The present application relates to apparatus for generating steam. It comprises a water inlet, a evaporation surface, and a heater disposed adjacent to the evaporation surface to heat the evaporation surface to a predetermined temperature such that water fed onto the evaporation surface via the water inlet forms a film on the evaporation surface and is evaporated. The apparatus is configured so that water is fed to one or more regions of the evaporation surface, and the temperature of the water fed onto the evaporation surface is lower than the predetermined temperature, so that scale on the or each region of the evaporation surface to which water is fed cools at a different rate at which water on a remainder of the evaporation surface cools. This causes scale on the evaporation surface to break apart and be dislodged from the evaporation surface.

The present application relates to apparatus for generating steam. It comprises a water inlet, a evaporation surface, and a heater disposed adjacent to the evaporation surface to heat the evaporation surface to a predetermined temperature such that water fed onto the evaporation surface via the water inlet forms a film on the evaporation surface and is evaporated. The apparatus is configured so that water is fed to one or more regions of the evaporation surface, and the temperature of the water fed onto the evaporation surface is lower than the predetermined temperature, so that scale on the or each region of the evaporation surface to which water is fed cools at a different rate at which water on a remainder of the evaporation surface cools. This causes scale on the evaporation surface to break apart and be dislodged from the evaporation surface.

The present invention provides an electronic cigarette and an atomizer assembly thereof. The atomizer assembly includes an air flowing pipe, a wick extending laterally through a sidewall of the air flowing pipe, and a heating member disposed within the air flowing pipe and engaging with the wick. The air flowing pipe defines opposite holes. The wick extends through the holes with opposite ends extending out of the air flowing pipe. The sidewall of the air flowing pipe further defines a cut communicating with the holes, to enable the wick being placed laterally into the holes. By virtue of the cut, two parts of the air flowing pipe divided by the cut are split off to form an open communicating with the closed holes, and the wick can be placed laterally into the holes via the open. Thus, the wick is easily installed without aligning and extending through the holes.

The present invention relates to vaporizer heating assemblies for electronic cigarettes. In certain embodiments, vaporizer heating assemblies include: heating assembly and electric conductor assembly. Heating assembly includes: heating assembly covers, round heating element mounting base, heating elements, and e-liquid media. Heating elements have heating wires formed in a large surface to ensure sufficient vaporization of e-liquid. Heating assembly covers define certain e-liquid conduit openings to allow the e-liquid to flow from outside of the heating assembly covers into the e-liquid media. The heating elements are in direct contact with the e-liquid media to generate large amount of vapor for its user. Electric conductor assembly includes: an electric connector base for a first terminal of heating elements, an electrode for a second terminal of heating elements, and an insulation cover to insulate the electric connector base and the electrode. Electric conductor assembly is positioned in a lower portion of heating assembly.

The invention relates to a vaporization assembly and an electronic cigarette; the vaporization assembly comprises an e-liquid cup assembly and a vaporization core arranged in the e-liquid cup assembly; the e-liquid cup assembly has an e-liquid storage chamber used for accommodating e-liquid; the vaporization core comprises a vaporization base and an electric heating wire assembly; the vaporization base is internally provided with a smoke passageway used for providing passage to the smoke produced by vaporization; the electric heating wire assembly is arranged on the smoke passageway; the electric heating wire assembly comprises an electric heating wire used for heating and vaporizing the e-liquid; the vaporization core comprises an insulating tube used for isolating the vaporization base from the electric heating wire; the insulating tube is interposed in the vaporization base, and supports the electric heating wire along the length of the vaporization base.

An atomization assembly and an electronic cigarette, the atomization assembly comprising an atomization core and an e-liquid cup assembly, the e-liquid cup assembly comprises an e-liquid storage sleeve and a vent pipe, and an e-liquid storage cavity is formed between them; the atomization core comprises an atomization sleeve and a heating wire assembly, a first e-liquid guide hole allowing e-liquid to flow is formed on a side wall of the atomization sleeve; the atomization core further comprises an e-liquid inlet control structure sleeved in the atomization sleeve rotatably or movably in an axial direction of the atomization sleeve, openings for mounting the heating wire assembly are arranged on the e-liquid inlet control structure, when the e-liquid inlet control structure is rotated or axially moved, the opening and the first e-liquid guide through-hole are communicated or completely staggered, so as to open or close the first e-liquid guide through-hole.

A method and kit for custom fitting an article of footwear is disclosed. A container holding the article of footwear includes a steaming apparatus that allows a customer to subject the article of footwear to steam. The article of footwear is placed within the steaming apparatus to subject the article of footwear to steam. The method can include cooling the article of footwear on the customer's foot to custom fit the article of footwear.

A steam generator system for a cooking appliance includes an in-line heating element coupled to a heating tube, wherein water from a water reservoir is gravitationally fed into the heating tube for heating by the in-line heating element to produce a hot water and steam mixture. A first supply line is coupled to the heating tube to carry the mixture to a separator without the need for moving or complex pump parts. The separator separates steam and hot water from the mixture of the two. A second supply line is coupled to the separator at a first end and opens into the cooking cavity of the cooking appliance at a second end. The second supply line is configured to supply steam separated at the separator to the cooking cavity via a steam outlet disposed in the cooking cavity.

A loading tube has Japanese cotton placed within a polymer tube. The tube has a hollow, cylindrical form with a tip and an opposite tail. The Japanese cotton advances through the tube exiting at the tip and withdrawing from the tail. The tube has a sidewall with a thickness and an inner diameter suitable for containing Japanese cotton and then advancing it into an atomizer. The outer diameter of the tube cooperates with an aperture in the coil of the atomizer. The tip and the tail have a rim with a square cut. The tube has its size that relates its length to its inner diameter, and to its thickness within a range. The tube utilizes polypropylene for its construction. Alternative fibrous material may be substituted for Japanese cotton.

A loading tube has Japanese cotton placed within a polymer tube. The tube has a hollow, cylindrical form with a tip and an opposite tail. The Japanese cotton advances through the tube exiting at the tip and withdrawing from the tail. The tube has a sidewall with a thickness and an inner diameter suitable for containing Japanese cotton and then advancing it into an atomizer. The outer diameter of the tube cooperates with an aperture in the coil of the atomizer. The tip and the tail have a rim with a square cut. The tube has its size that relates its length to its inner diameter, and to its thickness within a range. The tube utilizes polypropylene for its construction. Alternative fibrous material may be substituted for Japanese cotton.