Embodiments disclosed herein relate to a smoking pipe with a dual purpose heat-sink airflow path insert for cooling smoke and reducing particulate content of inhalable smoke. Improvements in smoke cooling and reduction of particulate content, over known traditional chillums, derive in part from the configuration of a threadably removable airflow path insert inside the tubular sleeve body of the pipe, to increase the airflow path of smoke over other chillums of the same overall length, to serve as a heatsink, to present a circuitous path for the smoke to follow in order to trap particulates, and to increase the surface area inside the pipe that is available for particulates and post-combustion products to adhere to inside the pipe.

Embodiments disclosed herein relate to a smoking pipe with a dual purpose heat-sink airflow path insert for cooling smoke and reducing particulate content of inhalable smoke. Improvements in smoke cooling and reduction of particulate content, over known traditional chillums, derive in part from the configuration of a threadably removable airflow path insert inside the tubular sleeve body of the pipe, to increase the airflow path of smoke over other chillums of the same overall length, to serve as a heatsink, to present a circuitous path for the smoke to follow in order to trap particulates, and to increase the surface area inside the pipe that is available for particulates and post-combustion products to adhere to inside the pipe.

A smoking device has a cylindrical combustion chamber with an axis, a longitudinal channel along the length, a mouthpiece engaging a first end of the combustion chamber, an end cap on a second end of the combustion chamber, and an outer shell with a second longitudinal channel, and one or more openings through the outer shell that may be aligned with the longitudinal channel in the combustion chamber such that smokable material in the combustion chamber may be ignited and smoke drawn from the device through the mouthpiece.

A smoking device has a cylindrical combustion chamber with an axis, a longitudinal channel along the length, a mouthpiece engaging a first end of the combustion chamber, an end cap on a second end of the combustion chamber, and an outer shell with a second longitudinal channel, and one or more openings through the outer shell that may be aligned with the longitudinal channel in the combustion chamber such that smokable material in the combustion chamber may be ignited and smoke drawn from the device through the mouthpiece.

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.

A device including a water chamber for filtering smoke or vapor prior to inhalation of the smoke or vapor. The device including a vaporization chamber that contains a substance to be heated or burned. The device including an air flow chamber, herein the air flow chamber connects the vaporization chamber, wherein the air flow chamber is configured to provide a tunnel between an upper edge and a lower edge of the air flow chamber, for passage of air/vapor from an air/vapor entry port to a filtered air exit port for air/vapor at the water chamber, in a snake like manner; wherein the air/vapor entry port is located at a point where the vaporization chamber is joined to the water chamber. The air flow chamber is configured to prevent leakage of water from the water chamber to the vaporization chamber

A device including a water chamber for filtering smoke or vapor prior to inhalation of the smoke or vapor. The device including a vaporization chamber that contains a substance to be heated or burned. The device including an air flow chamber, herein the air flow chamber connects the vaporization chamber, wherein the air flow chamber is configured to provide a tunnel between an upper edge and a lower edge of the air flow chamber, for passage of air/vapor from an air/vapor entry port to a filtered air exit port for air/vapor at the water chamber, in a snake like manner; wherein the air/vapor entry port is located at a point where the vaporization chamber is joined to the water chamber. The air flow chamber is configured to prevent leakage of water from the water chamber to the vaporization chamber