JP2004205667A - Projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projector whose cost can be reduced and which is equipped with an outer case superior in design. <P>SOLUTION: The projector is provided with a light source and a light modulator which modulates a light flux emitted from the light source corresponding to image information and forms an optical image and performs magnifying projection of the optical image formed by the light modulator. Further the projector has a casing 2 for housing a device main body including the light source and the light modulator. The casing 2 is provided with face-shaped bodies 11, 12 which are made of a synthetic resin and which cover the device main body and a metallic frame body 31 attached to the face-shaped bodies 11, 12. The casing 2 incorporates the face-shaped bodies 11, 12 and the frame body 31 and thereby the frame body 31 can bear external force or the like. Thus even when the face-shaped bodies 11, 12 are formed of the synthetic resin, sufficient strength can be secured. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
The present invention relates to a projector that includes a light source, and a light modulation device that modulates a light beam emitted from the light source according to image information to form an optical image, and that enlarges and projects the optical image formed by the light modulation device. .
TECHNICAL FIELD OF THE INVENTION
[0002]
[Background Art]
Conventionally, a projector that modulates a light beam emitted from a light source in accordance with image information to form an optical image, and performs enlarged projection has been used. In recent years, such a projector has been used in a large-scale store or in a public space. It is installed and displays a large screen to provide various image information to a large number of observers.
The projectors used for such purposes use high-intensity light source lamps so that clear projected images can be formed in stores, and in order to secure a sufficient projection distance, the projection lens must have a large aperture. Large ones are employed.
[0003]
For this reason, in such a projector, the weight of the apparatus main body including the light source lamp, the light modulation device, and the projection lens increases, and a sufficient strength is required for the outer case that houses the apparatus main body.
In order to respond to such demands, conventionally, a metal case such as aluminum or magnesium has been adopted as an exterior case of this type of projector (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-2000-258840 (paragraph number [0038], FIGS. 1 and 2)
[0005]
[Problems to be solved by the invention]
However, since such a metal outer case has a high material cost such as aluminum, magnesium and the like as the material of the outer case, it is desirable to use a synthetic resin as a material if possible.
Further, the metal outer case is inferior in workability as compared with the synthetic resin, and the color and shape variation of the outer case are limited. Therefore, an outer case having a higher design property is desired.
[0006]
An object of the present invention is to provide a projector which can be reduced in cost and is provided with an exterior case having high designability.
[0007]
[Means for Solving the Problems]
The projector according to the present invention includes a light source, and a light modulator that modulates a light beam emitted from the light source according to image information to form an optical image, and enlarges and projects the optical image formed by the light modulator. A housing for accommodating a device main body including the light source and the light modulation device, the housing being a synthetic resin planar body covering the device main body, and being attached to the planar body. And a frame body in which metal frame members are combined.
[0008]
Here, the planar body is for preventing dust and the like from the outside from entering the apparatus body by housing the apparatus body inside. For example, if the appearance of the projector is a rectangular parallelepiped, A bottom surface of the housing provided with legs, a top surface of the housing disposed to face the bottom surface of the housing, a front surface of the housing where the projection lens is exposed, a rear surface of the housing covering the rear end of the projector, and It can be configured to include left and right housing side surfaces.
Further, the frame body is configured as a structure that supports an external load in the housing and does not transmit the load to the apparatus body, and a frame member that configures the frame body is formed by, for example, sheet metal processing of aluminum or the like. Can be adopted.
[0009]
According to the present invention, since the casing is configured to include the planar body and the frame body, external force and the like can be borne by the frame body. Strength can be ensured. Therefore, by forming the planar body by injection molding or the like, an exterior case having a high design property can be obtained.
In addition, by configuring the frame to bear the load, the thickness of the planar body does not need to be increased, and the increase in the weight of the housing itself can be suppressed. Nothing to do.
In addition, by combining the frame body with a metal frame member and attaching the frame body to a planar body, the device body housed inside the housing is surrounded by the frame body, so that the device functions as an electromagnetic shield. And the number of component parts of the projector can be reduced.
[0010]
In the present invention, when the above-described projector includes a power supply circuit that supplies power to the apparatus main body and a light source drive circuit that stably emits light from the light source, the power supply circuit and the light source drive circuit are attached to the frame body. , Is preferably covered by the frame body.
According to the present invention, since the power supply circuit and the light source driving circuit are sources of electromagnetic interference, they are covered by the frame body, and the frame body becomes an electromagnetic shield, thereby causing an error in other elements such as the MPU constituting the projector. Operation can be reliably prevented.
[0011]
In the present invention, the above-mentioned planar body has a housing bottom portion that supports the device main body, and the housing bottom portion has a plurality of protruding ridges protruding outward from the support surface of the device main body in an out-of-plane direction. Are preferably formed integrally.
Here, the protruding portion may be formed by joining and fixing an axial member to the outer peripheral surface of the housing bottom portion. However, preferably, the protrusion is formed by injection molding of the housing bottom portion. It is preferable to form the rib so that the portion swells outward.
According to the present invention, since the supporting surface of the apparatus main body can be made stronger by forming the protruding ridge on the bottom surface of the housing, it is suitable for supporting the load of the apparatus main body. . Further, since the ribs can be formed at the same time when the bottom surface of the housing is formed by integrally forming the ribs by injection molding, no trouble is required in manufacturing the outer case.
[0012]
In the present invention, when at least one or more intake openings for introducing cooling air for cooling the apparatus main body are formed in the bottom surface of the casing described above, the intake openings are provided so as to cover the intake openings from outside, It is preferable that a filter for preventing dust from entering from the intake opening is provided, and this filter is preferably fitted and attached to the above-mentioned ridge.
Here, the filter is preferably mounted so as to straddle between a pair of ridges arranged in parallel to each other, and an engaged portion for filter mounting is formed on the opposing side surfaces of the pair of ridges. Is preferred.
[0013]
According to the present invention, since the filter is engaged with the ridge portion and attached, it is not necessary to separately provide a portion for attaching the filter to the outer case, so that the structure of the outer case is not complicated without causing the structure of the outer case to become complicated. Mounting can be done.
In addition, since the filter can be inserted and removed along the extending direction of the pair of ridges by mounting the filter across the pair of ridges arranged in parallel with each other, the filter can be inserted after the projector is installed. The projector can be pulled out for cleaning, thereby improving the maintainability of the projector.
