Optical device and image display apparatus
First Claim
1. An optical device comprising:
- a light guide plate which receives a collimated beam group including a plurality of collimated beams traveling in different directions, the collimated beam group traveling through the light guide plate while undergoing total reflection therein and then exiting from the light guide plate;
a first diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group incident on the light guide plate so as to allow the collimated beam group to undergo total reflection within the light guide plate; and
a second diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group transmitted through the light guide plate and directly emits the collimated beam group from the light guide plate,wherein the first diffraction grating member is provided with interference fringes extending from within the first diffraction grating member towards surfaces thereof, the interference fringes on the surfaces of the first diffraction grating member being arranged at an equal pitch,wherein when an angle formed between each of the interference fringes in the first diffraction grating member and each surface of the first diffraction grating member is defined as an inclination angle, the first diffraction grating member has the following conditions,(a) the first diffraction grating member has a minimum inclination angle region having an interference fringe with a minimum inclination angle; and
an outer region positioned farther away from the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the outer region increase with increasing distance from the minimum inclination angle region, and(b) the first diffraction grating member has an inner region positioned closer to the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the inner region include a maximum inclination angle in an inner area disposed adjacent to the minimum inclination angle region and decrease with increasing distance from the minimum inclination angle region.
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Accused Products
Abstract
An optical device includes a light guide plate, and first and second reflective volume hologram diffraction grating members. The first member has interference fringes extending from therewithin towards surfaces thereof and arranged at an equal pitch. Each interference fringe and each surface of the first member form an inclination angle therebetween. The first member has the following conditions. (a) In an outer region positioned farther away from the second member than a minimum inclination angle region having a minimum inclination angle, the inclination angles of the interference fringes increase with increasing distance from the minimum inclination angle region. (b) In an inner region positioned closer to the second member than the minimum inclination angle region, the inclination angles of the interference fringes include a maximum inclination angle in an inner area disposed adjacent to the minimum inclination angle region and decrease with increasing distance from the minimum inclination angle region.
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Citations
14 Claims
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1. An optical device comprising:
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a light guide plate which receives a collimated beam group including a plurality of collimated beams traveling in different directions, the collimated beam group traveling through the light guide plate while undergoing total reflection therein and then exiting from the light guide plate; a first diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group incident on the light guide plate so as to allow the collimated beam group to undergo total reflection within the light guide plate; and a second diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group transmitted through the light guide plate and directly emits the collimated beam group from the light guide plate, wherein the first diffraction grating member is provided with interference fringes extending from within the first diffraction grating member towards surfaces thereof, the interference fringes on the surfaces of the first diffraction grating member being arranged at an equal pitch, wherein when an angle formed between each of the interference fringes in the first diffraction grating member and each surface of the first diffraction grating member is defined as an inclination angle, the first diffraction grating member has the following conditions, (a) the first diffraction grating member has a minimum inclination angle region having an interference fringe with a minimum inclination angle; and
an outer region positioned farther away from the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the outer region increase with increasing distance from the minimum inclination angle region, and(b) the first diffraction grating member has an inner region positioned closer to the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the inner region include a maximum inclination angle in an inner area disposed adjacent to the minimum inclination angle region and decrease with increasing distance from the minimum inclination angle region. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An optical device comprising:
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a light guide plate which receives a collimated beam group including a plurality of collimated beams traveling in different directions, the collimated beam group traveling through the light guide plate while undergoing total reflection therein and then exiting from the light guide plate; a first diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group incident on the light guide plate so as to allow the collimated beam group to undergo total reflection within the light guide plate; and a second diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group transmitted through the light guide plate and directly emits the collimated beam group from the light guide plate, wherein when the first diffraction grating member supposedly includes imaginary diffraction grating layers defined by Q layers of reflective volume hologram diffraction gratings, Q being an integer, each imaginary diffraction grating layer has interference fringes on surfaces thereof, which are arranged at an equal pitch, the interference fringes in the imaginary diffraction grating layers being arranged at the same pitch, wherein when an angle formed between each of the interference fringes in each imaginary diffraction grating layer and each surface of the imaginary diffraction grating layer is defined as an inclination angle, each of the imaginary diffraction grating layers has the following conditions, (a) each imaginary diffraction grating layer has a minimum inclination angle region having an interference fringe with a minimum inclination angle; and
