Cartridges for vaporizer devices are provided. In one exemplary embodiment, the cartridge can include first and second storage chambers each configured to hold a respective fraction of a vaporizable material, a vaporization chamber that includes an elongate member that is in fluid communication with the first and second storage chambers and configured to receive the vaporizable material, a magnetic element disposed within a channel of the elongate member, and a conductive element that is configured to generate a first motive force to drive the magnetic element between first and second positions and further configured to substantially vaporize the vaporizable material within the elongate member. Vaporizer devices are also provided.

An atomizer and an aerosol generating device with the atomizer are provided. The atomizer includes a liquid storage assembly and an atomizing assembly. A liquid storage chamber is provided in the liquid storage assembly. The liquid storage assembly is provided with a smoke outlet. The atomizing assembly is disposed at one end of the liquid storage assembly opposite to the smoke outlet. An atomizing chamber is provided in the atomizing assembly. A liquid inlet and an air inlet passage are provided in the atomizing assembly. The atomizing assembly includes a liquid absorbing member. The liquid absorbing member is arranged between the liquid storage chamber and the atomizing chamber to separate direct communication between the liquid storage chamber and the atomizing chamber. An air outlet end of the air inlet passage is located closer to the smoke outlet compared to the liquid absorbing member.

An atomizer and an aerosol generating device with the atomizer are provided. The atomizer includes a liquid storage assembly and an atomizing assembly. A liquid storage chamber is provided in the liquid storage assembly. The liquid storage assembly is provided with a smoke outlet. The atomizing assembly is disposed at one end of the liquid storage assembly opposite to the smoke outlet. An atomizing chamber is provided in the atomizing assembly. A liquid inlet and an air inlet passage are provided in the atomizing assembly. The atomizing assembly includes a liquid absorbing member. The liquid absorbing member is arranged between the liquid storage chamber and the atomizing chamber to separate direct communication between the liquid storage chamber and the atomizing chamber. An air outlet end of the air inlet passage is located closer to the smoke outlet compared to the liquid absorbing member.

A dual-airway intake structure used for an aerosol generating device includes a base and a sensor. The base is provided with a sensing cavity: the sensing cavity is in communication with an air outlet passage of the aerosol generating device; a mounting portion is provided in the sensing cavity; the mounting portion is provided with a mounting cavity; the sensor is mounted on the mounting portion and seals the mounting cavity: the base is provided with air inlets and a communicating hole; the air inlets are in communication with the sensing cavity and the outside atmosphere; the communicating hole is in communication with the mounting cavity and the outside atmosphere; the mounting portion is provided with a communicating groove; the communicating groove is in communication with the mounting cavity and the sensing cavity.

A dual-airway intake structure used for an aerosol generating device includes a base and a sensor. The base is provided with a sensing cavity: the sensing cavity is in communication with an air outlet passage of the aerosol generating device; a mounting portion is provided in the sensing cavity; the mounting portion is provided with a mounting cavity; the sensor is mounted on the mounting portion and seals the mounting cavity: the base is provided with air inlets and a communicating hole; the air inlets are in communication with the sensing cavity and the outside atmosphere; the communicating hole is in communication with the mounting cavity and the outside atmosphere; the mounting portion is provided with a communicating groove; the communicating groove is in communication with the mounting cavity and the sensing cavity.

A vaporizer includes: a base having a first cavity, and, on a bottom wall of the base, two electrode holes in communication with the first cavity; a vaporization core having a first electrode wire and a second electrode wire and mounted in the first cavity; and a first magnetic electrode and a second magnetic electrode. The first magnetic electrode is assembled in a first electrode hole of the two electrode holes and in contact with the first electrode wire electrically connectable to the first electrode wire. The second magnetic electrode is assembled in a second electrode hole of the two electrode holes and in contact with the second electrode wire electrically connectable to the second electrode wire.

The present disclosure provides a power supply for an aerosol generator and an aerosol generator having the same. The power supply may include a power supplying main body including a mounting chamber, a pneumatic switch, a seal seat, and an adjusting element. The seal seat may be in socket joint with the pneumatic switch and may be accommodated in the mounting chamber, and a peripheral part of the seal seat may be elastically abutted against the wall of the mounting chamber. One end of the mounting chamber may include an inlet hole which communicates the air supplying end of the pneumatic switch with ambient air, and the other end is provided with the vent hole which may communicate the sensing end of the pneumatic switch with ambient air. The adjusting element may be rotatably connected to the power supplying main body.

The present disclosure provides a power supply for an aerosol generator and an aerosol generator having the same. The power supply may include a power supplying main body including a mounting chamber, a pneumatic switch, a seal seat, and an adjusting element. The seal seat may be in socket joint with the pneumatic switch and may be accommodated in the mounting chamber, and a peripheral part of the seal seat may be elastically abutted against the wall of the mounting chamber. One end of the mounting chamber may include an inlet hole which communicates the air supplying end of the pneumatic switch with ambient air, and the other end is provided with the vent hole which may communicate the sensing end of the pneumatic switch with ambient air. The adjusting element may be rotatably connected to the power supplying main body.

An aerosol delivering device includes a case that is configured to accommodate an aerosol generating source and includes a discharge hole that is configured to discharge an aerosol generated by the aerosol generating source; a rotation body that is configured to rotate with respect to the case and includes a plurality of chambers sequentially arranged in a rotation direction, each of the plurality of chambers accommodating a medium and configured to pass the aerosol therethrough; and a position limiter that is configured to maintain a rotational position of the rotation body with respect to the case so that a position of at least one of the plurality of chambers corresponds to a position of the discharge hole.

An aerosol delivering device includes a case that is configured to accommodate an aerosol generating source and includes a discharge hole that is configured to discharge an aerosol generated by the aerosol generating source; a rotation body that is configured to rotate with respect to the case and includes a plurality of chambers sequentially arranged in a rotation direction, each of the plurality of chambers accommodating a medium and configured to pass the aerosol therethrough; and a position limiter that is configured to maintain a rotational position of the rotation body with respect to the case so that a position of at least one of the plurality of chambers corresponds to a position of the discharge hole.