Separating device and separating method of material of absorbent article

The invention claimed is: 1. A separating device that separates particulate superabsorbent polymers and liquid absorbent fibers included in a material of an absorbent article, the separating device comprising: a belt member configured to move along a predetermined moving direction while receiving the material falling on an upper surface of the belt member; an airflow supply mechanism configured to supply an airflow in a direction opposite to the moving direction of the belt member, to roll the liquid absorbent fibers on the upper surface of the belt member into fiber balls and regulate movement of the fiber balls to a downstream side of the moving direction, wherein the airflow supply mechanism is configured to supply the airflow along the upper surface from the downstream side of the moving direction with respect to a position where the material falls, so as to separate the liquid absorbent fibers and the superabsorbent polymers; and a case including an opened lower end facing the upper surface of the belt member, and wall sections having a wall section positioned on the downstream side of the moving direction with respect to the belt member; and a negative pressure condition forming mechanism configured to maintain an interior space of the case in a negative pressure condition in which an air pressure is lower than that of an exterior of the case, wherein a gap, formed between the upper surface of the belt member and the wall section of the case, defines the airflow supply mechanism, and the airflow supply mechanism is configured to, in cooperation with the negative pressure condition forming mechanism, cause incoming outside air entering from the gap into the interior space of the case to become the airflow in the direction opposite to the moving direction. 2. The separating device according to claim 1 , wherein the airflow supply mechanism is configured to supply the airflow to regulate movement of the fiber balls in the moving direction, such that the fiber balls roll and entangle the surrounding liquid absorbent fibers and grow into a snowball form, and the wall section of the case and the belt member are configured to catch the fiber balls having grown to a size corresponding to the gap between the belt member and the-wall section, the belt member is configured to have an increased moving force in the moving direction to act on the fiber balls such that the fiber balls, while resisting the airflow, are ejected from the gap to the exterior of the case based on the increased moving force. 3. The separating device according to claim 2 , further comprising a first sieve member, wherein the belt member is an endless belt and has a folded position positioned, in the moving direction of the belt member, outwardly with respect to the case, the first sieve member is arranged below the folded position and includes a plurality of first through holes, and a hole size of the plurality of first through holes is set to allow the superabsorbent polymers to pass through the first sieve member and restrain the fiber balls from passing through the first sieve member. 4. The separating device according to claim 3 , further comprising: the sieve member includes a transporting mechanism configured to transport the fiber balls, having been restrained from passing through the first sieve member and captured by the first sieve member, to a position distant from a landing position where the material falls at the first sieve member. 5. The separating device according to claim 4 , further comprising a second sieve member, wherein the second sieve member is arranged below the first sieve member, and includes a plurality of second through holes, and a hole size of the plurality of second through holes is set to allow the superabsorbent polymers to pass through the second sieve member and restrain foreign matter included in the material from passing through the second sieve member. 6. The separating device according to claim 1 , further comprising: first and second blowers; and an opening mechanism configured to open a primary material and separate the opened primary material into a secondary material, and cause the secondary material to fall, as the material, toward the upper surface of the belt member, wherein the interior space of the case is partitioned by a partition member into an upper space and a lower space adjacent to a lower side of the upper space, a main body of the opening mechanism, the opening mechanism includes a charge port which is formed in the case, and through which the primary material is charged to the upper space while being made to ride on the airflow, a rotation member housed in the upper space as the main body of the opening mechanism, the rotation member being configured to stir and open the primary material, a discharge port through which the liquid absorbent fibers in the primary material opened by the rotation member are discharged from an interior of the upper space while being made to ride on the airflow, and a plurality of through holes formed in the partition member, and configured to cause the secondary material to fall through the through holes toward the upper surface of the belt member, and the first blower, configured to charge the airflow from the charge port, and the second blower, configured to discharge the airflow from the discharge port with a discharge amount larger than a charge amount of the air flow of the first blower, cooperate with each other to define the negative pressure condition forming mechanism. 7. The separating device according to claim 6 , further comprising a suction port, wherein the suction port, through which air in the lower space is suctioned, is provided in the lower space and configured to suck the liquid absorbent fibers passing downward through the through holes of the partition member and being suspended in the lower space. 8. The separating device according to claim 6 , wherein a direction from the charge port toward the discharge port is a predetermined direction, the rotation member includes a revolving axis having an axial direction set along the predetermined direction, and a shaft member configured to rotate about a rotating axis while revolving about the revolving axis, the rotating axis having an axial direction set along the predetermined direction, and the shaft member includes protruding sections protruding outwardly in a direction that intersects with the axial direction of the rotating axis of the shaft member. 9. The separating device according to claim 6 , further comprising a regulating member, wherein the charge port and the discharge port are provided in a ceiling section in the case, and the regulating member which hangs from the ceiling section at a predetermined position between the charge port and the discharge port in the upper space, the regulating member being configured to regulate movement of the primary material from the charge port to the discharge port. 10. A method of separating particulate superabsorbent polymers and liquid absorbent fibers included in a material of an absorbent article, the method comprising: moving a belt member along a predetermined moving direction to receive the material falling on an upper surface of the belt member; supplying, by an airflow supply mechanism, an airflow in a direction opposite to the moving direction of the belt member, to roll the liquid absorbent fibers on the upper surface of the belt member into fiber balls and regulate movement of the fiber balls to a downstream side of the moving direction, wherein the airflow supply mechanism supplies the airflow along the upper surface from the downstream side of the moving direction with resp