The method includes configuring a power supply to send an electrical current to a heater in an e-vaping device, the power supply and the heater being in an electrical circuit. The method further includes inserting a removable insulator between electrical elements to disrupt the electrical circuit, the electrical elements being both electrically conductive and electrically passive elements that are in the electrical circuit.

An atomizer in an electronic cigarette is disclosed including an aerosol outlet tube; an air inlet tube; a heating element; an atomizing shell and a heating base; the air inlet tube is sleeved on the aerosol outlet tube and a first air inlet passage is formed between the air inlet tube and the aerosol outlet tube; a first aerosol outlet passage is formed inside the aerosol outlet tube; the heating element is disposed in the heating base; the atomizing shell is sleeved on the heating base; a second air inlet passage and a second aerosol outlet passage are spaced and arranged between the atomizing shell and the heating base, along a circumferential direction of the heating base; the first air inlet passage and the second air inlet passage are communicated to allow exterior air to pass through then to flow into the heating base.

The present disclosure provides a conductive contact structure for a power supply assembly. The power supply assembly includes a cover body, and a main body inbuilt with a master control board. The cover body and the main body define an installation space therebetween. The conductive contact structure includes a negative electrode assembly, a sealing element, an insulating assembly and a positive electrode assembly that are disposed in sequence in the installation space. The negative electrode assembly is configured for passing through the cover body to abut against the sealing element and defines a through hole. The insulating assembly has one end configured for covering the positive electrode assembly on the main body and has the other end abutting against the sealing element. The positive electrode assembly is configured for partially passing through the insulating assembly and the sealing element in sequence to be accommodated in the through hole.

This non-combustion type flavor inhaler is provided with an atomization unit having an aerosol source and a resistive heating element for atomizing the aerosol source with resistive heat, and a control unit which controls the amount of power supplied to the resistive heating element, wherein the amount of power supplied to the resistive heating element during the action of a single puff is represented by E, characteristic parameters of the atomization unit are represented by a and b, the amount of the aerosol source consumed with one puff action is represented by L, and the control unit calculates L with the formula L=aE+b, or, controls E in accordance with the formula E=(Lb)/a.

A cartridge for an electronic vapour inhaler is provided and includes an elongate induction heatable element and a flavour-release medium adhered to a surface of the elongate induction heatable element. The induction heatable element can include a tube having a wall with inner and outer wall surfaces and the flavour-release medium can be adhered to the outer or inner wall surface.

The present invention relates to the technical field of e-cigarettes, and provides an atomizer and an e-cigarette that is obtained by connecting the atomizer to an electronic battery rod. The atomizer includes an electrode component and a heating component. An air passage for discharging an aerosol and a holding base for holding the heating component are disposed inside the liquid storage apparatus. An accommodating part is disposed in the holding base, and the heating component is fixedly accommodated inside the accommodating part. According to the present invention, the accommodating part is disposed in the holding base, and the heating component is disposed inside the accommodating part, so that the heating component does not fall off or leak e-liquid due to vibration, high temperature, and inclination.

A container for an aerosol generating device is disclosed. The container has a body has a body comprising a first portion configured to receive an aerosol generating device and one or more retention means externally accessible from the body, each retention means being configured to releasably retain a module.

An electronic smoking device (10) is provided that comprises a power supply/atomizer portion (12), a replaceable liquid reservoir portion (14), a liquid reservoir portion detection element (50) that is moveable between a first position and a second position, and an activation element (54) that is adapted to be operated by the liquid reservoir portion detection element when the latter is moved from the first position to the second position. The liquid reservoir portion comprises a cavity (46) and an engaging element (48) that partially blocks an opening of the cavity. The engaging element is adapted to engage with the liquid reservoir portion detection element during a process of coupling the portions (12, 14) so that the liquid reservoir portion detection element is moved toward the second position, thereby operating the activation element.

An aerosol delivery device is provided that includes a heating element configured to convert electricity to heat and thereby vaporize components of an aerosol precursor composition, and a control component coupled to and configured to controllably power the heating element. The control component includes a buck regulator circuit coupled to the heating element, and an operational amplifier circuit coupled to the heating element and buck regulator circuit. The buck regulator circuit is configured to step down voltage and step up current from a power source to the heating element to thereby power the heating element. The operational amplifier circuit is configured to amplify an output voltage from the heating element to produce a higher voltage that is fed back to the buck regulator circuit, which is configured to use the higher voltage to regulate an output voltage from the buck regulator circuit to the heating element.

A method includes generating an aerosol by heating, without combusting, an aerosol generating substrate (300) in a shisha device (100). The method further includes introducing at least one aerosol condensation particle to an airflow path (103) of the shisha device. The airflow path (103) carries the aerosol generated by the aerosol generating substrate to an outlet (104) of the shisha device for delivery to a user.