[0014]
In the present invention, the above-mentioned filter is a frame-like member having a filter body folded in a pleated shape, and an engagement portion for receiving the filter body and engaging with an engagement piece formed on the ridge portion. Is preferably provided.
According to the present invention, by forming the filter body in a pleated shape, it is possible to increase the filter area for adsorbing dust with respect to the filter shape. Can be.
In addition, since the filter main body and the frame-shaped member are separated from each other, only the filter main body can be exchanged according to the state of dirt, so that the maintainability is further improved.
[0015]
In the present invention, an intake fan for introducing cooling air is provided at a position corresponding to the intake opening on the bottom surface of the housing described above, and the intake fan is provided with a fan main body and an intake air for taking in cooling air of the fan main body. When a case member surrounding the surface is provided, it is preferable that the intake fan is fixed to the bottom surface of the housing with the case member.
According to the present invention, since the case member is fixed to the housing bottom portion, the case member can reinforce the housing bottom portion, so that the strength of the support surface of the apparatus main body of the projector is further improved. Can be.
[0016]
According to the present invention, when a substrate insertion portion for inserting an extension substrate for extending the function of the projector is formed in the projector, the substrate insertion portion is partitioned by a frame member constituting a frame body, and Preferably, when the substrate is inserted, the extension substrate and the skeleton member are engaged and fixed.
Here, as the expansion board, a board for LAN (Local Area Network) connection, a memory board, or the like can be considered.
According to the present invention, the rigidity of the frame body is improved by the expansion board by engaging and fixing the expansion board to the frame member, so that the structural strength of the frame body can be further improved.
[0017]
In the present invention, in order for the projector to receive an operation signal from a remote controller for remote operation, when a signal receiving unit is provided in a hole formed in the planar body, the frame member constituting the frame body includes: An arm extending near the hole is provided, and the signal receiving unit is preferably attached to the arm.
Here, it is preferable that the signal receiving unit provided on the front side of the projector provided with the projection optical system for enlarging and projecting the optical image formed by the light modulation device is attached to the arm.
[0018]
According to the present invention, since the signal receiving section is attached to the arm, the signal receiving section can be supported by a part of the frame body, so that the signal receiving section can be firmly supported.
Further, by attaching the signal receiving portion on the front side of the projector to the arm portion, the extension amount of the arm portion can be adjusted, and the signal receiving portion can be reliably exposed from the hole formed in the planar body. Therefore, even when a long lens barrel is used as the projection optical system, the signal receiving unit can be arranged near the hole formed in the planar body to reliably receive the signal from the remote controller.
[0019]
According to the present invention, in the case where the projector is provided with a speaker arranged at a position corresponding to the sound output opening formed in the planar body in order to output sound, the frame body has a base end of the housing. It is preferable that a turret-shaped member be attached to the bottom surface and the tip extend to near the upper surface of the housing, and the speaker be attached to the upper surface of the member. According to the present invention, since the speaker is attached to the frame body, it is not necessary to attach the speaker to the planar body, so that the cable or the like connected to the speaker when the planar body is removed does not become an obstacle, The sheet can be easily removed.
[0020]
In the present invention, it is preferable that the above-mentioned planar body is formed in a substantially rectangular parallelepiped shape, and at least a part of the ridge line along the projection direction is chamfered.
Here, as the ridge line to be chamfered, any one of a pair of edges extending along the projection direction of the upper surface of the housing is preferable.
According to the present invention, the planar body can be reinforced by chamfering, and the strength of the housing can be further improved.
Also, by chamfering in this way, when two projectors are stacked to form a screen with higher brightness, a support member such as a pipe for fixing the two projectors can be inserted into the chamfered portion. Therefore, the support members can be aligned and stacked at an appropriate position without interfering with the projector.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
(1) External configuration
1 and 2 show a projector 1 according to an embodiment of the present invention. FIG. 1 is a perspective view seen from the upper front side, and FIG. 2 is a perspective view seen from the lower rear side. .
The projector 1 is an optical device that modulates a light beam emitted from a light source in accordance with image information and projects an enlarged image on a projection surface such as a screen. 2 and a projection lens 3 exposed from the exterior case 2. The projector 1 is installed in a large store, a public space, or the like, and provides video information to a large number of observers by displaying a projected image on a large screen.
The projection lens 3 has a function as a projection optical system for enlarging and projecting an optical image obtained by modulating a light beam emitted from a light source by a liquid crystal panel as a light modulation device described later in accordance with image information, It is configured as a set lens in which a plurality of lenses are housed in a cylindrical lens barrel.
[0022]
The exterior case 2 as a housing has a rectangular parallelepiped shape in which a depth dimension along a projection direction is larger than a width dimension orthogonal to the projection direction, and a planar body 10 that covers the apparatus main body, and a frame described later that bears case strength. And a body.
The planar body 10 includes an upper case 11 covering an upper part of the apparatus main body, a lower case 12 covering a lower part of the apparatus main body, and a front case 13 covering a front part of the apparatus main body. Each of the cases 11 to 13 is an integrally molded product made of a synthetic resin formed by injection molding or the like.
[0023]
The upper case 11 includes a housing upper surface 11A that covers an upper portion of the apparatus main body, housing side surfaces 11B and 11C substantially hanging from a widthwise end of the housing upper surface 11A, and a rear end of the housing upper surface 11A. And a housing rear part 11D substantially hanging from the part.
The ridge portion where the housing upper surface portion 11A and the housing side surface portions 11B and 11C of the upper case 11 intersect is chamfered from substantially the center in the projection direction of the projector 1 toward the rear end. A concave portion 111 which is concavely formed along is formed. The recess 111 is formed to insert a pipe-shaped support member connecting the two projectors 1 when two projectors 1 are stacked.
Further, a slit-like opening 112 for introducing cooling air is formed in the housing side surface 11B.
[0024]
An operation panel 14 for performing a start-up / adjustment operation of the projector 1 is provided at a substantially central portion of the housing upper surface 11A. The operation panel 14 includes a plurality of switches including a start switch and an image / sound adjustment switch. When the projector 1 projects, the operation panel 14 is operated to adjust image quality, volume, and the like. It can be performed.
