Abstract: An electronic cigarette and a method for manufacturing an atomizing assembly thereof. The electronic cigarette comprises a liquid reservoir used for storing an e-liquid, and an atomizing assembly received in a shell. The atomizing assembly comprises: a liquid-absorbing element connected to the liquid reservoir, wherein the liquid-absorbing element is made of porous ceramic, and has a liquid-absorbing surface for absorbing the e-liquid and an atomizing surface; and a heating element embedded in the liquid-absorbing element, wherein the edge of the heating element is internally tangent to the atomizing surface, and the heating element is used for converting the e-liquid absorbed by the liquid-absorbing element into smoke. The electronic cigarette further comprises a power supply assembly received in the shell, connected to the atomizing assembly, and used for supplying power for the heating element.

Abstract: The present disclosure provides an electronic atomizing device and an atomizer thereof. The atomizer includes a housing. An atomization cavity is defined in the housing. An air inlet passage and an air sensing passage which are in communication with the outside are defined in the housing. The air inlet passage is in communication with the atomization cavity. At least part of the air sensing passage and at least part of the air inlet passage are arranged side-by-side and independently of each other, so that the atomizer can prevent mutual interference of airflows in the air sensing passage and the air inlet passage, prevent contamination to the pneumatic switch caused by contact between the airflow in the air sensing passage and the liquid atomizable medium, thereby avoiding reduced sensitivity and shortened life of the pneumatic switch.

Abstract: An electronic cigarette and a heating assembly and a heating member thereof. The heating assembly comprises a capillary structure for absorbing an e-liquid and at least one heating member for heating and atomizing the e-liquid absorbed by the capillary structure. The heating member comprises an elongated heating portion. The elongated heating portion comprises at least one straight portion and at least one curved portion which are connected sequentially. A resistance at the at least one curved portion is less than a resistance at the at least one straight portion.

Abstract: The invention relates to an electronic cigarette, an atomizer and a heating assembly thereof, wherein the heating assembly is used for the atomizer and includes an adsorption member, and at least one heating element for generating heat when electrified. The adsorption member comprises at least one surface defining at least one fixing groove therein, and the at least one heating element is disposed in the at least one fixing groove. The heating element is disposed in the fixing groove, so that the aerosol-generating substrate on the adsorption member can be more sufficiently coated on the heating element and dispersed to an outer surface of the heating element, preventing dry burning on the surface of the heating element; moreover, the amount of the aerosol-generating substrate heated and atomized by the heating element is increased, and so does the amount of aerosol generated by the heating element.

Abstract: The present disclosure provides an atomization device and an electronic cigarette with the same. The atomization device includes a sleeving tube, a liquid storage cavity, and a liquid injection structure. A liquid injection opening is defined in one end of the sleeving tube, and both of the liquid injection opening and the air discharging opening communicate with the liquid storage cavity. The liquid injection structure includes a liquid injection tube, a first sealing member, and a second sealing member. The liquid injection tube runs through the sleeving tube, and a liquid inlet is formed in a side wall of the liquid injection tube. The first sealing member is arranged on one end of the liquid injection tube corresponding to the liquid storage cavity; and the second sealing member is arranged on an outer side of the liquid injection tube and seals the air discharging opening.

Abstract: The atomizer identifier is configured to identify an atomizer connected to a battery pole. The atomizer includes a first contact structure and an atomizer identification circuit, and the battery pole further includes a second contact structure matching the first contact structure. The atomizer identifier includes: an identifier chip, configured to determine whether to provide an identification voltage; and a peripheral circuit, configured to connect the identifier chip and the second contact structure, for being connected to the atomizer identification circuit via the second contact structure and the first contact structure of the atomizer connected to the battery pole in a first connection manner or the atomizer connected to the battery pole in a second connection manner, so that the atomizer identification circuit is driven according to the identification voltage determined to be provided by the identifier chip to read information of the atomizer identification circuit to the identifier chip.

Abstract: The present disclosure provides an electronic cigarette atomizer, including an atomization assembly and a liquid reservoir engaging with the atomization assembly; the liquid reservoir includes a liquid storage cavity; wherein the atomization assembly includes a lower holder, an upper holder installed on the lower holder, and a heating assembly clamped between the lower and the upper holders; the heating assembly includes a porous body and at least one heater engaging with the porous body, and the porous body has an atomizing surface and a liquid-absorbing surface; and the liquid-absorbing surface communicates with the liquid storage cavity, and an atomization cavity is formed between the atomizing surface and the lower holder. In the present disclosure, the heating assembly is a porous body and is clamped by the upper holder and the lower holder, thus, the structure is stable and the assembly of the heating assembly is facilitated.

Abstract: The present disclosure provides an electronic cigarette atomizer, including an atomization assembly and a liquid reservoir engaging with the atomization assembly; the liquid reservoir includes a liquid storage cavity; wherein the atomization assembly includes a lower holder, an upper holder installed on the lower holder, and a heating assembly clamped between the lower and the upper holders; the heating assembly includes a porous body and at least one heater engaging with the porous body, and the porous body has an atomizing surface and a liquid-absorbing surface; and the liquid-absorbing surface communicates with the liquid storage cavity, and an atomization cavity is formed between the atomizing surface and the lower holder. In the present disclosure, the heating assembly is a porous body and is clamped by the upper holder and the lower holder, thus, the structure is stable and the assembly of the heating assembly is facilitated.

Abstract: The present disclosure relates to an electronic atomization device and an atomizer thereof. The atomizer includes a housing and an inhalation mouthpiece sleeved on an upper portion of the housing. A first air inlet channel communicating with the outside is provided between the inhalation mouthpiece and the housing. The housing is provided with a second air inlet port communicating with the first air inlet channel. The first air inlet channel is provided with a liquid absorption structure, which includes a plurality of first liquid absorption microgrooves provided on the outer sidewall portion of the housing that is located within the first air inlet channel. By providing the plurality of first liquid absorption microgrooves, most of the condensate can be absorbed by capillary tension and thus will not flow to the outside of the housing and the atomizer, thereby improving user experience and aesthetic appearance effect of the atomizer.