Planar optical member and daylighting device

1 . A planar optical member comprising: a planar structure body which has a plurality of linear bodies formed of optically transparent materials which are arrayed substantially in parallel, and a plurality of binding members which are arranged in a direction which intersects with the plurality of the linear bodies and which bind the plurality of the linear bodies in a state of being arrayed substantially in parallel, wherein the linear bodies have a reflective surface, which reflects light which is incident to the linear bodies along a direction which intersects with a length direction of the linear body, and a refractive surface which refracts the light, and in at least a part of the planar structure body, orientations of the reflective surfaces of at least some of the linear bodies out of the plurality of the linear bodies substantially match, and orientations of the refractive surfaces of at least some of the linear bodies out of the plurality of the linear bodies substantially match. 2 . The planar optical member according to claim 1 , wherein the linear bodies have a first portion and a second portion at different positions in the length directions of the linear bodies, a shape or dimensions of a cross-section of the first portion are different from a shape or dimensions of a cross-section of the second portion, and the binding members are stretched over the second portions of the plurality of linear bodies to bind the plurality of linear bodies. 3 . (canceled) 4 . A planar optical member comprising: a planar structure body which has a plurality of linear bodies formed of optically transparent materials which are arrayed substantially in parallel, and a plurality of binding members which are arranged in a direction which intersects with the plurality of the linear bodies and which bind the plurality of the linear bodies in a state of being arrayed substantially in parallel, wherein the linear bodies have a reflective surface, which reflects light which is incident to the linear bodies along a direction which intersects with a length direction of the linear body, and a refractive surface which refracts the light, in at least a part of the planar structure body, orientations of the reflective surfaces of at least some of the linear bodies out of the plurality of the linear bodies substantially match, and orientations of the refractive surfaces of at least some of the linear bodies out of the plurality of the linear bodies substantially match, and some of the linear bodies out of the plurality of the linear bodies have a linking section which integrally links the linear bodies which are adjacent to each other. 5 . (canceled) 6 . (canceled) 7 . (canceled) 8 . The planar optical member according to claim 1 , wherein the plurality of the linear bodies include two or more types of linear bodies where cross-sectional shapes orthogonal to a length direction are different from each other. 9 . The planar optical member according to claim 4 , further comprising: a plurality of the planar structure bodies, wherein the plurality of the planar structure bodies are laminated in a direction which is orthogonal to a main surface. 10 . (canceled) 11 . The planar optical member according to claim 4 , further comprising: a linear light shielding member which is arranged substantially in parallel to the linear bodies in at least a part of at least one of the planar structure bodies out of the plurality of the planar structure bodies. 12 . The planar optical member according to claim 4 , wherein a shape of a cross-section which is orthogonal to a length direction of the linear bodies is any one of substantially triangular, substantially quadrangular, and substantially pentagonal. 13 . (canceled) 14 . (canceled) 15 . The planar optical member according to claim 4 , wherein the binding members have a light scattering and emitting characteristic, and the binding members have a configuration which has a plurality of regions which have a different refractive index from peripheral regions. 16 . (canceled) 17 . (canceled) 18 . The planar optical member according to claim 4 , wherein an interval between the binding members which are adjacent to each other is equal to or less than a width dimension in a direction which intersects with a length direction of the linear bodies. 19 . The planar optical member according to claim 4 , wherein the planar optical member has a shape in which a thickness of the binding members is thinner than a thickness of the linear bodies. 20 . The planar optical member according to claim 4 , wherein the binding members have a cross-sectional shape in a direction which intersects with a length direction which has a long axis and a short axis, and the long axis is in contact with the linear body with an orientation along a length direction of the linear bodies. 21 . The planar optical member according to claim 4 , wherein the binding members have a plurality of regions which are lined up in a direction which intersects with a length direction. 22 . (canceled) 23 . The planar optical member according to claim 4 , wherein the binding members have a plurality of linear members. 24 . The planar optical member according to claim 4 , wherein, in the binding member formed of the plurality of the linear members, a number of the linear members which are present on an optical path of light which is incident to the binding member is smaller than a number of the linear members which are lined up in a length direction of the linear body. 25 . A daylighting device comprising: a planar optical member according to claim 4 ; and a support member which supports the planar optical member, wherein external light is taken in through the planar optical member, the planar optical member comprises: a planar structure body which has a plurality of linear bodies formed of optically transparent materials which are arrayed substantially in parallel, and a plurality of binding members which are arranged in a direction which intersects with the plurality of the linear bodies and which bind the plurality of the linear bodies in a state of being arrayed substantially in parallel, wherein the linear bodies have a reflective surface, which reflects light which is incident to the linear bodies along a direction which intersects with a length direction of the linear body, and a refractive surface which refracts the light, in at least a part of the planar structure body, orientations of the reflective surfaces of at least some of the linear bodies out of the plurality of the linear bodies substantially match, and orientations of the refractive surfaces of at least some of the linear bodies out of the plurality of the linear bodies substantially match. 26 . The daylighting device according to claim 25 , further comprising: a winding mechanism which is able to wind the planar optical member in and out. 27 . (canceled) 28 . The planar optical member according to claim 4 , wherein a plurality of the planar optical members are allocated on the same surface. 29 . (canceled) 30 . The daylighting device according to claim 25 , further comprising: a light adjusting member which adjusts an amount of light which is incident from outside on the same surface as a