Flow channel structure

Then invention claimed is: 1. A flow channel structure comprising a member that comprises a flow channel, the flow channel comprising: a first bifurcation; and a plurality of second bifurcations, wherein the first bifurcation and the second bifurcations each comprise: a first part that extends in a first direction; a plurality of second parts having a same channel length and each extending in the first direction; and a plurality of connections, each of which connects the first part and a corresponding one of the second parts, and includes a first bend and a second bend, the first bend arcuately extends with a first curvature and a central angle of greater than 90 degrees, and has a first end connected to the corresponding one of the second parts and a second end opposite to the first end, the second bend arcuately extends with a second curvature, and has a third end and a fourth end, the third end connected to the second end of the first bend, the fourth end opposite to the third end and connected to the first part, a tangent to the first end of the first bend extends in a same direction as the corresponding one of the second parts extends, a tangent to the second end of the first bend is the same as a tangent to the third end of the second bend, a tangent to the fourth end of the second bend extends in the first direction, the connections have a same channel length, the second parts of the first bifurcation are connected with the first parts of the different second bifurcations, respectively, and the tangent to the first end of the first bend of the first bifurcation is the same as the tangent to the fourth end of the second bend of the second bifurcations, the first end connected with the fourth end through the first part and the corresponding one of the second parts. 2. The flow channel structure according to claim 1 , wherein the second bend arcuately extends with a central angle of greater than 90 degrees. 3. The flow channel structure according to claim 1 , wherein the first curvature is same as the second curvature. 4. The flow channel structure according to claim 1 , wherein an end of the second bend in the first direction is farther in the first direction than an end of the first bend in an opposite direction of the first direction. 5. The flow channel structure according to claim 1 , wherein the connections each include a helix that includes the first bend and the second bend and extends helically. 6. The flow channel structure according to claim 1 , wherein the connections each further include an interposer between the first bend and the second bend, the interposer having a fifth end connected to the second end of the first bend and a sixth end connected to the third end of the second bend, the interposer extending from the second end of the first bend to the third end of the second bend, a tangent to the second end of the first bend extends in a same direction as the interposer extends, and a tangent to the third end of the second bend extends in a same direction as the interposer extends. 7. The flow channel structure according to claim 6 , wherein the interposer has a length shorter than a radius of the curvature of the first bend. 8. The flow channel structure according to claim 1 , wherein the second bend arcuately extends with a central angle of greater than 135 degrees. 9. A treatment apparatus comprising: the flow channel structure according to claim 1 that comprises a plurality of openings connected with the second parts of the second bifurcations; and a tank that contains a fluid, wherein the first bifurcation bifurcates the fluid that is supplied to the first pail thereof from the tank into the second parts thereof, the second bifurcations each bifurcate the fluid that is supplied to the first part thereof from a corresponding one of the second parts of the first bifurcation into the second parts thereof, and the flow channel structure discharges the fluid to outside from the openings.