JP6083164B2 - projector - Google Patents

Description

  The present invention relates to a projector.

  Conventionally, a light source device, a light modulation device that modulates a light beam emitted from the light source device according to an image signal, a projection lens that enlarges and projects a light beam modulated by the light modulation device on a screen, a light source device, and a light modulation device And a projector housing that houses a projection lens are known. Such a projector is usually manufactured by limiting the coloring of the exterior housing to several types.

  In Patent Document 1, a light guide / illuminator that is formed in a rod shape with a light-transmitting material and that has a cross-sectional shape that is closed by a continuous curve, and is installed on the outer surface of a housing in an electronic device. A light source for making display light incident on the light guide / illumination member, and a light guide / illumination member installation part in the housing of the electronic device. There has been proposed an illumination device for an electronic device, comprising display light reflecting means for reflecting display light leaked from the back surface of the light guide / illuminating member to the outside of the electronic device. This illumination device can significantly improve the visibility of optical display.

JP 2005-202318 A

However, there has been a problem that projectors manufactured by limiting the number of colorings of the exterior casing to several types as in the prior art are not necessarily colorings desired by individual users. Further, there has been a problem that increasing the types of coloring of the exterior casing increases the manufacturing cost.
Therefore, there has been a demand for a projector capable of improving the degree of freedom of design including coloring of the exterior casing, reducing the manufacturing cost, and approaching the user's request.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 A projector according to this application example includes (a) a light source device that emits light, (b) a light modulation device that modulates light emitted from the light source device based on an image signal, and (c). A light guide that guides the modulated light emitted from the light modulation device; and (d) houses the light source device, the light modulation device, and the light guide, and has a light transmitting property and is guided by the light guide. And an exterior casing that transmits the modulated light.

  According to such a projector, the exterior casing is formed by guiding the modulated light emitted after being modulated by the light modulation device by the light guide unit and transmitting the guided modulated light to the exterior casing. It can be in a state colored with modulated light. Therefore, the degree of freedom of coloring of the exterior housing can be improved by using the modulation by the light modulation device.

  Application Example 2 In the projector according to the application example described above, the light modulation device includes a light guide image area that displays a light guide image guided to the light guide unit, and a projection image that displays a projection image for projection. And a region.

  According to such a projector, by providing the light modulation device with the light guide image region and the projection image region, the light guide unit guides the light guide image and the projection image or the like through the projection lens. It can be enlarged and projected on a screen or the like. Therefore, the function of coloring the exterior housing and the function of projecting an image, which is the original function of the projector, can be realized by the same light modulation device. For this reason, since it is not necessary to install and use a light modulation apparatus separately, manufacturing cost can be suppressed.

  Application Example 3 In the projector according to the application example described above, the light modulation device includes a protected image region that displays an image that does not belong to either region between the light guide image region and the projection image region. Is preferred.

  According to such a projector, by providing the protection image area between the light guide image area and the projection image area, it is possible to prevent the image projected through the projection lens from being mixed with the light guide image. In addition, it is possible to prevent the projection image from being mixed with the coloring of the exterior casing.

  Application Example 4 In the projector according to the application example described above, it is preferable that the light guide image area is set on at least one of the four sides of the light modulation device having a rectangular shape.

  According to such a projector, by setting the light guide image area on the side, the light guide unit is fixedly installed so as to face the light guide image area, and the projection lens faces the projection image area. Can be fixed and installed.

  Application Example 5 In the projector according to the application example, the light guide unit includes a first light guide member that guides the modulated light emitted from the light guide image region, and the modulation guided by the first light guide member. It is preferable to include a second light guide member that guides light to the exterior housing.

  According to such a projector, the light guide unit includes the first light guide member and the second light guide member, so that the modulated light emitted from the light guide image region is guided to the exterior housing. Light can be efficiently performed.

  Application Example 6 In the projector according to the application example, it is preferable that the second light guide member constitutes a part of the exterior housing.

  According to such a projector, the second light guide member constitutes a part of the outer casing, whereby the outer casing can be reduced in size and the degree of freedom in designing the outer casing is improved. Can be made.

  Application Example 7 In the projector according to the application example described above, it is preferable that a plurality of light guide units are installed.

  According to such a projector, by providing a plurality of light guide portions, it is possible to guide the modulated light to the plurality of regions of the exterior housing and transmit the light. In addition, for example, since the color can be changed for each light guide unit, the degree of freedom of coloring of the outer casing can be further improved.

  Application Example 8 In the projector according to the application example, it is preferable that the modulated light displays operation information of the projector body.

