment, be used in conjunction with each face 312 of reflection type polarization element parallel to each other or substantially parallel, and be located substantially on same plane on the vertical direction, wherein the reflection type polarization element is made of first to the 3rd PBF 261 to 263 of per two the fixed head 310-1U that are installed to the light-combining prism 210 same planes of incidence and 310-1B, 310-2U and 310-2B and 310-3U and 310-3B.
Fig. 7 A and 7B are the views of state when being installed to fixed head by the reflection type polarization element that PBF constitutes.
Shown in Fig. 7 A and 7B, the reflection type polarization element that is made of first to the 3rd PBF 261 to 263 is installed to face 312 and is used for per two fixed head 310-1U and 310-1B, 310-2U are in the same place with the reflection type polarization combination of elements of 310-2B and 310-3U and 310-3B.
Fig. 8 A and 8B are the views that is installed to the state of fixed head by the reflection type liquid crystal panel that PBF constitutes.
Shown in Fig. 8 A and 8B, reflection type liquid crystal panel 201,202 and 203 usefulness for example bonding agent are installed to the face 313 of the reflection type liquid crystal panel that is used to support per two fixed head 310-1U and 310-1B, 310-2U and 310-2B and 310-3U and 310-3B.
Fig. 9 A and 9B are used for the view of reflection type liquid crystal panel with respect to the preferred structure example of fixed head installation.
In order to adjust three reflection type liquid crystal panels 201,202 and 203 and fix its position, used the structure among for example Fig. 9 A and 9B so that their projected position equates." prism side carriage 320U and 320B " is attached to fixed head 310U and 310B." panel lateral bracket 321U and 321B " is installed to reflection type liquid crystal panel 201 to 203 with screw etc.Afterwards, prism side carriage 320U and 320B and panel lateral bracket 321U and 321B are combined.The formation of prism side carriage 320U and 320B makes their cross section approximately form L shaped and stably support fixation plate 310U and 310B.
As the advantage of the mounting structure of Fig. 9 A and 9B, what can mention is when changing liquid crystal panel, in order to pull down panel lateral bracket and liquid crystal panel, only to need screw 322-1U, 322-2U, 322-1B and 322-2B are pulled down.This is that hope can be reused because liquid crystal panel costs an arm and a leg.Shown in Fig. 8 A and 8B,, when it is reused, after pulling down liquid crystal panel, must remove the bonding agent that is used in conjunction with them, scolder etc. if be directly connected to fixed head 310.
Notice that the panel lateral bracket also can directly be installed to fixed head and need not to use the prism side carriage.
As mentioned above, in described embodiment, light-combining prism 210 has three reflection type liquid crystal panels 201 to 203, and by PBF 261 to 263 constitute with fixed head 310U and 310B in conjunction with and be installed to reflection type polarization element on it.Fixed head is made by glass material.Under the actual techniques situation, use be material such as magnesium and aluminium with big linear expansion coefficient, therefore because external disturbance temperature variation for example, depart from sometimes the projected image position of three liquid crystal panels.In the present embodiment, by with same fixed head 310 reflection type liquid crystal panel 201 to 203 and the reflection type polarization element that is made of PBF 261 to 263 being installed to light-combining prism 210, liquid crystal panel and/or reflection type polarization element are because thermal expansion etc. mobile less.By with having less than 10 * 10
-6K
-1The material of linear expansion coefficient such as glass material form fixed head 310, amount of movement has been reduced greatly.
Figure 10 to 14 is views that explanation is used for the more preferably structure that the reflection type polarization element that will be made of PBF and reflection type liquid crystal panel be installed to fixed head.
In such mounting structure, as shown in Figure 10 and Figure 11, at first transparency carrier (cylindricality) 331 to 333 is attached to the light entrance face 2101,2102 and 2103 of light-combining prism 210.These substrates 331 to 333 are shorter than the height that closes optical element 210.Be that fixed head 310 is formed on the last lower limb on surface 2101,2102 and 2103, they can be supported reliably by the face of light-combining prism 210 and transparency carrier 331 to 333.Here, transparency carrier 331 to 333 will be called as " glass partition ".
Next, shown in Figure 12 and 13, make the single surface of glass partition 331 to 333 be close to the plane of incidence 2101,2102 and 2103 faces that form of light-combining prism 210 and combine with it.Another fixed head is with the same manner combination.Thus, each fixed head can be combined between these two faces of the plane of incidence of face of fixed head and light-combining prism 210 and need not to insert other support component etc., so can realize high-precision stable engagement.Figure 14 illustrates the situation that reflection type liquid crystal panel has been installed.
By this structure, also can between for example liquid crystal panel 202 and light-combining prism 210, provide required space is installed etc., can reduce the increment of projecting lens 216 back focal length.
That is, air refraction is different with the refractive index N of glass partition 331 to 333, and therefore the light through air layer and glass partition 331 to 333 interfaces can be refracted.This refraction effect is based on Snell laws of refraction.Therefore, under the situation that glass partition 331 to 333 is arranged, the optical range from projecting lens 216 to liquid crystal panel (medium being transformed under the situation of air in hypothesis) shortens.When providing thickness for example to be the glass partition 331 to 333 of d, consider the air characteristic chamber length, the definite distance of shortening is d (1-1/N).Therefore, compare with the situation that glass partition 331 to 333 is not provided, the back focal length of projecting lens 216 can be shorter.
