A heating rock for use with smoking or vaping paraphernalia such as a smoking pipe. The heating rock includes a porous body having a hollow interior including first and second interior regions for holding smokable or vaping material, and a closed bottom. The porous body includes a plurality of pores, or vesicles having different shapes and dimensions that are randomly formed to absorb heat generated by an external heating source. The porous body effectively absorbs heat, and gradually and evenly distributes heat in a controlled manner to the smokable or vaping material to produce a gaseous vapor for human consumption. The heating rock is compatible for use with heat sensitive concentrates that can be heated slowly without burning or combusting quickly. In one embodiment, the heating rock includes a plurality of channels that each are formed within the porous body to allow air to circulate more effectively during use.

An aerosol generating device includes: a liquid storage configured to store a liquid material; an aerosol generating space configured to accommodate a solid material including a tobacco material and a foamable material such that an aerosol is generated as the solid material comes in contact with the liquid material in the aerosol generating space; a liquid transfer tube connected to the liquid storage and the aerosol generating space such that the liquid material moves from the liquid storage to the aerosol generating space; and a mouthpiece configured to discharge the aerosol generated in the aerosol generating space, according to a user's inhalation.

An aerosol generating device includes: a liquid storage configured to store a liquid material; an aerosol generating space configured to accommodate a solid material including a tobacco material and a foamable material such that an aerosol is generated as the solid material comes in contact with the liquid material in the aerosol generating space; a liquid transfer tube connected to the liquid storage and the aerosol generating space such that the liquid material moves from the liquid storage to the aerosol generating space; and a mouthpiece configured to discharge the aerosol generated in the aerosol generating space, according to a user's inhalation.

An exothermal vaporizer is provided. The exothermal vaporizer has a body including an air and vapor mix port, a fluid inlet port in communication with a reservoir, an air inlet, and a wicking material. A mouthpiece is coupled to the body and a temperature indicating cap is removable from the body. A counter flow design exothermal vaporizer, a modular exothermal vaporizer, and a vaporizer which is adjustable to modulate and/or regulate the flow ratio of dilution air and produced vapor are also disclosed.

An exothermal vaporizer is provided. The exothermal vaporizer has a body including an air and vapor mix port, a fluid inlet port in communication with a reservoir, an air inlet, and a wicking material. A mouthpiece is coupled to the body and a temperature indicating cap is removable from the body. A counter flow design exothermal vaporizer, a modular exothermal vaporizer, and a vaporizer which is adjustable to modulate and/or regulate the flow ratio of dilution air and produced vapor are also disclosed.

The present invention improves and enhances the delivery of one of an aerosolized or micellized formula by use of an aerosol pressurized inhalation delivery device. The device may include one or more replaceable or reusable components, including but not limited to a canister and a battery. Methods for using the device to deliver a controlled dosage via the delivery device are also described herein.

The present invention improves and enhances the delivery of one of an aerosolized or micellized formula by use of an aerosol pressurized inhalation delivery device. The device may include one or more replaceable or reusable components, including but not limited to a canister and a battery. Methods for using the device to deliver a controlled dosage via the delivery device are also described herein.

Devices, systems and methods are provided for delivering coffee-derived volatiles to a user, particularly for the treatment of addiction. The coffee volatiles are selected and delivered by devices and systems which allow for concentrated delivery to the olfactory system of the user in a controlled manner. The olfactory system is the part of the sensory system used for smelling or olfaction. Olfaction of such coffee volatiles in this prescribed fashion stimulates the reward system of the brain such that a specific desired outcome is achieved. In some embodiments, the desired outcome is a reduction in addiction symptoms or curbing of a sensation of addiction withdrawal.

Devices, systems and methods are provided for delivering coffee-derived volatiles to a user, particularly for the treatment of addiction. The coffee volatiles are selected and delivered by devices and systems which allow for concentrated delivery to the olfactory system of the user in a controlled manner. The olfactory system is the part of the sensory system used for smelling or olfaction. Olfaction of such coffee volatiles in this prescribed fashion stimulates the reward system of the brain such that a specific desired outcome is achieved. In some embodiments, the desired outcome is a reduction in addiction symptoms or curbing of a sensation of addiction withdrawal.

An inhaler article includes a body extending along a longitudinal axis from a mouthpiece end to a distal end with an endpiece element at the distal end. A capsule cavity is defined within the body and extends along the longitudinal axis. A mouthpiece air channel extends from the capsule cavity to the mouthpiece end. A vortex tunnel is between the endpiece element and the capsule cavity. The vortex tunnel has an air inlet and an air passageway extending from the air inlet to the capsule cavity. The endpiece element is configured to restrict or prevent airflow through the distal end to the capsule cavity and the air inlet and air passageway of the vortex tunnel are configured to enable air to be drawn into the capsule cavity and form a vortex of inhalation air through the capsule cavity.