WO2015083316A1 - 表示装置 - Google Patents
表示装置 Download PDFInfo
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- WO2015083316A1 WO2015083316A1 PCT/JP2014/005277 JP2014005277W WO2015083316A1 WO 2015083316 A1 WO2015083316 A1 WO 2015083316A1 JP 2014005277 W JP2014005277 W JP 2014005277W WO 2015083316 A1 WO2015083316 A1 WO 2015083316A1
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- WIPO (PCT)
- Prior art keywords
- housing
- display device
- unit
- display
- image
- Prior art date
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Images
Classifications
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
- G02B27/01—Head-up displays
- G02B27/017—Head mounted
- G02B27/0176—Head mounted characterised by mechanical features
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
- G02B27/01—Head-up displays
- G02B27/017—Head mounted
- G02B27/0172—Head mounted characterised by optical features
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0081—Mechanical or electrical aspects of the light guide and light source in the lighting device peculiar to the adaptation to planar light guides, e.g. concerning packaging
- G02B6/0085—Means for removing heat created by the light source from the package
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N9/00—Details of colour television systems
- H04N9/12—Picture reproducers
- H04N9/31—Projection devices for colour picture display, e.g. using electronic spatial light modulators [ESLM]
- H04N9/3141—Constructional details thereof
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
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- G02B2027/0178—Eyeglass type
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/64—Constructional details of receivers, e.g. cabinets or dust covers
Definitions
- the present technology relates to, for example, a display used by being worn on the head of a user.
- HMD head mounted display
- the HMD is required to dissipate heat efficiently from the heat generation site inside, and for example, Patent Document 1 below proposes using a material with high thermal conductivity for the cabinet of the display unit.
- a display concerning one form of this art comprises a light guide part, a case, a projection part, a heat source, and a heat transfer member.
- the light guide is disposed in front of the user's eyes.
- the housing is fixed to the light guide.
- the projection unit is accommodated in the housing and configured to be capable of projecting an image on the light guide unit.
- the heat transfer member has a first end connected to the heat source and a second end connected to the inner surface of the housing, and is configured to be deformable.
- the heat source can be efficiently dissipated by the heat transfer member disposed between the heat source and the casing. Further, since the heat transfer member is configured to be deformable, distortion due to an external force acting on the housing is absorbed by the heat transfer member. Thereby, even when the heat source is a light source, the positional accuracy of the light source is secured.
- the housing may have a first housing portion and a second housing portion.
- the first casing supports the heat source.
- the second case unit is assembled to the first case unit and connected to the second end. Since the heat transfer member is configured to be deformable, assembly of the second casing to the first casing is performed with the second end connected to the inner surface of the second casing. While being possible, position adjustment of the light source as a heat source can be performed easily, for example.
- the first housing unit may constitute an inner side surface of the housing facing the user, and the second housing unit may constitute an outer side surface of the housing.
- the heat source is a light source
- the light source can be protected from an external force acting on the outer surface of the housing.
- the heat transfer member may be made of a sheet-like carbon-based material. Thus, weight reduction and size reduction of the display device can be realized.
- the heat transfer member may be accommodated in the housing in a folded state. Thereby, the assembling workability of the display device can be improved.
- the display device may further include a detection unit.
- the detection unit is provided in the housing and configured to be capable of detecting an input operation of a user. Thereby, the display apparatus provided with the input operation part can be comprised.
- the detection unit may include a pair of detection elements disposed to sandwich the second end. Thereby, the user's input operation can be detected without losing the heat radiation effect of the heat source.
- Each of the pair of detection elements may be configured by a proximity sensor. Since the user's input operation can be detected without contact with the housing, the input operation can be performed without applying an external force to the housing.
- the projection unit may include a projection optical unit, and an image modulation element disposed between the light source and the projection optical unit.
- the projection unit may include a projection optical unit that projects a display image of the image display unit onto the light guide unit.
- heat dissipation of a heat source can be improved.
- the effect described here is not necessarily limited, and may be any effect described in the present disclosure.
- FIG. 1 is an overall perspective view of a display device according to a first embodiment of the present technology. It is a perspective view which shows roughly the internal structure of the optical unit in the said display apparatus. It is a schematic plan view which shows the internal structure of the said optical unit. It is a schematic plan view which shows the state which isolate
- FIG. 1 is a perspective view of a display device according to an embodiment of the present technology as viewed from the front side.