Further, a plurality of holes 141 are formed in front of the housing upper surface 11A in the projection direction, and a speaker for audio output described later is housed in the inside of the holes 141.
The operation panel 14 and the speaker are electrically connected to a control board that constitutes an apparatus main body described later, and operation signals from the operation panel 14 are processed by the control board.
[0025]
The housing rear part 11D is formed in a frame shape having an opening on substantially the entire surface, and a connector group 15 for inputting an image signal or the like is exposed at the opening, and a light source device is housed next to the connector group 15. It is an opening and is usually covered with a lid member 16 for accommodating the light source device. Note that the connector group 15 is electrically connected to a control board described later, and an image signal input via the connector group 15 is processed by the control board.
Further, a lid member 113 detachable from the upper case 11 is attached to a rear end portion of the housing upper surface portion 11A and an upper end portion of the housing rear portion 11D. Can insert an extension board such as a LAN board.
[0026]
The lower case 12 is configured substantially symmetrically with respect to the upper case 11 about an engagement surface with the upper case 11, and includes a housing bottom portion 12A, housing side portions 12B and 12C, and a housing rear portion 12D. .
Then, the housing side surfaces 12B and 12C and the housing back surface 12D engage with the housing side surfaces 11B and 11C of the upper case 11 and the lower end portion of the housing back surface 11D at the upper end. Note that, similarly to the case rear portion 11D of the upper case 11, the case rear portion 12D is substantially entirely opened, and the connector group 15 described above is exposed from the opening after engagement, and straddles both opening portions. The cover member 16 is attached.
Further, an opening is further formed at a corner of the housing rear portion 12D, and the inlet connector 17 is exposed from the opening. Further, an opening 122 is formed in the housing side surface 12B at a position corresponding to the opening 112 formed in the housing side surface 11B of the upper case 11.
[0027]
A fixed leg 18 is provided on the bottom surface 12A of the housing at substantially the center of the rear end of the projector 1, and adjustment legs 19 are provided at both ends in the width direction on the distal end.
The adjusting leg portion 19 is formed of a shaft-like member that protrudes from the housing bottom surface portion 12A so as to be able to advance and retreat in an out-of-plane direction, and the shaft-like member itself is housed inside the outer case 2. By operating the adjustment button 191 provided on the side surface of the projector 1, the adjustment leg 19 can adjust the amount of advance and retreat from the housing bottom surface 12A.
Thus, the vertical position of the projection image emitted from the projector 1 can be adjusted, and the projection image can be formed at an appropriate position.
[0028]
In addition, on the housing bottom surface 12A, a convex rib-shaped portion 20 extending substantially in the center of the housing bottom portion 12A along the projection direction, and in the width direction of the projector 1 so as to be orthogonal to the rib-shaped portion 20. A plurality of rib-shaped portions 21 and 22 extending along are formed. An intake opening for taking in cooling air from the outside is formed between the two rib-like portions 21 in the intermediate portion, which will be described later in detail, and is covered by the filter 23. An intake opening 24 for taking in cooling air is formed at the rear end side of the intake opening closed by the filter 23, but is not covered with the filter.
Four screw holes 21 </ b> A are formed at the ends of the rib portions 21 and 22 extending along the width direction of the projector 1. A ceiling hanging bracket when the projector 1 is suspended from the ceiling is attached to the screw hole 21A.
Further, an engagement portion 26 is formed at the rear end side edge of the housing bottom surface portion 12A, and dust and the like adhere to the engagement portion 26 so as to cover the connector group 15 described above. A cover member for preventing this is attached.
[0029]
The front case 13 includes a front surface portion 13A and an upper surface portion 13B. A rib 13C extending in an out-of-plane direction is formed on an outer peripheral portion of the front surface portion 13A, and a projection direction of the upper case 11 and the lower case 12 is provided. The rib 13C is engaged with the distal end side.
The front portion 13A is inclined toward the rear end of the device from the housing bottom portion 12A of the lower case 12 toward the housing top portion 11A of the upper case 11, and is inclined away from the projection surface. The reason for this is that when the projector 1 is suspended from the ceiling, the front portion 13A of the front case 13 faces the lower surface, so that it becomes difficult for dust to adhere to the front case 13, and thus the projector 1 is more easily mounted than the normal installation state. This is because the ceiling suspension, which is difficult to maintain, was considered.
[0030]
An opening 27 is formed at a substantially central portion of the front portion 13A, and the projection lens 3 is exposed from the opening 27.
A slit-shaped opening 28 is formed adjacent to the opening 27, and air that has cooled the inside of the apparatus main body of the projector 1 is discharged from the opening 28.
Further, a hole 29 is formed near the corner of the front portion 13A, and a light receiving portion 30 for receiving an operation signal of a remote controller (not shown) is formed from the hole 29.
In this example, the light receiving unit 30 is also provided on the back side of the projector 1, and the light receiving unit 30 is provided at a corner of the housing back part 11 </ b> D of the upper case 11 as shown in FIG. 2. ing. Thus, when a remote controller is used, an operation signal of the remote controller can be received from either the front side or the rear side of the apparatus.
[0031]
The upper surface portion 13B extends to approximately the center of the housing upper surface portion 11A of the upper case 11, and specifically, although not shown, reaches near the base end of the projection lens 3. The reason for this is that when the projection lens 3 is changed, the projection lens 3 can be replaced simply by removing the front case 13, and when the front case 13 is removed from the upper case 11 and the lower case 12. The upper surface portion 13B is detached and opened so that the base end mounting portion of the projection lens 3 is exposed.
[0032]
(2) Internal configuration
As shown in FIGS. 3 to 5, an apparatus main body of the projector 1 is housed inside the outer case 2. The apparatus main body includes an optical unit 4, a control board 5, and a power supply block 6. It comprises.
(2-1) Structure of optical unit 4
An optical unit 4 serving as an optical engine modulates a light beam emitted from the light source device in accordance with image information to form an optical image, and forms a projection image on a screen via the projection lens 3. As shown in FIG. 5, a light source device, various optical components, and the like are incorporated in an optical component housing called a light guide 40.
The light guide 40 includes a lower light guide 401 and an upper light guide 402, each of which is a synthetic resin product obtained by injection molding or the like.