Notice that fixed head 310 is formed by glass material/quartz/FeNiCo etc.Linear expansion coefficient is 10 * 10
-6K
-1
By using above-mentioned mounting structure, can prevent the deviation of the alignment of liquid crystal projector with simple structure.The i.e. deviation of the alignment that takes place with respect to the deviation of the reflecting surface 210a of light-combining prism 210 and 210b owing to incident angle.Be supported on the fixed head that is attached to the plane of incidence as reference surface and with PBF 261 to 263 by the plane of incidence 2101,2102 and 2103 the mach light-combining prism 210 of high precision, the deviations that is caused by the temperature variation that is PBF 261 to 263 at least can be depressed minimum value (change in size by small-sized fixed head 310 causes), and wherein said deviations becomes the reason of incident angle with respect to the deviation of reflecting surface 210a and 210b.
Instrument uses the fixed head 310 that forms separately in the example of noting illustrating in the above description, but as shown in figure 15, also can apply the present invention in such instrument, and promptly fixed head is integrally formed.In this case,, can simplify installation process, so this is practical by being applied to the mounting structure relevant with Figure 10 to Figure 14.
Figure 16 A and 16B have been to use the skeleton view according to the liquid crystal projector of the optical instrument of second embodiment of the invention.Figure 17 is the view that can be applicable to the light-source structure example of the projector shown in Figure 16 A and the 16B.Figure 18 is the view that reflection type liquid crystal panel is installed to the state of fixed head among second embodiment.Figure 19 is the view that illustrates the example of practical structures and beam path in the projector shown in Figure 16 A and the 16B.The cross prism optical system arrangenent diagram on every side that provides in the projector shown in Figure 16 A and the 16B is provided Figure 20.
The main element of projector
In Figure 16 A and 16B, projector 200 comprises light-combining prism (after this being called " cross prism ") 210A that Graphic Center partly locates and the projecting lens 216A of its front.Generally speaking, projector 200 is at two faces of light-combining prism 210A with towards projecting lens 216A, passes on three directions of side of light-combining prism 210A to have following optical system.In Figure 16 A and 16B, in the left side of light-combining prism 210A, provide the first reflection type liquid crystal panel 201A, a PBF 261A, first linear polarizer 211 as first optical system, and a 1/n (n be 2 or bigger integer) wave plate 221.In Figure 16 A and 16B, the side passing light-combining prism 210A in the face of projecting lens 216A provides the second reflection type liquid crystal panel 202A, the 2nd PBF 262A and second linear polarizer 212 as second optical system.In Figure 16 A and 16B,, three-mirror reflective liquid crystal panel 203A, the 3rd PBF 263A, the 3rd linear polarizer 213 and the 3rd 1/n wave plate 223 are provided as the 3rd optical system on light-combining prism 210A right side.
Optical instrument 300 according to the embodiment of the invention is formed by light-combining prism 210A, first optical system, second optical system and the 3rd optical system, wherein first optical system comprises the first reflection type liquid crystal panel 201A, a PBF 261A, first linear polarizer 211, an and 1/n wave plate 221, second optical system comprises that the second reflection type liquid crystal panel 202A, the 2nd PBF 262A and second linear polarizer, 212, the three optical systems comprise three-mirror reflective liquid crystal panel 203A, the 3rd PBF 263A, the 3rd linear polarizer 213 and the 3rd 1/n wave plate 223.
Attention does not provide second wave plate corresponding to the first and the 3rd wave plate 221 and 223 in second optical system.Its reason will illustrate below.When three primary colors merge in light-combining prism 210A, for two kinds of primary colors in the three primary colors, in the example of Figure 20, get to the light 271m of light-combining prism 210A reflecting surface 201a ' and get to reflecting surface 210a ' and the 210b ' reflection of the light 273m of light-combining prism 210A reflecting surface 201b ' at light-combining prism 210A from the 3rd optical system from first optical system, therefore its phase place has also changed 90 degree.On the other hand, get to the light of light-combining prism 210A among light-combining prism 210A, not being reflected from second optical system.In order to adjust this phase reversal, 1/ n wave plate 221 and 223 are provided for first optical system and the 3rd optical system.There is no need provides 1/n wave plate to second optical system.
Can suitably select how selecting two kinds of primary colors in the three primary colors.Attention is in light-combining prism 210A, and the s light beam is suitable for reflection, and the p light beam is suitable for transmission.Therefore, in the present embodiment, it is exemplary that polarization state is selected.
Light-combining prism 210A and projecting lens 216A arrange at grade basically.The one PBF 261A of first optical system, first linear polarizer 211 and a 1/n wave plate 221, the 2nd PBF 262A of second optical system and second linear polarizer 212, and the 3rd PBF 263A of the 3rd optical system, the 3rd linear polarizer 213 and the 3rd 1/n wave plate 223 arrange at grade that basically 210A is clipped in the middle with light-combining prism.Like this, the optical system of constituting projector 200 is arranged (arrangement) at grade basically when being clipped in light-combining prism 210A between them.
Except the element (optical element) of optical system described above, the projector 200 of this embodiment of the present invention also comprises three kinds of light sources 251 to 253 of promptly blue (B) light of output three primary colors, green (G) light and red (R) light.Its details will describe in detail in the back.
