JP2009133947A - Projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projector capable of effectively utilizing leak light in a switch key. <P>SOLUTION: The projector 1 includes: an optical device which forms an optical image by modulating luminous flux emitted from a light source according to image information, and projects the optical image; a switch circuit board 30 on which a tact switch 32 pushed to output a prescribed signal is mounted; a switch key 21 which has translucency, is disposed to face the tact switch 32 and presses the tact switch 32; and an upper housing 12 which has a hole for a switch 123 for exposing the switch key 21 to the outside, and inside which the switch key 21, the switch circuit board 30 and the optical device are housed. The switch key 21 guides the leak light in the optical device and radiates the guided leak light to the outside of the upper housing 12. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a projector.

  2. Description of the Related Art Conventionally, a projector includes a switch key for instructing an operation of the projector on an exterior casing. In addition, since the projector leaks light from the gap between the switch key and the exterior housing due to light leakage from the optical device for forming an optical image housed in the projector, a circuit board on which a switch element or the like is mounted Measures against light leakage such as sticking a light-shielding sheet on the surface of

In Patent Document 1, a circuit board on which a self-luminous element and a switch (switch element) are mounted, a key top body (switch key) that presses the switch, and a base member that supports the key top body are provided as an operation panel. A key top having an indicator portion that guides light emitted from the self-light-emitting element and emits the light to the outside, and a cover member having a key top body and a hole that exposes the indicator portion to the outside. In addition, it is disclosed to integrally mold with a synthetic resin having translucency.
In Patent Document 1, as a countermeasure against light leakage, the key top body and the base member are painted with a light-shielding paint.

JP 2006-244864 A

  As described above, the projector requires a light leakage countermeasure against the light leakage from the optical device, and the switch key also requires a light leakage countermeasure such as a light blocking process for the light leakage. Further, since light leakage always occurs, it has been a problem to effectively use light leakage in the switch key.

  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 modulates a light beam emitted from a light source according to image information to form an optical image, and an optical device that projects the optical image. A circuit board on which a switch element for outputting a signal is mounted, a light-transmitting switch element disposed so as to be opposed to the switch element, and a switch key for pressing the switch element, and the switch key being exposed to the outside A switch key, a circuit board, and an exterior casing that houses the optical device therein, and the switch key guides light leakage of the optical device to the outside of the exterior casing. It is characterized by emitting light leakage.

  According to such a projector, since the switch key for pressing the switch element has translucency, light leakage from the optical device guides the inside of the switch key. Then, the leaked light that has been guided is radiated to the outside through the hole of the exterior casing that exposes the switch key to the outside. As a result, it is possible to realize a projector that can effectively use light leakage from the optical device as a source for illuminating the switch key.

  Application Example 2 In the projector described above, the switch key is preferably formed of a member mixed with a light diffusing material that diffuses light.

  According to such a projector, when the switch key is formed of a member mixed with a light diffusing material that diffuses light, when the light leakage of the optical device is guided inside the switch key, the light leakage is diffused by the light diffusing material. By doing so, it is converted into light leakage with substantially uniform brightness. Thereby, the switch key can be illuminated with substantially uniform brightness by light leakage, and the light leakage can be emitted to the outside. Therefore, the appearance of light leakage can be improved.

  Application Example 3 In the projector described above, it is preferable that the switch key has a textured surface that diffuses light on the outer surface side.

  According to such a projector, the switch key has an embossed surface on the outer surface side that diffuses light, so that light leakage from the optical device is guided inside the switch key and emitted to the outside of the switch key. In addition, the light leakage is diffused by the textured surface, so that the light leakage is converted into light leakage with substantially uniform brightness. Alternatively, when light leakage is guided to the inside of the switch key, it is diffused by the embossed surface to be converted into light leakage having a substantially uniform brightness, and is guided to the outside through the switch key. Accordingly, the switch key can be illuminated with substantially uniform brightness by light leakage, and the light leakage can be emitted to the outside of the switch key. Therefore, the appearance of light leakage can be improved.