[0033]
As shown in FIG. 6, the lower light guide 401 includes a light source storage unit 401A that stores a light source device described later and a component storage unit 401B that stores an optical component. The upper part formed of the side wall part 401D is formed in an open container shape, and the side wall part 401D is provided with a plurality of grooves 401E. Various optical components constituting the optical unit 4 are mounted in the groove 401E, whereby each optical component is accurately arranged on the illumination optical axis set in the light guide 40. The upper light guide 402 has a planar shape corresponding to the lower light guide 401, and is configured as a lid-like member that covers the upper surface of the lower light guide 401.
A metal-made substantially L-shaped head body 403 is disposed at the light-emitting side end of the lower light guide 401, and an optical device 44 described later is attached to the L-shaped horizontal portion of the head body 403. At the same time, the base end of the projection lens 3 is joined and fixed to the L-shaped vertical portion.
[0034]
As shown in FIG. 7, in the light guide 40, an integrator illumination optical system 41, a color separation optical system 42, a relay optical system 43, a light modulation optical system and a color combining optical system are integrated. The optical device 44 is roughly functionally divided. Note that the optical unit 4 in this example is used for a three-plate type projector, and is a spatial color separation type optical unit that separates white light emitted from a light source into three color lights in the light guide 40. It is configured.
The integrator illumination optical system 41 is an optical system for equalizing the illuminance of a light beam emitted from the light source in a plane orthogonal to the illumination optical axis, and includes a light source device 411, a parallelizing concave lens 412, a first lens array 413, and a second lens array. It is configured to include a lens array 414, a polarization conversion element 415, and a superimposing lens 416.
[0035]
The light source device 411 includes a light source lamp 417 as a radiation light source, a reflector 418, and a windshield 419 that covers a light exit surface of the reflector 418, and converts a radial light beam emitted from the light source lamp 417 into a parallelizing concave lens 412 and a reflector 418. And is converted into substantially parallel light rays, and emitted to the outside. In this example, a high-pressure mercury lamp is used as the light source lamp 417, but a metal halide lamp or a halogen lamp may be used instead. Further, in the present example, a configuration in which the parallelizing concave lens 412 is arranged on the exit surface of the reflector 418 formed of an elliptical mirror is employed, but a parabolic mirror may be employed as the reflector 418.
[0036]
The first lens array 413 has a configuration in which small lenses having a substantially rectangular outline when viewed from the direction of the illumination optical axis are arranged in a matrix. Each small lens splits the light beam emitted from the light source lamp 417 into partial light beams, and emits the light beams in the illumination optical axis direction. The outline shape of each small lens is set so as to be substantially similar to the shape of the image forming area of the liquid crystal panels 441R, 441G, and 441B described later. For example, if the aspect ratio (ratio between the horizontal and vertical dimensions) of the image forming areas of the liquid crystal panels 441R, 441G, and 441B is 4: 3, the aspect ratio of each small lens is also set to 4: 3.
The second lens array 414 has substantially the same configuration as the first lens array 413, and has a configuration in which small lenses are arranged in a matrix. The second lens array 414 has a function of forming an image of each small lens of the first lens array 413 on the liquid crystal panels 441R, 441G, and 441B together with the superimposing lens 416.
[0037]
The polarization conversion element 415 converts the light from the second lens array 414 into one type of polarized light, thereby increasing the light utilization rate in the optical device 44.
Specifically, each partial light beam converted into one type of polarized light by the polarization conversion element 415 is finally almost superimposed on the liquid crystal panels 441R, 441G, and 441B of the optical device 44 by the superimposing lens 416. In a projector using the liquid crystal panels 441R, 441G, and 441B of the type that modulates polarized light, only one type of polarized light can be used, so that substantially half of the light flux from the light source lamp 417 that emits randomly polarized light is not used. Therefore, by using the polarization conversion element 415, all the light beams emitted from the light source lamp 417 are converted into one kind of polarized light, and the light use efficiency of the optical device 44 is increased. In addition. Such a polarization conversion element 415 is introduced in, for example, JP-A-8-304739.
[0038]
The color separation optical system 42 includes a reflection mirror 421 that bends the light beam emitted from the integrator illumination optical system 41, two dichroic mirrors 422, 423, and a reflection mirror 424. The dichroic mirrors 422, 423 provide integrator illumination. It has a function of separating a plurality of partial light beams emitted from the optical system 41 into three color lights of red (R), green (G), and blue (B). In this example, the attitude of the reflection mirror 424 can be adjusted with respect to the lower light guide 401.
The relay optical system 43 includes an incident-side lens 431, a relay lens 433, and reflection mirrors 432 and 434, and has a function of guiding red light, which is the color light separated by the color separation optical system 42, to the liquid crystal panel 441R. ing.
[0039]
At this time, in the dichroic mirror 422 of the color separation optical system 42, of the light flux emitted from the integrator illumination optical system 41, the red light component and the green light component are reflected, and the blue light component is transmitted. The blue light transmitted by the dichroic mirror 422 is reflected by the reflection mirror 424, passes through the field lens 425, and reaches the blue liquid crystal panel 441B. The field lens 425 converts each partial light beam emitted from the second lens array 414 into a light beam parallel to its central axis (principal ray). The same applies to the field lens 425 provided on the light incident side of the other liquid crystal panels 441G and 441R.
[0040]
Of the red light and the green light reflected by the dichroic mirror 422, the green light is reflected by the dichroic mirror 423, passes through the field lens 425, and reaches the liquid crystal panel 441G for green. On the other hand, the red light passes through the dichroic mirror 423, passes through the relay optical system 43, further passes through the field lens 425, and reaches the liquid crystal panel 441R for red light.
The relay optical system 43 is used for the red light because the length of the optical path of the red light is longer than the length of the optical path of the other color lights, thereby preventing a reduction in light use efficiency due to divergence of light and the like. That's why. That is, this is for transmitting the partial light beam incident on the incident side lens 431 to the field lens 425 as it is. The relay optical system 43 is configured to transmit red light of the three color lights, but is not limited thereto, and may be configured to transmit blue light, for example.
