Heat-not-burn (HNB) aerosol generating devices and capsules

We claim: 1 . An aerosol generating device, comprising: a housing including a power supply and an air inlet; a mouthpiece assembly movably attached to the housing, and providing an air outlet; a door assembly moveably attached to the housing, the door assembly including a door and a receptacle movably attached to the door, the receptacle defining a cavity to receive a capsule including an aerosol generating substrate; and a linkage arrangement operationally connected to the door assembly, the mouthpiece assembly and the housing, and the linkage arrangement cooperatively moving the mouthpiece assembly and the receptacle in response to movement of the door to a closed state such that the capsule is retained within the housing and operationally connected with the power supply, the air inlet and the air outlet. 2 . The aerosol generating device of claim 1 , wherein the linkage arrangement includes at least one first linkage and at least one second linkage, each of the linkages including a first end and a second end. 3 . The aerosol generating device of claim 2 , wherein the housing further includes at least one first pivot point; the at least one first linkage is rotatably connected to the receptacle at the first end of the at least one first linkage; and the at least one first linkage is rotatably connected to the housing at the at least one first pivot point at the second end of the at least one first linkage. 4 . The aerosol generating device of claim 3 , wherein in response to the movement of the door to the closed state: the at least one first linkage moves the receptacle such that the capsule is operationally connected with the power supply and the air inlet. 5 . The aerosol generating device of claim 3 , wherein the housing further defines at least one elongated slot; the housing further includes at least one compression spring; the mouthpiece assembly further includes at least one pin movably inserted into the at least one elongated slot; the at least one second linkage is rotatably connected to the door assembly at the first end of the at least one second linkage; and the at least one second linkage is rotatably and movably connected to the at least one pin at the second end of the at least one second linkage. 6 . The aerosol generating device of claim 5 , wherein in response to the movement of the door to the closed state: the at least one second linkage releases the at least one compression spring from a compressed state; and the at least one compression spring moves the mouthpiece assembly along a length of the at least one elongated slot such that the air outlet is operationally connected to the capsule. 7 . The aerosol generating device of claim 1 , wherein the mouthpiece assembly includes a mouthpiece chassis; and the mouthpiece chassis defines an opening to receive a mouthpiece. 8 . The aerosol generating device of claim 7 , wherein the mouthpiece chassis defines a portion of an attachment mechanism for removably attaching the mouthpiece to the mouthpiece chassis. 9 . The aerosol generating device of claim 8 , wherein the attachment mechanism is at least one of a bayonet connector, a snug-fit, a detent, a clamp, a threaded connector, a sliding fit, a sleeve fit, an alignment fit, a magnetic clasp, or any combinations thereof. 10 . The aerosol generating device of claim 1 , wherein the door includes a cam disposed on an interior face of the door; the receptacle includes a restraining element; and in response to the movement of the door to the closed state, the linkage arrangement cooperatively moves the receptacle such that the cam actuates the restraining element, and the actuated restraining element restrains movement of the capsule within the receptacle. 11 . The aerosol generating device of claim 1 , wherein the housing includes an airflow sensor, a door sensor, a capsule sensor, and processing circuitry; the airflow sensor is configured to detect a draw event; the door sensor is configured to detect whether the door is in the closed state; the capsule sensor is configured to detect the capsule in the receptacle; and the processing circuitry is configured to enable current to flow from the power supply to the capsule in response to the detected draw event, the door detected in the closed state, and the capsule detected in the receptacle, such that the current enables a heater included in the capsule to heat the aerosol generating substrate and generate an aerosol. 12 . The aerosol generating device of claim 1 , wherein the housing further includes a display panel; and the display panel is configured to display operational information related to the aerosol generating device or the capsule. 13 . The aerosol generating device of claim 1 , wherein in response to movement of the door to an open state: the linkage arrangement cooperatively moves the mouthpiece assembly and the receptacle such that the capsule is operationally disconnected from the power supply, the air inlet, and the air outlet. 14 . An aerosol generating device, comprising: a housing including a power supply and an air inlet; a mouthpiece assembly movably attached to the housing, and providing an air outlet; a door assembly moveably attached to the housing, the door assembly including a door and a receptacle movably attached to the door, the receptacle defining a cavity to receive a capsule including an aerosol generating substrate and retain the capsule within the housing, and the capsule operationally connected to the power supply, the air inlet, and the air outlet when the door is in a closed state; and a linkage arrangement operationally connected to the door assembly, the mouthpiece assembly and the housing, and the linkage arrangement cooperatively moving the mouthpiece assembly and the receptacle in response to movement of the door to an open state such that the capsule is operationally disconnected from the power supply, the air inlet and the air outlet. 15 . The aerosol generating device of claim 14 , wherein the linkage arrangement includes at least one first linkage and at least one second linkage, each of the linkages including a first end and a second end. 16 . The aerosol generating device of claim 15 , wherein the housing further includes at least one first pivot point; the at least one first linkage is rotatably connected to the receptacle at the first end of the at least one first linkage; and the at least one first linkage is rotatably connected to the housing at the at least one first pivot point at the second end of the at least one first linkage. 17 . The aerosol generating device of claim 16 , wherein in response to the movement of the door to the open state: the at least one first linkage moves the receptacle such that the capsule is operationally disconnected with the power supply and the air inlet. 18 . The aerosol generating device of claim 16 , wherein the housing further defines at least one elongated slot; the housing further includes at least one compression spring; the mouthpiece assembly further includes at least one pin movably inserted into the at least one elongated slot; the at least one second linkage is rotatably connected to the door assembly at the first end of the at least one second linkage; and the at least one second linkage is rotatably and movably connected to the at least one pin at the second end of the at least one second linkage. 19 . The aerosol generating device of claim 18 , wherein in response