  Application Example 4 In the projector described above, it is preferable that the switch key is subjected to a coating process having translucency on the outer surface side.

  According to such a projector, since the switch key is subjected to a light-transmitting coating process on the outer surface side, light leakage of the optical device is guided inside the switch key and radiated to the outside of the switch key. In this case, the light leakage is diffused by the coating process, so that the light leakage is converted into light leakage with substantially uniform brightness. Alternatively, when the light leakage is guided to the inside of the switch key, it is diffused by the coating process and converted into light leakage having a substantially uniform brightness, and the light inside the switch key is guided and emitted to the outside. Accordingly, the switch key can be illuminated with substantially uniform brightness by light leakage, and the light leakage can be emitted to the outside of the switch key. Therefore, the appearance of light leakage can be improved.

  Application Example 5 In the projector described above, it is preferable that the switch key is subjected to a light shielding process in a predetermined region exposed from the hole of the outer casing.

  According to such a projector, since the switch key is subjected to the light shielding process in the predetermined area exposed from the hole of the exterior housing, the predetermined area where the light shielding process is performed is not illuminated, and the light shielding process is performed. Regions other than the predetermined region that are not performed can be illuminated. Therefore, variations in how the switch key is lit (illuminated) using light leakage can be increased, and the degree of freedom in designing the projector is improved.

  Application Example 6 In the above projector, the optical device includes a light modulation device that modulates a light beam emitted from a light source according to image information to form an optical image, and the switch key includes the light modulation device. It is preferable that it is disposed in the region of the outer casing opposite to.

  According to such a projector, the optical device has the light modulation device, and the amount of light leakage in the optical device is reduced because the switch key is disposed in the region of the outer casing facing the light modulation device. Light leakage from many light modulation devices can be used, and light leakage emitted from the switch key to the outside can be brightened. Therefore, the appearance of light leakage can be further improved, and light leakage can be used more effectively.

Hereinafter, embodiments will be described with reference to the drawings.
FIG. 1 is a schematic perspective view of a projector according to an embodiment. With reference to FIG. 1, an external configuration of the projector 1 will be described.

  The projector 1 modulates a light beam emitted from a light source according to image information to form an optical image, and projects the optical image on a screen (not shown) or the like as an image (for example, a color image). As shown in FIG. 1, the projector 1 is covered with an outer casing 10 having a substantially rectangular parallelepiped shape. In addition, the outer casing 10 includes a lower casing 11 that constitutes the bottom surface 1b of the projector 1 and an upper casing 12 that covers five surfaces (an upper surface 1a, a front surface 1c, a rear surface 1d, a right surface 1e, and a left surface 1f) other than the bottom surface 1b. It consists of and.

  A projection optical device (projection lens 66) for projecting an image is accommodated in the exterior housing 10. The upper housing 12 on the upper surface 1a of the projector 1 is formed with an adjustment opening 121 for the user to insert a fingertip when performing projection magnification adjustment and focus adjustment of the projection lens 66. Further, a projection opening 122 through which image light passes when the projector 1 projects an image is formed in the upper casing 12 of the front surface 1c of the projector 1.

  On the inner surface side of the upper housing 12, an opening / closing lid 15 that is slidably disposed around the adjustment opening 121 of the upper housing 12 and the projection opening 122 is installed. . When the projector 1 is not used, the opening / closing lid 15 holds the holding portion 151 protruding from the opening / closing lid 15 and slides the opening / closing lid 15, thereby adjusting the opening 121 for adjustment and the opening for projection. 122 can be covered (closed) (state shown in FIG. 1). Conversely, when the projector 1 is used, the adjustment opening 121 and the projection opening 122 can be opened by holding the grip 151 and sliding the opening / closing lid 15.