  According to such a projector, the operation information of the projector main body can be displayed and notified by the modulated light transmitted through the exterior housing, so that the convenience of the projector can be improved. As the operation information, for example, information that the light source device is ready for replacement or that the internal temperature is abnormal can be notified by the color of the modulated light that is transmitted through the exterior housing.

1 is a schematic perspective view of a projector according to a first embodiment. The figure which shows typically the structure of the optical unit of a projector. The top view which shows typically the pixel area | region of the liquid crystal panel for R light. FIG. 2 is a block diagram schematically showing a circuit configuration of a projector. FIG. 3 is a schematic plan view schematically showing image light emitted from a cross dichroic prism and one end of a light guide. It is a figure which shows a light guide part, (a) is a schematic plan view which shows the structure of a light guide part, (b) is a schematic sectional drawing which shows the structure of a light guide part. The figure which shows the light guide part which concerns on 2nd Embodiment. The figure which shows the light guide part which concerns on 3rd Embodiment.

Hereinafter, embodiments will be described with reference to the drawings.
(First embodiment)

  FIG. 1 is a schematic perspective view of a projector 1 according to the first embodiment. FIG. 2 is a diagram schematically illustrating the configuration of the optical unit 3 of the projector 1. A schematic configuration of the projector 1 according to the present embodiment will be described with reference to FIGS. 1 and 2.

  The projector 1 according to the present embodiment is an electronic device that modulates a light beam emitted from the light source device 30 according to an image signal and enlarges and projects it on a projection surface such as a screen SC (see FIG. 4). As shown in FIG. 1, the projector 1 includes an exterior housing 2 constituting an exterior, an optical unit 3 (see FIG. 2) disposed inside the exterior housing 2, and the like.

  The exterior housing 2 has a substantially rectangular parallelepiped shape, and generally includes an upper case 2A that constitutes the upper surface 2a side and a lower case 2B that constitutes the lower surface 2b side. An operation panel 11 for operating the operation of the projector 1 is installed on the upper surface 2a. A projection lens 35 of the optical unit 3 extends from the front surface 2 c of the exterior housing 2.

  In addition, the upper case 2A is formed of a light-transmitting material such as polycarbonate, and is colored milky white in the present embodiment. The upper case 2A has a display area 25 described later. In the display area 25, modulated light (light guide image light described later) emitted from the light modulation device (liquid crystal panel 341) is incident on the inner surface side of the upper case 2A to illuminate the display area 25. As a result, the entire display area 25 is colored by causing the display area 25 to transmit the incident light guide image light. In the present embodiment, the display area 25 is divided into three areas, a first display area 251, a second display area 252, and a third display area 253.

  The optical unit 3 modulates and projects a light beam according to an image signal. As shown in FIG. 2, the optical unit 3 extends in the left-right direction and the projection lens 35 side extends in the front direction. It has a substantially L shape.

  The optical unit 3 includes a light source device 30 having an arc tube 301 and a reflector 305, and an illumination optical device 31 having lens arrays 311 and 312, a polarization conversion element 313, a superimposing lens 314, and a collimating lens 315. The optical unit 3 includes a color separation optical device 32 having dichroic mirrors 321 and 322 and a reflection mirror 323, and an incident side lens 331, a relay lens 333, and a relay optical device 33 having reflection mirrors 332 and 334. .

  The optical unit 3 includes three liquid crystal panels 341 as light modulation devices, three incident-side polarizing plates 342, three emission-side polarizing plates 343, and a cross dichroic prism 344 as a color synthesizing optical device. And a projection lens 35 as a projection optical device. The optical unit 3 accommodates the light source device 30, the illumination optical device 31, the color separation optical device 32, the relay optical device 33, and the optical device 34 inside, and an optical component that supports and fixes the projection lens 35 at a predetermined position. A housing 36 is provided.

  In the optical unit 3, the light beam emitted from the light source device 30 and passing through the illumination optical device 31 is converted into three color lights of red (R) light, green (G) light, and blue (B) light by the color separation optical device 32. To be separated. Each separated color light is modulated in accordance with an image signal by each liquid crystal panel 341 (R light liquid crystal panel 341R, G light liquid crystal panel 341G, B light liquid crystal panel 341B).

  In the present embodiment, the three liquid crystal panels 341 (the R light liquid crystal panel 341R, the G light liquid crystal panel 341G, and the B light liquid crystal panel 341B) are configured by using a transmissive high-temperature polysilicon TFT panel. Yes. In detail, the liquid crystal panel 341 includes a plurality of pixels arranged in a matrix form in which liquid crystal is sealed between a pair of transparent substrates, and a driving voltage can be applied to the liquid crystal for each pixel. ing. When a driving voltage corresponding to the image signal is input (applied) to each pixel, each pixel is set to a light transmittance corresponding to the image signal. Therefore, each color light separated into the three color lights is modulated by passing through the corresponding liquid crystal panel 341, and image light corresponding to the image signal is formed for each color light.