- the X, Y and Z axes are three axis directions orthogonal to each other, the X axis indicates the front and back direction, the Y axis indicates the left and right direction, and the Z axis indicates the height direction.
- the display device 100 of the present embodiment is configured as a head mounted display that can be mounted on the head of the user.
- the display device 100 includes a light guide unit 11 and optical units 14R and 14L.
- the light guide 11 has display plates 11R and 11L disposed in front of the user's eyes.
- the display plates 11R and 11L are supported by the frame portion 12.
- the display device 100 further includes temple portions 13R and 13L.
- the temples 13R and 13L are deformably attached to the frame 12 and configured to be attachable to the head of the user.
- FIG. 2 is a perspective view schematically showing an internal configuration of the optical unit 14R
- FIG. 3 is a schematic plan view thereof.
- the optical unit 14 ⁇ / b> R includes an image display unit 21, a housing 22, a heat transfer member 23, and a collimator 24.
- the image display unit 21 is configured to be able to display an image to be projected on the display plate 11R.
- the housing 22 accommodates the image display unit 21 and is fixed to the frame unit 12.
- the heat transfer member 23 has a first end 231 connected to the image display unit 21 and a second end 232 connected to the inner surface of the housing 22 and is configured to be deformable.
- the collimator 24 is housed in the housing 22 and configured as a projection unit or projection optical unit that projects the display image of the image display unit 21 onto the display plate 11R.
- the display plates 11R and 11L are disposed in front of the user's eyes and configured to be able to display an image presented to the user.
- the display plate 11R displays the right-eye image
- the display plate 11L displays the left-eye image.
- the display plates 11R and 11L are formed of a translucent light guide plate capable of emitting the images projected from the optical units 14R and 14L to the right eye and the left eye of the user.
- Each of the display plates 11R and 11L may be configured by a common member or may be configured by separate members.
- the frame portion 12 is a frame body including rims supporting the display plates 11R and 11L and a bridge connecting them, and is made of, for example, a metal material such as a magnesium alloy or an aluminum alloy.
- a nose pad (not shown) having a pair of pad portions is attached to the frame portion 12.
- the temples 13R and 13L extend rearward from the right and left edges of the frame 12, respectively, and are shaped to be attachable to the upper side of the user's head and ears.
- the temples 13R and 13L are made of a synthetic resin material or the like that can be appropriately deformed with respect to the frame 12, and are configured such that external force does not act on the optical units 14R and 14L when the temples 13R and 13L are deformed.
- the temples 13R and 13L are constituted by a single member connected to each other via the connecting part 131 fixed to the upper surface of the frame 12, but the present invention is not limited to this and may be separate members. It may be configured.
- the optical units 14R and 14L are fixed to the right side edge and the left side edge of the frame portion 12, respectively, and project the right eye image and the left eye image to the display plates 11R and 11L, respectively. As described above, since the optical units 14R and 14L are configured to be symmetrical with each other, one optical unit 14R will be described here.
- the optical unit 14R includes an image display unit 21, a collimator 24, a heat transfer member 23, a wiring board 25, and a housing that accommodates them. And a body 22.
- the collimator 24 is fixed to the inner surface of the display plate 11R.
- the image display unit 21 is disposed to face the end of the collimator 24.
- the image display unit 21 is configured as a light source including a self light emitting element such as an LED (Light Emitting Diode) capable of projecting an image onto the display plate 11R via the collimator 24, and is used as a representative heat source of the display device 100. Equivalent to.
- the image display unit 21 is positionally adjusted to the end of the collimator 24 and then adhered to the end.
- the image display unit 21 is electrically connected to the wiring substrate 25 disposed inside the housing 22 via a wiring member such as a bonding wire.
- the housing 22 has a first housing portion 221 and a second housing portion 222.
- the first casing 221 constitutes the inner side of the casing 22 facing the user, and the second casing 222 constitutes the outer side of the casing 22.
- the first housing portion 221 and the second housing portion 222 are configured to be separable from each other.
- FIG. 4 is a schematic plan view of the optical unit 14R showing a state in which the second casing 222 is separated from the first casing 221. As shown in FIG.
- the first housing unit 221 supports the image display unit 21, the collimator 24, and the wiring board 25.
- the first casing 221 is integrally fixed to the frame 12.
- the first housing portion 221 also has a function as a cover member that covers the inner surface side of the frame portion 12 and is made of, for example, an injection molded body of a plastic material.
