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CN-224219472-U - Battery pole support, battery pole and atomizing device

CN224219472UCN 224219472 UCN224219472 UCN 224219472UCN-224219472-U

Abstract

The application provides a battery rod support, a battery rod and an atomization device, which belong to the technical field of atomization devices, wherein the battery rod support comprises a support main body and a protruding structure, a placing cavity for placing an atomizer is formed at one end of the support main body, an annular protruding structure is formed on the bottom surface or the side surface of the placing cavity, and the protruding structure is used for supporting the atomizer; wherein, be formed with the air duct on the protrusion structure, the one end of air duct is linked together with the circumference side of atomizer and places the clearance between the chamber, and the other end of air duct is linked together with the bottom surface of atomizer and places the space between the chamber. The size of the cross section area of the air guide channel can influence the air suction resistance of the atomizing device, namely, for different atomizing devices, the cross section areas of the air guide channels on the battery rod support can be different, so that the atomizing devices with different air suction resistances can be realized, and users can select the atomizing devices with different air suction resistances conveniently.

Inventors

  • Request for anonymity
  • LI XIONG

Assignees

  • 深圳市基克纳科技有限公司

Dates

Publication Date
20260512
Application Date
20250415

Claims (10)

  1. 1. A battery pole support, comprising: A holder main body (110), wherein a placement cavity (1131) for placing the atomizer (20) is formed at one end of the holder main body (110); A protruding structure (111), wherein the annular protruding structure (111) is arranged on the bottom surface and/or the side surface of the placing cavity (1131), and the protruding structure (111) is used for supporting the atomizer (20); The air guide device comprises a protruding structure (111), wherein an air guide channel (112) is formed on the protruding structure (111), one end of the air guide channel (112) is communicated with a gap between the circumferential side surface of the atomizer (20) and the placing cavity (1131), and the other end of the air guide channel (112) is communicated with a space between the bottom surface of the atomizer (20) and the placing cavity (1131).
  2. 2. The battery pole support according to claim 1, wherein the projection structure (111) includes two or more projections (1111), each of the projections (1111) being disposed at intervals along a circumferential direction of the support main body (110), a gap between two adjacent projections (1111) forming the air guide passage (112).
  3. 3. The battery pole support according to claim 1, wherein the top surface of the protruding structure (111) forms a support surface for being arranged in abutment with the bottom of the atomizer (20).
  4. 4. The battery bar support according to claim 1, characterized in that the battery bar support (11) is an injection-molded part.
  5. 5. The battery pole support according to any one of claims 1-4, wherein the support main body (110) comprises a support first section (113) and a support second section (114), the support first section (113) is arranged at one end of the support second section (114) and is connected with the support second section, the support first section (113) is provided with the placing cavity (1131), the support second section (114) is provided with the containing cavity (115), the bottom surface of the placing cavity (1131) is provided with an electrode jack (1132) and a detection hole (1133) in a penetrating manner, and the electrode jack (1132) and the detection hole (1133) are both communicated with the containing cavity (115).
  6. 6. The battery pole bracket of claim 5, wherein the bracket second section (114) includes a bracket first portion (1141) and a bracket second portion (1142), the bracket first portion (1141) and the bracket second portion (1142) being disposed opposite each other in a direction perpendicular to a distribution direction of the bracket first section (113) and the bracket second section (114), the bracket first portion (1141) being integrally formed on the bracket first section (113), the bracket second portion (1142) being detachably connected to the bracket first portion (1141).
  7. 7. A battery pole, characterized by comprising a housing (12) and a battery pole support (11) according to any one of claims 1-6, wherein the housing (12) is sleeved outside the battery pole support (11).
  8. 8. The battery pole according to claim 7, wherein the circumferential inner side surface of the housing (12) includes a first region (123) and a second region (124), the first region (123) and the second region (124) are disposed in order along the length direction of the battery pole (10), an air intake hole (231) is provided on the housing (12), and one end of the air intake hole (231) opens to the first region (123); The battery pole support (11) is located in a space surrounded by the second area (124), a step surface (125) is formed between the first area (123) and the second area (124), one end of the battery pole support (11), which is provided with a placement cavity (1131), is a first end, and the first end is matched with the step surface (125) to limit the battery pole support (11) to extend into the first area (123).
  9. 9. An atomizer device characterized by comprising an atomizer (20) and a battery stem (10) according to any one of claims 7-8, the battery stem (10) comprising a battery stem holder (11), one end of the atomizer (20) being inserted into a placement cavity (1131) of the battery stem holder (11), and the atomizer (20) being detachably connected to the battery stem (10).
  10. 10. The atomizing device according to claim 9, characterized in that the atomizer (20) comprises an atomizer base (23), the atomizer base (23) being supported on a projecting structure (111) of the battery stem support (11); The air adjusting device is characterized in that the atomizer base (23) is provided with an air adjusting structure (24), an air hole (231) is formed in the atomizer base (23), and the air adjusting structure (24) is used for adjusting the communication state of the air hole (231) and the space below the atomizer base (23).

