A shisha device includes a vessel, an aerosol-generating element in fluid communication with the vessel, and a chamber between the vessel and the aerosol-generating element. The chamber is in fluid communication with the vessel and the aerosol-generating element. The chamber comprises an inlet configured to accelerate air containing aerosol that flows through the inlet from the aerosol-generating element.

A system for smoking a product includes a vase for containing a liquid. The vase has a closed bottom, and a side wall extending from the closed bottom and an open top that is unobstructed. The system further includes a bottle for inserting into and removing from the vase. The bottle has an open bottom, an open top, a flange circumscribing the bottle adjacent the open top, and a conical opening in the open top that is unobstructed. In addition, the system includes a grommet mounted to the open bottom of the bottle such that the open bottom is substantially unobstructed. Lastly, the system includes a bowl with a conical exterior that is complementary in shape to the conical opening in the bottle. The bowl can form a conical, glass-to-glass seal with the bottle.

A system for smoking a product includes a vase for containing a liquid. The vase has a closed bottom, and a side wall extending from the closed bottom and an open top that is unobstructed. The system further includes a bottle for inserting into and removing from the vase. The bottle has an open bottom, an open top, a flange circumscribing the bottle adjacent the open top, and a conical opening in the open top that is unobstructed. In addition, the system includes a grommet mounted to the open bottom of the bottle such that the open bottom is substantially unobstructed. Lastly, the system includes a bowl with a conical exterior that is complementary in shape to the conical opening in the bottle. The bowl can form a conical, glass-to-glass seal with the bottle.

The present disclosure relates to devices for inhaling gases, such as smoke or vapor, produced from a combustible material, as well to methods for producing these devices and methods for inhaling such gases. Devices according to the present disclosure utilize one or more electrical arcs for the combustion of the desired combustible material as opposed to prior art methods that utilize, e.g., fire. The electrical arcs produced by devices according to the present disclosure cause an electrical field to form that ionizes the gas to be inhaled by the user, and cause a larger proportion of negatively ionized particles to be ingested by the user. Methods for forming such devices, including methods for assembly that allow for access to electronic circuitry for forming the electrical arcs for, e.g., recharging purposes, are also described, as are methods for inhalation of the gas produced by the combustible material.

The present disclosure relates to devices for inhaling gases, such as smoke or vapor, produced from a combustible material, as well to methods for producing these devices and methods for inhaling such gases. Devices according to the present disclosure utilize one or more electrical arcs for the combustion of the desired combustible material as opposed to prior art methods that utilize, e.g., fire. The electrical arcs produced by devices according to the present disclosure cause an electrical field to form that ionizes the gas to be inhaled by the user, and cause a larger proportion of negatively ionized particles to be ingested by the user. Methods for forming such devices, including methods for assembly that allow for access to electronic circuitry for forming the electrical arcs for, e.g., recharging purposes, are also described, as are methods for inhalation of the gas produced by the combustible material.

The present disclosure relates to devices for the inhalation of gases, such as smoke or vapor, produced from a combustible material; as well to methods for producing these devices and methods for inhalation of such gases. Devices according to the present disclosure utilize one or more electrical arcs for the combustion of the desired combustible material as opposed to prior art methods that utilize, e.g., fire. The electrical arc or arcs produced by devices according to the present disclosure cause an electrical field to form that ionizes the gas to be inhaled by the user, and cause a larger proportion of negatively ionized particles to be ingested by the user. Methods for forming such devices, including methods for assembly that allow for access to electronic circuitry for forming the electrical arcs for, e.g., recharging purposes, are also described, as are methods for inhalation of the gas produced by the combustible material.

The present disclosure relates to devices for the inhalation of gases, such as smoke or vapor, produced from a combustible material; as well to methods for producing these devices and methods for inhalation of such gases. Devices according to the present disclosure utilize one or more electrical arcs for the combustion of the desired combustible material as opposed to prior art methods that utilize, e.g., fire. The electrical arc or arcs produced by devices according to the present disclosure cause an electrical field to form that ionizes the gas to be inhaled by the user, and cause a larger proportion of negatively ionized particles to be ingested by the user. Methods for forming such devices, including methods for assembly that allow for access to electronic circuitry for forming the electrical arcs for, e.g., recharging purposes, are also described, as are methods for inhalation of the gas produced by the combustible material.

Modular smoking devices that vaporize certain materials, such as tobacco or cannabis are disclosed. The technology provides for intelligent ignition, combustion, or vaporization of given material at the appropriate temperatures that prevent generation of harmful and unwanted byproducts. According to one embodiment, the modular smoking device comprises a self-contained combustion chamber to hold the material, a combustion mechanism integrated with the self-contained combustion chamber, and an energy source, such as a rechargeable battery, to power the combustion mechanism. The combustion mechanism is configured to provide targeted combustion of the material, where the active ingredients generated upon the combustion are consumed by inhaling a smoke or vapor resulting from the combustion or vaporization. The self-contained combustion chamber includes a lighterless combustion mechanism such as a piezoelectric lighter or a lighter sold under TESLA COIL LIGHTERS® that is designed to arc an electric discharge through the material in the self-contained combustion chamber.

Modular smoking devices that vaporize certain materials, such as tobacco or cannabis are disclosed. The technology provides for intelligent ignition, combustion, or vaporization of given material at the appropriate temperatures that prevent generation of harmful and unwanted byproducts. According to one embodiment, the modular smoking device comprises a self-contained combustion chamber to hold the material, a combustion mechanism integrated with the self-contained combustion chamber, and an energy source, such as a rechargeable battery, to power the combustion mechanism. The combustion mechanism is configured to provide targeted combustion of the material, where the active ingredients generated upon the combustion are consumed by inhaling a smoke or vapor resulting from the combustion or vaporization. The self-contained combustion chamber includes a lighterless combustion mechanism such as a piezoelectric lighter or a lighter sold under TESLA COIL LIGHTERS® that is designed to arc an electric discharge through the material in the self-contained combustion chamber.

Described herein are devices, systems, and methods for use during smoking. The systems may include a plurality of pipes or chambers for holding fluid and smoke and a plurality of smoke conduits connecting the chambers to form a continuous flow path for smoke. These techniques may be particularly useful, for example, for cooling and cleaning smoke prior to a user inhaling the smoke and may make a smoking safer and a more pleasurable experience for the user.