  The cross dichroic prism 344 has a substantially square shape in plan view in which four right-angle prisms are bonded together, and two dielectric multilayer films are formed on the interface where the right-angle prisms are bonded together. Then, the cross dichroic prism 344 synthesizes each color light (image light) formed by being modulated by each liquid crystal panel 341 for each pixel and emits it as image light representing a color image.

  FIG. 3 is a plan view schematically showing the pixel region 3410 of the R light liquid crystal panel 341R. With reference to FIG. 3, the configuration of the pixel region 3410 will be described using the R light liquid crystal panel 341R as an example.

  The R light liquid crystal panel 341R includes a light guide image region 3411 and a projection image region 3412 as a pixel region 3410 having a rectangular shape. The light guide image region 3411 is a region for displaying a light guide image to be guided to the light guide unit 5 described later. The projected image area 3412 is an area for displaying an image for projection to be projected onto the screen SC or the like via the projection lens 35, similarly to the basic function of the conventional projector. In the present embodiment, the light guide image area 3411 is set on the lower side of the R light liquid crystal panel 341R.

  The R light liquid crystal panel 341 </ b> R includes a protected image area 3413 between the light guide image area 3411 and the projected image area 3412. The protected image area 3413 is an area for displaying an image that does not belong to either the light guide image area 3411 or the projected image area 3412.

  3 shows the configuration of the pixel region 3410 of the R light liquid crystal panel 341R, the pixel region 3410 (light guide image region 3411) in the G light liquid crystal panel 341G and the B light liquid crystal panel 341B (not shown). The projected image area 3412 and the protected image area 3413) are also configured in the same manner as the R light liquid crystal panel 341R. Further, the respective light guide image areas 3411 of the G light liquid crystal panel 341G and the B light liquid crystal panel 341B are set in the same manner on the lower side.

  With this configuration, the image light of each color formed by being modulated in the pixel region 3410 (the light guide image region 3411, the projection image region 3412, and the protection image region 3413) of each liquid crystal panel 341 is pixelated by the cross dichroic prism 344 described above. They are combined and emitted as image light representing a color image.

  Therefore, from the cross dichroic prism 344, the modulated lights modulated in the light guide image area 3411 of each liquid crystal panel 341 are combined and emitted as light guide image light representing a light guide color image. Similarly, from the cross dichroic prism 344, the modulated lights modulated in the projected image areas 3412 of the liquid crystal panels 341 are combined and emitted as projection image light representing a color image for projection. Similarly, from the cross dichroic prism 344, the modulated lights modulated in the protected image area 3413 of the liquid crystal panels 341 are combined and emitted as protective image light representing a protective color image.

  The emitted light for guiding light is incident on a light guide 5 described later. The projected image light for projection enters the projection lens 35. The projection image light incident on the projection lens 35 is enlarged and projected on the screen SC or the like. The protective image light remains emitted. In this embodiment, the protective image light is black and is not emitted as light. Note that when black is formed, the liquid crystal panel 341 is driven to be set so that the light transmittance is minimized. Therefore, the light incident on the liquid crystal panel 341 is not substantially transmitted, in other words, is in a state of being shielded from light. As a result, black is formed. In this embodiment, since the protection image area 3413 is set as black, the protection image light is not emitted as light.

  FIG. 4 is a block diagram schematically showing the circuit configuration of the projector 1. The circuit configuration and operation of the projector 1 will be described with reference to FIG.

  The projector 1 includes a control unit 10, an operation panel 11, an operation signal processing unit 12, an image input unit 13, an image processing unit 14, an image storage unit 15, an image composition unit 16, a liquid crystal panel drive unit 17, an optical unit 3, and the like. Has been. The optical unit 3 is as described above.

  The operation panel 11 is for accepting user operation input. When the user presses a key switch arranged on the operation panel 11, an operation signal corresponding to the key switch is output to the operation signal processing unit 12. The operation signal processing unit 12 receives the operation signal output from the operation panel 11, converts it into a digital signal, and outputs it to the control unit 10.

  The control unit 10 performs overall control of the operation of the projector 1. The control unit 10 includes a calculation device such as a microcomputer or a CPU (Central Processing Unit) and a control program that defines the operation thereof.