- the second housing 222 is assembled to the first housing 221 so as to cover the inside of the first housing 221.
- the second housing portion 222 is formed of an injection molded body of a plastic material, but may be formed of a metal material such as an aluminum alloy.
- the second housing 222 is fixed to the first housing 221 via, for example, a single or a plurality of screw members.
- the heat transfer member 23 is a deformable sheet material having a first end 231 connected to the image display unit 21 and a second end 232 connected to the inner surface of the second housing 222. It consists of The first end portion 231 and the second end portion 232 are attached to the image display unit 21 and the second housing unit 222 respectively via a thermally conductive adhesive.
- a thermally conductive adhesive for example, one containing a thermally conductive filler selected from alumina, aluminum nitride, silicon carbide, graphite and the like is used.
- the heat transfer member 23 has a function of dissipating the heat generated in the image display unit 21 to the housing 22 (second housing section 222). That is, since the image display unit 21 has a relatively high calorific value, the image display unit 21 can be dissipated to the housing 22 in order to secure a stable image display function.
- the first end 231 of the heat transfer member 23 is attached to the back surface (non-light emitting surface) of the image display unit 21.
- the constituent material of the heat transfer member 23 is not particularly limited, and is made of a carbon-based material, a metal material, a heat conductive synthetic resin material, or the like.
- the carbon-based material include graphite
- examples of the thermally conductive synthetic resin material include a thermally conductive acrylic sheet and a silicon thermally conductive sheet.
- the heat transfer member 23 is made of a sheet-like carbon-based material, for example, a graphite sheet.
- the thickness and length of the heat transfer member 23 are not particularly limited, and can be appropriately set according to the heat transfer characteristics of the heat transfer member 23, the assembling workability of the housing 22, and the like.
- the distance between the image display unit 21 and the second housing unit 222 is set to an expandable length following the distance.
- the thermal conductivity of the graphite sheet is generally very high (for example, 1500 W / mK), and heat can be transferred from the image display unit 21 to the second housing unit 222 without being greatly affected by the sheet length.
- the surface of the first end 231 in contact with the image display unit 21 and the surface of the second end 232 in contact with the second housing 222 are different from each other in the heat transfer member 23.
- seat surface the said each surface may be respectively the same sheet
- the heat transfer member 23 is housed inside the housing 22 in a folded state.
- the bending method is not particularly limited, and in the present embodiment, multiple bending around the height direction (Z-axis direction) of the display device 100 is performed to extend along the left-right direction (Y-axis direction) of the display device 100. It is disposed between the image display unit 21 and the second housing unit 222 so as to be able to expand and contract. As a result, when the second casing 222 is assembled to the first casing 221, the heat transfer member 23 can be easily deformed to the posture shown in FIG. It becomes possible.
- the display device 100 includes a detection unit 30 (FIG. 1) configured to be able to detect an input operation of a user.
- the detection unit 30 is provided in one of the optical units 14R, but may be provided in the other optical unit 14L, or may be provided in both of the optical units 14R and 14L.
- the detection unit 30 includes a pair of detection elements 31 a and 31 b.
- the pair of detection elements 31 a and 31 b is disposed in the second housing 222 so as to sandwich the second end 232 of the heat transfer member 23 in the front-rear direction (X-axis direction). Thereby, the user's input operation can be detected without impairing the heat radiation effect of the image display unit 21.
- Each of the pair of detection elements 31a and 31b is configured by a proximity sensor.
- the detection elements 31 a and 31 b are exposed to the outside through the windows formed in the second housing 222.
- the detection elements 31 a and 31 b are electrically connected to the wiring board 25 via a wiring member such as a bonding wire.
- the display device 100 is configured to be able to control an image displayed on the display plates 11R and 11L based on a user's input operation detected by the detection unit 30.
- the control mode of the image includes scrolling, switching, enlargement / reduction, etc. of the image, and these image controls are executed according to the operation mode (gesture) by the user.
- the determination of the operation mode may be performed by a determination circuit mounted on the wiring board 25 or may be performed by a control unit (not shown) that can communicate with the wiring board 25 in a wired or wireless manner.
- the display device 100 is used in a state of being worn on the head of the user.
- the display device 100 presents the user with the images projected respectively from the pair of optical units 14R and 14L to the display plates 11R and 11L.
- the display plates 11R and 11L are formed of a light guide plate having translucency, the user can simultaneously view the front view and the display image.
- the display image may be a two-dimensional image or a three-dimensional image.
