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CN-224219457-U - Power supply assembly, atomizing device and atomizing equipment

CN224219457UCN 224219457 UCN224219457 UCN 224219457UCN-224219457-U

Abstract

The application relates to the technical field of aerosol generation, in particular to a power supply assembly, an atomization device and atomization equipment, wherein the power supply assembly comprises a battery cell support, a battery cell, a circuit board and a power receiving electrode, the battery cell is arranged in the battery cell support and is used for supplying power to an atomization mechanism, and the circuit board is arranged in the battery cell support; the circuit board is electrically connected with the battery core and is at least configured to control the battery core to supply power to the atomizing mechanism, the circuit board is provided with a conductive connecting piece, an insertion hole is formed in the conductive connecting piece, the power receiving electrode comprises a connecting end and a power receiving end, the connecting end is used for being inserted into the insertion hole and is electrically connected with the power receiving end, and the power receiving end penetrates through the battery core support to be in contact with and electrically connected with a charging electrode of the charging assembly, so that the charging assembly supplements electric energy for the power supply assembly. The setting of power receiving electrode is convenient for be connected with the subassembly that charges, promotes atomizing device's duration. The conductive connection of the circuit board and the power receiving electrode is realized through the arrangement of the conductive connecting piece, so that the assembly efficiency of the atomization device is improved, and the production cost is reduced.

Inventors

  • LI JINGHAN

Assignees

  • 深圳市基克纳科技有限公司

Dates

Publication Date
20260512
Application Date
20250324

Claims (11)

  1. 1. A power assembly, comprising: A cell holder; The battery cell is arranged in the battery cell bracket and is used for supplying power; The circuit board is arranged in the battery core bracket, is electrically connected with the battery core and is at least configured to control the battery core to supply power to the atomizing mechanism, is provided with a conductive connecting piece, and is internally provided with an inserting hole, and The power receiving electrode comprises a connecting end and a power receiving end, the connecting end is used for being inserted into the insertion hole and connected in a conductive mode, and the power receiving end penetrates through the battery cell support to be in contact with and connected with a charging electrode of the charging assembly in a conductive mode, so that the charging assembly supplements electric energy for the power supply assembly.
  2. 2. The power supply assembly of claim 1, wherein the insertion hole has a cavity wall that is elastically deformable, and the connection terminal is inserted into the insertion hole to elastically contact to achieve electrical conduction.
  3. 3. The power assembly of claim 2, wherein the conductive connection comprises at least two resilient arms, at least two of the resilient arms being distributed about an axis of the conductive connection.
  4. 4. The power supply assembly as set forth in claim 2 or 3, wherein the conductive connector comprises a cylindrical body having the insertion hole formed therein, and the cylindrical body is provided with a notch penetrating in an axial direction of the cylindrical body.
  5. 5. A power supply assembly according to claim 2 or 3, wherein the circuit board is provided with a first mounting hole, the conductive connecting member comprises a cylindrical main body and a flange, the flange is fixed on one side of the circuit board close to the charging electrode, and the cylindrical main body passes through the first mounting hole from one side of the circuit board to the other side.
  6. 6. The power assembly of claim 1, wherein the circuit board comprises a first portion for electrically connecting with the atomizing mechanism and configured to control the electrical core to supply power to the atomizing mechanism, and a second portion having the conductive connector thereon configured to control the electrical core to receive electrical power from the charging assembly.
  7. 7. The power supply assembly according to claim 1, wherein the battery cell support is provided with a second mounting hole, the power receiving end penetrates out of the battery cell support through the second mounting hole, the battery cell support comprises a support body and a base, a mounting opening is formed in the side wall of one end, far away from the atomizing mechanism, of the support body, at least part of the base is arranged at the mounting opening and seals the support body, the second mounting hole is formed in the base, and a first magnetic element is arranged on the base and is used for being in magnetic connection with a second magnetic element of the charging assembly.
  8. 8. An atomizing device, comprising: A first housing; An atomizing mechanism disposed within the first housing for heating the atomized substrate to generate an aerosol, and The power supply assembly of any one of claims 1-7, the power supply assembly disposed within the first housing for supplying power to the atomizing mechanism, and a powered end of the power supply assembly disposed at least partially exposed to the first housing.
  9. 9. The atomizing device of claim 8, wherein the first housing has a through opening, at least a portion of the cell holder is disposed in the through opening such that the portion of the cell holder is exposed to the first housing, and the first housing and the portion of the cell holder exposed to the first housing have first magnetic elements for magnetically engaging with the second magnetic elements of the charging assembly.
  10. 10. An atomizing apparatus, comprising: An atomizing mechanism for heating the atomized substrate to generate an aerosol; The power supply assembly is used for supplying power to the atomizing mechanism and comprises a battery cell, a circuit board and a power receiving electrode, wherein the circuit board is electrically connected with the battery cell, the circuit board is at least configured to control the battery cell to supply power to the atomizing mechanism, a conductive connecting piece is arranged on the circuit board, the power receiving electrode comprises a connecting end and a power receiving end, the connecting end is used for being elastically contacted with the conductive connecting piece and electrically connected with the conductive connecting piece, and the power receiving electrode is connected with the power receiving electrode in a conductive mode And the charging assembly comprises a charging electrode, and the charging electrode is in contact with the power receiving end and is in conductive connection, so that the charging assembly supplements electric energy for the power supply assembly.
  11. 11. The atomizing apparatus of claim 10, wherein the atomizing apparatus comprises a first housing and a second housing, wherein the atomizing mechanism and the power supply assembly are disposed within the first housing, wherein the charging assembly is disposed within the second housing, and wherein the first housing and the second housing are magnetically and/or adhesively connected.