  An image signal is input to the image input unit 13 via an external image supply device (not shown) such as a PC (Personal Computer) or a video reproduction device and a cable. Based on the instruction from the control unit 10, the image processing unit 14 performs various conversions such as resolution conversion and brightness adjustment for matching the resolution to the resolution (number of pixels) of the liquid crystal panel 341 with respect to the image signal input from the image input unit 13. Perform image quality adjustment and various image processing. The image synthesis unit 16 receives the image signal of the light guide image and the protection image stored in the image storage unit 15 from the control unit 10, and synthesizes the image signal of the projection image input from the image processing unit 14. To do.

  The liquid crystal panel driving unit 17 applies a driving voltage corresponding to the image signal input from the image synthesis unit 16 to each pixel of each liquid crystal panel 341. Thereby, as described above, the cross dichroic prism 344 emits the light guide image light, the projection image light, and the protection image light.

  Note that the projection image light is enlarged and projected onto the screen SC or the like by the projection lens 35. Further, the image light for light guide is guided by the light guide unit 5 described later.

  FIG. 5 is a schematic plan view schematically showing the image light emitted from the cross dichroic prism 344 and one end of the light guide 5. FIG. 6 is a diagram illustrating the light guide unit 5, FIG. 6A is a schematic plan view illustrating the structure of the light guide unit 5, and FIG. 6B illustrates the structure of the light guide unit 5. FIG. FIG. 6A is a schematic plan view of the main part with the upper case 2A removed. With reference to FIGS. 5 and 6, the configuration and operation of the light guide 5 will be described.

  As shown in FIG. 5, the image light emitted from the cross dichroic prism 344 is guided in correspondence with the pixel area 3410 (light guide image area 3411, projection image area 3412, protection image area 3413) of each liquid crystal panel 341. It is emitted as image light for light, image light for projection, and image light for protection.

  In this embodiment, the light guide image is stored in the image storage unit 15, and is displayed as an initially set light guide image in three circular shapes as shown in FIG. A red region 3411a, a green region 3411b, a blue region 3411c, and a black region 3411d that is a circular external region are configured. Therefore, by combining with the cross dichroic prism 344 corresponding to the light guide image region 3411, red light is emitted from the red region 3411a, green light is emitted from the green region 3411b, and blue light is emitted. Blue light is emitted from the region 3411c. Note that, from the black region 3411d, light is not emitted as in the black formation in the protected image region 3413 described above.

  The protection image is synthesized by the cross dichroic prism 344 corresponding to the protection image region 3413, and color light set as protection image light is emitted. In the present embodiment, since the protection image is composed of black, it is not emitted as light. By setting this protection image (protection image area 3413), image light in the light guide image area 3411 and the projection image area 3412 is prevented from being mixed.

  The light guide 5 includes a light guide member 51 as a first light guide member. The light guide member 51 includes three light guide members 51a, 51b, and 51c, and is provided corresponding to the three color regions 3411a, 3411b, and 3411c of the image light for light guide. In the present embodiment, each light guide member 51 is configured by an assembly of optical fibers, and the assembly has a substantially circular cross section, is configured in a cable shape, and is bendable. As shown in FIGS. 5 and 6, one end portion of each light guide member 51 is brought close to the exit surface 3440 of the cross dichroic prism 344 and is opposed to the corresponding color regions 3411 a, 3411 b, 3411 c by the fixing member 41. It is fixed.

  Specifically, the light guide member 51 is installed such that the light guide member 51a corresponds to the red region 3411a, the light guide member 51b corresponds to the green region 3411b, and the light guide member 51c corresponds to the blue region 3411c. . Then, red light, green light, and blue light emitted from the color regions 3411a, 3411b, and 3411c are incident on the corresponding light guide members 51a, 51b, and 51c.

  Note that the projection image light emitted from the cross dichroic prism 344 enters the projection lens 35 installed in the front and is enlarged and projected as described above. Further, as shown in FIG. 6B, in this embodiment, a partition wall 42 is installed between the projection lens 35 and the light guide member 51. The protective image light is set to enter the partition wall 42. The partition wall 42 prevents the projection image light and the light guide image light from being mixed due to misalignment when the projection lens 35 and the light guide member 51 are fixed.

  The light guide unit 5 further includes a reflection plate 52 formed in a rectangular flat plate shape as a second light guide member. The reflection plate 52 is a member that guides (reflects) the light guide image light guided by the light guide member 51 to the inner surface side of the display region 25 of the upper case 2A. The reflection plate 52 includes three reflection plates 52a, 52b, and 52c. Specifically, the reflecting plate 52a corresponds to the light guide member 51a, the reflecting plate 52b corresponds to the light guiding member 51b, and the reflecting plate 52c corresponds to the light guiding member 51c.