- the optical units 14R and 14L respectively project the image data input from the control unit (not shown) onto the display plates 11R and 11L.
- the heat transfer member 23 disposed between the image display unit 21 and the housing 22 can dissipate heat of the image display unit 21 efficiently.
- the thermal deterioration of the image display unit 21 can be prevented, and the deterioration of the image quality of the display image can be prevented.
- the heat transfer member 23 is connected to the second casing 222 that constitutes the outer side surface of the casing 22, the user does not sense a temperature rise of the casing 22.
- the second casing 222 is configured as a separate member from the first casing 221, the thermal resistance from the second casing 222 to the first casing 221 should be increased. Thus, heat transfer from the second casing 222 to the first casing 221 can be suppressed.
- the weight reduction and size reduction of the optical units 14R and 14L can be realized, and the weight reduction and size reduction of the display device 100 can be contributed.
- the heat transfer member 23 is configured to be deformable, it is possible to absorb the strain due to the external force acting on the housing 22 by the heat transfer member 23. That is, since the image display unit 21 is not rigidly fixed to the second housing unit 222, a decrease in positional accuracy of the image display unit 21 and the like due to an external force acting on the second housing unit 222 is prevented.
- the heat transfer member 23 is configured to be deformable, the second end 232 is connected to the inner surface of the second casing 222, and thus the second casing 232 is moved to the second casing 221. Assembling of the housing unit 222 is possible, and position adjustment of the image display unit 21 can be easily performed.
- the optical unit 14R can function as an input device of the display device 100.
- each of the detection elements 31a and 31b is configured by a proximity sensor, the input operation of the user can be detected without contact with the housing 22. As a result, the input operation can be performed without applying an external force to the housing 22. Therefore, the stress at the time of the input operation is prevented from being stressed on the image display unit 21, and the positional accuracy of the image display unit 21 is lowered. It can be prevented.
- Second Embodiment 5 and 6 show the entire display device 200 according to the second embodiment of the present technology, and FIG. 5 is a perspective view as viewed from the front, and FIG. 6 is a perspective view as viewed from the side It is.
- the display device 200 of the present embodiment is configured as a head mounted display that can be attached to the head of the user.
- the display device 200 includes a light guide 51 and optical units 54R and 54L.
- the light guide 51 includes display plates 51R and 51L disposed in front of the user's eyes.
- the display plates 51R and 51L are supported by the frame portion 52.
- the display device 200 further includes temple portions 53R and 53L.
- the temples 53R and 53L are detachably attached to both sides of the frame 52 and configured to be attachable to the head of the user.
- FIG. 7 is a perspective view of an essential part showing the optical unit 54R
- FIG. 8 is a schematic plan view showing its internal structure.
- the optical unit 54R includes a light source 61, a housing 62, a heat transfer member 63, a collimator 64, and a liquid crystal panel 66.
- the light source 61 is, for example, an LED, and functions as a backlight that illuminates the liquid crystal panel 66 from the back.
- the light source 61 corresponds to a representative heat source of the display device 200.
- the housing 62 accommodates the light source 61, the heat transfer member 63, the collimator 64, the liquid crystal panel 66 and the like, and is fixed to the frame portion 52.
- the heat transfer member 63 has a first end 631 connected to the light source 61 and a second end 632 connected to the inner surface of the housing 62, and is configured to be deformable.
- the collimator 64 is configured as a projection optical unit that projects the display image of the liquid crystal panel 66 onto the display plate 51R.
- the display plates 51R and 51L are disposed in front of the user's eyes and configured to be able to display an image presented to the user.
- the display plate 51R displays a right-eye image
- the display plate 51L displays a left-eye image.
- the display plates 51R and 51L are formed of a translucent light guide plate capable of emitting the images projected from the optical units 54R and 54L to the right eye and the left eye of the user.
- the frame portion 52 is a frame body including rims supporting the display plates 51R and 51L and a bridge connecting them, and is made of, for example, a metal material such as a magnesium alloy or an aluminum alloy.
- a nose pad is attached to the frame portion 52, not shown.
- the temples 53R and 53L extend rearward from the right edge and the left edge of the frame 52, respectively, and are shaped to be attachable to the upper side of the user's head and ears.
- the temples 53R, 53L are disposed outside the optical units 54R, 54L without contacting with the optical units 54R, 54L, and fixed to the fixing portions 521 (FIG. 7) formed on the both side edges of the frame 52 Be done.