  In addition, a substantially central portion of the upper housing 12 on the upper surface 1 a of the projector 1 is provided so as to extend in the left-right direction, and a plurality of switch holes 123 are formed in various sizes, through the switch holes 123. Thus, an operation portion 211 of a switch key 21 (described later) installed on the inner surface side of the upper housing 12 is inserted and exposed. A plurality of indicator holes 124 are formed in the upper housing 12 on the upper surface 1 a of the projector 1, and an indicator described later is installed on the inner surface side of the upper housing 12 through the indicator holes 124. The part 22 is inserted and exposed.

  The switch key 21 is used to press a switch element to be described later when instructing the operation of the projector 1. When the user presses the switch key 21, the switch element is operated, and the projector 1 can perform a desired operation. The indicator unit 22 emits predetermined light to the outside in accordance with the operation state so that the user can recognize the operation state of the projector 1. The operating state is, for example, a state in which the light source is not driven (the main power switch (not shown) is not input) after the power cable (not shown) of the projector 1 is plugged into an outlet (not shown). There are a standby state, a normal operation state in which the light source is driven and the projector 1 is used, an internal temperature abnormal state in which the inside of the projector 1 is abnormally hot, and the like.

  Further, the projector 1 is provided with a light source device lid 14 that opens and closes when a light source (light source device) described later is replaced on the corner portion of the left surface 1f and the back surface 1d on the upper surface 1a of the projector 1. The light source device lid 14 is installed so as to cover a light source device opening (not shown) formed in the upper housing 12 relative to the light source device lid 14. In addition, a handle 16 for carrying the projector 1 is installed at the right end of the projector 1 on the outer surface of the upper housing 12 and placed on the upper surface 1a, front surface 1c, and back surface 1d of the projector 1. When carrying the projector 1, the handle 16 is rotated from the state shown in FIG. 1 to the right surface 1 e side at a substantially right angle to grip the handle 16.

  Further, on the right surface 1e of the projector 1, an air inlet (not shown) for introducing outside air into the exterior housing 10 is formed in the upper housing 12, and an air intake frame 17 is formed so as to cover the air inlet. is set up. The air introduced through the intake frame 17 and the intake port cools an optical device that generates heat by a cooling fan described later.

  Further, on the left surface 1f of the projector 1, there is formed an exhaust port (not shown) for exhausting the heated air generated by the optical device in the exterior housing 10 to the outside of the projector 1. Further, on the rear surface 1d of the projector 1, an interface unit (not shown) for exchanging signals with an external device is installed. Further, a leg (not shown) for adjusting the projection angle of the projector 1 is installed on the bottom surface 1 b of the projector 1.

  FIG. 2 is an exploded perspective view of the projector. Specifically, in FIG. 2, the upper housing 12 and the light source device lid 14 and the handle 16 that are supported and fixed to the upper housing 12 are integrally removed from the projector 1. Further, a switch member 20 and a switch circuit board 30 described later are removed. FIG. 3 is a cross-sectional view showing the structure of the switch member. With reference to FIG. 2 and FIG. 3, a schematic configuration inside the projector 1 (inside the exterior housing 10), and configurations and operations of the switch member 20 and the switch circuit board 30 will be described.

  As shown in FIG. 2, the projector 1 includes an optical unit 60 in which the optical device is unitized, a cooling fan 40 that cools each component that generates heat inside the projector 1, and each component inside the projector 1. A power supply unit 50 for supplying electric power, a ballast unit 55 for supplying predetermined electric power to a light source device 61 as a light source, and the like are disposed.

  In addition, a control circuit board 70 that controls a signal for modulating a light beam according to image information to the light modulation device 65 and a control circuit board 70 that controls each component in the projector 1 is disposed above the optical unit 60. ing. Further, above the control circuit board 70, a switch circuit board 30 as a circuit board and a switch member 20 on which a switch key 21 is formed are disposed.

