JPWO2019186391A5 - - Google Patents

Description

Various examples have been described. These and other examples are within the scope of the following claims. An exemplary embodiment is shown below.
[1]
A wedge light guide that defines a light inlet side, a display side, and a back surface side, and the display side and the back surface side face different directions to form a wedge shape that defines a convergence axis. The light inlet side is positioned on the divergent side of the wedge shape, the back side faces away from the display surface of the display device, and the back side includes a plurality of wedge extractors. Each wedge extractor of the plurality of wedge extractors has a wedge light guide extending in a direction substantially orthogonal to the convergence axis.
A light source positioned adjacent to the light inlet side of the wedge light guide, the wedge light guide receives light rays from the light source through the light inlet side and transmits the light rays through the display side. The light beam transmitted through the display side is a light source that defines the maximum intensity at an exit angle of about 10 ° to about 40 ° as measured from a plane defined by the display side. , A display device.
[2]
Each wedge extractor of the plurality of wedge extractors has an inclined surface that defines an internal angle on a side opposite to the light inlet side, and the inclined surface propagates in the wedge light guide toward the display side. The display device according to item 1, wherein the display device is configured to reflect light rays and has an internal angle of less than about 10 °.
[3]
The display device according to item 2, wherein the internal angle defines an angle between a plane defined by the back surface side and a plane defined by the inclined surface.
[4]
The display device according to item 2 or 3, wherein the inclined surface of each of the plurality of wedge extractors defines a surface area, and the surface area of the inclined surface increases as the inclined surface moves away from the light inlet side.
[5]
The display device according to any one of items 2 to 4, wherein the internal angle of the plurality of wedge extractors becomes larger as the inclined surface is separated from the light inlet side.
[6]
The internal angles of the plurality of wedge extractors are substantially the same, and each wedge extractor of the plurality of wedge extractors is substantially orthogonal to the main surface of the plurality of wedge extractors with the main surface on the back surface side. Determining the depth measured as the maximum distance to and from the wedge extractors, the depths of the plurality of wedge extractors increase as the wedge extractors move away from the light inlet side, items 2 to. The display device according to any one of 4.
[7]
Each wedge extractor of the plurality of wedge extractors defines a width measured in a direction substantially orthogonal to the convergence axis, and the width of the plurality of wedge extractors is such that the wedge extractor is the light. The display device according to any one of items 1 to 6, which becomes larger as the distance from the entrance side increases.
[8]
The plurality of wedge extractors are
A first wedge extractor defining a first width measured in a direction substantially orthogonal to the convergence axis.
The first wedge extractor comprises a second wedge extractor that defines a second width that is greater than the first width and is measured in a direction substantially orthogonal to the convergence axis. The display device according to any one of items 1 to 7, which is positioned closer to the light inlet side than the second wedge extractor.
[9]
The first wedge extractor comprises a first inclined surface that defines a first region, and the second wedge extractor defines a second region that is larger than the first region. 8. The display device according to item 8, wherein the display device comprises an inclined surface of.
[10]
The first wedge extractor defines a first internal angle, the second wedge extractor defines a second internal angle that is larger than the first internal angle, and the internal angle is defined by the back side. 8. The display device according to item 8, wherein the angle between the plane to be formed and the plane defined by the slanted plane of the wedge extractor is defined.
[11]
The display device according to any one of items 1 to 10, wherein the display side includes a plurality of lenticular microstructures extending in a direction substantially parallel to the convergence axis.
[12]
Further comprising a turning film comprising a plurality of microstructures positioned between the display surface and the display side of the wedge light guide, the turning film emits light rays emitted from the display side of the wedge light guide. The display device according to any one of items 1 to 11, which receives light and directs the light rays toward the surface of the display.
[13]
One of items 1 to 12, wherein the light inlet side includes a plurality of microstructures configured to diffuse light rays received from the light source in a plane parallel to the plane defined by the back surface side. Display device described in.
[14]
The wedge light guide further comprises an inlet side coupler defining the light inlet side, the inlet side coupler passing through the light inlet side before light passes between the display side and the back side. The display device according to any one of items 1 to 13, which is configured to increase the collimation angle of incident light.
[15]
The display device according to item 14, wherein the inlet-side coupler comprises a prism extending perpendicular to the convergence axis.
[16]
The light rays emitted from the display side are substantially collimated within a collimation angle of about ± 25 °, and the collimation angle is such that the intensity of the light rays emitted from the display side is at least 10% of the maximum intensity. The display device according to any one of items 1 to 15, which represents a certain range.
[17]
The light beam emitted from the display side is substantially within a collimating exit angle between about 0 ° and about 50 ° as measured from a plane defined by the back side and aligned with respect to the convergence axis. The display device according to any one of items 1 to 16, which is collimated with.
[18]
The display device according to any one of items 1 to 17, wherein the wedge light guide defines a thickness of at least 1.5 mm between the display side and the back side.
[19]
The wedge light guide further includes a converging side on the side opposite to the light inlet side, and less than 10% of the light rays incident through the light inlet side are emitted through the converging side, items 1 to 18. The display device according to any one of the above.
