Device for producing composite active material powder and method for producing composite active material powder

1 . A device for producing a composite active material powder by coating surfaces of active material particles or composite particles, which are obtained by coating the surfaces of the active material particles with an oxide-based solid electrolyte, with a sulfide-based solid electrolyte, wherein the device comprises: a storage body which has a cylindrical inner wall surface, and a rotating body which is disposed in an internal space that is surrounded by the inner wall surface of the storage body, which has a rotating shaft that is aligned with a central axis of the internal space, and which includes a plurality of blades, and wherein an end part of each blade has such a tapered section on a front side in a rotation/movement direction of the rotating body, that a thickness of the blade gradually tapers toward a blade end side, and the end part of each blade has such a curved end surface on a back side in the rotation/movement direction of the rotating body, that the curved end surface faces the inner wall surface of the storage body and is generally parallel to the inner wall surface of the storage body. 2 . The device for producing the composite active material powder according to claim 1 , wherein a width of the end surface of the end part of each blade is in a range of 0.1 to 0.7 with respect to the thickness of the blade. 3 . The device for producing the composite active material powder according to claim 1 , wherein, in a rotating shaft direction front view of the rotating body, a length of the end part of each blade in a radial direction of the rotating body is 0.5 to 30 mm. 4 . The device for producing the composite active material powder according to claim 1 , wherein the width of the end surface of the end part of each blade is 0.5 to 30 mm. 5 . The device for producing the composite active material powder according to claim 1 , wherein a clearance between the end surface of the end part of each blade and the inner wall surface of the storage body is 0.5 to 10 mm. 6 . The device for producing the composite active material powder according to claim 1 , wherein, in the rotating shaft direction front view of the rotating body, an inclined angle of the tapered section is 10 to 80° to a tangent line at a point of intersection between an inclined surface of the tapered section and the inner wall surface of the storage body. 7 . A method for producing a composite active material powder, wherein surfaces of active material particles or composite particles, which are obtained by coating the surfaces of the active material particles with an oxide-based solid electrolyte, are coated with a sulfide-based solid electrolyte by preparing the production device defined by claim 1 , putting the sulfide-based solid electrolyte and any one of the active material particles and the composite particles into the storage body of the production device, and then rotating the storage body. 8 . The method for producing the composite active material powder according to claim 7 , wherein the active material particles are particles which contain at least any one of a cobalt element, a nickel element and a manganese element, and which further contain a lithium element and an oxygen element.