[0041]
The optical device 44 modulates the incident light beam according to image information to form a color image. The optical device 44 includes three incident-side polarizing plates 442 on which the respective color lights separated by the color separation optical system 42 enter. , Liquid crystal panels 441R, 441G, and 441B as light modulation devices disposed after each incident-side polarizing plate 442, and a viewing angle correction plate 443 and emission-side polarization disposed after each liquid crystal panel 441R, 441G, and 441B. A plate 444 and a cross dichroic prism 445 as a color combining optical system are provided.
[0042]
The liquid crystal panels 441R, 441G, and 441B use, for example, polysilicon TFTs as switching elements. As shown in FIG. 8, taking the liquid crystal panel 441G as an example, a panel body 4411 and a panel body 4411 are used. And a holding frame 4412 for storing the. In the following description, the liquid crystal panels 441R and 441B are not particularly mentioned, but have substantially the same configuration as the liquid crystal panel 441G.
Although not shown, the panel main body 4411 is formed by sealing and sealing liquid crystal in a pair of transparent substrates opposed to each other, and dustproof glass is attached to the incident side and the emission side of the pair of transparent substrates. I have.
The holding frame 4412 is a member having a concave portion for accommodating the panel main body 4411, and holes 4413 are formed at four corners thereof.
[0043]
The incident-side polarizing plate 442 (see FIG. 7) disposed in front of the liquid crystal panels 441R, 441G, and 441B transmits only polarized light in a certain direction among the color lights separated by the color separation optical system. , Which absorbs other light beams, and has a polarizing film attached to a substrate such as sapphire glass. Alternatively, a polarizing film may be attached to the field lens 425 without using a substrate.
The viewing angle correction plate 443 is formed by forming an optical conversion film having a function of correcting the viewing angle of an optical image formed by the liquid crystal panel 441G on a substrate, and such a viewing angle correction plate 443 is disposed. Thereby, the viewing angle of the projected image is enlarged, and the contrast of the projected image is greatly improved.
[0044]
The emission-side polarizing plate 444 transmits only polarized light in a predetermined direction and absorbs other light beams among the light beams modulated by the liquid crystal panel 441G. In this example, the two first polarizing plates ( (Polarizer) 444P and a second polarizing plate (analyzer) 444A. The reason why the two emission-side polarizing plates 444 are configured as described above is that the incident polarized light is proportionally absorbed by each of the first polarizing plate 444P and the second polarizing plate 444A, and is generated as polarized light. This is because heat is apportioned between the polarizing plates 444P and 444A to suppress overheating of each.
[0045]
The cross dichroic prism 445 forms a color image by combining optical images emitted from the emission side polarizing plate 444 and modulated for each color light.
The cross dichroic prism 445 is provided with a dielectric multilayer film that reflects red light and a dielectric multilayer film that reflects blue light in a substantially X-shape along the interface of the four right-angle prisms. The three color lights are synthesized by the multilayer film.
A prism fixing plate 4451 is fixed to the lower surface of the cross dichroic prism 445 with an ultraviolet curable adhesive. The prism fixing plate 4451 includes legs 4452 extending along a diagonal line of the cross dichroic prism 445, and a hole 4453 is formed at the tip of each leg 4452.
The optical device 44 is joined and fixed to the above-mentioned L-shaped horizontal portion of the head body 403 by screws (not shown) inserted into the holes 4453.
[0046]
The above-described liquid crystal panel 441G, the viewing angle correction plate 443, the first polarizing plate 444P, and the second polarizing plate 444A are fixed to the light incident end face of the cross dichroic prism 445 via the panel fixing plate 446.
The panel fixing plate 446 includes a fixing portion main body 4461 having a substantially C-shape in plan view, and a pin 4463 protruding from a distal end side of the fixing portion main body 4461 via an arm portion 4462. Of these, at the C-shaped tip side edge of the fixing portion main body 4461, a pedestal 4464 to which the viewing angle correction plate 443 is fixed, and extending along the C-shaped tip side edge, and the outer position reference of the viewing angle correction plate 443 Is formed.
When the liquid crystal panel 441G, the viewing angle correction plate 443, the first polarizing plate 444P, and the second polarizing plate 444A are fixed to the light-incident end face of the cross dichroic prism 445 by the panel fixing plate 446, first, the fixing unit main body 4461 The first polarizing plate 444P and the second polarizing plate 444A are inserted into the space inside the C-shape, and are fixed while being urged in the space by the spring member 4465 so that the polarizing plates 444P and 444A are arranged at a predetermined distance. .
[0047]
Next, the end face of the viewing angle correction plate 443 is adhered to the pedestal 4464 with a thermally conductive tape or an adhesive while the outer position of the viewing angle correction plate 443 is adjusted by the positioning portion 4464A, and then the luminous flux of the cross dichroic prism 445 is set. The panel fixing plate 446 is fixed to the incident end face.
Then, after applying an ultraviolet curable adhesive to the pins 4463 of the panel fixing plate 446, the holes 4413 of the liquid crystal panel 441G are inserted in an uncured state.
In the same procedure, the liquid crystal panels 441R and 441B are also temporarily fixed to the panel fixing plate 446 in a state where the ultraviolet curable adhesive has not been cured, and each of the liquid crystal panels 441R, 441G and 441B has red, blue and green light. , And while observing each color light emitted from the light emitting end face of the cross dichroic prism 445, the position of the liquid crystal panels 441R, 441G, and 441B is adjusted with each other. To perform positioning and fixing of the liquid crystal panels 441R, 441G, and 441B.
[0048]
(2-2) Structure of control board 5
As shown in FIGS. 4 and 5, the control board 5 includes a main board 51 that is disposed so as to cover the upper side of the optical unit 4 and that is arranged in two layers. The upper board 511 includes an arithmetic processing unit. And the like, and a drive IC of each of the liquid crystal panels 441R, 441G, and 441B is mounted on the lower substrate 512. Although not shown, the control board 5 includes an interface board that is connected to the rear end of the main board 51 and stands on the housing rear portions 11D and 12D of the outer case 2.
The connector group 15 described above is mounted on the back side of the interface board, and image information input from the connector group 15 is output to the main board 51 via the interface board.
The arithmetic processing device on the main board 51 outputs the control command to the liquid crystal panel driving IC after performing the arithmetic processing on the input image information. The drive IC generates and outputs a drive signal based on the control command to drive the liquid crystal panel 441, thereby performing light modulation according to image information to form an optical image.