  As described above, the optical unit 60 is a unitized optical device. Based on the control by the control circuit board 70, the light beam emitted from the light source is optically processed to generate image light corresponding to image information. Form and project on a screen. The optical unit 60 includes a light source device 61 as a light source, a light modulation device 65 that modulates according to image information to form an optical image, a projection lens 66 as a projection optical device that projects an optical image as image light, and the like. It consists of The optical unit 60 is unitized by housing such optical devices 61, 65, 66 and the like in an optical device casing (not shown). Note that the light source device 61 of the present embodiment uses a discharge lamp. In addition, a transmissive liquid crystal panel (not shown) is used for the light modulation device 65 of the present embodiment.

  Although the optical device casing is not specifically shown, an opening for installation of the optical devices 61, 65, 66, an opening for adjustment, an opening for cooling, a control circuit, etc. An opening for connection with the substrate 70 is formed. Therefore, when the optical devices 61, 65, 66 and the like are accommodated in the optical device casing, the optical devices 61, 65, 66 and the like are not completely covered. In the optical unit 60 configured as described above, when the light source device 61 is driven, light leaks from the opening or the like to the outside of the optical device casing due to the light beam emitted from the light source device 61, thereby leaking light. Occurs.

  The cooling fan 40 includes two intake fans 41 and 42 and an exhaust fan 43. Then, by driving the intake fans 41 and 42, the air outside the projector 1 is introduced into the projector 1 through the intake frame 17, the intake port, and the filter 171 that removes dust. Then, air is circulated through the light modulator 65 that generates heat, and as a result, the heated air inside the projector 1 is exhausted by the exhaust fan 43 to the outside of the projector 1 through the exhaust port, thereby modulating the light. Components such as the device 65 are cooled. The exhaust fan 43 is installed in the vicinity of the light source device 61 and cools the light source device 61 and the control circuit board 70 that generate heat.

  The control circuit board 70 is formed by mounting various control ICs (not shown) on both surfaces of a substrate 71 made of glass epoxy resin. The control circuit board 70 is connected to a switch circuit board 30 to be described later and a connection cable (not shown) for exchanging signals. Further, the control circuit board 70 is formed with a connection opening 711 for guiding the flexible cable 651 connected to the liquid crystal panel of the light modulation device 65 to the upper surface of the board 71 of the control circuit board 70. The control circuit board 70 is connected on the upper surface of the board 71. A signal to be modulated according to the image information is output to the liquid crystal panel via the flexible cable 651. Note that the material of the substrate 71 may not be made of glass epoxy resin.

  The switch circuit board 30 is formed by mounting a plurality of tact switches 32 as a plurality of switch elements and a plurality of LED (Light Emitting Diode) modules 33 on an upper surface of a substrate 31 made of glass epoxy resin. The plurality of tact switches 32 are mounted by soldering the lead terminals 321 to the substrate 31. Further, the tact switch 32 is provided with a button portion 322 that projects from the upper surface portion and is pressed down to make the circuit conductive. A predetermined signal corresponding to the pressed tact switch 32 is output to the control circuit board 70 by pressing and pressing down the button unit 322 (switch is turned “ON”). Then, the control circuit board 70 performs control according to pressing of a predetermined tact switch 32. The material of the substrate 31 may not be made of glass epoxy resin.

  Based on the control of the control circuit board 70, the plurality of LED modules 33 are set in a predetermined manner via the switch circuit board 30 according to the operation state of the projector 1 (for example, the standby state, the normal operation state, the internal temperature abnormal state, etc.). When a driving voltage is applied, predetermined lighting is performed and light is emitted.

  The switch member 20 is a member operated by the user. The switch member 20 is disposed above the switch circuit board 30 and includes a plurality of switch keys 21, a plurality of indicator portions 22, and a base member 23. The plurality of switch keys 21 are disposed at positions opposite to the plurality of tact switches 32, and are pressed down by a user operation to press the button portions 322 of the tact switches 32.

