CN101261358A

CN101261358A - Projection display device

Info

Publication number: CN101261358A
Application number: CNA2008100824754A
Authority: CN
Inventors: 安达隆治; 滨田文彦; 铃木创
Original assignee: Sanyo Electric Co Ltd
Current assignee: Sanyo Electric Co Ltd
Priority date: 2007-03-06
Filing date: 2008-03-06
Publication date: 2008-09-10
Anticipated expiration: 2028-03-06
Also published as: JP2012150516A; CN101261431B; JP4961298B2; JP2008250277A; CN101261358B; JP4823166B2; JP4988948B2; JP2011215642A; JP2008250282A; JP2011180608A; JP2008250281A; CN101261359B; CN101261431A; JP4901648B2; CN101261360A; JP4901595B2; CN101261359A; JP5269138B2; JP2008250280A; JP2008250283A

Abstract

The present invention provides a projection display device which can lead to that the light is smoothly and accurately oriented to the projected surface even in the condition of placing arranged. When the bottom side is leaded to face the carried surface and the body case (300) is carried on the carried surface, an arm component (400) which is used for correcting the height difference generated at the bottom side of the body case (300), and the projection light is oriented to the expected direction. The arm component (400) is provided with two adjusting screws (500) which are used for executing fine adjustment to the orienting direction of the light. Through adjusting the projecting amount of two adjusting screws (500), thereby that the projector can rotate along the direction in the X-Z surface and Y-Z surface while a projection (302) is taken as a fulcrum.

Description

Projection type image display apparatus

Technical field

The present invention relates to and to project through the light amplification that display element is modulated by the projection type image display apparatus of projection surface, especially, be applicable to and the image on the display element is imaged between projection lens portion and the catoptron as intermediary image and utilizes reflecting surface to throw the projection type image display apparatus of amplification this intermediary image.

Background technology

Image on the display element (liquid crystal panel etc.) amplified to project become commercialized by the projection type image display apparatus of projection surface (screen etc.) (hereinafter referred to as " projector ") and extensively popularize.In this projector,, proposed to take the projector of the structure of projection in order to shorten the distance between screen and the projector main body, promptly, carry out the wide-angleization of projection optics system, and, also make the inclined light shaft of the direct of travel of projection light with respect to projection optics system.

For example, in the invention of following patent documentation 1 record, as projection optics system use wide-angle lens with great visual angle, and, display element and screen are being moved up with respect to the mutual opposite invention of the optical axis of projection optics system, thereby projection distance shortens, and, realize not having the inclination projection of distorting.But in this existing invention, owing to need with great visual angle wide-angle lens, therefore being accompanied by the rising of cost of maximization of lens and the maximization of projector body becomes problem.

With respect to this, in the invention of following patent documentation 2 records, use projection lens unit and catoptron as projection optics system, image on the display element is imaged between projection lens unit and the catoptron as intermediary image, utilize catoptron to amplify projection this intermediary image, thereby realize the shortening of projection distance.According to this existing invention, realize wide-angleization by the catoptron of smaller curved surface, thus, can suppress the rising of cost and the maximization of projector main body.

In this projector, as shown in figure 18, imagine various user modes.In addition, in above-mentioned patent documentation 2 described inventions, as shown in figure 19, because projection lens portion and rows of mirrors are listed in same direction, therefore be arranged on ceiling and placing under the situation about being provided with, light source is towards horizontal direction, but, under situation about being provided with on the table, light source is towards vertical direction, and the life-span aspect of light source (lamp) has problems.

Patent documentation 1 spy opens flat 05-100312 communique

Patent documentation 2 spies open the 2004-258620 communique

But, in the structure of Figure 19, make through the light of modulation panel optical axis and move in the direction that frames out with respect to projection lens portion (dioptric system), and catoptron (reflecting surface) is being moved in the opposite direction with this side, but,, panel is moved in the direction near screen relative to the optical axis of projection lens portion (dioptric system) if in contrast, and make catoptron (reflecting surface) moving in the opposite direction with this side, then can further advance the wide-angleization of projection light.