  The reflector 52 is installed while being guided by the reflector guide frame 43. The reflector guide frame 43 has an opening 431 that opens to the top, and is configured to include three chambers 44. The three rooms 44 are referred to as rooms 44a, 44b, and 44c, respectively. Each bottom surface 46 of each chamber 44 is formed in a state of being inclined upward as it goes from the portion on the front surface 2c side where the other end portion of the light guide member 51 is installed to the back surface 2d side.

  On the bottom surface 46 of each room 44, a reflecting plate 52 is installed with the reflecting surface (not shown) facing upward. Specifically, the reflector plate 52a is installed on the bottom surface 46 of the room 44a, the reflector plate 52b is installed on the bottom surface 46 of the room 44b, and the reflector plate 52c is installed on the bottom surface 46 of the room 44c.

  The openings 431 of the three rooms 44 are installed in contact with the inner surface of the upper case 2A. Then, the display area 25 of the upper case 2 </ b> A is formed by the opening 431. Specifically, a first display area 251 is formed corresponding to the room 44a, a second display area 252 is formed corresponding to the room 44b, and a third display area 253 is formed corresponding to the room 44c.

  Regarding the illumination of the display area 25 by the light guide unit 5, the light guide by the light guide member 51a will be described as an example.

  The light guide image light (red light) incident on one end of the light guide member 51 a is guided through the light guide member 51 a and reflected from the other end of the light guide member 51 a fixed to the reflector guide frame 43. Injected toward the plate 52a. The emitted red light is reflected upward by the reflecting plate 52a and is incident on the inner surface side of the upper case 2A. The red light incident on the inner surface side of the upper case 2A is diffused by being diffused by passing through the inside of the upper case 2A and emitted from the outer surface (upper surface 2a) of the upper case 2A. By this series of light guides, the first display area 251 of the upper case 2A is illuminated.

  Similarly, in the other light guide members 51b and 51c, each light guide image light (green light and blue light) is guided and reflected by each of the reflection plates 52b and 52c, whereby the second light of the upper case 2A. The display area 252 is illuminated with green light and the third display area 253 is illuminated with blue light. Accordingly, in the display area 25, the first display area 251 is illuminated with red light, the second display area 252 is illuminated with green light, and the third display area 253 is illuminated with blue light.

  Note that a boundary portion between the red light and the green light (a boundary portion between the room 44a and the room 44b) is emitted from the upper surface 2a as color light mixed with each other by being transmitted through the upper case 2A. Similarly, a boundary portion between the green light and the blue light (a boundary portion between the room 44b and the room 44c) is emitted from the upper surface 2a as a color light mixed with each other by being transmitted through the upper case 2A.

  Thereby, on the external appearance of the projector 1, the upper surface 2a of the milky white upper case 2A is illuminated with colored light in which red light, green light, blue light, and a boundary portion of each color light are mixed (colored). State). In addition, the reflector guide frame 43 has a specification that cannot be visually recognized from the appearance of the upper case 2A that is colored milky white, thereby improving the aesthetics.

According to the embodiment described above, the following effects can be obtained.
The projector 1 according to this embodiment includes a light source device 30, a light modulation device (liquid crystal panel 341), a light guide unit 5, and an exterior housing 2, so that modulated light (guided light) modulated by the liquid crystal panel 341 and emitted. Light image light) is guided by the light guide unit 5, and the guided light image light is transmitted through the outer casing 2 (upper case 2A), thereby coloring the upper case 2A with modulated light. It can be made into the state which carried out. Therefore, the degree of freedom of coloring of the upper case 2A can be improved by using the modulation by the liquid crystal panel 341. As a result, even if the outer case 2 made of milky white and the lower case 2B, for example, black is mass-produced, the upper case 2A can be colored with modulated light. Can be close to coloring. Thereby, manufacturing cost can be suppressed. Moreover, since the freedom degree of coloring of upper case 2A can be improved, the freedom degree of the design of the exterior housing | casing 2 using this can also be improved.

  According to the projector 1 of the present embodiment, the liquid crystal panel 341 includes the light guide image area 3411 and the projection image area 3412, so that the light guide portion 5 (light guide member 51) has a light guide image (light guide image). Light) can be guided, and a projection image (projection image light) can be enlarged and projected onto the screen SC via the projection lens 35. Therefore, the function of coloring the upper case 2A and the function of projecting an image, which is the original function of the projector, can be realized by the same liquid crystal panel 341. For this reason, since it is not necessary to install and use a liquid crystal panel separately, manufacturing cost can be suppressed.

  According to the projector 1 of the present embodiment, by providing the protected image area 3413 between the light guide image area 3411 and the projection image area 3412, an image projected via the projection lens 35 (projection image) can be displayed. The light guide image can be prevented from being mixed, and conversely, the projection image can be prevented from being mixed with the coloring of the upper case 2A.