[20]
19. The display device of item 19, wherein less than 7% of the light rays incident through the light inlet side exit through the convergent side.
[21]
The display device according to any one of items 1 to 20, wherein the back side is substantially parallel to the display surface.
[22]
The display device according to any one of items 1 to 20, wherein the display side is substantially parallel to the surface of the display.
[23]
The light inlet side that defines the divergent side of the wedge light guide,
On the converging side opposite to the light inlet side,
The display side, which is substantially orthogonal to the light inlet side, and the display side.
On the back side, the display side and the back side face in different directions to form a wedge shape that defines a convergence axis having the light inlet side and the convergence side at both end portions of the wedge shape facing each other. A wedge light guide comprising a back side, wherein the back side comprises a plurality of wedge extractors, each wedge extractor extending in a direction substantially orthogonal to the convergence axis.
The wedge light guide is configured to receive light rays from the light source through the light inlet side and transmit the light rays through the display side, and the light rays transmitted through the display side are the display side. A wedge light guide that defines the maximum intensity at an exit angle between about 10 ° and about 40 °, measured from the plane defined by.
[24]
Each wedge extractor of the plurality of wedge extractors has an inclined surface that defines an internal angle on a side opposite to the light inlet side, and the inclined surface propagates in the wedge light guide toward the display side. 23. The wedge light guide according to item 23, which is configured to reflect light rays and has an internal angle of less than about 10 °.
[25]
The wedge light guide according to item 24, wherein the internal angle defines an angle between a plane defined by the back surface side and a plane defined by the inclined surface.
[26]
The wedge light guide according to item 24 or 25, wherein the inclined surface of each of the plurality of wedge extractors defines a surface area, and the surface area of the inclined surface increases as the inclined surface moves away from the light inlet side.
[27]
The wedge light guide according to any one of items 24 to 26, wherein the internal angle of the plurality of wedge extractors becomes larger as the inclined surface is separated from the light inlet side.
[28]
The internal angles of the plurality of wedge extractors are substantially the same, and each wedge extractor of the plurality of wedge extractors is in a direction substantially orthogonal to the main surface with the main surface on the back surface side. Determining the depth measured as the maximum distance to and from the wedge extractors, the depths of the plurality of wedge extractors increase as the wedge extractors move away from the light inlet side, items 24 to 24. The wedge light guide according to any one of 26.
[29]
Each wedge extractor of the plurality of wedge extractors defines a width measured in a direction substantially orthogonal to the convergence axis, and the width of the plurality of wedge extractors is the width of the wedge extractor said light inlet. The wedge light guide according to any one of items 23 to 28, which becomes larger as the distance from the side increases.
[30]
The plurality of wedge extractors are
A first wedge extractor defining a first width measured in a direction substantially orthogonal to the convergence axis.
It comprises a second wedge extractor, which defines a second width larger than the first width, measured in a direction substantially orthogonal to the convergence axis.
The wedge light guide according to any one of items 23 to 29, wherein the first wedge extractor is positioned closer to the light inlet side than the second wedge extractor.
[31]
The first wedge extractor comprises a first inclined surface defining a first region, and the second wedge extractor defines a second region larger than the first region. 30. The wedge light guide according to item 30, which comprises an inclined surface of.
[32]
The first wedge extractor defines a first internal angle, the second wedge extractor defines a second internal angle that is larger than the first internal angle, and the internal angle is defined by the back side. 30. The wedge light guide according to item 30, wherein the angle between the plane to be formed and the plane defined by the inclined surface of the wedge extractor is defined.
[33]
The wedge light guide according to any one of items 23 to 32, wherein the display side includes a plurality of lenticular microstructures extending in a direction substantially parallel to the convergence axis.
[34]
The light inlet side is any of items 23 to 33, comprising a plurality of microstructures configured to diffuse light received through the light inlet side in a plane parallel to the plane defined by the back surface side. Wedge light guide described in item 1.
[35]
Further comprising an inlet side coupler defining the light inlet side, the inlet side coupler is a collimation angle of light incident through the light inlet side before light passes between the display side and the back surface side. The wedge light guide according to any one of items 23 to 34, which is configured to increase the number of light guides.
[36]
35. The wedge light guide of item 35, wherein the inlet-side coupler comprises a prism extending perpendicular to the convergence axis.
[37]
The light beam emitted from the display side is substantially within a collimating exit angle between about 0 ° and about 50 ° as measured from a plane defined by the back side and aligned with respect to the convergence axis. The wedge light guide according to any one of items 23 to 36, which is collimated.
[38]
The wedge light guide according to any one of items 23 to 37, wherein the wedge light guide defines a thickness of at least 1.5 mm between the display side and the back surface side.
[39]
The wedge light guide according to any one of items 23 to 28, wherein less than 10% of the light rays incident through the light inlet side are emitted through the convergent side.
[40]
An inlet side coupler that defines an optical inlet side that defines the divergent side of the wedge light guide, and an inlet side coupler that is configured to increase the collimation angle of light incident through the light inlet side.