But, so, based on catoptron moving with respect to projection lens portion, in the side of main body housing meeting bad student height difference, therefore, when being positioned in projector by mounting surface from this side (the placement setting of Figure 18 (b)), producing projector can tilt and can not make light successfully project the such problem of screen cover from horizontal direction.

In addition, this problem can solve by making above-mentioned side not become not the same plane of height difference, but so, can produce following problem,, produces useless dead zone (dead space) in main body housing that is, the projector main body maximization that becomes.

Summary of the invention

The present invention carries out in order to solve such problem, and its problem is, a kind of projection type image display apparatus is provided, even under situation about place being provided with, also makes fairing sharp and point to by projection surface exactly.

In view of above-mentioned problem, the present invention has following feature.

Projection type image display apparatus in the invention of technical scheme 1 is characterised in that to have: main body housing; Projection lens portion, the light after incident is modulated by optical modulation element; And catoptron portion, will be from the light of described projection lens portion outgoing towards being reflected by projection surface, on described main body housing, the 2nd side at the opposition side of the 1st side that is positioned at the projection mouth that has light relatively, form with the configuration of described projection lens portion and described catoptron portion and move corresponding height difference, described projection type image display apparatus also has height difference correction unit, make the 2nd side towards described main body housing being positioned in described during by mounting surface by mounting surface ground, proofread and correct described height difference, make light point to desirable direction from described catoptron portion.

Technical scheme 2 is as technical scheme 1 described projection type image display apparatus, it is characterized in that, on described height difference correction unit, be furnished with the adjustment anchor clamps, thereby these adjustment anchor clamps are used to change described the 2nd side of described main body housing and describedly by the distance of mounting surface the pointing direction from the light of described catoptron portion are finely tuned.

Technical scheme 3 is as technical scheme 2 described projection type image display apparatus, it is characterized in that, described the 2nd side in described main body housing, allocation position in described catoptron portion is furnished with teat, adjust described adjustment anchor clamps and change described the 2nd side of described main body housing and described by the distance between the mounting surface, thus, described main body housing is that fulcrum rotates with described teat.

Technical scheme 4 is as technical scheme 3 described projection type image display apparatus, it is characterized in that, described adjustment anchor clamps to be can constituting in different 2 described the 2nd sides that change described main body housing and described mode by the distance between the mounting surface, dispose described teat and described adjustment anchor clamps in these 2 modes that are positioned at the vertex of a triangle position with described teat.

Technical scheme 5 is characterized in that as technical scheme 1 to 4 any described projection type image display apparatus described adjustment anchor clamps are the adjustment screws that dispose in the mode that leading section contacts with described mounting surface.

Technical scheme 6 is as technical scheme 1 to 5 any described projection type image display apparatus, it is characterized in that, described the 2nd side in described main body housing, be formed with the screw hole that is used to install described height difference correction unit, when being arranged on ceiling, this screw hole is public to be and the screw hole of screw retention on installing mechanism.

According to the present invention, with the 2nd side towards by mounting surface when making main body housing be positioned in by mounting surface, owing to proofread and correct by height difference correction unit in the height difference that the 2nd side produces, therefore, even when placement is provided with, light from catoptron is pointed to exactly towards by the direction of projection surface.

In addition, as technical scheme 2 to 5 invention, if anchor clamps and teat are adjusted in configuration, then can finely tune, and image can be throwed exactly the projecting direction of light.Here, as the invention of technical scheme 5, use when adjusting screw as the adjustment anchor clamps, proper handling is adjusted screw, thus, can easily and carry out the adjustment of the pointing direction of projection light simply.In addition, as the invention of technical scheme 4,, then can finely tune the pointing direction of projection light at two-dimensional directional if make application point and the teat of adjusting anchor clamps be positioned at the vertex of a triangle position, and, can smoothly and carry out the adjustment of the pointing direction of projection light exactly.