- the optical units 54R and 54L are fixed to the right side edge and the left side edge of the frame portion 52, respectively, and project the right eye image and the left eye image to the display plates 51R and 51L, respectively. As described above, since the optical units 54R and 54L are configured to be symmetrical to each other, one optical unit 54R will be described here.
- the optical unit 54R includes a light source 61, a collimator 64, a liquid crystal panel 66, a light pipe 67, a heat transfer member 63, and a housing for housing them. And a body 22.
- the collimator 64 is fixed to the inner surface of the display plate 51R.
- the liquid crystal panel 66 is disposed between the light source 61 and the collimator 64, and the light pipe 67 is disposed between the light source 61 and the liquid crystal panel 66.
- the liquid crystal panel 66 functions as an image modulation element, and in the present embodiment, is formed of a transmission type liquid crystal panel, and after being positionally adjusted at the end of the collimator 64, the liquid crystal panel 66 is disposed facing the end.
- the collimator 64 and the liquid crystal panel 66 function as a projection unit that projects an image onto the light guide unit 11.
- the light source 61 is an illumination light source disposed on the back surface of the liquid crystal panel 66, and is configured of one or more LED elements.
- the light emission color is not particularly limited, and appropriate colors for illumination light such as white, blue, green and the like can be adopted.
- the light pipe 67 is composed of an optical element for guiding the light emitted from the light source 61 to the back of the liquid crystal panel 66.
- the light source 61 and the light pipe 67 are respectively fixed to the light pipe 67 and the liquid crystal panel 66 after being adjusted.
- the light source 61 and the liquid crystal panel 66 are electrically connected to a wiring substrate disposed inside the housing 62 via a wiring member such as a bonding wire.
- the housing 62 has a first housing portion 621 and a second housing portion 622.
- the first casing 621 constitutes an inner side surface of the casing 62 facing the user, and the second casing 622 constitutes an outer side surface of the casing 62.
- the first housing portion 621 and the second housing portion 622 are configured to be separable from each other.
- FIG. 9 is a schematic plan view of the optical unit 54R showing a state in which the second housing 622 is separated from the first housing 621.
- the first housing 621 supports the light source 61, the collimator 64, the liquid crystal panel 66, the light pipe 67, a wiring board (not shown), and the like.
- the first housing 621 is integrally fixed to the frame 52.
- the first housing portion 621 also has a function as a cover member that covers the inner surface side of the frame portion 52, and is formed of, for example, an injection molded body of a plastic material.
- the second housing 622 is assembled to the first housing 621 so as to cover the inside of the first housing 621.
- the second housing 622 is made of an injection-molded plastic material, but may be made of a metal material such as an aluminum alloy.
- the second housing 622 is fixed to the first housing 621 via, for example, a screw member S (FIG. 7).
- the heat transfer member 63 is made of a deformable sheet material having a first end 631 connected to the light source 61 and a second end 632 connected to the inner surface of the second housing 622. Be done. The first end 631 and the second end 632 are attached to the light source 61 and the second housing 622 respectively through a thermally conductive adhesive.
- a thermally conductive adhesive for example, one containing a thermally conductive filler selected from alumina, aluminum nitride, silicon carbide, graphite and the like is used.
- the heat transfer member 63 has a function of dissipating the heat generated by the light source 61 to the housing 62 (second housing 622). That is, since the light source 61 has a relatively high calorific value, the light source 61 can be dissipated to the housing 62 in order to secure a stable image display function.
- the first end 631 of the heat transfer member 63 is attached to the back surface (non-light emitting surface) of the light source 61.
- the constituent material of the heat transfer member 63 is not particularly limited, and is made of a carbon-based material, a metal material, a thermally conductive synthetic resin material, or the like.
- the carbon-based material include graphite
- examples of the thermally conductive synthetic resin material include a thermally conductive acrylic sheet and a silicon thermally conductive sheet.
- the heat transfer member 63 is made of a sheet-like carbon-based material, for example, a graphite sheet.
- the thickness and length of the heat transfer member 63 are not particularly limited, and can be appropriately set according to the heat transfer characteristics of the heat transfer member 63, the assembling workability of the housing 62, and the like.
- the distance between the light source 61 and the second housing 622 is set to a length that can expand and contract following the distance.
- the thermal conductivity of the graphite sheet is generally very high (for example, 1500 W / mK), and heat can be transferred from the light source 61 to the second housing 622 without being greatly affected by the sheet length.