an outer region positioned farther away from the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the outer region increase with increasing distance from the minimum inclination angle region, and(b) each imaginary diffraction grating layer has an inner region positioned closer to the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the inner region include a maximum inclination angle in an inner area disposed adjacent to the minimum inclination angle region and decrease with increasing distance from the minimum inclination angle region, wherein if the first diffraction grating member is divided into R segments from a section thereof closest to the second diffraction grating member to a section farthest from the second diffraction grating member, R being an integer, an r-th segment RG1 — r of the first diffraction grating member has a multilayer structure that includes corresponding segments VG(r,q) of the Q imaginary diffraction grating layers, the segments VG(r,q) being obtained when each imaginary diffraction grating layer is divided into R segments from a section thereof closest to the second diffraction grating member to a section farthest from the second diffraction grating member, q being a non-redundant arbitrary integer selected from a range of 1 to Q. - View Dependent Claims (10, 11, 12)
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13. An image display apparatus comprising:
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an image forming device; a collimator optical unit configured to collimate light beams emitted from the image forming device; and an optical device which receives the collimated beams collimated and oriented in different directions by the collimator optical unit, and then guides and emits the collimated beams, wherein the optical device includes a light guide plate which receives a collimated beam group defined by the collimated beams oriented in different directions, the collimated beam group traveling through the light guide plate while undergoing total reflection therein and then exiting from the light guide plate, a first diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group incident on the light guide plate so as to allow the collimated beam group to undergo total reflection within the light guide plate, and a second diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group transmitted through the light guide plate and directly emits the collimated beam group from the light guide plate, wherein the first diffraction grating member is provided with interference fringes extending from within the first diffraction grating member towards surfaces thereof, the interference fringes on the surfaces of the first diffraction grating member being arranged at an equal pitch, wherein when an angle formed between each of the interference fringes in the first diffraction grating member and each surface of the first diffraction grating member is defined as an inclination angle, the first diffraction grating member has the following conditions, (a) the first diffraction grating member has a minimum inclination angle region having an interference fringe with a minimum inclination angle; and
an outer region positioned farther away from the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the outer region increase with increasing distance from the minimum inclination angle region, and(b) the first diffraction grating member has an inner region positioned closer to the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the inner region include a maximum inclination angle in an inner area disposed adjacent to the minimum inclination angle region and decrease with increasing distance from the minimum inclination angle region.
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14. An image display apparatus comprising:
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an image forming device; a collimator optical unit configured to collimate light beams emitted from the image forming device; and an optical device which receives the collimated beams collimated and oriented in different directions by the collimator optical unit, and then guides and emits the collimated beams, wherein the optical device includes a light guide plate which receives a collimated beam group defined by the collimated beams oriented in different directions, the collimated beam group traveling through the light guide plate while undergoing total reflection therein and then exiting from the light guide plate, a first diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group incident on the light guide plate so as to allow the collimated beam group to undergo total reflection within the light guide plate, and a second diffraction grating member including a reflective volume hologram diffraction grating that diffracts and reflects the collimated beam group transmitted through the light guide plate and directly emits the collimated beam group from the light guide plate, wherein when the first diffraction grating member supposedly includes imaginary diffraction grating layers defined by Q layers of reflective volume hologram diffraction gratings, Q being an integer, each imaginary diffraction grating layer has interference fringes on surfaces thereof, which are arranged at an equal pitch, the interference fringes in the imaginary diffraction grating layers being arranged at the same pitch, wherein when an angle formed between each of the interference fringes in each imaginary diffraction grating layer and each surface of the imaginary diffraction grating layer is defined as an inclination angle, each of the imaginary diffraction grating layers has the following conditions, (a) each imaginary diffraction grating layer has a minimum inclination angle region having an interference fringe with a minimum inclination angle; and
an outer region positioned farther away from the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the outer region increase with increasing distance from the minimum inclination angle region, and(b) each imaginary diffraction grating layer has an inner region positioned closer to the second diffraction grating member than the minimum inclination angle region, and the inclination angles of the interference fringes in the inner region include a maximum inclination angle in an inner area disposed adjacent to the minimum inclination angle region and decrease with increasing distance from the minimum inclination angle region, wherein if the first diffraction grating member is divided into R segments from a section thereof closest to the second diffraction grating member to a section farthest from the second diffraction grating member, R being an integer, an r-th segment RG1 — r of the first diffraction grating member has a multilayer structure that includes corresponding segments VG(r,q) of the Q imaginary diffraction grating layers, the segments VG(r,q) being obtained when each imaginary diffraction grating layer is divided into R segments from a section thereof closest to the second diffraction grating member to a section farthest from the second diffraction grating member, q being a non-redundant arbitrary integer selected from a range of 1 to Q.
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Specification