Abstract: A novel aromatherapy vaporization device is disclosed having a first and second housing with a heating chamber for receiving of phyto material. The heating chamber has an ambient air input port that receives ambient air that does not flow past hot electrical components when entering the heating chamber. An inhalation tube is coupled with the heating chamber for receiving of phyto material vapor therein in a second mode of operation and in a first mode of operation the inhalation tube is uncoupled from the heating chamber to allow for loading of phyto material therein.

Abstract: A novel device for vaporization of concentrated phyto material extracts is disclosed having a vaporization element for being fluidly coupled with an input port of a waterpipe. The vaporization element having a resistive heater for heating of phyto material extract for vaporization thereof and for inhalation of vapor from an inhalation aperture of the waterpipe. The device for vaporization of concentrated phyto material extracts having an adjustable clamping mechanism and a plurality of batteries for powering of the resistive heater.

Abstract: A novel herbal vaporization device (HVD) and method is disclosed. The HVD includes a recharging unit for storing therein of a vaporization unit having a heating chamber disposed at a first end thereof for receiving of loose leaf herbal material and for providing of heat thereto, the vaporization unit comprising a second end disposed opposite the first end with a fluid pathway between the two ends. In a first mode of operation the vaporization unit is for being recharged from the recharging unit and in a second mode of operation the vaporization unit is for use in vaporizing of loose leaf herbal material inserted into the heating chamber for having at least partially vaporized loose leaf herbal material and ambient air to flow through the fluid pathway.