- the surface of the first end 631 in contact with the light source 61 and the surface of the second end 632 in contact with the second housing 622 are the same sheet surface of the heat transfer member 63. It is assumed. Generally, the thermal conductivity of the graphite sheet in the in-plane direction is higher than that in the thickness direction, so the connection surface of each end 631, 632 is the same sheet surface, thereby further improving the heat radiation efficiency of the light source 61. be able to.
- the heat transfer member 63 is housed inside the housing 62 in a folded state.
- the bending method is not particularly limited, and in the present embodiment, multiple bending around the height direction (Z-axis direction) of the display device 200 is performed to extend along the left-right direction (Y-axis direction) of the display device 200. It is disposed between the light source 61 and the second housing portion 622 so as to be able to expand and contract.
- the heat transfer member 63 can be easily deformed to the posture shown in FIG. It becomes possible.
- the heat transfer member 63 disposed between the light source 61 and the housing 62 can efficiently dissipate the heat of the light source 61, and also transfer the strain due to the external force acting on the housing 62.
- the light is absorbed by the member 63, whereby the positional accuracy of the light source 61 and the like can be secured.
- Third Embodiment 10 and 11 are perspective views showing a display device according to the third embodiment of the present technology.
- the display device 300 of the present embodiment includes a mounting tool 80 such as goggles and a helmet, and a display unit 70.
- the display unit 70 is installed outside the mounting tool 80 so as to be able to display a predetermined image of one eye (left eye in the illustrated example) of the user wearing the mounting tool 80.
- the mounting tool 80 has a transparent cover 81, a support 82 for supporting the cover 81, and bands 83 stretched on both sides of the support 82.
- the display unit 70 has a light guide 71 and an optical unit 74.
- the light guiding portion 71 is formed of a transparent light guiding plate, and is disposed at a position facing the user's left eye through the cover 81 of the mounting tool 80.
- the optical unit 74 is fixed to one end of the light guide 71, and is configured to be capable of projecting an image presented to the user's left eye to the light guide 71.
- the display unit 70 may be configured to be attachable to and detachable from the attachment 80. That is, the mounting tool 80 may not be configured as a dedicated item of the display device 300, and may be a general-purpose component.
- the optical unit 74 has the same configuration as the optical units 14L and 14R or the optical units 54L and 54R (FIGS. 3 and 8) described in the first and second embodiments, and an image display unit or a light source It includes various constituent members including a collimator (projection optical unit), an image modulation element, a heat transfer member and the like, and a housing for housing these.
- the respective members and the casing have the same configuration as that of the above-described first or second embodiment, and thus the description thereof is omitted here.
- the display unit 70 is installed on the outside of the support 82 (attachment tool 80). Instead of this, as in the display device 400 shown in FIG. It may be installed inside the support 82 (attachment tool 80).
- the display unit 70 is not limited to the example configured for the left eye, and may be configured for the right eye or may be configured for both eyes.
- this technique is not limited only to the above-mentioned embodiment, It is needless to say that a various change can be added in the range which does not deviate from the summary of this technique.
- the sheet material is used for each of the heat transfer members 23 and 63, but instead, a wire-like, wool-like, block-like or other suitable shape may be adopted.
- the heat transfer members 23 and 63 are configured to be deformable in the predetermined direction by the folding structure, the folding method is not limited to the above example.
- the heat transfer member may be made of an elastically deformable material.
- the display device 200 may be provided with a detection unit capable of detecting an input operation of the user.
- the detection unit can be installed in at least one of the optical units 54R and 54L.
- the detection unit may be provided in the optical unit 74 as well.
- the detection unit is not limited to an example configured by one or more proximity switches, and may be configured by a contact sensor such as an electrostatic sensor, or may be a mechanical input device including an operation button or the like. Good.
- the image display part 21 and the light source 61 etc. were mentioned as an example and explained as a heat source of an optical unit by each above embodiment, it is not restricted to this, Semiconductor parts, such as IC and CPU, power supply circuit parts, batteries etc.
- the present technology may be applied as a heat dissipation mechanism of these heat generating elements.
- a glasses-type head mounted display and a goggle-type display device have been described as the display device as an example, but the present technology can also be applied to other types of display devices.