  In this embodiment, the switch key 21 has a substantially cylindrical shape, as shown in FIG. 2 or FIG. 3, and an operation unit 211 operated by the user, and a pressing direction of the operation unit 211 (direction toward the tact switch 32). ) And an outer edge portion 212 having a substantially L-shaped cross section that extends along the substrate 31 of the switch circuit board 30 and rises toward the proximal end side in the push-down direction. In the initial state, as shown in FIG. 3, a predetermined gap is formed between the switch key 21 and the tact switch 32.

  The base member 23 has a frame portion 231 having a substantially same outer shape as that of the switch circuit board 30 and having a rectangular shape in plan view. A plurality of switch keys 21 and a plurality of indicator portions 22 are provided on the inner portion of the frame portion 231. Support. As shown in FIG. 2 or 3, the base member 23 is formed with a support portion 232 extending from the inner surface side of the frame portion 231 toward the inside, and the distal end portion of the support portion 232 is the outer edge portion 212 of the switch key 21. Connect to. The support portion 232 is formed for each switch key 21. And if the operation part 211 is operated by the user, the support part 232 will bend with respect to the frame part 231, and the switch key 21 will be pushed down. Further, as shown in FIG. 2, the base member 23 is formed with a plate-like fixing portion 233 extending from the inner surface side of the frame portion 231 toward the inside, and a plurality of indicators are formed on the upper surface portion of the fixing portion 233. The portion 22 is formed upright.

  The plurality of indicator portions 22 have a substantially cylindrical shape, are disposed at positions facing the plurality of LED modules 33, guide the light emitted from each LED module 33, and radiate the light to the outside of the projector 1, so that the user This is a part for notifying the operating state of the projector 1.

  As described above, the switch member 20 of the present embodiment includes the plurality of switch keys 21, the plurality of indicator portions 22, and the base member 23, and a synthetic resin having translucency is integrated by a method such as injection molding. It is formed by molding. In this embodiment, a transparent ABS (Acrylonitrile Butadiene Styrene) resin is used as the synthetic resin having translucency. As the synthetic resin, PC (Poly Carbonate) resin or the like can be used in addition to the ABS resin.

  As shown in FIG. 2, the upper housing 12 is disposed above the switch member 20 and covers the switch key 21 in a planar manner. As shown in FIG. 1, the upper housing 12 has a substantially circular shape in plan view relative to the operation portions 211 of the plurality of switch keys 21, and a plurality of the upper housings 12 for exposing the operation portions 211 to the outside. Switch hole 123 and a plurality of indicator holes 124 for exposing the plurality of indicator portions 22 to the outside.

  The switch member 20 and the switch circuit board 30 are fixed to the upper housing 12 by screws. Specifically, the switch key 21 and the indicator portion 22 of the corresponding switch member 20 are inserted into the switch hole 123 and the indicator hole 124 of the upper housing 12 from the inner surface side of the upper housing 12, respectively. Thereafter, the switch circuit board 30 is placed on the switch member 20, and the switch circuit board 30 and the switch member 20 are fixed to the upper housing 12 with screws (not shown).

  In the assembled state of the projector 1, as shown in FIG. 1, the top surface 211 a of the operation unit 211 of each switch key 21 is exposed from each switch hole 123 of the upper housing 12, and the user operates each operation unit 211. Can be operated. Further, the top surface of each indicator portion 22 is exposed from each indicator hole 124 of the upper housing 12, and it is possible to notify the user of the operating state of the projector 1.

  Further, as shown in FIG. 3, on the upper surface (top surface 211 a) of the operation portion 211 of the plurality of switch keys 21 exposed from the switch hole 123 of the upper housing 12, the central region as a predetermined region is shielded from light. The coating film 81 is formed by performing a coating process having a property. A coating film 80 having a light-transmitting property is applied to the upper surfaces of the plurality of switch keys 21 and the base member 23 constituting the switch member 20 including the coating film 81 to form a coating film 80. ing. Thereby, the coating film 80 is also formed on the upper surface of the coating film 81 painted on the top surface 211a of the operation unit 211 of the switch key 21. The plurality of indicator portions 22 are not subjected to painting processing.

