Conductive sheet, touch sensor, and method for manufacturing touch sensor

The invention claimed is: 1 . A conductive sheet, comprising: a transparent substrate; and a first conductive pattern on a surface of the transparent substrate, the first conductive pattern including a plurality of first thin metal wires extending in a first direction and a plurality of second thin metal wires extending in a second direction, the plurality of second thin metal wires intersecting with the plurality of first thin metal wires, to form a plurality of first intersections, each first intersection forming a first obtuse angle, the first conductive pattern further including a plurality of first bent wires, at least one first bent wire connecting at least one first thin metal wire and at least one second thin metal wire, the first thin metal wire, the first bent wire, and the second metal wire forming a first connection, the first connection comprising a first pair of two obtuse angles, and at least one of the plurality of first bent wires connecting two facing first obtuse angles formed by two of the plurality of first intersections, each of the plurality of first thin metal wires and each of the plurality of second thin metal wires having a same length of 300 μm to 1300 μm, and each of the plurality of first bent wires being parallel to at least one other of the plurality of first bent wires and each of the first bent wires having a length of 8 μm to 20 μm, the plurality of first thin metal wires, the plurality of second thin metal wires, and the plurality of first bent wires comprising a mesh comprising first openings, at least a plurality of the first openings (i) having the same shape as one another and (ii) being arranged consecutively in the first direction and the second direction. 2 . The conductive sheet according to claim 1 , further comprising: a second conductive pattern on another surface of the transparent substrate, the second conductive pattern including a plurality of third thin metal wires extending in the first direction without overlapping the plurality of first thin metal wires and a plurality of fourth thin metal wires extending in the second direction, the plurality of fourth thin metal wires intersecting with the plurality of third thin metal wires without overlapping the plurality of second thin metal wires, to form a plurality of second intersections, each second intersection forming a second obtuse angle, the second conductive pattern further including a plurality of second bent wires, at least one second bent wire connecting at least one third thin metal wire and at least one fourth thin metal wire, the third thin metal wire, the second bent wire, and the fourth metal wire forming a second connection, the second connection comprising a second pair of two obtuse angles, at least one of the plurality of second bent wires connecting two facing second obtuse angles formed by two of the plurality of second intersections, and the plurality of third thin metal wires, the plurality of fourth thin metal wires, and the plurality of second bent wires comprising a mesh comprising second openings, at least plurality of the second openings (i) having the same shape as one another and (ii) being arranged consecutively in the first direction and the second direction. 3 . The conductive sheet according to claim 2 , wherein each of the plurality of third thin metal wires and each of the plurality of fourth thin metal wires has a same length of 300 μm to 1300 μm. 4 . The conductive sheet according to claim 2 , wherein each of the plurality of second bent wires is parallel to at least one other of the plurality of second bent wires and each of the second bent wires has a length of 8 μm to 20 μm. 5 . The conductive sheet according to claim 2 , wherein each of the plurality of second bent wires is at a center of a corresponding first opening of the plurality of first openings. 6 . The conductive sheet according to claim 2 , wherein each of the plurality of second thin metal wires includes a plurality of first disconnected portions each including no thin metal wire between a first bent wire and an adjacent first bent wire of the plurality of first bent wires, each of the plurality of third thin metal wires includes a plurality of second disconnected portions each including no thin metal wire between a second bent wire and an adjacent second bent wire of the plurality of second bent wires, and the plurality of first disconnected portions have no intersection with the plurality of second disconnected portions. 7 . The conductive sheet according to claim 6 , wherein each of the plurality of second thin metal wires includes a plurality of second connected portions and the plurality of first disconnected portions arranged alternately, and each of the plurality of third thin metal wires includes a plurality of third connected portions and the plurality of second disconnected portions arranged alternately. 8 . A touch sensor, comprising: the conductive sheet according to claim 2 , the conductive sheet including a plurality of the first conductive patterns serving as a plurality of first electrodes and a plurality of the second conductive patterns serving as a plurality of second electrodes, the conductive sheet including a plurality of first connectors on ends of the plurality of first electrodes and a plurality of second connectors on ends of the plurality of second electrodes; a terminal connectable to external wiring; and routing wiring connecting the plurality of first connectors and the plurality of second connectors to the terminal. 9 . The conductive sheet according to claim 2 , wherein each of the plurality of second openings has a hexagonal shape, the hexagonal shape being defined by two of the plurality of third thin metal wires, two of the plurality of fourth thin metal wires, and two of the plurality of second bent wires. 10 . The conductive sheet according to claim 1 , wherein the plurality of first thin metal wires include a first blackened layer on a first side of a metal layer and a second blackened layer on a second side of the metal layer opposite the first side. 11 . The conductive sheet according to claim 1 , wherein each of the plurality of second thin metal wires includes a plurality of first disconnected portions, each including no thin metal wire between the first bent wire and the adjacent first bent wire of the plurality of first bent wires. 12 . The conductive sheet according to claim 1 , wherein each of the plurality of first openings has a hexagonal shape, the hexagonal shape being defined by two of the plurality of first thin metal wires, two of the plurality of second thin metal wires, and two of the plurality of first bent wires. 13 . A method for manufacturing a touch sensor, the method comprising: sequentially forming a first blackened film layer, a metal film layer, and a second blackened film layer on opposite surfaces of a transparent substrate; and simultaneously forming, on a first surface of the transparent substrate, a plurality of first electrodes each including a first conductive pattern, a plurality of first connectors on ends of the plurality of first electrodes, a first terminal connectable to external wiring, and first routing wiring connecting the plurality of first connectors and the first terminal, and, on a second surface of the transparent substrate, a plurality of second electrodes each including a second conductive pattern, a plurality of second connectors on ends of the plurality of second electrodes, a second terminal connectable to external wiring, and second routing wiring connecting the plurality of second connectors and the second terminal