And then, as the invention of technical scheme 6,, then can effectively utilize space in the face of described the 2nd side if the screw hole of the screw hole that will be used to install height difference correction unit when being arranged on ceiling is general.In addition, carrying out ceiling when being provided with, owing to do not need height difference correction unit, therefore dismounting height difference correction unit thus, can be used these screw holes as the screw hole that is arranged on ceiling.

Effect of the present invention and meaning are clearer by the explanation meeting of embodiment shown below.But following embodiment is finally also just implemented an illustration when of the present invention, and the content that the present invention is not subjected to put down in writing in the following embodiment fully limits.

Description of drawings

Fig. 1 is the figure (stereographic map) of the inner structure of the projector in the expression embodiment.

Fig. 2 is the figure (vertical view) of the inner structure of the projector in the expression embodiment.

Fig. 3 is the figure (upward view) of the inner structure of the projector in the expression embodiment.

Fig. 4 is the figure (right view) of the inner structure of the projector in the expression embodiment.

Fig. 5 is the figure (left view) of the inner structure of the projector in the expression embodiment.

Fig. 6 is the figure (front elevation) of the inner structure of the projector in the expression embodiment.

Fig. 7 is the figure (rear view) of the inner structure of the projector in the expression embodiment.

Fig. 8 is the figure (stereographic map) of the structure of the projection optics system in the expression embodiment.

Fig. 9 is the figure (sectional view) of the structure of the projection optics system in the expression embodiment.

Figure 10 is the figure of the structure of the light engine in the expression embodiment.

Figure 11 is the figure (stereographic map) of the surface structure of the projector in the expression embodiment.

Figure 12 is the figure (right view) of the surface structure of the projector in the expression embodiment.

Figure 13 is the figure (front elevation) of the surface structure of the projector in the expression embodiment.

Figure 14 is the figure (upward view) of the surface structure of the projector in the expression embodiment.

Figure 15 is arm member in the expression embodiment and the figure that adjusts the structure of screw.

Figure 16 is the figure of the user mode (place and be provided with) of the projector in the expression embodiment.

Figure 17 is the figure of the user mode (place and be provided with) of the projector in the expression embodiment.

Figure 18 is the figure of the user mode of expression projector.

Figure 19 is the figure of explanation prior art.

Embodiment

Below, the structure of the projector in the embodiment is described with reference to accompanying drawing.

Fig. 1 to Fig. 7 is the figure that the inner structure of the projector under the state of exterior case has been omitted in expression.Fig. 1 is the stereoscopic figure of projector, and Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7 are respectively vertical view, upward view, right view, left view, front elevation and the rear views of inner structure.In addition, in Fig. 2 to Fig. 7, the structure of the projector under the state of main substrate 40 has been dismantled in expression.In addition, in Fig. 8 and Fig. 9, represent the stereoscopic figure and the sectional view (synoptic diagram) of projection optics system respectively.

Referring to figs. 1 through Fig. 7, projector has light engine 10, projection optics system 20, power supply unit 30, main substrate 40, AV terminal portion 50, suction fan 60, vent fan 70, AC import (inlet) 90.In addition, 80a is the boss from the upper face side casing, and 80b is the boss from the bottom surface side casing, and 80c is the lining that is used to absorb vibration.Plate-like portion 205 shown in Figure 8 is clamped between boss 80a, the 80b via two lining 80c, thereby projection optics system 20 is loaded in the casing as Fig. 1, Fig. 2, shown in Figure 3.Owing to projection optics system 20 is held via the lining 80c that is used to absorb vibration, therefore impacts and be difficult to transmit to projection optics system 20.In addition, projection optics system 20 is supported from the boss 80a of upper face side casing and from the boss 80b of bottom surface side casing via the lining 80c that is used to absorb vibration, so holding strength improves.

Light engine 10 will be separated into the light of blue wave band, green wave band and red wave band from the white light of light source 101, and, by display element (liquid crystal panel) light of each wave band is modulated, and, it is synthetic that the light of each wave band after will being modulated by dichroic prism (dichroic prism) carries out color, and the light outgoing after will synthesizing is to projection optics system 20.As shown in Figure 2, light source 101 disposes in the mode to the X-direction irradiates light, and projection optics system 20 is that the mode of Y direction disposes with the optical axis.In addition, with reference to Figure 10 the structure of light engine 10 and the position relation of light engine 10 and projection optics system 20 are described.