Description

Power supply assembly, atomizing device and atomizing equipment Technical Field The application relates to the technical field of aerosol generation, in particular to a power supply assembly, an atomizing device and atomizing equipment. Background Current atomizing devices generally include an atomizing mechanism and a power supply assembly, with the heat generating body of the atomizing mechanism being powered by the power supply assembly to cause the atomizing mechanism to heat the atomizing substrate to produce aerosol for inhalation by a user. Currently, the atomization device has a very limited internal space, which greatly limits the capacity of the battery used by the power supply mechanism. In most cases, the battery capacity is relatively small, which directly results in a shorter duration of the atomizing device, and it is difficult to meet the long-term continuous use requirement of the user. In the prior art, in order to effectively solve the problem of cruising, a charging box is often arranged. Specifically, a connection terminal and a circuit board are provided inside the power supply assembly of the atomizing device. The connecting end can be connected with the charging electrode of the charging box in a contact manner to realize a conductive function, so that electric energy is supplemented for the power supply assembly. The circuit board bears a key control task, on one hand, controls the power supply of the atomizing mechanism to ensure the normal work of the atomizing mechanism, and on the other hand, controls the charging process when being connected with the charging box. However, there are obvious disadvantages to the manner in which the connection terminals in the power supply assembly are secured to the circuit board. At present, the connecting end is fixed on the circuit board by adopting a patch or insertion welding mode. The patch or insertion welding mode has high requirements on the operation environment and certain operation space requirements. In addition, the operation flow of the two fixing modes is complex, and the integral assembly efficiency of the atomization device is greatly influenced. Disclosure of utility model The application provides a power supply assembly, an atomizing device and atomizing equipment, which can effectively ensure stable connection of a connecting end and a circuit board, and are convenient to operate and low in requirements on an operation environment. The application provides a power supply assembly, comprising: A cell holder; The battery cell is arranged in the battery cell bracket and is used for supplying power; The circuit board is arranged in the battery core bracket, is electrically connected with the battery core and is at least configured to control the battery core to supply power to the atomizing mechanism, is provided with a conductive connecting piece, and is internally provided with an inserting hole, and The power receiving electrode comprises a connecting end and a power receiving end, the connecting end is used for being inserted into the insertion hole and connected in a conductive mode, and the power receiving end penetrates through the battery cell support to be in contact with and connected with a charging electrode of the charging assembly in a conductive mode, so that the charging assembly supplements electric energy for the power supply assembly. In some alternative embodiments, the insertion hole has a cavity wall that is elastically deformable, and the connection end is inserted into the insertion hole to elastically contact to achieve electrical conduction. In some alternative embodiments, the conductive connection includes at least two resilient arms, at least two of the resilient arms being distributed about an axis of the conductive connection. In some alternative embodiments, the conductive connector comprises a cylindrical body, wherein the insertion hole is formed in the cylindrical body, and a notch penetrating through the cylindrical body along the axial direction of the cylindrical body is formed in the cylindrical body. In some alternative embodiments, the circuit board is provided with a first mounting hole, the conductive connecting piece comprises a cylindrical main body and a flanging, the flanging is fixed on one side of the circuit board, which is close to the charging electrode, and the cylindrical main body passes through the first mounting hole from one side of the circuit board to the other side. In some alternative embodiments, the circuit board comprises a first part and a second part, wherein the first part is used for being electrically connected with the atomization mechanism and is configured to control the battery cell to supply power to the atomization mechanism, and the second part is provided with the conductive connecting piece and is configured to control the battery cell to receive the electric energy supplemented by the charging assembly. In some optional embodiments, the battery cell