  Here, the operation of light leakage generated from the optical unit 60 in this embodiment and the operation for light leakage at the switch key 21 will be described.

  As described above, the light (light leakage) leaked from the optical device casing of the optical unit 60 includes the control circuit board 70 disposed above the optical unit 60 and the control circuit board 70 shown in FIG. It passes through the switch circuit board 30 disposed in the above, although there is a difference in degree. This transmitted light leakage reaches the bottom surface side of the switch member 20 disposed above the switch circuit board 30.

  Further, in the optical unit 60, the portion with a large amount of light leakage is a portion of the optical device casing corresponding to the light modulation device 65. As described above, a cooling opening (not shown) is provided in the portion of the optical unit 60 where the light modulation device 65 is disposed, and a connection opening 711 is provided in the control circuit board 70. Yes. Light leakage from the light modulation device 65 passes through the cooling opening and the connection opening 711 and directly reaches the bottom surface of the switch circuit board 30. In the present embodiment, in order to positively use the light leakage, the switch circuit board 30 and the switch member 20 are disposed at a position above the optical unit 60, in particular, above the light modulator 65. is doing. In other words, the switch key 21 is disposed in a region of the upper housing 12 that faces the light modulation device 65.

  Then, as shown by the white arrows in FIG. 3, the light leaking through the control circuit board 70 and the switch circuit board 30 and the light leaking through the switch circuit board 30 due to the light leaking directly to the bottom surface of the switch circuit board 30 are The light is guided to the inside of the switch key 21 and the base member 23 from the bottom and side surfaces of the switch key 21 and the base member 23 constituting the switch member 20. And the light leakage which guided the inside of the operation part 211 and the outer edge part 212 of the switch key 21 does not permeate | transmit the area | region of the light-shielding coating film 81 of the top | upper surface 211a of the operation part 211, and other translucent properties The light passes through the region of the coating film 80 and is emitted to the outside of the switch key 21.

  Note that when the light passes through the light-transmitting coating film 80, the light leakage that has been guided is diffused and transmitted through various particles constituting the coating film 80. Accordingly, diffused light leaks from the top surface 211a and side surfaces of the operation unit 211, which is a region other than the coating film 81 on the top surface 211a of the operation unit 211, and the upper surface of the outer edge 212, and the like. Radiate. Further, since the leaked light is diffused, the transmitted leaked light has a substantially uniform brightness. Then, the diffused light emitted from the switch key 21 is diffused from the outer periphery of the top surface 211 a of the operation unit 211 and the gap between the switch hole 123 of the upper housing 12 and the switch key 21 ( 3 is indicated by solid arrows). Therefore, when the user looks at the upper housing 12 from above the projector 1, the user confirms that the outer peripheral area of the operation unit 211 of the switch key 21 shines (is illuminated) with substantially uniform brightness. It can be visually recognized.

According to the embodiment described above, the following effects can be obtained.
(1) According to the projector 1 of the present embodiment, since the switch key 21 for pressing the tact switch 32 has translucency, light leakage from the optical unit 60 guides the inside of the switch key 21. To do. Then, the leaked light is radiated to the outside from the switch hole 123 of the upper casing 12 exposing the switch key 21 to the outside. As a result, the projector 1 that can effectively use the light leakage from the optical unit 60 as a source for illuminating the switch key 21 is realized.

