Patent Number: 
Section: claims

1. A surface illuminator comprising:a surface lighting light guide member having a light emitting first major surface, a second major surface opposed to the first major surface and at least one light receiving side surface;an elongated light guide member having a linear or nonlinear elongated member, at least one surface and at least one light receiving portion;at least one point light source optically communicated with the at least one light receiving portion;a channel light guide member having a plurality of optical core channel elements and a plurality of optical clads alternately aligned to form an elongated fiber optic channel array having a plurality of light entrance core surfaces and a plurality of exit core surfaces opposed to the light entrance core surfaces;wherein the channel light guide member is interposed between the surface lighting light guide member and the elongate light guide member;wherein the optical clads comprise light reflecting material composed of substantially transparent solid material having a refractive index lower than the refractive index of the cores and/or light reflecting metallic material; andwherein each width of the optical core channel elements and/or a pitch between the adjacent optical core channel elements is changed along the elongated optical channel array in such a way that the width increases in accordance with a distance from the point light source and/or the pitch decreases in accordance with a distance from the point light source. 2. The surface illuminator according to claim 1, wherein light from the at least one point light source enters the elongated light guide member and the light transmits therein toward at least one substantially lengthwise direction thereof. 3. The surface illuminator according to claim 1, wherein the light entrance core surfaces and the light exit core surfaces are disposed to be in contact with, connected with and/or in close vicinity to the at least one surface of the elongate light guide member and the at least one side surface of the surface lighting light guide member respectively in that order. 4. The surface illuminator according to claim 1, wherein the surface lighting light guide member, the channel light guide member and the elongated light guide member are disposed respectively in that order. 5. The surface illuminator according to claim 1, wherein the surface lighting light guide member, the channel light guide member and the elongate light guide member are connected to one another in that order to form an integrated light guide unit. 6. The surface illuminator according to claim 1, wherein light enters from the light entrance core surfaces exits from the light exit core surface and the light is received in the at least one light side surface to transmit within the surface lighting light guide member for outputting from the light emitting surface. 7. The surface illuminator according to claim 1,wherein light from the at least one point light source enters the elongated light guide member from at least one opposed reflecting surfaces thereof, at least one end surface thereof and/or at least one corner surface thereof to transmit toward at least one substantially lengthwise direction thereof. 8. The surface illuminator according to claim 1, each of the optical clads comprise the light reflecting material composed of a substantially transparent solid film having a refractive index lower than the refractive index of the cores and/or a light reflecting metallic film disposed on the substantially transparent solid film. 9. The surface illuminator according to claim 1, wherein an area of each of the light entrance surfaces is the same as the size of an area of each of the light exit surfaces. 10. The surface illuminator according to claim 1, wherein an area of each of the light entrance surfaces is smaller than an area of each of the light exit surfaces. 11. The surface illuminator according to claim 1, wherein each width of the optical core channel elements and/or a pitch between the adjacent optical core channel elements is substantially unchanged along the elongated optical channel array. 12. The surface illuminator according to claim 1, wherein the elongated light guide member and/or the channel light guide member comprise a nonlinear shaped configuration as a whole having the shape selected from the group consisting of substantially “O” shape, flame-like shape, loop-like shape and ring-like shape. 13. The surface illuminator according to claim 1, wherein the elongated fiber optic channel array is composed of a linear shaped configuration as a whole so as to face one of the at least one light receiving side surface of the surface lighting light guide member. 14. The surface illuminator according to claim 1, the elongated light guide member further comprising: at least one reflector, each of the at least one reflector having opposed reflecting surfaces disposed relative to the at least one light receiving portion. 15. The surface illuminator according to claim 1,wherein each of the optical core channel elements comprises a substantially rectangular shape in such a manner that each of the light exit core surfaces has an area size equal to the area size of each of the light entrance core surfaces; orwherein each of the optical core channel elements comprises a substantially trapezoidal shape in such a manner that each of the light exit core surfaces has an area size larger than the area size of each of the light entrance core surfaces. 16. A surface illuminator comprising:a surface lighting light guide member having a light emitting first major surface, a second major surface opposed to the first major surface and at least one light receiving side surface;an elongated light guide member having a linear or nonlinear elongated member, at least one surface and at least one light receiving portion;at least one point light source optically communicated with the at least one light receiving portion;a channel light guide member having a plurality of optical core channel elements and a plurality of optical clads alternately aligned to form an elongated fiber optic channel array having a plurality of light entrance core surfaces and a plurality of exit core surfaces opposed to the light entrance core surfaces;wherein the channel light guide member is interposed between the surface lighting light guide member and the elongate light guide member; andwherein the elongated fiber optic channel array comprise a nonlinear shaped configuration as a whole having a substantially “L” or “U” shape so as to face two or more of the light receiving side surfaces of the surface lighting light guide member. 17. The surface illuminator according to claim 16:wherein each width of the optical core channel elements and/or a pitch between the adjacent optical core channel elements is changed along the elongated optical channel array in such a way that the width increases in accordance with a distance from the point light source and/or the pitch decreases in accordance with a distance from the point light source. 18. A surface illuminator comprising:a surface lighting light guide member having a light emitting first major surface, a second major surface opposed to the first major surface and at least one light receiving side surface;an elongated light guide member having a linear or nonlinear elongated member, at least one surface and at least one light receiving portion;at least one point light source optically communicated with the at least one light receiving portion;a channel light guide member having a plurality of optical core channel elements and a plurality of optical clads alternately aligned to form an elongated fiber optic channel array having a plurality of light entrance core surfaces and a plurality of exit core surfaces opposed to the light entrance core surfaces;wherein the channel light guide member is interposed between the surface lighting light guide member and the elongate light guide member;wherein the optical clads comprise light a reflecting material composed of substantially transparent solid material;wherein the substantially transparent solid material having a refractive index lower than the refractive index of the cores; andwherein the substantially transparent solid material contains a plurality of light diffusing particles dispersed therein. 19. The surface illuminator according to claim 18:wherein each width of the optical core channel elements and/or a pitch between the adjacent optical core channel elements is changed along the elongated optical channel array in such a way that the width increases in accordance with a distance from the point light source and/or the pitch decreases in accordance with a distance from the point light source. 20. The surface illuminator according to claim 18:wherein the elongated fiber optic channel array comprise a nonlinear shaped configuration as a whole having a substantially “L” or “U” shape so as to face two or more of the light receiving side surfaces of the surface lighting light guide member.