- the present technology can also be configured as follows. (1) a light guide disposed in front of the user's eyes; A housing fixed to the light guide; A projection unit housed in the housing and capable of projecting an image onto the light guide; A heat source disposed in the housing; A display device comprising: a deformable heat transfer member having a first end connected to the heat source and a second end connected to the inner surface of the housing. (2) The display device according to (1) above, The housing is A first case unit supporting the heat source; A display device, comprising: a second housing unit assembled to the first housing unit and connected to the second end. (3) The display device according to (2) above, The first housing unit constitutes an inner side surface of the housing facing the user, The second housing unit constitutes an outer side surface of the housing.
- the display device according to any one of (1) to (3) above, The display device, wherein the heat transfer member is made of a sheet-like carbon-based material. (5) The display device according to (4) above, The heat transfer member is accommodated in the housing in a folded state. (6) The display device according to any one of (1) to (5) above, A display device further provided with a detection unit provided in the housing and capable of detecting a user's input operation. (7) The display device according to (6) above, The detection unit includes a pair of detection elements arranged to sandwich the second end. (8) The display device according to (7) above, Each of the pair of detection elements is configured of a proximity sensor. (9) The display device according to any one of (1) to (8) above, The heat source is a light source.
- the display unit includes a projection optical unit, and an image modulation element disposed between the light source and the projection optical unit.
- the heat source is an image display unit including a self light emitting element
- the projection unit includes a projection optical unit that projects a display image of the image display unit onto the light guide unit.
Abstract
Description
上記導光部は、ユーザの眼前に配置される。
上記筐体は、上記導光部に固定される。
上記投影部は、上記筐体に収容され、上記導光部に画像を投影することが可能に構成される。
上記伝熱部材は、上記熱源に接続される第1の端部と、上記筐体の内面に接続される第2の端部とを有し、変形可能に構成される。
伝熱部材が変形可能に構成されているため、第2の端部を第2の筐体部の内面に接続した状態で、第1の筐体部への第2の筐体部の組み付けが可能となるとともに、例えば熱源としての光源の位置調整を容易に行うことができる。
これにより熱源が光源である場合、筐体の外側面に作用する外力から光源を保護することができる。
これにより、入力操作部を備えた表示装置を構成することができる。
筐体に対して非接触でユーザの入力操作を検出することができるため、筐体に外力を付加することなく入力操作が可能となる。
あるいは、上記熱源が自発光素子を含む画像表示部である場合、上記投影部は、上記画像表示部の表示画像を上記導光部へ投影する投影光学部を含んでもよい。
なお、ここに記載された効果は必ずしも限定されるものではなく、本開示中に記載されたいずれかの効果であってもよい。
図1は本技術の一実施形態に係る表示装置を示す正面側から見た斜視図である。各図においてX、YおよびZ軸は相互に直交する3軸方向であって、X軸は前後方向を、Y軸は左右方向を、そしてZ軸は高さ方向をそれぞれ示している。
本実施形態の表示装置100は、ユーザの頭部に装着可能なヘッドマウントディスプレイとして構成される。表示装置100は、導光部11と、光学ユニット14R,14Lとを備える。