30 pairs of light sources 101 of power supply unit and main circuit 40 provide power supply.Via 90 pairs of power supply units of AC import, 30 input AC voltages.Main circuit 40 is the circuit that are used to drive and control projector.As shown in Figure 1, the circuit substrate that keeps main circuit 40 disposes in the upper surface of light engine 10 mode with the part that covers light engine 10.In addition, via 50 pairs of main circuits of AV terminal portion, 40 input AV (Audio Visual) signals.

As Fig. 1 and as shown in Figure 3, are furnished with three suction fans 60 at the bottom surface side of light engine 10.Be configured in the vent fan 70 (with reference to Fig. 5) of left surface side of light engine 10 and vent fan 70 (with reference to Fig. 7) exhaust that is configured in rear side by 60 inhaled airs of these suction fans.Configuration suction fan 60 and vent fan 70 so thus, flowed by the mode of 60 inhaled airs of suction fan with optical system, light source 101 and power supply unit 30 by light engine 10.In addition, institute's inhaled air such as Fig. 2, Fig. 3 and as shown in Figure 6 import to the side of light source 101 via passage (duct) 61, flow towards vent fan 70 from the side of light source 101.By flowing of such air, remove the heat that these members produce.

Fig. 8 and Fig. 9 represent the stereoscopic figure and the sectional view of projection optics system.In addition, Fig. 9 is the figure that schematically shows the A-A ' section of Fig. 8.

In the figure, the 201st, the projection lens unit, the 202nd, cover body, the 203rd, dust cap, the 204th, catoptron, the 205th, the catoptron lid, the 206th, light passes through window.

Projection lens unit 201 has: be used to make projection light to be imaged on lens combination on the intermediate image face; Gearing (actuator), thus be used to make part displacement on optical axis direction of these lens combination to adjust the focus state of projects images.Here, the focusing adjustment of projection lens unit 201 is to serve as that axle carries out control lever (lever) 201a rotation by the optical axis with projection lens unit 201.In addition, this control lever 201a does not cover the projection light that is throwed by window 206 from light to dispose from the outstanding mode in the side of projecting mirror head unit 201, to make as shown in Figure 8.

Catoptron 204 has the reflecting surface of aspherical shape, will pass through window 206 to being throwed by projection surface (screen cover) from light from the projection light wide-angleization of projection lens unit 201 incidents.

Projection lens unit 201 is housed in the cover body 202, and, covered by dust cap 203.In addition, catoptron 204 is housed in the catoptron lid 205, the catoptron lid is installed in cover body 202, thereby is installed in cover body 202.

As shown in Figure 9, the synthetic light that is generated by light engine 10 incides projection lens unit 201 in the position from the optical axis deflection Z-direction of projection lens unit 201.The synthetic light of incident incides catoptron 204 owing to projection lens unit 201 is subjected to lensing like this.So, synthetic light mirror 204 wide-angleizations that are reflected, via light by window 206 to being throwed by projection surface (screen cover).

In addition, as described above, synthetic light from light engine 10 incides projection lens unit 201 in the position of comparing the deflection Z-direction with the optical axis of projection lens unit 201, therefore catoptron 204 as shown in Figure 9, the mode that moves with the moving direction opposition side from the optical axis direction of projection lens unit 201 and synthetic light disposes.Here, catoptron 204 has the big reflecting surface of lens face than each lens that constitute projection lens unit 201, and therefore, the amount of movement of the optical axis of catoptron 204 relative projection lens unit 201 is bigger.Therefore, at the bottom surface side of projector, as Fig. 4 and as shown in Figure 5, produce bigger space G.

Then, with reference to Figure 10, the primary structure of light engine 10 is described.