In the present embodiment, three reflection type liquid crystal panel 201A to 203A realize separately to a kind of function of carrying out spatial modulation in promptly blue (B) light of three primary colors, green (G) light and red (R) light.Do not provide in second optical system the 1/n wave plate, the structure of these reflection type liquid crystal panels 201A to 203A is basic identical.Which carries out spatial modulation separately to blue (B) light, green (G) light and red (R) light and can determine arbitrarily in them.Which kind of promptly can specify arbitrarily by the first reflection type liquid crystal panel 201A, the second reflection type liquid crystal panel 202A and each self-modulation of three-mirror reflective liquid crystal panel 203A primitive color light.
As an example, present embodiment with explanation make the first reflection type liquid crystal panel 201A as red reflex formula liquid crystal panel with the image of modulated red coloured light, the second reflection type liquid crystal panel 202A as the image of green reflection type liquid crystal panel with the modulation green light, and three-mirror reflective liquid crystal panel 203A is as the situation of blue reflection type liquid crystal panel with the image of modulation blue light.For this purpose, unshowned picture signal process instrumentation nature according to the image displaying contents to red reflex formula liquid crystal panel 201A output image signal so that redness is modulated, to green reflection type liquid crystal panel 202A output image signal so that green is modulated, to blue reflection type liquid crystal panel 203A output image signal so that blueness is modulated.The detailed description of noting the picture signal process instrumentation will be omitted.
The structure of optical instrument
Next the optical instrument structure that is used for projector 200 will be shown.As mentioned above, Figure 18 is in the projector 200, and reflection type liquid crystal panel is installed to the view of fixed head state.As shown in figure 18, the reflection type polarization element that constitutes by first to the 3rd PBF 261A to 263A be installed to face 312A with two (to) fixed head 310A-1,310A-2 and 310A-3 combine.Reflection type liquid crystal panel 201A, 202A and 203A also with bonding agent for example be installed to per two with respect to supporting (to) light-combining prism 211A (homonymy) upside of a side of the reflection type liquid crystal panel of fixed head 310A-1,310A-2 and 310A-3.
By using such structure, when around temperature change the time, even PBF 261A to 263A is owing to the size of fixed head 310A changes and location deviation (angular deviation), therefore reflection type liquid crystal panel 201A, 202A and 203A also produce the projection video position deviation of equidirectional thereupon, do not have deviation of the alignment to produce basically or are further reduced for overlapping video.
Light source
Among Figure 17 illustrated light source 500 comprise lamp 501, the compound eye integrator 502 and 503 of exporting beam of white light, the PS conversion element 504 that is used for p polarization state and s polarization state are changed, red reflex formula dichronic mirror 506, green and blue reflective dichronic mirror 507, all catoptrons 508,509,512,511 and 513, and collector lens 515 and 516.
Become the boundling illumination light and aim at the polarization direction through compound eye integrator 502 and 503 from the beam of white light of lamp 501 emissions through PS conversion element 504.Aiming at the illumination white light 520 of polarization direction in PS conversion element 504 is assembled to reflection type liquid crystal panel 201A and 203A by main collector lens 505.White light 520 is by 507 fens au bleus of red reflex dichronic mirror 506 and green, blue reflecting dichroic mirror, green and red.Red reflex light 521 in the reflection of red reflex dichronic mirror 506 places is changed direction (polarization) by completely reflecting mirror 509, assembled by collector lens 516, to the red reflex formula liquid crystal panel 201A reflection that is positioned above the light source 500, and become red light 271 at completely reflecting mirror 513 places.The reflected light 522 with green and blue color spectrum in green and the reflection of blue reflecting dichroic mirror 507 places is changed direction (polarization) and arrives green reflecting dichroic mirror 510 by completely reflecting mirror 508.Because green reflecting dichroic mirror 510, green light is reflected and its direction (polarization) is changed to the direction of completely reflecting mirror 511, direction is changed to the direction of light source more than 500 by completely reflecting mirror 511, green reflection type liquid crystal panel 202A to projector 100 assembles by collector lens 514, and becomes green light 272.The light that reflects at completely reflecting mirror 508 places is assembled at collector lens 515 places and by the blue reflection type liquid crystal panel 203A of completely reflecting mirror 512 reflections to projector, is become blue light 273.
In this instructions and accompanying drawing, for simplicity, in the illustrated light source 500 of Figure 17, the part that is used for output red light 271 will be called as " red illumination light source 251 ", the part that is used to export green light 272 will be called as " green illumination light source 252 ", the part that is used for output blue light 273 will be called as " blue illumination light source 253 ", shown in dotted line among Figure 16 A and the 16B.
Figure 19 is the sectional drawing that the first reflection type liquid crystal panel 201A, red illumination light source 251 is shown and is arranged in position relation between the PBF 261A between the two as representative in the mode of amplifying.Illustrated as Figure 19, the projector 200 that illustrates comprises a PBF 261A who is arranged in to tilt with miter angle between red illumination light source 251 and the red reflex formula liquid crystal panel 201A on red reflex formula liquid crystal panel 201A surface.The one PBF 261A is also with respect to about 45 degree of red light 271 inclinations, and this red light 271 is from 251 outputs of red illumination light source and incides the red reflex formula liquid crystal panel 201A vertical substantially with the plane.