[0049]
(2-3) Structure of power supply block 6
The power supply block 6 is provided adjacent to the optical unit 4 and extends along the projection direction of the outer case 2 of the projector 1, and includes a power supply unit and a lamp drive unit (not shown).
The power supply unit supplies power supplied from the outside through a power cable connected to the above-described inlet connector 17 to the lamp driving unit, the control board 5, and the like.
The lamp drive unit is a conversion circuit for supplying power at a stable voltage to the light source device 411 described above. The commercial AC current input from the power supply unit is rectified and converted by the lamp drive unit, and the DC The light is supplied to the light source device 411 as an AC rectangular wave current.
As shown in FIG. 3, an exhaust fan 61 is provided in front of the power supply block 6, and air that has cooled the components inside the projector 1 is collected by the exhaust fan 61, and the exterior case It is discharged out of the apparatus from the opening 28 of the second.
[0050]
(2-4) Cooling structure
Since the inside of the projector 1 is heated by heat generated by the light source device 411 and the power supply block 6, it is necessary to circulate cooling air inside the projector 1 to efficiently cool the light source device 411, the optical device 44, and the power supply block 6. There is. For this reason, in this example, three cooling channels C1, C2, and C3 are set as shown in FIG.
The cooling channel C1 is a channel for cooling the light source device 411 and the polarization conversion element 415 constituting the integrator illumination optical system 41, and is sucked by the sirocco fan 71 provided inside the device of the intake opening 24 in FIG. Cooling air is supplied to the light source device 411 and the polarization conversion element 415 from the side of the light source housing section 401A of the light guide 40 by the duct 72, and these are cooled. The cooled air is sucked by the exhaust fan 61 and discharged to the outside of the projector 1.
[0051]
The cooling channel C2 is a channel for cooling the optical device 44 that performs light modulation and color synthesis, and is a sirocco fan provided inside the device at the intake opening formed at the position where the filter 23 is provided in FIG. The cooling air sucked in (to be described later) is supplied from below to above the optical device 44, and the liquid crystal panels 441R, 441G, and 441B, the incident side polarizing plate 442, the viewing angle correction plate 443, and the emitting side polarized light are supplied. The plate 444 is cooled. The cooled air flows along the lower surface of the main board 51 and the housing upper surface 11A of the upper case 11, and is discharged to the outside by the exhaust fan 61 while cooling the circuit elements mounted on the main board 51.
[0052]
The cooling channel C3 is a channel for cooling the power supply block 6, and is provided with an opening 112 formed in the housing side surface portion 11 </ b> B of the upper case 11 by an intake fan 62 provided on the rear end side of the power supply block 6. Cooling air is taken in from an opening 122 formed in the case side surface 12B of the case 12, and a part of the taken-in cooling air is supplied to a power supply unit and a lamp driving unit. Is discharged to the outside.
[0053]
(3) Detailed structure of the outer case 2
(3-1) Structure of frame body 31
The outer case 2 of the projector 1 having such a structure will be described in more detail.
As shown in FIGS. 10 and 11, a frame body 31 is provided inside the casings of the upper case 11 and the lower case 12, which constitute the planar body 10 described above.
The frame body 31 is configured by combining a plurality of framing members 32-35, and the framing members 32-35 are combined with each other, and further attached to the inner surfaces of the upper case 11 and the lower case 12, so that the outer case 2 is formed. Has secured the strength as a whole.
[0054]
The frame member 32 is formed as an aluminum stamped plate that stands inside the housing side surface 11C of the upper case 11 and the housing side surface 12C of the lower case 12. The reason why the frame member 32 is made of a punched plate made of aluminum is to reduce the weight while securing the strength, and the same applies to the other frame members 33 to 35.
A bent piece 323 bent in the horizontal direction is formed at the upper end of the frame member 32. The main board 51 is placed on the bent piece 323 and fixed by screws.
[0055]
The skeleton member 33 is configured as an aluminum rod-shaped member having one end connected to the skeleton member 32 at a substantially central upper end so as to be orthogonal to the skeleton member 32 and the other end connected to the skeleton member 34. It is erected above.
The skeleton member 33 also has a function as a member of an insertion frame of the extension board EB inserted into the rear part of the outer case 2. When the extension board EB is inserted, the extension board EB, which is not shown, is guided along a groove formed in the direction in which the inner surface of the skeleton member 32 extends, and is provided at a substantially central lower end of the skeleton member 33. It is screwed and fixed to a hole formed in the bent piece 331. As the extension board EB, various boards that can expand the functions of the projector 1 are employed, and for example, a LAN board for network connection or the like can be considered. By connecting the LAN board, it becomes possible for the projector 1 to display image information and the like generated by a computer connected to the network.
Then, the connection portion between the frame members 32 and 33 is reinforced by the inserted and fixed expansion board EB, so that a stronger frame body 31 is formed.
[0056]
As shown in FIG. 12, the frame member 34 includes a side surface portion 341 extending along the housing side surface portion 11B of the upper case 11 and the housing side surface portion 12B of the lower case 12, and an upper surface extending horizontally from the upper end of the side surface portion 341. It is formed of a cylindrical body obtained by stamping out an aluminum plate having a side portion (not shown) facing the side portion 342 and the side portion 341.
Further, a frame-shaped member 343 is provided at an end of the cylindrical body constituting the frame member 34 on the front side of the apparatus, and the above-described exhaust fan 61 is fixed to the frame-shaped member 343.
[0057]
As shown in FIG. 13, the frame member 35 has a lower end fixed to the housing bottom portion 12A of the lower case 12 and an outer side surface formed of a tower-shaped member joined to the frame member 32 described above. Although not shown, the frame member 35 is provided with an auxiliary power supply board inside the tower, and a speaker 142 disposed below the sound output hole 141 is provided on an upper surface 351 of the frame 35. Is attached.
An arm 353 projecting from the frame member 35 in the projection direction is provided at an intermediate position of the front surface 352 of the frame member 35. The arm 353 extends to near the opening 29 of the front case 13. A light receiving unit 30 for receiving a signal from a remote controller is attached to the tip of the light receiving unit 30. The light receiving unit 30 includes a light receiving element 301 and a substrate 302 on which the light receiving element 301 is mounted. When the light receiving unit 30 is attached to the tip of the arm, the light receiving element 301 is exposed from the opening 29.