Description

Battery pole support, battery pole and atomizing device Technical Field The application belongs to the technical field of atomizing devices, and particularly relates to a battery rod support, a battery rod and an atomizing device. Background An atomizing device refers to a device for heating an aerosol substrate to atomize the aerosol substrate to form an aerosol. Most atomizing devices on the market at present solve the problem that the suction resistance is weak or strong, and an air regulating device capable of regulating the air inlet area is designed on the atomizing device, and the air regulating device is rotated or pushed to change the air inlet area of an air inlet hole so as to realize the graded regulation of the suction resistance, but the air regulating of the conventional atomizing device can only be realized through the air regulating device. Disclosure of utility model The embodiment of the application aims to provide a battery rod support, a battery rod and an atomization device, so as to solve the technical problem that the air conditioning of the atomization device in the prior art can only be realized through the air conditioning device. In order to achieve the above purpose, the application adopts the following technical scheme: A first aspect of the present application provides a battery pole support comprising: A bracket main body, one end of which is provided with a placing cavity for placing the atomizer; the cavity bottom surface or the cavity side surface of the placing cavity is provided with an annular protruding structure which is used for supporting the atomizer; Wherein, be formed with the air duct on the protrusion structure, the one end of air duct is linked together with the circumference side of atomizer and places the clearance between the chamber, and the other end of air duct is linked together with the bottom surface of atomizer and places the space between the chamber. In some implementations, the protruding structure includes two or more protruding portions, each protruding portion being disposed at intervals along a circumferential direction of the holder body, and a gap between two adjacent protruding portions forms the air guide channel. In some implementations, the top surface of the protruding structure forms a support surface for conforming to the bottom of the atomizer. In some implementations, the battery stem bracket is an injection molded piece. In some implementations, the support body includes support first section and support second section, and support first section sets up in the one end of support second section and both are connected, is provided with on the support first section and places the chamber, and support second section is equipped with and holds the chamber, runs through on the chamber bottom surface of placing the chamber and is provided with electrode jack and detection hole, and electrode jack and detection hole all are linked together with holding the chamber. In some implementations, the second support section includes a first support portion and a second support portion, the first support portion and the second support portion being disposed opposite each other along a direction perpendicular to a distribution of the first support section and the second support section, the first support portion being integrally formed on the first support section, the second support portion being detachably connected to the first support portion. A second aspect of the application provides a battery pole comprising a housing and a battery pole support as described in any of the above claims, the housing being arranged to be sleeved outside the battery pole support. In some implementations, the circumferential inner side of the housing includes a first region and a second region, the first region and the second region are sequentially arranged along the length direction of the battery rod, an air inlet hole is formed in the housing, one end of the air inlet hole is opened to the first region, the battery rod support is located in a space surrounded by the second region, a step surface is formed between the first region and the second region, one end of the battery rod support, which is provided with a placing cavity, is a first end, and the first end is matched with the step surface to limit the battery rod support to extend into the first region. A third aspect of the application provides an atomising device comprising an atomiser and a battery bar as described in any of the preceding claims, the battery bar comprising a battery bar support, one end of the atomiser being inserted into a receiving cavity of the battery bar support and the atomiser being detachably connected to the battery bar. In some implementations, the atomizer comprises an atomizer base supported on the protruding structure of the battery pole support, wherein the atomizer base is provided with an air regulating structure, and the air regulating structure is used for regulating