In the same manner as described above, projector 200 comprises the 2nd PBF 262A that is arranged in to tilt with miter angle between green illumination light source 252 and the green reflection type liquid crystal panel 202A on green reflection type liquid crystal panel 202A surface.The 2nd PBF 262A is also with respect to about 45 degree of green light 272 inclinations, and this green light 272 is from green illumination light source 252 outputs and incides the green reflection type liquid crystal panel 202A vertical substantially with the plane.In the same manner as described above, projector 200 also comprises the 3rd PBF 263A that is arranged in to tilt with miter angle between blue illumination light source 253 and the blue reflection type liquid crystal panel 203A on blue reflection type liquid crystal panel 203A surface.The 3rd PBF 263A is also with respect to about 45 degree of blue light 273 inclinations, and this blue light 273 is from 253 outputs of blue illumination light source and incides the blue reflection type liquid crystal panel 203A vertical substantially with the plane.
Red beam path
Next will be with reference to the relation between figure 19A and 19B detailed description red reflex formula liquid crystal panel 201A, red illumination light source 251 and the PBF 261.Red illumination light source 251 emission is passed a PBF 261A and perpendicular to the red light 271 on red reflex formula liquid crystal panel 201A surface.In the present embodiment, red illumination light source 251 from red reflex formula liquid crystal panel 201A bottom reflection type liquid crystal panel 201A emission red light 271 redward.Pass a PBF 261A and get to red reflex formula liquid crystal panel 201A from the red light 271 of red illumination light source 251 outputs with the p polarization axle that is parallel to paper.Illustrated as Figure 19 A, when red light 271 is not modulated at red reflex formula liquid crystal panel 201A place, in fact red light 271 with p polarization axle is got to a PBF 261A, and is returned red illumination light source 251 in the reflection of red reflex formula liquid crystal panel 201A place.On the other hand, shown in Figure 19 B, it is modulated when red light 271 reflects at red reflex formula liquid crystal panel 201A place, red light 271 with the p polarization axle that is parallel to paper becomes and has perpendicular to the red light 271m of the modulation of the s polarization axle of paper and get to a PBF261A, at a PBF 261A place to light-combining prism 210A lateral reflection, pass first linear polarizer 211 and a 1/n wave plate 221, and advance to light-combining prism 210A.
In red illumination light source 251, adjust polarization axle in advance and have the red light 271 of illuminated polarization axle (be parallel to figure axle) with output so that become p light beam with respect to a PBF 261A.The one PBF 261A is set to permission and passes and with the direction of s light beam reflection from it with respect to the p light beam of a PBF 261A.Therefore, pass a PBF 261A and get to red reflex formula liquid crystal panel 201A from the red light with polarization of illumination axle 271 of red illumination light source 251 emissions.
Set red reflex formula liquid crystal panel 201A, green reflection type liquid crystal panel 202A and blue reflection type liquid crystal panel 203A and make these Reflector Panels 201A to 203A when the black that shows 0% so that modulate their plane of polarization, the polarization of incident light face is rotated, and showing 100% blueness, redness or when green, the polarization of incident light face rotated about 90 spend.The picture signal that is input to these reflection type liquid crystal panels 201A to 203A from for example image signal processing apparatus (not shown) is depended in the modulation work carried out of reflection type liquid crystal panel 201A to the 203A demonstration of carrying out which kind of color actually.
Shown in Figure 19 A, when red reflection type liquid crystal panel 201A shows 0% black, red light 271 is passed a PBF 261A and is got to red reflex formula liquid crystal panel 201A, but in fact be reflected, pass a PBF 261A once more and get back to red illumination light source 251 sides at red reflex formula liquid crystal panel 201A place.
Shown in Figure 19 B, the situation that shows 100% redness for red reflex formula liquid crystal panel 201A, red light 271 is passed a PBF 261A, get to red reflex formula liquid crystal panel 201A, and be reflected at red reflex formula liquid crystal panel 201A place, during this period, its polarization axle is turned over 90 degree by red reflex formula liquid crystal panel 201A, thereby become the red light 271m of modulation with p polarization axle, the polarization axle of the red light 271m that this modulated becomes the s axle perpendicular to paper, become s light beam with respect to a PBF 261A, be reflected at a PBF 261A place, pass first linear polarizer 211 and pass a 1/n wave plate 221 and advance to the direction of light-combining prism 210A.The red light 271m that modulated passed first linear polarizer 211 and a 1/n wave plate 221 that is arranged between a PBF261A and the prism 210A like this before getting to light-combining prism 210A.The light beam of first linear polarizer 211 is made as with the direction with respect to the s light beam of a PBF 261A basic identical by axle, the red beam 271m that in fact modulated can pass first linear polarizer 211.The axle of setting a 1/n wave plate 221 makes it to become miter angle with respect to its polarization axle.The polarization axle of red light 271m that passes the modulation of a 1/n wave plate 221 changes to the direction with respect to the s light beam of the reflecting surface of light-combining prism 210A.
As shown in figure 20, the reflecting surface 210a ' of light-combining prism 210A forms the coating that (plating) is useful on reflection Red.The red light 271m that modulated locates reflection at reflecting surface 210a ', and 216A advances to projecting lens, and imaging (projection) is to the screen that is positioned at projecting lens 216A front.
