Abstract: A method of using a two-piece smoking pipe vaporization chamber with directed heat intake is disclosed comprising applying a material from which vapor is to be extracted over the surface of a lower screen member. The method further comprises forming a vaporization chamber by combining a lower chamber member and an upper chamber member and coupling the vaporization chamber with a delivery vessel. The method also includes adjusting a heat gun to a predetermined temperature and inserting a discharge nozzle of the heat gun into the upper chamber member. The method includes warming the material from which vapor is to be extracted to cause a vapor to be extracted from the material from which vapor is to be extracted and inhaling the vapor from the delivery vessel.

Abstract: A two-piece smoking pipe vaporization chamber with directed heat intake is disclosed. The two-piece smoking pipe vaporization chamber with directed heat intake comprises a lower chamber member having a bowl portion formed therein to hold materials from which vapor is to be extracted. The bowl portion communicates with a vapor intake conduit at a vapor intake orifice thereof disposed below the bowl portion. The vapor intake conduit is adapted to mate with a smoking pipe conduit. A lower screen member is disposed in the bowl portion of the lower chamber member over the vapor intake orifice. An upper chamber member is adapted to mate with the lower chamber portion in a substantially air-tight manner to form a vaporization chamber. The upper chamber member includes a generally-conical-shaped heat intake conduit communicating therewith and is disposed at an off-axis angle and has a heat intake orifice at a distal end thereof. The upper chamber member is adapted to accept output from a heat source.