  According to the projector 1 of the present embodiment, the light guide unit 5 (light guide member 51) is fixed so as to face the light guide image region 3411 by setting the light guide image region 3411 on the lower side. The projection lens 35 can be fixed and installed so as to face the projection image area 3412.

  According to the projector 1 of the present embodiment, the light guide unit 5 includes the first light guide member (light guide member 51) and the second light guide member (reflector plate 52), and thus exits from the light guide image region 3411. It is possible to efficiently guide the modulated light until it is guided to the upper case 2A.

According to the projector 1 of the present embodiment, a plurality of (three) light guides 5 are installed, so that a plurality of regions (first display region 251, second display region 252, third display) of the upper case 2A. The modulated light can be guided and transmitted through the region 253). In addition, since the colors of the light guides 5 are different from red light, green light, and blue light, the degree of freedom of coloring of the exterior housing 2 can be further improved.
(Second Embodiment)

  FIG. 7 is a diagram illustrating the light guide unit 6 according to the second embodiment. FIG. 7 is a schematic sectional view showing the periphery of the light guide member 61 constituting the light guide unit 6. With reference to FIG. 7, the structure and operation | movement of the light guide part 6 are demonstrated.

  The light guide unit 6 of the present embodiment is different from the first embodiment in which the light guide member 61 is provided as the second light guide member, and the reflection plate 52 is provided as the second light guide member.

  The light guide unit 6 of the present embodiment includes a light guide member 51 as a first light guide member configured in the same manner as in the first embodiment, and a light guide member 61 as a second light guide member. The Further, the reflector guide frame 43 of the first embodiment is not used. Other configurations are the same as those in the first embodiment. In addition, the code | symbol similar to 1st Embodiment is attached to the same structure.

  As shown in FIG. 7, the light guide member 61 of the present embodiment has a rectangular flat plate shape, and a light guide member main body 611 having a bottom surface (concave / convex portion) 611 a and a bottom surface of the texture 611 a. And a painted portion 612 that has been painted in a color with a high rate (white in this embodiment). The embossing 611 a diffuses the light guide image light within the light guide member body 611. In addition, the light guide member 61 is installed so that an upper surface may contact the inner surface of the upper case 2A. The other end of the light guide member 51 is disposed in contact with the end surface of the light guide member main body 611.

  Note that the light guide image in the present embodiment is configured in the same manner as in the first embodiment. Also, three light guide members 51 (light guide members 51a, 51b, 51c) corresponding to the image light for light guide are provided. Therefore, the light guide member 61 of this embodiment is also provided with three (light guide members 61a, 61b (not shown), 61c (not shown)) corresponding to the light guide member 51. The light guide member 61a is installed corresponding to the light guide member 51a, the light guide member 61b is installed corresponding to the light guide member 51b, and the light guide member 61c is installed corresponding to the light guide member 51c. Yes.

  The three light guide members 61 are arranged such that their longitudinal directions are in contact with each other. Due to the arrangement of the three light guide members 61, the display area of this embodiment is substantially the same as the display area 25 (first display area 251, second display area 252, and third display area 253) of the first embodiment. Configured.

  The light guide image light (red light) emitted from the light guide member 51a is incident on the light guide member 61a, diffusely reflected by the texture 611a, and diffused inside the light guide member main body 611. The diffused red light is guided upward, is emitted from the light guide member 61a, and enters the inner surface side of the upper case 2A. The red light incident on the inner surface side of the upper case 2A is diffused by being diffused by passing through the inside of the upper case 2A and emitted from the outer surface (upper surface 2a) of the upper case 2A. By this operation, the first display area 251 of the upper case 2A is illuminated.

  Similarly, in the light guide members 61b and 61c (not shown), the image light for light guide (green light and blue light) is guided, and the second display region 252 of the upper case 2A is illuminated with green light. The display area 253 is illuminated with blue light.

  According to the embodiment described above, the following effects can be obtained.

According to the projector 1 of the present embodiment, the light guide unit 6 includes the first light guide member (light guide member 51) and the second light guide member (light guide member 61), so that from the light guide image region 3411. Light can be efficiently guided until the emitted modulated light is guided to the upper case 2A.
(Third embodiment)

  FIG. 8 is a diagram illustrating the light guide unit 7 according to the third embodiment. FIG. 8 is a schematic sectional view showing the periphery of the light guide member 71 constituting the light guide unit 7. With reference to FIG. 8, the structure and operation | movement of the light guide part 7 are demonstrated.

  The light guide unit 7 of the present embodiment is different from the first embodiment in which the light guide member 71 is provided as the second light guide member, and the reflection plate 52 is provided as the second light guide member.

