The techniques disclosed in the present specification relate to devices, systems, and methods using the same that generate cigarette smoke and then separate and collect substances of the cigarette smoke generated into particulate and gaseous substances for the preparation of a whole cigarette smoke condensate, which may comprise: a cigarette mount on which one or more cigarettes are mounted; an automatic ignition device for igniting the one or more cigarettes; a cigarette smoke collection unit for collecting substances of cigarette smoke generated from the ignited one or more cigarettes; one or more cigarette smoke intake lines configured to suck the cigarette smoke; one or more cigarette smoke exhaust lines configured to discharge the cigarette smoke; and one or more collection unit connecting lines connected to the cigarette smoke collection unit.

A robotic arm includes a base, a first robotic arm, a second robotic arm, a robotic hand and a cigarette holder connected in sequence. The cigarette holder includes a cigarette insertion hole and a cigarette smoking tube. The cigarette smoking tube is connected to a smoking simulator. The robotic arm further includes at least one air exhausting hole. The air exhausting hole is located around the cigarette holder and communicated with an air exhauster through an air exhausting pipe. The robotic arm swings to control the cigarette holder to carry a cigarette from a smoking position to an ash flicking position. Airflow is formed near the air exhausting hole by means of air exhaustion, so as to simulate influences of a wind speed in an outdoor environment on the columnar ash in the cigarette smoking process of the human body.

Methods and apparatuses for detecting the fill height of a pre-filled cone and closing the cone are disclosed. A height detector, such as a laser rangefinder, detects the height of a pre-filled cone. A gripper then grips the pre-filled cone at the height plus a predetermined offset, the offset calculated to result in an optimum packing of cone fill material. The gripper then closes the cone by rotating to form a twist, which is then trimmed to the height plus the predetermined offset. Other embodiments may be described and/or claimed.

An apparatus for manufacturing a consumable for an aerosol provision system. The apparatus includes a feeding apparatus for receiving and supplying a sheet of aerosol-generating material along a conveyance path, and a sensor configured to detect information indicative of defects in the sheet as the sheet passes along the conveyance path. The apparatus can include a consumable forming apparatus configured to receive the sheet of aerosol-generating material and form the sheet into a consumable, and a controller configured to determine the presence of a defect in the sheet based on the information detected by the sensor. A consumable for an aerosol provision system can be manufactured by the apparatus and/or method disclosed herein. Additionally, an apparatus, method and controller for analyzing a sheet of aerosol-generating material for an aerosol provision system consumable and a system for manufacturing a consumable for an aerosol provision system.

A smoking path simulation system includes a case, the robotic arm fixedly provided in the case and a cigarette holder mounted at a working end of the robotic arm, and further includes a feeding device, a cigarette tapping device and a cigarette lighting device provided in the case and located at a periphery of the robotic arm, as well as an image acquisition device mounted at the working end of the robotic arm. With the smoking path simulation system, an action path of smoking a cigarette by a consumer may be simulated, and consistency of the simulated action paths may be guaranteed, thus effectively improving precision of test of indexes of a cigarette-combustion performance, such as cigarette-combustion ash integration characteristics, or the like.

An inspection device for the quality control of rod-shaped smoking articles includes a drum and an inspection assembly. Each transfer drum has a succession of peripheral retaining portions, each having a retaining groove aligned with the axis of rotation of the transfer drum and configured to receive a respective smoking article to be inspected. Each inspection assembly, which is rotatable about the axis of rotation of the transfer drum, is equipped with a succession of detectors. Each detector has a cavity configured to insertably receive an end portion of the respective smoking article to be inspected and is equipped with a sensor adapted to detect an internal structure within the smoking article. The inspection device also comprises a movement device configured to move each peripheral retaining portion and the corresponding detector reciprocatingly towards and away from each other during the rotation of the transfer drum.

An inspection device for the quality control of rod-shaped smoking articles includes a drum and an inspection assembly. Each transfer drum has a succession of peripheral retaining portions, each having a retaining groove aligned with the axis of rotation of the transfer drum and configured to receive a respective smoking article to be inspected. Each inspection assembly, which is rotatable about the axis of rotation of the transfer drum, is equipped with a succession of detectors. Each detector has a cavity configured to insertably receive an end portion of the respective smoking article to be inspected and is equipped with a sensor adapted to detect an internal structure within the smoking article. The inspection device also comprises a movement device configured to move each peripheral retaining portion and the corresponding detector reciprocatingly towards and away from each other during the rotation of the transfer drum.

The techniques disclosed in the present specification relate to devices, systems, and methods using the same that generate cigarette smoke and then separate and collect substances of the cigarette smoke generated into particulate and gaseous substances for the preparation of a whole cigarette smoke condensate, which may comprise: a cigarette mount on which one or more cigarettes are mounted; an automatic ignition device for igniting the one or more cigarettes; a cigarette smoke collection unit for collecting substances of cigarette smoke generated from the ignited one or more cigarettes; one or more cigarette smoke intake lines configured to suck the cigarette smoke; one or more cigarette smoke exhaust lines configured to discharge the cigarette smoke; and one or more collection unit connecting lines connected to the cigarette smoke collection unit.

The technology described herein generally relates to particular form of folded package and the method of forming that folded package. More particularly, using a folding tip and the application of vacuum pressure to a paper cone it is possible to achieve the formation of properly folded packages that may further include a core that is deposited axially along the length of the package.

A sensor apparatus may include a conduit structure including an inner surface defining a conduit extending through an interior of the conduit structure, an inlet structure coupled to an end of the conduit structure, and a plurality of sensor devices in hydrodynamic contact with the conduit. The inlet structure may couple with an outlet end of an external tobacco element to hold the outlet end of the external tobacco element in fluid communication with an inlet opening of the conduit structure, such that the conduit structure may receive a generated aerosol from the external tobacco element at the inlet opening, and draw an instance of aerosol through the conduit towards an outlet opening. The instance of aerosol may include at least a portion of the generated aerosol. Each sensor device may generate sensor data indicating a pressure of the instance of aerosol through a separate portion of the conduit.