Light source 101 is made of lamp (burner) and reflecting body (reflector), and the light that makes almost parallel is to lamp optical system 102 outgoing.Light source 101 is made of for example extra-high-pressure mercury vapour lamp.Lamp optical system 102 has compound eye integraph, PBS (polarization beam apparatus) array and collector lens, make the light quantity distribution equilibrium of inciding each coloured light of 106,109,115 o'clock of display element (liquid crystal panel), and, make polarisation of light direction towards dichronic mirror 103 a direction unanimity.

Dichronic mirror 103 only reflects the light (hereinafter referred to as " B light ") of the blue wave band from the light of lamp optical system 102 incidents, and red wave band (hereinafter referred to as " R light ") and green wave band (hereinafter referred to as " G light ") are seen through.Catoptron 104 will be by the B light after dichronic mirror 103 reflections to the direction reflection towards collector lens 105.

105 pairs of B light of collector lens provide lensing, so that B light incides display element 106 with directional light.Signal of video signal according to blueness usefulness drives display element 106, and according to this driving condition B light is modulated.In addition, is furnished with Polarizer (not shown) in the light incident side and the exiting side of display element 106.

Dichronic mirror 107 only reflects the R light that seen through dichronic mirror 103 and the G light in the G light.108 pairs of G light of collector lens provide lensing, so that G light incides display element 109 with directional light.Signal of video signal according to green usefulness drives display element 109, and comes G light is modulated according to this driving condition.In addition, is furnished with Polarizer (not shown) in the light incident side and the exiting side of display element 109.

110,112 pairs of R light of relay lens provide lensing, so that R light is identical for the incident state of

display element

106 and 109 with B light and G light for the incident state of display element 115.The light path of catoptron 111,113 change R light imports to display element 115 so that will see through the R light of dichronic mirror 107.

114 pairs of R light of collector lens provide lensing, so that R light incides display element 115 with the state of directional light.Signal of video signal according to redness usefulness drives display element 115, and according to this driving condition R light is modulated.In addition, is furnished with Polarizer (not shown) in the light incident side and the exiting side of display element 115.

B light and R light in B light, G light and the R light after dichroic prism 116 reflections are modulated by display element 106,109,115, and, make the G light transmission, thus, B light, G light and R light are carried out color synthesize.Carry out the light (synthetic light) of color after synthetic as described above, incide the projection lens unit 201 in the projection optics system 20.And, utilize catoptron 204 carry out wide-angleization, pass through window 206 to being throwed via light by projection surface (screen cover).

Such as shown, light source 101 disposes towards the mode of X-direction with the direction of illumination of light.Configuration light source 101 thus, uses even light source 101 is arranged under ceiling, placement setting and the setting any state on the table at projector like this, also always can locate light is shone to horizontal direction.

Figure 11 is the figure (stereographic map) of the outward appearance of internal mechanism that expression will the projector shown in Figure 1 projector that is housed in the interior state of casing.In addition, Figure 12, Figure 13 and Figure 14 are respectively right view, rear view and the upward views of projector.

Such as shown, on main body housing 300, in order to proofread and correct the height difference with the corresponding generation of above-mentioned space G (with reference to Fig. 4 and Fig. 5), arm member 400 is loaded in the bottom surface of main body housing.In addition, on this arm member 400, the mode that connects arm member 400 with leading section is loaded two adjustment screws 500.

Is furnished with action button portion 301 at the upper surface of main body housing 300.In addition, in the bottom surface of main body housing 300, is furnished with circular-arc teat 302 at the allocation position of catoptron 204.

Figure 15 is the figure that the loading condition of screw 500 relative arm members 400 is adjusted in expression.Arm member 400 is forming the resin molding on the panel beating of the shape shown in this figure is upper right.On arm member 400, be formed with and be used for four holes 401 of arm member 400 screw retention in the bottom surface of main body housing 300.In addition, the " loaded " position of adjustment screw 500 is with the structure shown in the amplification profile in scheming.

