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CN-224231337-U - Suction testing device and system

CN224231337UCN 224231337 UCN224231337 UCN 224231337UCN-224231337-U

Abstract

The application relates to the technical field of aerosol generation, in particular to a suction testing device and a system, wherein the suction testing device comprises a box body, a suction assembly, a connecting pipe, an interaction piece and a control board, wherein a mounting position and a first connecting port are arranged on the box body, and the mounting position is used for mounting an atomization device; the device comprises a box body, a suction assembly, a connecting pipe, an interaction piece, a control board and a control board, wherein the box body is internally provided with a first connecting port, the suction assembly is used for sucking aerosol generated by an atomization device, one end of the connecting pipe is connected with the suction assembly, the other end of the connecting pipe penetrates out of the box body from the interior of the box body through the first connecting port and is connected with the suction end of the atomization device, the connecting pipe is used for guiding the aerosol generated by the atomization device to the suction assembly, the interaction piece is used for presetting test parameters, the control board is used for generating control quantity according to the preset test parameters, and the start and stop of the suction assembly and/or the rotating speed of the suction assembly are controlled according to the control quantity so as to perform suction test on the atomization device. The application is beneficial to reducing the volume of the suction test device and improving the accuracy and consistency of the test result.

Inventors

  • Request for anonymity

Assignees

  • 深圳市基克纳科技有限公司

Dates

Publication Date
20260512
Application Date
20250321

Claims (12)

  1. 1. A suction testing device for cooperation with an atomizing device for suction testing of the atomizing device, comprising: The box body is provided with a mounting position and a first connecting port, and the mounting position is used for mounting the atomizing device; The suction assembly is arranged in the box body and is used for sucking aerosol generated by the atomizing device; One end of the connecting pipe is connected with the suction assembly, the other end of the connecting pipe penetrates out of the box body from the box body through the first connecting port and is connected with the suction end of the atomizing device, and the connecting pipe is used for guiding aerosol generated by the atomizing device to the suction assembly; an interactive member for presetting test parameters, and The control board is used for generating control quantity according to the preset test parameters, controlling the start and stop of the suction assembly and/or controlling the rotating speed of the suction assembly according to the control quantity so as to perform suction test on the atomizing device.
  2. 2. The suction testing device of claim 1, wherein the mounting location is provided with a mounting slot for receiving the atomizing device.
  3. 3. The suction testing device of claim 2, further comprising a spacer plate, wherein a plurality of sets of clamping grooves are formed in two opposite side walls of the mounting groove, and wherein the spacer plate is detachably disposed in one of the sets of clamping grooves for adjusting the size of the mounting groove.
  4. 4. The suction testing device according to claim 1, wherein the box body is provided with a mounting cavity, the suction assembly and the control board are both arranged in the mounting cavity, and the mounting cavity is communicated with the first connecting port, so that the connecting pipe passes through the first connecting port from the mounting cavity and then passes out of the box body.
  5. 5. The suction testing device of claim 4, wherein a securing member is disposed within the mounting cavity, the securing member for securing the suction assembly.
  6. 6. The suction testing device of claim 5, wherein a chute is provided on an inner wall of the mounting cavity, and the fixing member is slidably disposed on the chute.
  7. 7. The suction testing device according to claim 5 or 6, wherein the fixing parts comprise a first fixing part and a second fixing part which are arranged at intervals, a second connecting interface is arranged on the first fixing part, one end of the suction assembly is clamped in the second connecting interface, the other end of the suction assembly is arranged on the second fixing part, a third connecting interface is arranged on the second fixing part, and the connecting pipe penetrates through the third connecting interface and then penetrates out of the box body through the first connecting interface.
  8. 8. The suction testing device of claim 1, further comprising a collection assembly for collecting aerosols and/or aerosol condensate within the suction assembly.
  9. 9. The suction testing device of claim 1, wherein the interactive member comprises a start/stop key for triggering the suction testing device to start or stop and a set key for presetting suction testing parameters, the start/stop key and the set key being exposed to the box.
  10. 10. The suction test device of claim 1, further comprising a battery disposed within the housing and electrically connected to the control board and the suction assembly, the battery for providing power required for operation of the control board and the suction assembly.
  11. 11. A suction testing system comprising an atomizing device and a suction testing device according to any one of claims 1-10, said atomizing device comprising a suction end, said suction testing device being connected to said suction end.
  12. 12. The aspiration test system of claim 11, wherein the aerosolization device further comprises an airflow channel, an airflow sensor disposed on the airflow channel for monitoring airflow information on the airflow channel and outputting an electrical signal corresponding to the airflow information, a controller responsive to the electrical signal and triggering activation of the heating assembly.