  (2) According to the projector 1 of the present embodiment, on the upper surface (top surface 211 a) of the operation unit 211 of the switch key 21, a coating film 81 having a light shielding property is formed in a central region as a predetermined region. . In addition, a light-transmitting coating film 80 is formed on the upper surface of the plurality of switch keys 21 constituting the switch member 20 including the coating film 81. Thereby, when the light leakage of the optical unit 60 guides the inside of the switch key 21 and radiates to the outside of the switch key 21, the light leakage is translucent in a region other than the central region on the top surface 211 a of the operation unit 211. By being diffused by the coating film 80, the light is converted into leak light having substantially uniform brightness and can be emitted to the outside of the switch key 21. Further, the region of the coating film 81 having a light shielding property (the central region on the top surface 211a of the operation unit 211) can be prevented from transmitting light leakage. Accordingly, the appearance of light leakage can be improved by the coating film 80 having translucency, and variations in how the switch key 21 is illuminated using the light leakage can be increased. To improve.

  (3) According to the projector 1 of the present embodiment, since the switch key 21 is disposed in the region of the upper housing 12 facing the light modulation device 65, the amount of light leakage is reduced in the optical device. Light leakage from many light modulation devices 65 can be used, and light leakage emitted from the switch key 21 to the outside can also be brightened. Therefore, the appearance of light leakage can be further improved, and light leakage can be used more effectively.

  In addition, it is not limited to embodiment mentioned above, It is possible to add and implement various changes, improvements, etc. A modification will be described below.

  (Modification 1) In the above-described embodiment, the switch hole 123 is formed in the upper casing 12 constituting the exterior casing 10, but the present invention is not limited thereto, and the member forming the switch hole 123 is not limited to the upper casing 12. The exterior housing 10 may be configured as a separate body from the body 12. As long as the member that forms the switch hole 123 functions as the exterior casing 10 that constitutes the exterior of the projector 1 as a result, the switch hole 123 may be configured separately.

  (Modification 2) In the above-described embodiment, the switch key 21 is integrally formed with the indicator portion 22 or the like as the switch member 20. However, the present invention is not limited to this, and the switch key 21 may be formed as a single unit.

  (Modification 3) In the above embodiment, the light-transmitting coating film 80 is formed on the upper surface of the light-shielding coating film 81. However, the light-transmitting coating film 80 has light-shielding properties. A coating film 81 may be formed.

  (Modification 4) In the embodiment described above, the light-shielding coating film 81 is formed in the central region of the top surface 211a of the operation unit 211, and the light-transmitting coating film 80 is formed on the other operation unit 211 and the outer edge 212. Is forming. However, the present invention is not limited thereto, and a light-transmitting coating film 80 may be formed on the central region of the top surface 211a, and a light-shielding coating film 81 may be formed on the other operation portion 211 and the outer edge portion 212. Only the central region of the top surface 211a can be illuminated (lighted) by light leakage. Alternatively, the light-shielding coating film 81 may not be formed, and only the light-transmitting coating film 80 may be formed, or the entire top surface 211a can be illuminated. In this way, variations in how to illuminate can be increased.

  (Modification 5) In the above embodiment, the coating process is performed on the upper surface of the switch key 21 as the outer surface side. However, the present invention is not limited to this, and the coating process can also be performed on the bottom surface and the side surface as the outer surface side. However, in consideration of the amount of light leakage and the appearance when light leakage radiates to the outside of the outer casing 10, it is preferable to appropriately determine a region where a coating process having a light shielding property or a coating process having a light transmitting property is performed.

  (Modification 6) In the above-described embodiment, a light-shielding coating is applied as a light-shielding treatment to a predetermined area (center area in this embodiment) of the operation portion 211 of the switch key 21 exposed from the switch hole 123 of the upper housing 12. Processing is in progress. However, the present invention is not limited to this, and as a light shielding process, a light shielding seal member or the like may be attached to a predetermined region.

  (Modification 7) In the above-described embodiment, a light-transmitting coating film 80 is formed on the light-transmitting switch key 21 to diffuse light leakage. However, the present invention is not limited thereto, and a light diffusing material that diffuses light is mixed into a light-transmitting synthetic resin material, and the switch key 21 is molded to diffuse light leaking through the switch key 21. However, the same effect can be obtained.