  The light guide unit 7 of the present embodiment includes a light guide member 51 as a first light guide member configured in the same manner as in the first embodiment, and a light guide member 71 as a second light guide member. The Further, the reflector guide frame 43 of the first embodiment is not used. Other configurations are the same as those in the first embodiment. In addition, the code | symbol similar to 1st Embodiment is attached to the same structure.

  As shown in FIG. 8, the light guide member 71 of the present embodiment has a rectangular flat plate shape, is colored milky white like the upper case 2A, and has a light guide member body 711 with a bottom surface 711a. The bottom surface of the grain 711a is provided with a coating portion 712 that is coated with a highly reflective color (white in this embodiment). The embossing 711 a diffuses the light guide image light within the light guide member body 711. The light guide member 71 constitutes a part of the upper case 2A, and the upper surface 711b is uniformly connected to the upper surface 2a of the upper case 2A. The other end of the light guide member 51 is disposed in contact with the end surface of the light guide member main body 711.

  Note that the light guide image in the present embodiment is configured in the same manner as in the first embodiment. Also, three light guide members 51 (light guide members 51a, 51b, 51c) corresponding to the image light for light guide are provided. Therefore, the light guide member 71 of this embodiment is also provided with three (light guide members 71a, 71b (not shown), 71c (not shown)) corresponding to the light guide member 51. The light guide member 71a is installed corresponding to the light guide member 51a, the light guide member 71b is installed corresponding to the light guide member 51b, and the light guide member 71c is installed corresponding to the light guide member 51c. Yes.

  The three light guide members 71 are arranged such that their longitudinal directions are in contact with each other. Due to the arrangement of the three light guide members 71, the display area of the present embodiment is substantially the same as the display area 25 (first display area 251, second display area 252, and third display area 253) of the first embodiment. Configured.

  The light guide image light (red light) emitted from the light guide member 51a is incident on the light guide member 71a, diffusely reflected by the texture 711a, diffused inside the light guide member body 711, and guided upward. And is ejected from the upper surface 711b. By this operation, the first display area 251 (light guide member 71a) of the upper case 2A is illuminated.

  Similarly, in the light guide members 71b and 71c (not shown), each light guide image light (green light and blue light) is guided, and the second display region 252 (light guide member 71b) of the upper case 2A is green light. And the third display area 253 (light guide member 71c) is illuminated with blue light.

  According to the embodiment described above, the following effects can be obtained.

  According to the projector 1 of the present embodiment, the second light guide member (light guide member 71) constitutes a part of the outer casing 2 (upper case 2A), thereby reducing the size of the outer casing 2. Moreover, the freedom degree of design of the exterior housing | casing 2 can be improved.

  Note that the present invention is not limited to the above-described embodiment, and various modifications and improvements can be made without departing from the scope of the invention. A modification will be described below.

  In the projectors 1 of the first to third embodiments, modulated light that is red light, green light, and blue light is generated in the liquid crystal panel 341 as a light guide image. The upper case 2A is colored by emitting the generated red light, green light, and blue light to the upper case 2A. However, using this configuration, the control unit 10 controls the liquid crystal panel 341 to generate modulated light for displaying the operation information of the projector 1 as a light guide image, so that the upper case 2A is colored. But you can. As an example of the operation information, information such as whether or not the light source device 30 is in the replacement period and whether or not the internal temperature is abnormal can be cited. Further, as a coloring method, it is conceivable that coloring is performed by changing a color or blinking display. With this configuration, the operation information of the projector 1 can be recognized by the user with the coloring of the upper case 2A, so that the convenience of the projector can be further improved.

  In the projector 1 of the first to third embodiments, a menu screen stored in the control unit 10 may be projected as a projection image so that the user can set a light guide image. Then, the light guide image may be generated on the liquid crystal panel 341 based on the control of the control unit 10 corresponding to each setting on the menu screen. In this case, it is preferable not to divide the light guide member 51 into three parts but to install the light guide member 51 relative to the entire light guide image area 3411 from the viewpoint of effectively using the light guide image area 3411. As an example of the contents of the menu screen, there are settings for whether or not to generate a light guide image, color settings, color decoration settings, display pattern settings, settings for whether or not to change colors over time, etc. Can be mentioned. By adopting such a configuration, it is possible to further approximate the coloring desired by each user.

  In the projector 1 of the first to third embodiments, the upper case 2A is colored with modulated light. However, not only the upper case 2A but also the lower case 2B may be colored.

  In the projector 1 of the first to third embodiments, the pixel area 3410 of the liquid crystal panel 341 is divided into a light guide image area 3411, a projected image area 3412, and a protected image area 3413. However, the protected image area 3413 may not be provided. Alternatively, the entire pixel area 3410 may be temporarily used as the light guide image area 3411. In that case, the light guides 5, 6, and 7 may be changed to be movable.