Description

Suction testing device and system Technical Field The application relates to the technical field of aerosol generation, in particular to a suction testing device and a system. Background In the production process of the atomizing device, it is necessary to perform a suction test for performing power consumption analysis and characteristic analysis. The working principle of the atomizing device is that an atomized substrate is heated and atomized into aerosol, so that the aerosol is used by a user. However, a number of problems are common with current testing equipment for atomizing devices. On the one hand, the equipment is high in price, large in overall dimension and complex in operation flow, so that the testing work is very inconvenient. On the other hand, part of the test equipment is excessively complex in function, and resource waste is caused for the scene that only simple life test is needed. If the test is performed by means of staff suction, the test efficiency is low by means of staff, and consistency and accuracy of the test are difficult to ensure. Disclosure of Invention The application provides a suction testing device and a suction testing system, which can meet the requirements of an atomization device in a simple testing scene, are simple in structure and convenient to carry, and are beneficial to improving the consistency and accuracy of a testing structure. The application provides a suction testing device, which is used for being matched with an atomization device to perform suction testing on the atomization device, and comprises the following components: The box body is provided with a mounting position and a first connecting port, and the mounting position is used for mounting the atomizing device; The suction assembly is arranged in the box body and is used for sucking aerosol generated by the atomizing device; One end of the connecting pipe is connected with the suction assembly, the other end of the connecting pipe penetrates out of the box body from the box body through the first connecting port and is connected with the suction end of the atomizing device, and the connecting pipe is used for guiding aerosol generated by the atomizing device to the suction assembly; an interactive member for presetting test parameters, and The control board is used for generating control quantity according to the preset test parameters, controlling the start and stop of the suction assembly and/or controlling the rotating speed of the suction assembly according to the control quantity so as to perform suction test on the atomizing device. In some alternative embodiments, the mounting location is provided with a mounting slot for receiving the atomizing device. In some optional embodiments, the suction test device further includes a partition board, and a plurality of groups of clamping grooves are formed in two opposite side walls of the mounting groove, and the partition board is detachably arranged in one group of clamping grooves and used for adjusting the size of the mounting groove. In some optional embodiments, a mounting cavity is formed in the box body, the suction assembly and the control board are both arranged in the mounting cavity, and the mounting cavity is communicated with the first connecting port, so that the connecting pipe passes through the first connecting port from the mounting cavity and then passes out of the box body. In some alternative embodiments, a securing member is disposed within the mounting cavity for securing the suction assembly. In some alternative embodiments, a chute is provided on the inner wall of the mounting cavity, and the fixing member is slidably disposed on the chute. In some optional embodiments, the fixing parts comprise a first fixing part and a second fixing part which are arranged at intervals, a second connecting interface is arranged on the first fixing part, one end of the suction assembly is clamped in the second connecting interface, the other end of the suction assembly is arranged on the second fixing part, a third connecting interface is arranged on the second fixing part, and the connecting pipe penetrates through the third connecting interface and then penetrates out of the box body through the first connecting interface. In some alternative embodiments, the suction test device further comprises a collection assembly for collecting aerosols and/or aerosol condensate within the suction assembly. In some optional embodiments, the interactive element includes a start/stop key and a setting key, the start/stop key is used for triggering the start or stop of the suction test device, the setting key is used for presetting suction test parameters, and the start/stop key and the setting key are exposed out of the box body. In some alternative embodiments, the suction test device further comprises a battery disposed within the housing and electrically connected to the control board and the suction assembly, the battery being configured to pro