[0058]
(3-2) Structure of the lower case 12
FIG. 14 shows a state in which the rectangular filter 23 has been removed from the housing bottom surface portion 12A of the lower case 12 described above. An intake opening 25 for introducing cooling air is formed in the bottom surface 12A of the housing that is concealed by the filter 23.
The filter 23 includes a frame member 231 for accommodating the filter body folded in a pleated shape, and grooves 232 are formed on a pair of side surfaces of the frame member 231 along the insertion direction of the filter 23. Although not shown in the drawing, a convex portion is formed on the end face on the far side in the insertion direction of the filter 23.
Such a filter 23 is engaged and fixed to a portion surrounded by the rib-shaped portions 20 and 21. Two engagement pieces 201 are formed on the side surface of the rib-shaped portion 20 to be engaged with the concave portions of the rear end surface of the filter 23. In addition, the engagement piece 211 that guides the filter 23 in the insertion direction and holds the filter 23 is formed at three places.
[0059]
As shown in FIG. 15, a sirocco fan 71 is attached to the inner surface side of the housing bottom portion 12 </ b> A according to the position where the intake openings 24 and 25 are formed. The sirocco fan 71 includes a main body composed of a motor and rotating blades, and a case member 711 for accommodating these components. The sirocco fan 71 is arranged so that the intake surface of the rotating blades faces the intake openings 24 and 25. At the end 712 of the case member 711, it is screwed and fixed to a boss 123 standing upright from the housing bottom surface 12A.
Further, a sheet metal 124 is provided on the inner surface side of the housing bottom surface portion 12A, and is electrically connected to the head body 403 and the frame members 32 to 35 by the sheet metal 124, and these are used as electromagnetic shielding members. Let it work. Further, a sheet metal 124 provided on the rear end side of the housing bottom portion 12 </ b> A is located below the light source device 411, and blocks noise caused by light emission of the light source device 411.
[0060]
(4) Effects of the embodiment
According to the above-described embodiment, the following effects can be obtained.
(4-1) Since the exterior case 2 serving as a housing is configured to include the planar body 10 and the frame body 31 and the frame body 31 is attached to the planar body 10, external force acting on the projector 1 is reduced. Since the load can be borne by the frame body 31, sufficient strength can be ensured even when the planar body 10 is formed of a synthetic resin. Therefore, by forming the planar body 10 by injection molding or the like, the exterior case 2 having a high design property can be obtained.
[0061]
(4-2) By configuring the frame body 31 to bear the load, the thickness of the planar body 10 does not need to be increased, and an increase in the weight of the outer case 2 itself can be suppressed. The weight of the vehicle does not increase more than necessary.
(4-3) By configuring the frame body 31 by combining the metal frame members 32 to 35 and attaching the frame body 31 to the planar body 10, the optical unit 4 serving as an apparatus main body housed inside the outer case 2, Since the substrate 5 is surrounded by the frame body 31, the function as an electromagnetic shield can be borne, and the number of components of the projector 1 can be reduced.
[0062]
(4-4) Since the power supply unit and the lamp drive unit are sources of electromagnetic interference, it is necessary to provide an electromagnetic shield, but by being covered with the metal frame 31, the frame 31 can be used as an electromagnetic shield. Since it functions, it is possible to reliably prevent malfunction of other elements such as the MPU that constitute the projector 1.
(4-5) Since the rib-shaped portions 20 and 21 serving as convex ridges are formed on the bottom surface portion 12A of the housing, the support surface of the apparatus main body including the optical unit 4 can be further strengthened. This is suitable for supporting the load of the apparatus main body. In addition, by forming the ribs 20 and 21 integrally with the lower case 12 by injection molding, the ribs 20 and 21 can be formed at the same time when the housing bottom portion 12A is formed. Is not applied.
[0063]
(4-6) Since the filter 23 is engaged with and attached to the rib-shaped portions 20 and 21, it is not necessary to provide a separate portion for attaching the filter to the outer case 2, thereby complicating the structure of the outer case. In addition, the filter 23 can be mounted.
Further, by mounting the filter 23 across a pair of rib-shaped portions 21 arranged in parallel with each other, the filter 23 can be inserted and removed along the extending direction of the pair of rib-shaped portions 21. After installation, the filter 23 can be pulled out for cleaning, and the maintainability of the projector 1 is improved.
(4-7) By forming the filter body of the filter 23 by folding it into a pleated shape, it is possible to increase the filter area for adsorbing dust with respect to the filter shape. It can be.
In addition, since the filter 23 has the filter main body and the frame member 232 as separate bodies, only the filter main body can be replaced according to the state of dirt, thereby further improving the maintainability.
[0064]
(4-8) Since the case member 711 of the sirocco fan 71 as an intake fan is fixed to the housing bottom portion 12A, the case bottom portion 12A can be reinforced by the case member 711. The strength of the support surface of the apparatus main body can be further improved. In particular, in this example, since the sirocco fan 71 is arranged between the rib-shaped portions 20 and 21, the reinforcing effect of the case member 711 on the housing bottom surface portion 12A is large in combination with the rib-shaped portions 20 and 21.
(4-9) Since the expansion board EB is engaged and fixed to the frame members 32 and 33, the rigidity of the frame body 31 is improved by the expansion board EB, so that the structural strength of the frame body 31 can be further improved. .
[0065]
(4-10) Since the light receiving portion 30 serving as the signal receiving portion is attached to the arm portion 353 protruding from the front surface of the frame member 35, the light receiving portion 30 can be supported by a part of the frame body 31. , The light receiving section 30 can be firmly supported. Further, by attaching the light receiving unit 30 on the front side of the projector 1 to the arm 353, the extension amount of the arm 353 is adjusted, and the light receiving unit 30 is reliably exposed from the hole formed in the planar body 10. be able to. Therefore, even when a long lens barrel is used as the projection lens 3, the light receiving unit 30 can be exposed from the hole 29 formed in the planar body 10, and the signal from the remote controller can be reliably received. Further, since it is not necessary to increase the area of the light receiving unit 30, there is no restriction on the design.