In amplification profile, the 403rd, the core panel beating, the 402, the 404th, at the bottom surface side of core panel beating 303 and the resin of upper face side molding.Integrally formed screw hole on the resin 402 of bottom surface side, the screw member 501 of adjusting screw 500 is twisted and is combined in this screw holes.

Utilize fixing screw 503 will adjust index dial (dial) 502 and be fixed on the screw member 501, thus, constitute and adjust screw 500.In addition, cushion pad (cushion) 504 in the front loading of screw member 501.The outward appearance of adjusting screw 500 is shown in the left end among the figure (side view).

As shown in figure 14, four screw hole 303a～303d in the middle of formed screw hole 303a～303i on the bottom surface of hole shown in Figure 15 401 and main body housing 300 are aimed at, and under this state, screw twisted and be incorporated among screw hole 303a～303d, thus, hold-down arm member 400.Here, screw hole 303a～303i is such shown in this figure bottom right, is made of the embedded nut (insert nut) behind the metal nut 305 of embedding in boss hole 304.

In addition,, use all screw hole 303a～303i using under the situation of projector in the mode that is arranged on ceiling shown in Figure 18 (a), main body housing 300 by screw retention at the installing mechanism that is used to be arranged on ceiling.At this moment, arm member 400 is disassembled from main body housing 300.

Figure 16 is the figure of expression with the state (place be provided with) of projector when bottom surface side is positioned in by mounting surface.Under this state, be configured in main body housing 300 the bottom surface circular-arc teat 302 be loaded in arm member 400 on two front ends of adjusting screws 500 with contacted by mounting surface.In addition, this state is the state that makes the overhang minimum of the bottom surface of adjusting screw 500 relative arm members 400.Under this state, the counter clockwise direction that the upper surface of main body housing 300 is in this figure with respect to level has been rotated the state of predetermined angular.

Adjust screw 500 and begin to rotate and make from the state of this figure and adjust screw 500 from the bottom surface of arm member 400 when further outstanding making, projector is a fulcrum with teat 302, rotates in the clockwise direction.Along with this rotates, the pointing direction of projection light rotates in the clockwise direction from the state of this figure.Figure 17 represents to make and adjusts screw 500 with respect to the overhang of the bottom surface of arm member 400 state when maximum.

In addition, make two overhang differences of adjusting screw 500, thereby projector direction in the face on X-Z plane is rotated, follow, pointing direction direction in the face on X-Z plane of projection light is rotated in this.So, suitably adjust two overhangs of adjusting screw 500, thus, in the face on the turned position that can make projector direction and X-Z plane in the face on Y-Z plane direction the two finely tune, thus, in the face on the pointing direction that can make projection light direction and X-Z plane in the face on Y-Z plane direction the two finely tune.

More than, according to present embodiment, make bottom surface side towards and on being positioned in main body housing 300 by mounting surface the time by mounting surface, owing to the height difference that the bottom surface side in main body housing 300 produces is proofreaied and correct by arm member 400, therefore, when placement is provided with, projection light is correctly pointed to towards by the direction of projection surface.

In addition,, suitably adjust screw 500, thus, can finely tune the projecting direction of light, and can throw image exactly according to present embodiment.Here, the adjustment of the projecting direction of light can be undertaken by making 500 rotations of adjustment screw, therefore can carry out this adjustment with easy and shirtsleeve operation.And then according to present embodiment, two application point and teats 302 of adjusting screw 500 are configured in the vertex of a triangle position, therefore, as described above, can finely tune the pointing direction of projection light at two-dimensional directional.

In addition, in the present embodiment, the screw hole when being used for the screw hole 303a～303d of hold-down arm member 400 and being arranged on ceiling is general, therefore can effectively utilize the space of main body housing 300 bottom surfaces.In addition, when being arranged on ceiling, owing to do not need arm member 400, therefore, dismounting arm member 400 thus, can make these screw holes 303a～303d use as the screw hole that ceiling is provided with usefulness.

