An adjustable vaporizer that receives atomizers having different dimensions is provided. In one embodiment, an adjustable vaporizer is provided that includes an adjustable aperture located at a top portion of the adjustable vaporizer that adjusts to receive atomizers having a range of diameters. The adjustable vaporizer also includes an adjustable atomizer chamber aligned with the adjustable aperture that adjusts to receive atomizers having a range of lengths.

Vaporization devices having portions to enable signal transmission therethrough. A vaporization device includes a body having a first end, a second end, and forming an internal cavity. At least a portion of the internal cavity forming a cartridge receptacle. The vaporization device includes a battery disposed within the internal cavity and a processor operatively coupled to the battery and disposed within the body. The processor is arranged to respond to a signal to switch the vaporization device between a first operational mode and a second operational mode. The vaporization device also includes a portion of the body arranged to permit transmission of the signal through the portion of the body from a location external to the body, thereby permitting the processor to switch the vaporization device between the first and second operational modes in response to the receipt of the signal.

Vaporization devices having portions to enable signal transmission therethrough. A vaporization device includes a body having a first end, a second end, and forming an internal cavity. At least a portion of the internal cavity forming a cartridge receptacle. The vaporization device includes a battery disposed within the internal cavity and a processor operatively coupled to the battery and disposed within the body. The processor is arranged to respond to a signal to switch the vaporization device between a first operational mode and a second operational mode. The vaporization device also includes a portion of the body arranged to permit transmission of the signal through the portion of the body from a location external to the body, thereby permitting the processor to switch the vaporization device between the first and second operational modes in response to the receipt of the signal.

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.

A hookah including a high-frequency heating assembly and a hookah assembly. The high-frequency heating assembly is detachably disposed on the hookah assembly. The hookah assembly includes a heating cup configured to accommodate a tobacco material and a glass tube assembly configured to accommodate water. The lower part of the heating cup is disposed in the opening of a first tube body of the glass tube assembly. The high-frequency heating assembly includes a magnetic induction coil, and the upper part of the heating cup is disposed in the magnetic induction coil. In a power-on state, when an alternating current passes through the magnetic induction coil, a magnetic induction effect is generated, so that the heating cup is heated up and the smoke material is atomized to produce smoke; the smoke enters into the glass tube assembly and is filtered by water and inhaled by a user.

A hookah including a high-frequency heating assembly and a hookah assembly. The high-frequency heating assembly is detachably disposed on the hookah assembly. The hookah assembly includes a heating cup configured to accommodate a tobacco material and a glass tube assembly configured to accommodate water. The lower part of the heating cup is disposed in the opening of a first tube body of the glass tube assembly. The high-frequency heating assembly includes a magnetic induction coil, and the upper part of the heating cup is disposed in the magnetic induction coil. In a power-on state, when an alternating current passes through the magnetic induction coil, a magnetic induction effect is generated, so that the heating cup is heated up and the smoke material is atomized to produce smoke; the smoke enters into the glass tube assembly and is filtered by water and inhaled by a user.

A hookah including a glass tube and a push rod. The bottom end of the push rod is disposed in the glass tube and is movable in the inner wall of the glass tube when being pushed by force. The tobacco material is loaded in the glass tube and between the bottom end of the push rod and the opening of the glass tube; and smoke produced by the atomization of the tobacco material flows in an air passage of the push rod.

A hookah including a glass tube and a push rod. The bottom end of the push rod is disposed in the glass tube and is movable in the inner wall of the glass tube when being pushed by force. The tobacco material is loaded in the glass tube and between the bottom end of the push rod and the opening of the glass tube; and smoke produced by the atomization of the tobacco material flows in an air passage of the push rod.

A flame heated vaporizer, the vaporizer utilizes a flame to controllably heat and liberate volatile chemicals contained within a vaporizable material without generating smoke and associated hazardous by-products. This improved flame heated vaporizer provides mechanical simplicity, quick speed of vaporization and ease of use.