[0066]
(4-11) Since the speaker 142 is attached to the frame member 35 constituting the frame body 31, there is no need to attach the speaker to the planar body 10, and thus the speaker 142 is connected to the speaker 142 when removing the planar body 10. The sheet body 10 can be easily removed from the apparatus main body without a cable or the like being in the way.
(4-12) By forming the concave portion 111 by chamfering on the ridge line along the projection direction of the upper case 11, the planar body 10 can be reinforced and the strength of the outer case 2 can be further improved. . When two projectors 1 are stacked to form a higher-luminance screen by chamfering in this manner, a support member such as a pipe for fixing the two projectors 1 is inserted into the recess 111. Therefore, the support members can be stacked at an appropriate position without interfering with the projector 1.
[0067]
(5) Modification of the embodiment
Note that the present invention is not limited to the above-described embodiment, but includes the following modifications.
In the above-described embodiment, the projector 1 has been described as being installed in a large store, a public space, or the like. However, the present invention is not limited to high-brightness large-screen projection, and the present invention may be adopted.
[0068]
In the above-described embodiment, the transmission type liquid crystal panels 441R, 441G, and 441B are adopted as the light modulation device. However, the present invention is not limited to this, and includes a reflection type liquid crystal panel and a light modulation device using a micro mirror. The present invention may be applied to a projector that is used.
In the above embodiment, the present invention is applied to the three-panel projector 1, but the invention is not limited to this, and the projector may be applied to a single-panel projector or a multi-panel projector. In addition, specific structures, shapes, and the like when the present invention is implemented may be other structures and the like in order to achieve the object of the present invention.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view illustrating an external configuration of a projector according to an embodiment of the invention.
FIG. 2 is a schematic perspective view illustrating an external configuration of a projector according to the embodiment.
FIG. 3 is a schematic perspective view illustrating an internal configuration of the projector according to the embodiment.
FIG. 4 is a schematic perspective view showing an internal configuration of the projector in the embodiment.
FIG. 5 is a schematic perspective view showing the internal configuration of the projector in the embodiment.
FIG. 6 is a schematic perspective view illustrating a structure of a light guide that houses the optical unit according to the embodiment.
FIG. 7 is a schematic diagram illustrating an optical unit structure according to the embodiment.
FIG. 8 is a schematic perspective view showing the structure of the optical device according to the embodiment.
FIG. 9 is a schematic perspective view showing a cooling channel in the embodiment.
FIG. 10 is a perspective view showing a detailed structure of a frame member constituting the frame body in the embodiment.
FIG. 11 is a perspective view showing a detailed structure of a frame member constituting the frame body in the embodiment.
FIG. 12 is a perspective view showing a detailed structure of a frame member constituting the frame body in the embodiment.
FIG. 13 is a perspective view showing a detailed structure of a frame member constituting the frame body in the embodiment.
FIG. 14 is a perspective view illustrating a bottom surface of the housing of the projector according to the embodiment.
FIG. 15 is a perspective view illustrating a housing bottom portion of the projector according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Projector, 2 ... Exterior case (housing), 10 ... Plane body, 12A ... Housing bottom part, 20, 21, 22 ... Rib-shaped part (convex ridge), 23 ... Filter, 25 ... Intake opening Part, 30 ... light receiving part (signal receiving part), 31: frame body, 32, 33, 34, 35 ... frame member, 71 ... sirocco fan (intake fan), 111 ... concave part (chamfering), 142 ... speaker, 201, 211 ... engaging piece, 232 ... groove (engaging part), 353 ... arm part, 411 ... light source device (light source), 441R, 441G, 441B ... liquid crystal panel (light modulation device), 711 ... case member, EB … Extended board

Claims (10)

A light source and a light modulator that modulates a light beam emitted from the light source according to image information to form an optical image, and a projector that enlarges and projects the optical image formed by the light modulator,
A housing for housing a device main body including the light source and the light modulation device,
The housing is provided with a synthetic resin planar body that covers the apparatus main body, and a frame body combined with a metal frame member attached to the planar body. The projector according to claim 1,
A power supply circuit that supplies power to the device body, and a light source driving circuit that stably emits light from the light source,
The power supply circuit and the light source drive circuit are attached to the frame body and are covered by the frame body. In the projector according to claim 1 or 2,
The planar body has a housing bottom portion that supports the device main body,
A projector, wherein a plurality of ridges projecting outward from the support surface of the apparatus main body in an out-of-plane direction are integrally formed on the bottom surface of the housing. The projector according to claim 3,
At least one or more intake openings for introducing cooling air for cooling the device main body are formed in the housing bottom portion,
A filter that is provided to cover the intake opening from outside and that prevents dust from entering from the intake opening;
The filter is mounted so as to engage with the ridge. The projector according to claim 4, wherein
The filter includes a filter body folded in a pleated shape, and a frame-like member that houses the filter body and has an engagement portion that engages with an engagement piece formed on the ridge. Projector. In the projector according to claim 4 or 5,
An intake fan for introducing cooling air is provided at a position corresponding to the intake opening on the bottom surface of the housing,
The intake fan includes a fan body, and a case member surrounding an intake surface that takes in cooling air of the fan body,
The projector, wherein the intake fan is fixed to the housing bottom portion with the case member. In the projector according to any one of claims 1 to 6,
A board insertion unit for inserting an expansion board for expanding the function of the projector,
The substrate insertion section is defined by a frame member constituting the frame body, and when the extension board is inserted, the extension board and the frame member are engaged and fixed. The projector according to any one of claims 1 to 7, further comprising a signal receiving unit in a hole formed in the planar body, for receiving an operation signal from a remote controller for remote operation,
The frame member constituting the frame body is provided with an arm extending near the hole,
The projector, wherein the signal receiving unit is attached to the arm. In the projector according to any one of claims 1 to 8,
To output a sound, comprising a speaker arranged at a position corresponding to the sound output opening formed in the planar body,
The frame body includes a tower-shaped member whose base end is attached to a bottom surface of the housing and whose front end extends to near the upper surface of the housing.
The projector, wherein the speaker is mounted on an upper surface of the member. The projector according to any one of claims 1 to 9,
The planar body is configured in a substantially rectangular parallelepiped shape,
A projector characterized in that at least a part of a ridge line along a projection direction is chamfered.

Images