The blue light beam path
Next will make description to the track (path) of blue light beam.The blue light beam path is the same substantially with above-mentioned red beam path.Be positioned at blue reflection type liquid crystal panel 203A and the 3rd PBF 263A below from the blue light 273 of blue illumination light source 253 outputs, it passes the 3rd PBF 263A and gets to blue reflection type liquid crystal panel 203A.Adjusting polarization axle in advance makes the polarization axle of blue light 273 make it become the p light beam with respect to the 3rd PBF 263A.The direction setting of the 3rd PBF 263A make it to allow with respect to the p light beam of the 3rd PBF by and reflection s light beam, thereby make blue light 273 with above-mentioned polarization axle by and make it to get to blue reflection type liquid crystal panel 203A.
The situation that shows 0% black for blue reflection type liquid crystal panel 203A, in fact the blue light 273 that passes the 3rd PBF 263A and get to blue reflection type liquid crystal panel 203A passes the 3rd PBF 263A once more and consequently returns blue illumination light source 253 sides when blue reflection type liquid crystal panel 203A place is reflected and keeps the p polarization axle actually.
The situation that shows 100% blueness for blue reflection type liquid crystal panel 203A, the blue light 273 that passes the 3rd PBF 263A and get to blue reflection type liquid crystal panel 203A turns over 90 degree at blue reflection type liquid crystal panel 203A place its polarization axle of reflex time, becomes the blue light 273m of the modulation with s polarization axle.This blue light 273m that modulated becomes the s light beam, it has polarization axle and becomes s light beam with respect to the 3rd PBF 263A, thereby be reflected at the 3rd PBF 263A place, pass the 3rd linear polarizer 213 and the 3rd 1/n wave plate 223 and advance to the direction of light-combining prism 210A.The blue light 273m that modulated passed the 3rd linear polarizer 213 and the 3rd 1/n wave plate 223 that is arranged between the 3rd PBF 263A and the light-combining prism 210A like this before getting to light-combining prism 210A.The light beam of the 3rd linear polarizer 213 is made as with the direction with respect to the s light beam of the 3rd PBF 263A basic identical by axle, so in fact the blue light beam 273m that modulated can pass from it.The axle of setting the 3rd 1/n wave plate 223 makes it to become miter angle with respect to its polarization axle.The polarization axle of the blue light 273m of the modulation of from then on passing changes to the direction with respect to the s light beam of the reflecting surface of light-combining prism 210A.The reflecting surface 210b ' of light-combining prism 210A also is formed with the coating that is used for reflection blue.The blue light 273m that modulated locates reflection at reflecting surface 210b ', and 216A advances to projecting lens, is projected lens 216A imaging (projection) there to screen.
The green beam path
Next will make description to the track (path) of green beam.The green beam path is also the same substantially with above-mentioned blue light beam path.Be positioned at green reflection type liquid crystal panel 202A and the 2nd PBF 262A below from the green light 272 of green illumination light source 252 outputs, it passes the 2nd PBF 262A and gets to green reflection type liquid crystal panel 202A.Adjustment in advance makes it have polarization axle from the polarization axle of the green light 272 of green illumination light source 252 outputs, and this polarization axle makes it to become the p light beam with respect to the 2nd PBF 262A.The direction setting of the 2nd PBF 262A make it to allow with respect to the p light beam of the 2nd PBF262A from its by and reflection s light beam, thereby the green light 272 that the 2nd PBF 262A makes the polarization axle with s light beam from its by and make it to get to green reflection type liquid crystal panel 202A.
The situation that shows 0% black for green reflection type liquid crystal panel 202A, in fact green light 272 passes the 2nd PBF 262A once more when green reflection type liquid crystal panel 202A place is reflected and keeps the p polarization axle actually, return green illumination light source 252 sides afterwards.
The situation that shows 100% green for green reflection type liquid crystal panel 202A, green light 272 is passed the 2nd PBF 262A and is turned over 90 degree at green reflection type liquid crystal panel 202A place its polarization axle of reflex time, thereby becomes the green light 272m of the modulation of the polarization axle with s light beam.This green light 272m that modulated has the polarization axle of s light beam and becomes the s light beam.Because become the s light beam with respect to the 2nd PBF 262A, it is reflected at the 2nd PBF 262A place and advances to the direction of light-combining prism 210A.The green light 272m that modulated passed second linear polarizer 212 that is arranged between the 2nd PBF 262A and the light-combining prism 210A before getting to light-combining prism 210A.The light beam of second linear polarizer 212 is made as with the direction with respect to the s light beam of the 2nd PBF 262A basic identical by axle, so in fact the green beam 272m that modulated can pass second linear polarizer 212.
Note, as mentioned above, less than second wave plate that provides to second optical system corresponding to the first and the 3rd wave plate.Be formed with on the reflecting surface 210a ' of light-combining prism 210A and the 210b ' and have reflection blue and red coating, but reflecting surface 210a ' and 210b ' allow green light to pass from it, therefore the green light 272m that incides the modulation of prism 210A is passed and is advanced to projecting lens 216A, is projected lens 216A imaging (projection) there to screen.