次に、以上のように構成される本実施形態に係る表示装置100の典型的な動作について説明する。
図5及び図6は、本技術の第2の実施形態に係る表示装置200の全体を示しており、図5は正面から見たときの斜視図、図6は側面から見たときの斜視図である。
図10及び図11は、本技術の第3の実施形態に係る表示装置を示す斜視図である。
(1)ユーザの眼前に配置される導光部と、
前記導光部に固定された筐体と、
前記筐体に収容され、前記導光部に画像を投影することが可能な投影部と、
前記筐体内に配置された熱源と、
前記熱源に接続される第1の端部と前記筐体の内面に接続される第2の端部とを有する変形可能な伝熱部材と
を具備する表示装置。
(2)上記(1)に記載の表示装置であって、
前記筐体は、
前記熱源を支持する第1の筐体部と、
前記第1の筐体部に組み付けられ、前記第2の端部と接続される第2の筐体部とを有する
表示装置。
(3)上記(2)に記載の表示装置であって、
前記第1の筐体部は、前記ユーザに対向する前記筐体の内側面を構成し、
前記第2の筐体部は、前記筐体の外側面を構成する
表示装置。
(4)上記(1)~(3)のいずれか1つに記載の表示装置であって、
前記伝熱部材は、シート状の炭素系材料で構成される
表示装置。
(5)上記(4)に記載の表示装置であって、
前記伝熱部材は、折り畳まれた状態で前記筐体に収容される
表示装置。
(6)上記(1)~(5)のいずれか1つに記載の表示装置であって、
前記筐体に設けられ、ユーザの入力操作を検出することが可能な検出部をさらに具備する
表示装置。
(7)上記(6)に記載の表示装置であって、
前記検出部は、前記第2の端部を挟んで配置された一対の検出素子を含む
表示装置。
(8)上記(7)に記載の表示装置であって、
前記一対の検出素子各々は、近接センサで構成される
表示装置。
(9)上記(1)~(8)のいずれか1つに記載の表示装置であって、
前記熱源は、光源である
表示装置。
(10)上記(9)に記載の表示装置であって、
前記投影部は、投影光学部と、前記光源と前記投影光学部との間に配置された画像変調素子とを有する
表示装置。
(11)上記(1)~(8)のいずれか1つに記載の表示装置であって、
前記熱源は、自発光素子を含む画像表示部であり、
前記投影部は、前記画像表示部の表示画像を前記導光部へ投影する投影光学部を含む
表示装置。
12,52…フレーム部
13R,13L,53R,54L…テンプル部
14R,14L,54R,54L,74…光学ユニット
21…画像表示部
22,62…筐体
23,63…伝熱部材
24,64…コリメータ
30…検出部
31a,31b…検出素子
61…光源
66…液晶パネル
70…表示ユニット
100,200,300,400…表示装置
221,621…第1の筐体部
222,622…第2の筐体部
231,631…第1の端部
232,632…第2の端部
Claims (11)
- ユーザの眼前に配置される導光部と、
前記導光部に固定された筐体と、
前記筐体に収容され、前記導光部に画像を投影することが可能な投影部と、
前記筐体内に配置された熱源と、
前記熱源に接続される第1の端部と前記筐体の内面に接続される第2の端部とを有する変形可能な伝熱部材と
を具備する表示装置。 - 請求項1に記載の表示装置であって、
前記筐体は、
前記熱源を支持する第1の筐体部と、
前記第1の筐体部に組み付けられ、前記第2の端部と接続される第2の筐体部とを有する
表示装置。 - 請求項2に記載の表示装置であって、
前記第1の筐体部は、前記ユーザに対向する前記筐体の内側面を構成し、
前記第2の筐体部は、前記筐体の外側面を構成する
表示装置。 - 請求項1に記載の表示装置であって、
前記伝熱部材は、シート状の炭素系材料で構成される
表示装置。 - 請求項4に記載の表示装置であって、
前記伝熱部材は、折り畳まれた状態で前記筐体に収容される
表示装置。 - 請求項1に記載の表示装置であって、
前記筐体に設けられ、ユーザの入力操作を検出することが可能な検出部をさらに具備する
表示装置。 - 請求項6に記載の表示装置であって、
前記検出部は、前記第2の端部を挟んで配置された一対の検出素子を含む
表示装置。 - 請求項7に記載の表示装置であって、
前記一対の検出素子各々は、近接センサで構成される
表示装置。 - 請求項1に記載の表示装置であって、
前記熱源は、光源である
表示装置。 - 請求項9に記載の表示装置であって、
前記投影部は、投影光学部と、前記光源と前記投影光学部との間に配置された画像変調素子とを有する
表示装置。 - 請求項1に記載の表示装置であって、
前記熱源は、自発光素子を含む画像表示部であり、
前記投影部は、前記画像表示部の表示画像を前記導光部へ投影する投影光学部を含む
表示装置。
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CN201480065182.9A CN105794201B (zh) | 2013-12-05 | 2014-10-17 | 显示设备 |
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JP6662474B2 (ja) | 2020-03-11 |
CN110095869B (zh) | 2021-09-14 |
CN110095869A (zh) | 2019-08-06 |
US20170097509A1 (en) | 2017-04-06 |
JPWO2015083316A1 (ja) | 2017-03-16 |
US9804400B2 (en) | 2017-10-31 |
EP3079357A4 (en) | 2017-08-09 |
EP3079357A1 (en) | 2016-10-12 |
EP3079357B1 (en) | 2022-07-27 |
US10558051B2 (en) | 2020-02-11 |
US20180017798A1 (en) | 2018-01-18 |
CN105794201A (zh) | 2016-07-20 |
JP2019071660A (ja) | 2019-05-09 |
CN105794201B (zh) | 2019-05-31 |
JP6465031B2 (ja) | 2019-02-06 |
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