The present invention comprises a novel smoking and vaporizing apparatus assembly generally consisting of a storage container (14), a mouthpiece (13) and smoking pipe (12) that slides into the mouthpiece in such way that there is no air can enter the space between the mouthpiece and smoking pipe. Specifically configured frictional resistances of the apparatus allow for seamless collapsing and retraction of the smoking pipe in and out of the mouthpiece, securing the apparatus inside of the storage container without touching the hot smoking pipe, and retracting the apparatus from the lid of the container without retracting the smoking pipe from the mouthpiece. Other embodiments are described and shown.

The present invention comprises a novel smoking and vaporizing apparatus assembly generally consisting of a storage container (14), a mouthpiece (13) and smoking pipe (12) that slides into the mouthpiece in such way that there is no air can enter the space between the mouthpiece and smoking pipe. Specifically configured frictional resistances of the apparatus allow for seamless collapsing and retraction of the smoking pipe in and out of the mouthpiece, securing the apparatus inside of the storage container without touching the hot smoking pipe, and retracting the apparatus from the lid of the container without retracting the smoking pipe from the mouthpiece. Other embodiments are described and shown.

A pipe that captures smoke or vape emissions in a containment vessel or bag with a controllable valve. A material chamber is used to carry loose combustible smoking material or vapor producing materials (vape). A two way valve on the containment vessel allows the user total control of the dispersion of smoke or vape and allows the bag to be separated without leaks. A one way valve in line with the material chamber prevents ash or embers of smoking material from exiting through the material chamber when the user exhales.

A pipe that captures smoke or vape emissions in a containment vessel or bag with a controllable valve. A material chamber is used to carry loose combustible smoking material or vapor producing materials (vape). A two way valve on the containment vessel allows the user total control of the dispersion of smoke or vape and allows the bag to be separated without leaks. A one way valve in line with the material chamber prevents ash or embers of smoking material from exiting through the material chamber when the user exhales.

A smoking system has a combustion chamber in which tobacco, herbal substances, and the like are combusted. Product smoke is received within a conduit member and flows upward within the conduit member. An element member is axially disposed within the conduit member, where the element member is configured to rotate within the conduit member. As the smoke flows upward, it encounters a water mist which is flowing downward through the conduit member, thereby cleaning, cooling and filtering the upwardly traveling smoke. Cleaned smoke flows to the top of the conduit member where it is delivered to the user through a delivery tube connected at the upward end of the conduit member, such that the smoke reaching the consumer is cooled and cleansed.

A smoking system has a combustion chamber in which tobacco, herbal substances, and the like are combusted. Product smoke is received within a conduit member and flows upward within the conduit member. An element member is axially disposed within the conduit member, where the element member is configured to rotate within the conduit member. As the smoke flows upward, it encounters a water mist which is flowing downward through the conduit member, thereby cleaning, cooling and filtering the upwardly traveling smoke. Cleaned smoke flows to the top of the conduit member where it is delivered to the user through a delivery tube connected at the upward end of the conduit member, such that the smoke reaching the consumer is cooled and cleansed.

Modular smoking devices that generate vapors of 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 Tesla coil lighter that is designed to arc an electric discharge through the material in the self-contained combustion chamber.

Modular smoking devices that generate vapors of 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 Tesla coil lighter that is designed to arc an electric discharge through the material in the self-contained combustion chamber.

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.