Estimate
Figure 21 A is that illustrating for red light 271 for example is under the situation of 45 ° and 55 ° in the incident angle of red reflex formula liquid crystal panel 201A, the view that wavelength X and being used for concerns between the transmissivity μ of a PBF261A to the three PBF 263A (being also referred to as " PBFs ") of projector 200.Figure 21 B is that illustrating for red light for example is under the situation of 45 ° and 55 ° in the incident angle of red reflex formula liquid crystal panel, the view that concerns between the transmissivity μ of the polarization beam apparatus that the projector of wavelength X and correlation technique is used.
When (1) PBS and PBF being compared, compare with PBS, PBF is subjected to the influence of wavelength very low.Promptly when using PBF, blueness, green and red light with different wave length all have the transmissivity of same degree, therefore have a small amount of transmission change that is caused by the three primary colors wavelength difference.The result is that the degree that for example arrives each color of prism 210A is in identical situation.Like this, according to embodiments of the invention, almost there are not brightness reduction and contrast to reduce.In other words, compare, use the F number of the projector 200 of PBFs to diminish according to the embodiment of the invention, thereby also obtained higher brightness and contrast with the projector that uses PBS.
(2) it is lower than PBS that PBF is subjected to the influence of incident angle.Therefore, using in the projector 200 of PBFs according to the embodiment of the invention, having a small amount of inclination even project the incident light of reflection type liquid crystal panel 201A to 203A, transmissivity does not almost reduce (transmissivity is not fluctuation almost) yet.The result is, for example, obtained the space when for example arranging red illumination light source 251, red reflex formula liquid crystal panel 201A and a PBF 261A.Even just depart from when the light path of red lighting source 251, a PBF 261A and red reflex formula liquid crystal panel 201A is arranged with slightly, the brightness and contrast does not almost reduce yet.Consequently, after the assembling of optical system lamp, needn't finely tune the position of optical element.
As institute's principle of doing diagram among Figure 20, when the configuration of considering Figure 16 A and the illustrated projector 200 of 16B or structure, be used for trichromatic three optical systems are arranged in light-combining prism 210A in neat mode periphery.When Plane Angle is considered this, for example be used for red first optical system (red reflex formula liquid crystal panel 201A, the one PBF 261A, first linear polarizer 211, the one 1/n wave plate 221) is arranged in light-combining prism 210A left side, be used for green second optical system (green reflection type liquid crystal panel 202A, the 2nd PBF 262A, second linear polarizer 212) is arranged in light-combining prism 210A right side, and is used for blue the 3rd optical system (blue reflection type liquid crystal panel 203A, the 3rd PBF 263A, the 3rd linear polarizer 213, the 3rd 1/n wave plate 223) is arranged in and passes a light-combining prism 210A side opposite with projecting lens 216A.These three optical systems are arranged sequentially in three directions of light-combining prism 210A with this.When three-dimensional viewpoin is considered this, above three optical systems be arranged in the lip-deep same level of light-combining prism 210A position, therefore can make the physical dimension of projector 200 on short transverse littler.With this layout, the attachment optical system that need not to be used for separately red light 271, green light 272 and blue light 273 is completely reflecting mirror etc. for example.When considering foregoing description, projector 200 is easy to carry out the drawing design, and the efficient of receiving element is higher, therefore can make projector compacter, reduces its size and weight.
Compare with PBS, the size of PBF is littler, and weight is lighter.The result is that the size of projector 200 and weight can further reduce.
In projector, the lamp of light source part and the power consumption of liquid crystal panel part are big, and temperature uprises, and therefore must be cooled.In Figure 16 A, 16B and Figure 17 in the illustrated projector 200, picture signal is applied to red reflex formula liquid crystal panel 201A, green reflection type liquid crystal panel 202A and blue reflection type liquid crystal panel 203A to drive liquid crystal panel, therefore projector's 200 energy consumptions are big, temperature uprises, and must cool off.Certainly, lamp 510 parts of light source 500 have consumed many electric energy, and temperature uprises, so must cooling.When red reflex formula liquid crystal panel 201A, green reflection type liquid crystal panel 202A and blue reflection type liquid crystal panel 203A are cooled off,, be easy to take cooling provision because they are arranged in the sustained height place.For example, be blown into cooling air from cooling fan along these reflection type liquid crystal panels 201A to 203A surface level direction.Cooling effectiveness is also higher.
In Figure 16 A and 16B in the illustrated example, red illumination light source 251, green illumination light source 252 and blue illumination light source 253 can be made of the exemplary independent light source 500 among Figure 17 for example, and red illumination light source 251, green illumination light source 252 and blue illumination light source 253, promptly light source 500 is positioned at the below of prism 210A and three optical systems.Like this, light source 500 and optical system can be separated three-dimensionally, thereby can take cooling provision respectively.
The thermal exposure of the lamp 501 of light source 500 and the thermal exposure of reflection type liquid crystal panel 201A to 203A are widely different each other.The thermal exposure of lamp 501 is bigger, occupies overwhelming dominance.Therefore as mentioned above, comprise that the optical system of light source 500 and reflection type liquid crystal panel 201A to 203A can be arranged apart, can prevent the influence that the lamp 501 of light source 500 may apply reflection type liquid crystal panel 201A to 203A.Therefore, reflection type liquid crystal panel 201A to 203A can only consider that the cooling provision of himself designs.Needn't consider useless cooling provision.With this viewpoint, the size of cooling fan can be less, can make projector's 200 sizes littler, and weight is lighter.The noise of cooling fan is also lower.