In addition, in the present embodiment, because arm member 400 forms by panel beating, therefore when the carrying of projector etc., even hold arm member 400, arm member also can breakage.In addition, as described above, screw retention thus, is carried out the loading of arm member 400 on the higher embedded nut of physical strength, has removed projector even if therefore hold arm member 400, and arm member 400 can not come off from projector yet.Like this, in the present embodiment,, therefore, can suppress in advance directly to catch arm member 400 and the breakage that causes even accident etc. because the physical strength of arm member 400 and this loading part is higher.

More than, embodiments of the present invention have been described, but the present invention is not limited to above-mentioned embodiment.In addition, embodiments of the present invention can be carried out various changes except above-mentioned.

For example, in the above-described embodiment, utilize display element that B light, G light, R light are modulated, and utilize the light after dichroic prism will be modulated to synthesize, but, further utilize corresponding display element that the light beyond these wave bands is modulated, the light after the modulation is synthesized with B light, G light, R light, thereby it is also passable to incide projection optics system 20.For example, in the light that sends by light source 101, except B light, G light, R light, also exist under the situation of spectrum component of yellow wave band (hereinafter referred to as " Ye light "), Ye light is imported corresponding display element, and will synthesize also passable by dichroic prism with B light, G light, R light via the Ye light that this display element is modulated.

In addition, in the above-described embodiment, the display element that uses infiltration type still, also can be suitable for the present invention as the element that each coloured light is modulated in the projector of the display element that uses reflection-type.Which in addition, for the face incident that makes each coloured light from dichroic prism 116, except above-mentioned method, can suitably change.

In addition, in the structure example of Fig. 1,, use the compound eye integraph, still, also can use excellent integrator to replace it as the parts that make the light equalization.

In addition, in the above-described embodiment, show the projector that uses liquid crystal panel, but, even, also can be suitable for the present invention at the projector of DLP (DigitalLight Processing: digital light handle) (registered trademark of テキサスイ Application ス Star Le メ Application Star (TI) society) mode for example of the projection type image display apparatus with other image photogenerated system.

Embodiments of the present invention can suitably change in the scope of the technological thought that technical scheme is put down in writing.

Claims

1. a projection type image display apparatus is characterized in that,

Have: main body housing; Projection lens portion, the light after incident is modulated by optical modulation element; Catoptron portion will be from the light of described projection lens portion outgoing towards being reflected by projection surface,

On described main body housing, in the 2nd side of the opposition side that is positioned at the 1st side, form with the configuration of described projection lens portion and described catoptron portion and move corresponding height difference with light projection mouthful,

Also have height difference correction unit,, proofread and correct described height difference, make light point to desirable direction from described catoptron portion making the 2nd side described during by mounting surface towards described main body housing being positioned in by mounting surface ground.

2. according to the projection type image display apparatus of claim 1, it is characterized in that,

On described height difference correction unit, be furnished with the adjustment anchor clamps, thereby these adjustment anchor clamps are used to change described the 2nd side of described main body housing and describedly by the distance of mounting surface the pointing direction from the light of described catoptron portion are finely tuned.

3. according to the projection type image display apparatus of claim 2, it is characterized in that,

In described the 2nd side of described main body housing, be furnished with teat at the allocation position of described catoptron portion,

Adjust described adjustment anchor clamps and change described the 2nd side of described main body housing and described by the distance of mounting surface, thus, described main body housing is that fulcrum rotates with described teat.

4. according to the projection type image display apparatus of claim 3, it is characterized in that,

Described adjustment anchor clamps to be can constituting in different 2 described the 2nd sides that change described main body housing and described mode by the distance of mounting surface, dispose described teat and described adjustment anchor clamps in these 2 modes that are positioned at the vertex of a triangle position with described teat.

5. the projection type image display apparatus any according to claim 1 to 4 is characterized in that,

Described adjustment anchor clamps are the adjustment screws that dispose in the mode that leading section contacts with described mounting surface.

6. the projection type image display apparatus any according to claim 1 to 5 is characterized in that,

Described the 2nd side in described main body housing is formed with the screw hole that is used to install described height difference correction unit, and when being arranged on ceiling, this screw hole is public to be and the screw hole of screw retention on installing mechanism.