Suspension Jig and Method for Transporting Additive Solution

1 . Hanging devices configured to hang a blood bag system comprising: a first bag containing a blood component; a second bag containing additive solution; and a transfer line that forms a flow path between the first bag and the second bag, the hanging devices comprising: a second bag hanging section configured to hang the second bag such that a influx portion of the second bag faces downward; and support mechanisms configured to support the first bag or the transfer line in a predetermined state such that, when the additive solution is transferred from the second bag to the first bag using a height difference between the first bag and the second bag, air from the second bag stops in the middle of the flow path. 2 . The hanging device according to claim 1 , wherein the support mechanism hangs the first bag such that a influx portion of the first bag faces downward at a position lower than the second bag ( 54 ) hung by the second bag hanging section. 3 . The hanging device according to claim 1 , wherein the support mechanism supports the first bag diagonally with respect to a horizontal direction to arrange the first bag to be gradually lowered toward the flux portion of the first bag at a position lower than the second bag hung by the second bag hanging section. 4 . The hanging devices according to claim 2 , wherein the transfer line includes a first bag-side tube formed of a flexible material connected to the first bag, a second bag-side tube formed of a flexible material connected to the second bag, and a branch section formed to be harder than the first bag-side tube and the second bag-side tube and provided between the first bag-side tube and the second bag-side tube, and the support mechanisms arrange a liquid level inside the first bag to be at a position lower than the branch section. 5 . The hanging device according to claim 1 , wherein the support mechanisms support the first bag and the transfer line so as to form, in the transfer line, a high-level site existing at a position higher than the liquid level inside the first bag, and low-level sites existing at positions lower than the high-level site on both sides of the flow path of the high-level site. 6 . The hanging devices according to claim 5 , wherein the transfer line includes a first bag-side tube formed of a flexible material connected to the first bag, a second bag-side tube formed of a flexible material connected to the second bag, and a branch section formed to be harder than the first bag-side tube and the second bag-side tube and provided between the first bag-side tube and the second bag-side tube, and the support mechanisms arrange the high-level site to be at a position lower than the branch section. 7 . An additive solution transfer method targeted at a blood bag system including a first bag containing a blood component, a second bag containing additive solution, and a transfer line that forms a flow path between the first bag and the second bag, the additive solution transfer method being configured to deliver the additive solution from the second bag to the first bag, the additive solution transfer method comprising: a support step of supporting the first bag or the transfer line in a predetermined state such that, when the additive solution is transferred from the second bag to the first bag using a height difference between the first bag and the second bag, air from the second bag stops in the middle of the flow path; and a hanging step of hanging the second bag such that a influx portion of the second bag faces downward. 8 . The additive solution transfer method according to claim 7 , wherein the support step hangs the first bag such that a influx portion of the first bag faces downward at a position lower than the second bag hung in the hanging step. 9 . The additive solution transfer method according to claim 7 , wherein the support step supports the first bag diagonally with respect to a horizontal direction to arrange the first bag to be gradually lowered toward the influx portion of the first bag at a position lower than second bag to be hung. 10 . The additive solution transfer method according to claim 8 , wherein the transfer line includes a first bag-side tube formed of a flexible material connected to the first bag, a second bag-side tube formed of a flexible material connected to the second bag, and a branch section formed to be harder than the first bag-side tube and the second bag-side tube and provided between the first bag-side tube and the second bag-side tube, and the support step arranges a liquid level inside the first bag to be at a position lower than the branch section. 11 . The additive solution transfer method according to claim 7 , wherein the support step supports the first bag and the transfer line so as to form, in the transfer line, a high-level site existing at a position higher than the liquid level inside the first bag, and low-level sites existing at positions lower than the high-level site, on both sides of the flow path of the high-level site. 12 . The additive solution transfer method according to claim 11 , wherein the transfer line includes a first bag-side tube formed of a flexible material connected to the first bag, a second bag-side tube formed of a flexible material connected to the second bag, and a branch section formed to be harder than the first bag-side tube and the second bag-side tube and provided between the first bag-side tube and the second bag-side tube, and the support step arranges the high-level site to be at a position lower than the branch section. 13 . The additive solution transfer method according to claim 7 , wherein the blood component is a concentrated red blood cell and the additive solution a red blood cell preservation liquid.