The structure of instrument make light source 500 particularly lamp 501 be arranged in outside the shell that has held the projector 200 of element shown in Figure 16 A and the 16B, when only having introduced the white light 520 from lamp 501, cooling provision becomes and has been easy to.
The connector lug of reflection type liquid crystal panel 201A to 203A (the diagram part of the cable of a large amount of connections is shown) is towards different directions.In addition, reflection type liquid crystal panel 201A to 203A is positioned at the part at top, therefore is easy to be wired to connector lug.Number of cable to reflection type liquid crystal panel 201A to 203A is quite big, so installation surface has considerable influence.Like this, for projector 200, also obtained the effect that is easy to connect up, wiring only needs a very little space, can realize compact wiring.
Illustrated as Figure 16 A and 16B, element is not arranged in around the projecting lens 216A, thus projecting lens 216A be furnished with higher flexibility, can longitudinal moving mechanism be installed easily for projecting lens 216A.
Illustrated as Figure 16 A and 16B, reflection type liquid crystal panel 201A to the 203A layout that faces down.Therefore, float over the panel surface that dust in projector's 200 shells etc. is difficult for adhering to reflection type liquid crystal panel 201A to 203A, less by the light beam decline degree that dust adhesion causes, so the quality of display image does not almost descend.
The Focused Optical system that has comprised reflection type liquid crystal panel 201A to 203A is arranged in around the light-combining prism 210A compactly, so physical construction intensity is easy to improve.Therefore, almost do not have pixel location etc. to depart between three reflection type liquid crystal panel 201A to 203A, can obtain high quality graphic.
Image projection instrument of the present invention is not limited to top example.Can adopt various being equal to the foregoing description or similar modification.
For example, illustrated projector 200 can be in vertical reversing among Figure 16 A and 1 6B, for example make light source 500 (red illumination light source 251, green illumination light source 252, blue illumination light source 253) be arranged in top section and light-combining prism 210A etc. are arranged in base section, light source 500 and light-combining prism 210A etc. are lateral arrangement at grade also.
Those skilled in the art should be understood that according to design needs and other factors can produce various modifications, combination, sub-portfolio and replacement, as long as these modifications, combination, sub-portfolio and replacement are in the scope of claims or its equivalent.
Claims (11)
1. optical instrument comprises:
Light-combining prism with three light entrance faces, it receives the three-beam with different-waveband by described three light entrance faces, and described three-beam merging is used for output;
Three reflection type liquid crystal panels;
Three tabular reflection type polarization elements, itself and described three corresponding layouts of reflection type liquid crystal panel, each receives the light of different-waveband in three different-wavebands, respectively select the first light beam composition and make it to get to corresponding described reflection type liquid crystal panel, respectively provide by spatial modulation and be converted into the light entrance face of the correspondence of light in described three light entrance faces of described light-combining prism of the modulation of the second light beam composition at described reflection type liquid crystal panel place; And
At least three fixed heads with surface, it can combine with described three light entrance faces of described light-combining prism, wherein
Described at least reflection type polarization element is installed to the described light entrance face of the correspondence of described light-combining prism between described reflection type polarization element and the reflection type liquid crystal panel by described fixed head,
Wherein each described fixed head is formed the column of triangular section, in three sides, the composition surface of the light entrance face of first side formation and described light-combining prism, second side is formed for installing the surface of described reflection type polarization element, the 3rd side is formed for installing the surface of described reflection type liquid crystal panel, and described reflection type polarization element and described reflection type liquid crystal panel are installed in the described light entrance face of the correspondence of described light-combining prism by described fixed head.
2. optical instrument as claimed in claim 1, the described light entrance face of wherein said light-combining prism have combination optical clear dividing plate thereon, and described fixed head combines with described light entrance face with the state that is supported by the lateral parts of described dividing plate.
3. optical instrument as claimed in claim 1, wherein a plurality of described fixed heads combine with predetermined space with the described light entrance face of described light-combining prism.
4. optical instrument as claimed in claim 2, wherein a plurality of described fixed heads combine with predetermined space with the described light entrance face of described light-combining prism.
5. optical instrument as claimed in claim 1, wherein said fixed head comprises the prism side carriage that combines with it, described reflection type liquid crystal panel comprises the panel lateral bracket fastening with it, thereby described prism side carriage combines with described panel lateral bracket and described reflection type liquid crystal panel is installed to the corresponding described light entrance face of described light-combining prism.
6. optical instrument as claimed in claim 2, wherein said fixed head comprises the prism side carriage that combines with it, described reflection type liquid crystal panel comprises the panel lateral bracket fastening with it, thereby described prism side carriage combines with described panel lateral bracket and described reflection type liquid crystal panel is installed to the corresponding described light entrance face of described light-combining prism.
7. optical instrument as claimed in claim 1, wherein said fixed head has 10 * 10
-6K
-1Or littler linear expansion coefficient.
8. optical instrument as claimed in claim 1, wherein said fixed head is made by glass material.
9. optical instrument as claimed in claim 1, wherein said fixed head is formed by quartz or FeNiCo.
