The invention relates to a discharge device for flowable material, comprising at least one storage element (14, 14A, 14B) with at least one receiving chamber (48; 48A, 48B) for flowable material and comprising a support body (12) on which a discharge opening (22) is formed and which is provided with at least one pin (16; 72A, 72B) which is cylindrical at least in some regions, which has an axial channel (40; 40A, 40B) and at least one lateral channel (44; 44A, 44B) that branches off from the axial channel (40; 40A, 40B), on the outer face of which the storage element (14) is guided via at least one annular sealing lip (54, 56; 54A, 56A, 54B, 56B), and the end face of which adjoins the receiving chamber (48; 48A, 48B) of the storage element (14; 14A, 14B). The flowable material is discharged by displacing the storage element (14; 14A, 14B) onto the cylindrical pin (16; 72A, 72B) in the direction of the discharge opening (22) such that the sealing lip (54, 56; 54A, 56A, 54B, 56B) passes over the lateral channel (44; 44A, 44B) of the cylindrical pin (16; 72A, 72B), the cylindrical pin (16; 72A, 72B) delivers flowable material from the receiving chamber (48; 48A, 48B) to the discharge opening (22) via the lateral channel (44; 44A, 44B) and the axial channel (40; 40A, 40B) in the manner of a displacement piston, and flowable material is discharged. The support body (12) comprises an atomizing device in the region of the discharge opening (22), and the displacement of the storage element (14; 14A, 14B) discharges the flowable material in atomized form by means of said atomizing device.
