Apparatus of manufacturing molding material and method of manufacturing resin gear

1 . An apparatus of manufacturing a molding material comprising: a cylindrical die having an opening portion opened in an upward direction; an upper compression mold disposed inside the cylindrical die during molding; a lower compression mold disposed inside the cylindrical die during molding and having a plurality of drain passages formed therein; and a bottom member disposed on the plurality of drain passages formed in the lower compression mold and having a filtration function, the apparatus of manufacturing a molding material being configured to form a molding material by pouring slurry obtained by dispersing short fibers or short fibers and a powdery resin in a dispersion medium into the cylindrical die with the upper compression mold placed at a stand-by position; subsequently discharging the dispersion medium from the plurality of drain passages formed in the lower compression mold to form an aggregate of the short fibers or the short fibers and the powdery resin; and relatively moving the upper compression mold and the lower compression mold closer to each other to compress the aggregate while or after the aggregate is formed, wherein: the bottom member is constituted of two or more layers of wire meshes including a dutch-woven wire mesh and a plain-woven wire mesh, the two or more layers of wire meshes being secured to each other by sintering; and a support plate is disposed between the bottom member and the lower compression mold, the support plate having a plurality of through holes formed therein and configured to support the bottom member. 2 . The apparatus of manufacturing a molding material according to claim 1 , wherein the support plate has an opening rate that is higher than the opening rate of the drain passages of the lower compression mold and that is equal to or more than the opening rate of the bottom member. 3 . The apparatus of manufacturing a molding material according to claim 1 , wherein grooves that connect between the plurality of drain passages of the lower compression mold and the through holes of the support plate are disposed in at least one of opposing surfaces of the lower compression mold and the support plate. 4 . The apparatus of manufacturing a molding material according to claim 1 , wherein the support plate is dotted with the plurality of through holes so as to have an opening rate of 35% or more and 55% or less. 5 . The apparatus of manufacturing a molding material according to claim 4 , wherein the dutch-woven wire mesh has a filtration grain size of 150 μm or more, and the plain-woven wire mesh has a hole opening rate of 35% or more and 55% or less. 6 . An apparatus of manufacturing a molding material for use to form a ring-shaped molding material including a metal bushing and an aggregate of short fibers compressed on an outer side of an outer peripheral portion of the metal bushing by pouring slurry containing a dispersion medium and the short fibers, or a dispersion medium, the short fibers, and a powdery resin, and continuously subjecting the slurry to filtration, dehydration, and compression, the apparatus of manufacturing a molding material comprising: a cylindrical die configured to prevent the aggregate of the short fibers or the short fibers and the powdery resin from spreading radially outwardly of the metal bushing during the compression; a pair of bushing support dies disposed inside the cylindrical die to sandwich a portion of the metal bushing located on an inner side of the outer peripheral portion in an axial direction and to prevent the aggregate of the short fibers or the short fibers and the powdery resin from spreading radially inwardly of the metal bushing during the compression; and an upper compression mold and a lower compression mold located between the cylindrical die and the pair of bushing support dies to sandwich the aggregate of the short fibers or the short fibers and the powdery resin in the axial direction to compress the aggregate during the compression, wherein: a plurality of drain passages configured to discharge the dispersion medium are formed in the lower compression mold; a bottom member having a filtration function is disposed on the plurality of drain passages formed in the lower compression mold; the bottom member is constituted of two or more layers of wire meshes including a dutch-woven wire mesh and a plain-woven wire mesh, the two or more layers of wire meshes being secured to each other by sintering; and a support plate is disposed between the bottom member and the lower compression mold, the support plate having a plurality of through holes formed therein and configured to support the bottom member. 7 . The apparatus of manufacturing a molding material according to claim 6 , wherein the support plate has an opening rate that is higher than the opening rate of the drain passages of the lower compression mold and that is equal to or more than the opening rate of the bottom member. 8 . The apparatus of manufacturing a molding material according to claim 6 , wherein grooves that connect between the plurality of drain passages of the lower compression mold and the through holes of the support plate are disposed in at least one of opposing surfaces of the lower compression mold and the support plate. 9 . The apparatus of manufacturing a molding material according to claim 7 , wherein the support plate is dotted with the plurality of through holes to have an opening rate of 35% or more and 55% or less. 10 . The apparatus of manufacturing a molding material according to claim 9 , wherein the dutch-woven wire mesh has a filtration grain size of 150 μm or more, and the plain-woven wire mesh has a hole opening rate of 35% or more and 55% or less. 11 . A method of manufacturing a resin gear, comprising the steps of: forming a resin rotator by applying pressure to the molding material manufactured by the manufacturing method according to claim 1 while heating the molding material, thereby melting the powdery resin to generate a molten resin; subsequently impregnating a reinforcing fiber layer formed from the short fibers with the molten resin; and then curing the molten resin to form a resin molded member for the resin rotator; and forming teeth on an outer peripheral portion of the resin molded member to manufacture a resin gear, after the step of forming the resin rotator.