10. projection device comprises:
Light source;
Optical instrument, it is used for the light that described light source produces is divided into three beams according to wave band, three light beams of modulating is merged and launch merge resulting light; And
Projection section, it is used for described light output and projection from described optical instrument emission, wherein
Described optical instrument comprises:
Light-combining prism with three light entrance faces, it receives the three-beam with different-waveband by described three light entrance faces, and described three-beam merging is used for output;
Three reflection type liquid crystal panels;
Three tabular reflection type polarization elements, itself and described three corresponding layouts of reflection type liquid crystal panel, each receives the light of different-waveband in three different-wavebands, respectively select the first light beam composition and make it to get to corresponding described reflection type liquid crystal panel, respectively provide by spatial modulation and be converted into the light entrance face of the correspondence of light in described three light entrance faces of described light-combining prism of the modulation of the second light beam composition at described reflection type liquid crystal panel place; And
At least three fixed heads with surface, it can combine with described three light entrance faces of described light-combining prism, wherein
Described at least reflection type polarization element is installed to the described light entrance face of the correspondence of described light-combining prism between described reflection type polarization element and the reflection type liquid crystal panel by described fixed head,
Wherein each described fixed head is formed the column of triangular section, in three sides, the composition surface of the light entrance face of first side formation and described light-combining prism, second side is formed for installing the surface of described reflection type polarization element, the 3rd side is formed for installing the surface of described reflection type liquid crystal panel, and described reflection type polarization element and described reflection type liquid crystal panel are installed in the described light entrance face of the correspondence of described light-combining prism by described fixed head.
11. projection device as claimed in claim 10, the described light entrance face of wherein said light-combining prism have combination optical clear dividing plate thereon, described fixed head combines with described light entrance face with the state that is supported by the lateral parts of described dividing plate.
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Application Number | Priority Date | Filing Date | Title |
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JP2004258634 | 2004-09-06 | ||
JP2004258634 | 2004-09-06 | ||
JP2005250097 | 2005-08-30 |
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CN1746724A CN1746724A (en) | 2006-03-15 |
CN100388055C true CN100388055C (en) | 2008-05-14 |
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CNB2005100984938A Expired - Fee Related CN100388055C (en) | 2004-09-06 | 2005-09-06 | Optical apparatus and projection apparatus |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109564378A (en) * | 2016-07-29 | 2019-04-02 | 索尼公司 | Combining optical unit and projector |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2011227404A (en) * | 2010-04-22 | 2011-11-10 | Sony Corp | Optical device and projector |
JP5464049B2 (en) * | 2010-05-25 | 2014-04-09 | ソニー株式会社 | Optical apparatus and projection apparatus |
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JPH10232447A (en) * | 1997-02-21 | 1998-09-02 | Nikon Corp | Light valve attaching device |
JPH10319524A (en) * | 1997-05-22 | 1998-12-04 | Nikon Corp | Synthetic optical system unit and projection display device using the same |
US6345895B1 (en) * | 1997-05-22 | 2002-02-12 | Nikon Corporation | Projection type display apparatus |
CN2480868Y (en) * | 2001-07-02 | 2002-03-06 | 北京电影机械研究所 | Polarized light color splitting/synthesizing apparatus |
CN1402043A (en) * | 2001-08-10 | 2003-03-12 | 浙江大学 | Polarization color splitting and mixing system of liquid crystal projector using reflection liquid crystal board as picture source |
CN1469190A (en) * | 2002-06-19 | 2004-01-21 | 精工爱普生株式会社 | Optical apparatus and projector with the same optical apparatus |
CN1470891A (en) * | 2002-06-19 | 2004-01-28 | ��ʽ�����ٲ� | Changeable optical fiber grating and dispersion compensator |
JP2004246286A (en) * | 2003-02-17 | 2004-09-02 | Nikon Corp | Projection display apparatus |
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- 2005-09-06 CN CNB2005100984938A patent/CN100388055C/en not_active Expired - Fee Related
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH10232447A (en) * | 1997-02-21 | 1998-09-02 | Nikon Corp | Light valve attaching device |
JPH10319524A (en) * | 1997-05-22 | 1998-12-04 | Nikon Corp | Synthetic optical system unit and projection display device using the same |
US6345895B1 (en) * | 1997-05-22 | 2002-02-12 | Nikon Corporation | Projection type display apparatus |
CN2480868Y (en) * | 2001-07-02 | 2002-03-06 | 北京电影机械研究所 | Polarized light color splitting/synthesizing apparatus |
CN1402043A (en) * | 2001-08-10 | 2003-03-12 | 浙江大学 | Polarization color splitting and mixing system of liquid crystal projector using reflection liquid crystal board as picture source |
CN1469190A (en) * | 2002-06-19 | 2004-01-21 | 精工爱普生株式会社 | Optical apparatus and projector with the same optical apparatus |
CN1470891A (en) * | 2002-06-19 | 2004-01-28 | ��ʽ�����ٲ� | Changeable optical fiber grating and dispersion compensator |
JP2004246286A (en) * | 2003-02-17 | 2004-09-02 | Nikon Corp | Projection display apparatus |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109564378A (en) * | 2016-07-29 | 2019-04-02 | 索尼公司 | Combining optical unit and projector |
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CN1746724A (en) | 2006-03-15 |
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