  (Modification 8) In the above embodiment, a light-transmitting coating film 80 is formed on the light-transmitting switch key 21 to diffuse light leakage. However, the present invention is not limited to this, and an embossed surface may be formed on the outer surface side of the switch key 21 to diffuse light leakage. As a method for forming the embossed surface, for example, an embossed surface can be formed by performing an embossing process on the surface of the mold for molding the switch key 21 using a method such as etching (chemical corrosion). . When such a textured surface is formed on the upper surface side of the switch key 21, the light leakage is diffused by the textured surface when the light leakage is guided inside the switch key 21 and radiated to the outside of the switch key 21. Accordingly, the light leakage is converted into light leakage with substantially uniform brightness, and the switch key 21 can be illuminated with substantially uniform brightness by light leakage, and the light leakage can be emitted to the outside of the switch key 21. In addition, when the embossed surface is formed on the bottom surface side of the switch key 21, when the light leakage is guided to the inside of the switch key 21, it is diffused by the embossed surface and converted into light leakage with substantially uniform brightness. By guiding the inside of the switch key 21, the switch key 21 can be illuminated with substantially uniform brightness by light leakage, and the light leakage can be emitted to the outside of the switch key 21. In any case, the appearance of light leakage can be improved by forming a textured surface.

  (Modification 9) In the above-described embodiment, the switch key 21 is formed of a transparent synthetic resin material. However, the switch key 21 may be formed of a synthetic resin material having translucency such as milky white that is slightly inferior in transparency. .

  (Modification 10) In the embodiment, the light modulation device 65 uses a transmissive liquid crystal panel. However, the present invention is not limited to this, and a reflective light modulation device such as a reflective liquid crystal panel can also be used. In general, it is only necessary to modulate incident light according to image information, and a micromirror type light modulation element or the like may be used. For example, a DMD (Digital Micromirror Device) can be used as the micromirror type light modulation element.

  (Modification 11) In the above-described embodiment, a discharge lamp is used for the light source device 61. However, the present invention is not limited to this, and an LED (Light Emitting Diode), an LD (Laser Diode), or the like can be used.

1 is a schematic perspective view of a projector according to an embodiment. The exploded perspective view of a projector. Sectional drawing which shows the structure of a switch member.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Projector, 10 ... Exterior housing, 12 ... Upper housing, 20 ... Switch member, 21 ... Switch key, 30 ... Switch circuit board, 32 ... Tact switch, 60 ... Optical unit, 61 ... Light source device, 65 ... Light Modulator, 66 ... projection lens, 80 ... paint film, 123 ... switch hole, 211 ... operation part, 212 ... outer edge part.

Claims (6)

An optical device that modulates a light beam emitted from a light source according to image information to form an optical image, and projects the optical image;
A circuit board mounted with a switch element that outputs a predetermined signal when pressed,
A switch key that is translucent and disposed relative to the switch element, for pressing the switch element;
The switch key has a hole for exposing to the outside, and the switch key, the circuit board, and an exterior housing that houses the optical device therein,
The projector is characterized in that the switch key guides light leakage of the optical device and radiates the light leakage guided outside the exterior casing. The projector according to claim 1,
The projector is characterized in that the switch key is formed of a member mixed with a light diffusing material for diffusing light. The projector according to claim 1,
The switch key is characterized in that a textured surface for diffusing light is formed on the outer surface side. The projector according to claim 1,
The projector according to claim 1, wherein the switch key has a light-transmitting coating process on the outer surface side. The projector according to any one of claims 1 to 4, wherein
The projector is characterized in that the switch key is subjected to a light shielding process in a predetermined region exposed from the hole of the exterior casing. The projector according to any one of claims 1 to 5,
The optical device has a light modulation device that modulates a light beam emitted from the light source according to image information to form an optical image,
The projector is characterized in that the switch key is disposed in a region of the outer casing facing the light modulation device.

Images