  In the projector 1 of the first to third embodiments, the light guide image area 3411 is set on the lower side of the liquid crystal panel 341, but is set on the upper side or the left and right side. May be.

  In the projectors 1 of the first to third embodiments, red, green, and blue are generated as light guiding images, but images (still images and moving images) are generated and guided to illuminate the upper case 2A. It may be allowed to.

  In the projectors 1 of the first to third embodiments, the light guide member 51 as the first light guide member is configured by an aggregate of optical fibers, but is not limited thereto, and is used for light guide by repeating total reflection. Any member that guides image light may be used. The light guide member 51 is divided into three light guide members 51a, 51b, and 51c. However, the light guide member 51 may be integrally installed corresponding to the light guide image region 3411.

  In the projector 1 according to the first to third embodiments, the upper case 2A has translucency and is colored milky white. However, the present invention is not limited to this, and any member that has translucency and is translucent may be used.

  In the projectors 1 of the second and third embodiments, the light guide members 61 and 71 are provided with coating portions 612 and 712 on the lower surfaces of the textures 611a and 711a that are painted with a highly reflective color. However, the present invention is not limited to this, and a color with high reflectivity may be printed, or a sticker with a color with high reflectivity may be attached, and various configurations can be adopted.

  In the projector 1 of the first embodiment, the reflection plate 52 as the second light guide member is formed in a rectangular flat plate shape. However, the shape is not limited, and may be a shape other than a rectangle, a curved surface shape, or the like. Similarly, the light guide members 61 and 71 as the second light guide members of the second and third embodiments can also have a shape other than a rectangle, a curved surface shape, or the like.

  In the projectors 1 of the first to third embodiments, the display area 25 is set on the upper surface 2a of the upper case 2A. However, the display area is not limited, and the position and size can be freely set by the light guides 5, 6, and 7.

  In the projector 1 according to the third embodiment, the light guide member 71 is formed in a rectangular flat plate shape. However, the shape is not limited, and may be an outer surface shape (curved surface shape or the like) constituting the upper case 2A. Further, the entire upper case 2 </ b> A may be configured as the light guide member 71.

  The projector 1 of the first to third embodiments employs a so-called three-plate method using three liquid crystal panels 341 corresponding to R light, G light, and B light. However, the present invention is not limited to this, and a single-plate liquid crystal panel may be adopted. In the case of the single plate method, the cross dichroic prism 344 is not necessary, and the light guide member 51 may be installed so as to be opposed to the liquid crystal panel.

  Although the light modulation device of the first to third embodiments uses the transmission type liquid crystal panel 341, a reflection type light modulation device such as a reflection type liquid crystal panel can also be used.

  DESCRIPTION OF SYMBOLS 1 ... Projector, 2 ... Exterior housing, 2A ... Upper case, 5, 6, 7 ... Light guide part, 30 ... Light source device, 51 ... Light guide member (1st light guide member), 52 ... Reflector (2nd) Light guide member), 61, 71 ... Light guide member (second light guide member), 341 ... Liquid crystal panel (light modulation device), 3410 ... Pixel region, 3411 ... Light guide image region, 3412 ... Projection image region, 3413 ... Protected image area.

Claims (6)

A light source device for emitting light;
A light modulation device that modulates light emitted from the light source device based on an image signal;
A light guide that guides the modulated light emitted from the light modulation device;
An exterior housing that houses the light source device, the light modulation device, and the light guide unit, and has translucency and transmits the modulated light guided by the light guide unit ,
The light modulation device comprises:
A light guide image region for displaying a light guide image to be guided to the light guide unit;
A projected image area for displaying a projection image for projection;
A protected image region that displays an image that does not belong to either region between the light guide image region and the projected image region;
The protective image area, a projector in the light modulating device, the transmittance of light emitted from the light source device is characterized that you have been set to be minimum. The projector according to claim 1 ,
The projector is characterized in that the light guide image area is set on at least one of the four sides of the light modulation device having a rectangular shape. The projector according to claim 1 or 2 , wherein
The light guide is
A first light guide member that guides the modulated light emitted from the light guide image region;
A projector comprising: a second light guide member that guides the modulated light guided by the first light guide member to the exterior housing. The projector according to claim 3 ,
The projector, wherein the second light guide member constitutes a part of the exterior casing. The projector according to any one of claims 1 to 4,
A projector, wherein a plurality of the light guide portions are installed. It is a projector as described in any one of Claims 1-5 , Comprising:
The projector is characterized in that the modulated light displays operation information of the projector body.

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