On the converging side opposite to the light inlet side,
The display side, which is substantially orthogonal to the light inlet side and is aligned adjacent to the inlet side coupler,
On the back side, the display side and the back side face in different directions to form a wedge shape that defines a convergence axis having the light inlet side and the convergence side at both end portions of the wedge shape facing each other. The back side includes a plurality of wedge extractors, each wedge extractor extends in a direction substantially orthogonal to the convergence axis, and each wedge extractor of the plurality of wedge extractors is the light. A wedge light guide comprising an inclined surface defining an interior angle on the side opposite to the inlet side, said interior angle less than about 10 °, with a back surface.
The wedge light guide is configured to receive light rays from the light source through the light inlet side and transmit the light rays through the display side, and the light rays transmitted through the display side are the display side. A wedge light guide that defines the maximum intensity at an exit angle between about 10 ° and about 40 °, measured from the plane defined by.
[41]
The wedge light guide according to item 40, wherein the wedge light guide defines a thickness of at least 1.5 mm between the display side and the back side.
[42]
The wedge light guide according to item 40 or 41, wherein less than 10% of the light rays incident through the light inlet side are emitted through the convergent side.

Claims (9)

A wedge light guide that defines a light inlet side, a display side, and a back surface side, and the display side and the back surface side face different directions to form a wedge shape that defines a convergence axis. The light inlet side is positioned on the divergent side of the wedge shape, the back side faces away from the display surface of the display device, and the back side includes a plurality of wedge extractors. Each wedge extractor of the plurality of wedge extractors has a wedge light guide extending in a direction substantially orthogonal to the convergence axis.
A light source positioned adjacent to the light inlet side of the wedge light guide, the wedge light guide receives light rays from the light source through the light inlet side and transmits the light rays through the display side. The light beam transmitted through the display side is a light source that defines the maximum intensity at an exit angle of about 10 ° to about 40 ° as measured from a plane defined by the display side. , A display device. Each wedge extractor of the plurality of wedge extractors has an inclined surface that defines an internal angle on a side opposite to the light inlet side, and the inclined surface propagates in the wedge light guide toward the display side. The display device according to claim 1, wherein the display device is configured to reflect light rays and has an internal angle of less than about 10 °. The plurality of wedge extractors are
A first wedge extractor defining a first width measured in a direction substantially orthogonal to the convergence axis.
The first wedge extractor comprises a second wedge extractor that defines a second width that is greater than the first width and is measured in a direction substantially orthogonal to the convergence axis. The display device according to claim 1 , which is positioned closer to the light inlet side than the second wedge extractor. The display device according to claim 1 , wherein the display side includes a plurality of lenticular microstructures extending in a direction substantially parallel to the convergence axis. Further comprising a turning film comprising a plurality of microstructures positioned between the display surface and the display side of the wedge light guide, the turning film emits light rays emitted from the display side of the wedge light guide. The display device according to claim 1 , which receives light and directs the light rays toward the surface of the display. The display device according to claim 1 , wherein the light inlet side includes a plurality of microstructures configured to diffuse light rays received from the light source in a plane parallel to the plane defined by the back surface side. The light inlet side that defines the divergent side of the wedge light guide,
On the converging side opposite to the light inlet side,
The display side, which is substantially orthogonal to the light inlet side, and the display side.
On the back side, the display side and the back side face in different directions to form a wedge shape that defines a convergence axis having the light inlet side and the convergence side at both end portions of the wedge shape facing each other. A wedge light guide comprising a back side, wherein the back side comprises a plurality of wedge extractors, each wedge extractor extending in a direction substantially orthogonal to the convergence axis.
The wedge light guide is configured to receive light rays from the light source through the light inlet side and transmit the light rays through the display side, and the light rays transmitted through the display side are the display side. A wedge light guide that defines the maximum intensity at an exit angle between about 10 ° and about 40 °, measured from the plane defined by. The plurality of wedge extractors are
A first wedge extractor defining a first width measured in a direction substantially orthogonal to the convergence axis.
It comprises a second wedge extractor, which defines a second width larger than the first width, measured in a direction substantially orthogonal to the convergence axis.
The wedge light guide according to claim 7 , wherein the first wedge extractor is positioned closer to the light inlet side than the second wedge extractor. An inlet side coupler that defines an optical inlet side that defines the divergent side of the wedge light guide, and an inlet side coupler that is configured to increase the collimation angle of light incident through the light inlet side.
On the converging side opposite to the light inlet side,
The display side, which is substantially orthogonal to the light inlet side and is aligned adjacent to the inlet side coupler,
On the back side, the display side and the back side face in different directions to form a wedge shape that defines a convergence axis having the light inlet side and the convergence side at both end portions of the wedge shape facing each other. The back side includes a plurality of wedge extractors, each wedge extractor extends in a direction substantially orthogonal to the convergence axis, and each wedge extractor of the plurality of wedge extractors is the light. A wedge light guide comprising an inclined surface defining an interior angle on the side opposite to the entrance side, said interior angle less than about 10 °, with a back surface.
The wedge light guide is configured to receive light rays from the light source through the light inlet side and transmit the light rays through the display side, and the light rays transmitted through the display side are the display side. A wedge light guide that defines the maximum intensity at an exit angle between about 10 ° and about 40 °, measured from the plane defined by.