Defibrating apparatus and fiber body manufacturing apparatus

What is claimed is: 1 . A defibrating apparatus comprising: a circular annular wall in which a through-hole that penetrates the circular annular wall is formed; a rotational body rotatable in a circumferential direction of the circular annular wall inside the circular annular wall; an outer circumferential wall that defines a discharge path that circumferentially surrounds an outside of the circular annular wall; and a discharge pipe that extends from a discharge section of the outer circumferential wall in a direction away from the circular annular wall, wherein a raw material inside the circular annular wall is defibrated by rotation of the rotational body inside the circular annular wall to produce a defibrated material, the defibrated material passes through the through-hole and the discharge path in an order of the through-hole and the discharge path, and is discharged from the discharge pipe, and the discharge section is disposed vertically downward from the rotational body and the circular annular wall and disposed at a lowest position of the discharge path. 2 . The defibrating apparatus according to claim 1 , further comprising a side wall that defines an inside of the circular annular wall, wherein the side wall includes a supporting unit that supports a rotational shaft included in the rotational body, and a supply unit that supplies the raw material to the inside of the circular annular wall, and the supply unit, the supporting unit, and the discharge section are arranged in a vertical direction in an order of the supply unit, the supporting unit, and the discharge section such that the supply unit is arranged above the supporting unit, and the discharge section. 3 . A fiber body manufacturing apparatus comprising: the defibrating apparatus according to claim 1 ; a web former that forms a web by accumulating the defibrated material discharged from the discharge pipe; and a fiber body former that forms a fiber body including the fibers by binding the fibers contained in the web. 4 . A defibrating apparatus comprising: a circular annular wall in which a plurality of through-holes each of which penetrates the circular annular wall are formed; a rotational body rotatable in a circumferential direction of the circular annular wall inside the circular annular wall; an outer circumferential wall that defines a discharge path that circumferentially surrounds an outside of the circular annular wall; and a discharge pipe that extends from a discharge section of the outer circumferential wall in a direction away from the circular annular wall, wherein a raw material inside the circular annular wall is defibrated by rotation of the rotational body inside the circular annular wall to produce a defibrated material, the defibrated material passes through the plurality of through-holes and the discharge path in an order of the plurality of through-holes and the discharge path, and is discharged from the discharge pipe, and a number of the plurality of through-holes per unit area in a discharge section-side region of the circular annular wall is equal to or more than zero, and is less than a number of the plurality of through-holes per unit area in an opposite region of the circular annular wall, the discharge section-side region is positioned in the circular annular wall at a side of the discharge section, and the opposite region is positioned in the circular annular wall and opposite to the discharge section-side region in a vertical direction. 5 . The defibrating apparatus according to claim 4 , wherein the number of the plurality of through-holes per unit area in the discharge section-side region is equal to or more than zero, and less than a number of the plurality of through-holes per unit area in a different region of the circular annular wall which is different from the discharge section-side region. 6 . The defibrating apparatus according to claim 4 , wherein the number of the plurality of through-holes per unit area in the opposite region is more than a number of the plurality of through-holes per unit area in a different region of the circular annular wall which is different from the opposite region. 7 . The defibrating apparatus according to claim 4 , wherein the number of the plurality of through-holes per unit area in the discharge section-side region is zero. 8 . The defibrating apparatus according to claim 4 , further comprising a side wall that defines an inside of the circular annular wall, wherein the side wall includes a supporting unit that supports a rotational shaft included in the rotational body, and a supply unit that supplies the raw material to the inside of the circular annular wall, and the supply unit, the supporting unit, and the discharge section are arranged in the vertical direction in an order of the supply unit, the supporting unit, and the discharge section such that the supply unit is arranged above the supporting unit, and the discharge section. 9 . A fiber body manufacturing apparatus comprising: the defibrating apparatus according to claim 4 ; a web former that forms a web by accumulating the defibrated material discharged from the discharge pipe; and a fiber body former that forms a fiber body including the fibers by binding the fibers contained in the web.