Filling station for heat-not-burn (HNB) aerosol-generating capsules and automated production line including the same

The invention claimed is: 1 . A filling station for aerosol-generating capsules, comprising: a filling receptacle defining a first series of vacuum ports, the filling receptacle configured to receive an aerosol-forming substrate; a plurality of carriages arranged underneath the filling receptacle, each of the plurality of carriages defining a second series of vacuum ports, each of the plurality of carriages configured to receive and hold capsule casings for filling with the aerosol-forming substrate; and at least one vacuum source configured to draw a vacuum through the capsule casings such that the aerosol-forming substrate is drawn through the first series of vacuum ports in the filling receptacle and into the capsule casings underneath. 2 . The filling station of claim 1 , wherein the filling receptacle and the plurality of carriages are configured to rotate and have a common axis of rotation, and the plurality of carriages are configured to move axially relative to the axis of rotation. 3 . The filling station of claim 1 , wherein the plurality of carriages are configured to raise the capsule casings to engage with the filling receptacle to facilitate a filling with the aerosol-forming substrate and to lower the capsule casings after the filling. 4 . The filling station of claim 1 , wherein the first series of vacuum ports in the filling receptacle have a shape that corresponds to a cross-section of the capsule casings. 5 . The filling station of claim 1 , wherein the first series of vacuum ports are arranged in a circle in the filling receptacle. 6 . The filling station of claim 1 , wherein the plurality of carriages are configured to raise the capsule casings such that the capsule casings extend into the first series of vacuum ports in the filling receptacle. 7 . The filling station of claim 1 , wherein each of the first series of vacuum ports in the filling receptacle has a lower edge that is chamfered such that a bottom opening of each of the first series of vacuum ports is larger than a corresponding top opening. 8 . The filling station of claim 1 , wherein the second series of vacuum ports are configured to align with air-permeable bottom ends of the capsule casings. 9 . The filling station of claim 1 , wherein each of the plurality of carriages further defines a third series of vacuum ports configured to hold the capsule casings against the plurality of carriages when the vacuum is being drawn by the at least one vacuum source. 10 . The filling station of claim 1 , wherein the at least one vacuum source is configured to draw the vacuum such that a packing density of the aerosol-forming substrate drawn into the capsule casings is greater than via gravity loading. 11 . The filling station of claim 1 , further comprising: at least one motor configured to generate vibrations for enhancing particulate movements of the aerosol-forming substrate in the filling receptacle. 12 . The filling station of claim 11 , further comprising: at least one baffle configured to modify a distribution of the aerosol-forming substrate in the filling receptacle. 13 . The filling station of claim 12 , wherein the at least one baffle is configured to vibrate in response to the at least one motor. 14 . The filling station of claim 12 , wherein the filling receptacle and the plurality of carriages are configured to rotate, while the at least one baffle is configured to remain fixed relative to rotations of the filling receptacle and the plurality of carriages. 15 . The filling station of claim 14 , wherein the at least one baffle is configured to deflect the aerosol-forming substrate toward the first series of vacuum ports during rotations of the filling receptacle. 16 . The filling station of claim 12 , wherein the at least one baffle includes a first baffle, a second baffle, a third baffle, and a fourth baffle. 17 . The filling station of claim 16 , wherein the first baffle is configured to facilitate an initial filling of the aerosol-forming substrate in the capsule casings, and the third baffle is configured to facilitate a subsequent filling of the aerosol-forming substrate in the capsule casings. 18 . The filling station of claim 16 , wherein the second baffle is C-shaped or U-shaped and is positioned higher from a surface of the filling receptacle than the first baffle, the third baffle, and the fourth baffle. 19 . The filling station of claim 16 , wherein the second baffle is configured to temporarily accumulate the aerosol-forming substrate for purposes of determining an appropriate rate for supplying the aerosol-forming substrate to the filling receptacle. 20 . The filling station of claim 16 , wherein the fourth baffle is configured to wipe excess aerosol-forming substrate from the first series of vacuum ports and to direct the excess aerosol-forming substrate toward an inner portion of the filling receptacle. 21 . A method of filling capsule casings with aerosol-forming substrate, comprising: supplying the aerosol-forming substrate to a filling receptacle defining a first series of vacuum ports; receiving and holding the capsule casings with a plurality of carriages defining a second series of vacuum ports; engaging the capsule casings with an underside of the filling receptacle and the first series of vacuum ports, the capsule casings having open top ends and air-permeable bottom ends; providing vibrations to increase a particulate motion of the aerosol-forming substrate in the filling receptacle; and applying a vacuum to the air-permeable bottom ends of the capsule casings such that the aerosol-forming substrate in the filling receptacle is drawn through the first series of vacuum ports and into the open top ends of the capsule casings.