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CN-224219522-U - Liquid guide piece and atomizing device

CN224219522UCN 224219522 UCN224219522 UCN 224219522UCN-224219522-U

Abstract

The application relates to the technical field of atomization, in particular to a liquid guide piece and an atomization device, wherein the liquid guide piece comprises an atomization part, a conducting medium and a liquid guide part which are sequentially arranged along the thickness direction of the liquid guide piece, the atomization part comprises a first fiber layer, the first fiber layer comprises a reticular structure formed by interweaving first fibers, the conducting medium comprises a mixed layer, the mixed layer comprises a reticular structure formed by interweaving second fibers and solid aerosol matrixes, the liquid guide part comprises a second fiber layer, the second fiber layer comprises a reticular structure formed by interweaving third fibers, the conducting medium is clamped and compounded between the atomization part and the liquid guide part in the thickness direction of the liquid guide piece, and the solid aerosol matrixes in the mixed layer in the conducting medium are heated to generate aerosol after the liquid guide piece is applied to the atomization device, so that the solid aerosol matrixes are mixed with aerosol generated by heating of the atomization liquid, the solid aerosol matrixes are reduced, and the using taste of the atomization device can be improved.

Inventors

  • Wang tianye
  • ZHAO BAIYANG
  • ZHAO YUEYANG
  • CHEN ZHICHAO
  • FU YAO

Assignees

  • 爱奇迹创造有限公司

Dates

Publication Date
20260512
Application Date
20250422

Claims (10)

  1. 1. The liquid guide piece is characterized by comprising an atomization part, a conduction medium and a liquid guide part which are sequentially arranged along the thickness direction of the liquid guide piece, wherein: the atomization part comprises a first fiber layer, and the first fiber layer comprises a net-shaped structure formed by interweaving first fibers; the conductive medium comprises a mixed layer, wherein the mixed layer comprises a network structure formed by interweaving second fibers and a solid aerosol matrix; The liquid guide part comprises a second fiber layer, and the second fiber layer comprises a net structure formed by interweaving third fibers.
  2. 2. The fluid transfer element of claim 1, wherein a lay direction of at least one of the first fibrous layer and the second fibrous layer is disposed crosswise to a lay direction of the hybrid layer.
  3. 3. The liquid guide according to claim 1, wherein the conductive medium comprises a plurality of the mixed layers, the mixed layers are sequentially stacked in the thickness direction of the liquid guide, and the laying directions of two adjacent mixed layers are arranged in a crossing manner.
  4. 4. The fluid guide of claim 1, wherein the conductive medium further comprises a third fibrous layer comprising a network of interwoven fourth fibers, the mixed layers and the third fibrous layer being arranged in a stack in a thickness direction of the fluid guide, the number of mixed layers being greater than the number of third fibrous layers; The fourth fibers include at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and velvets fibers.
  5. 5. The liquid guide of any of claims 1-4, wherein the solid aerosol matrix comprises at least one of a fibrous matrix, a particulate matrix.
  6. 6. The fluid guide of claim 5, wherein the fibrous matrix has an aspect ratio of greater than or equal to 10 and a length of from 1mm to 5mm.
  7. 7. The fluid transfer element of claim 5, wherein the particulate substrate has an average particle size of from 0.2mm to 1mm.
  8. 8. The fluid guide member according to any one of claims 1-4, wherein the first fibers comprise at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and Willemot fibers, and/or, The second fibers comprise at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and velvets fibers, and/or, The third fibers include at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and velvets fibers.
  9. 9. An atomizing device, characterized by comprising a heating element and a liquid guiding element according to any one of claims 1-8, wherein the heating element is in contact with the atomizing part, a surface in contact with the heating element in the thickness direction of the liquid guiding element is an atomizing surface, a surface arranged opposite to the atomizing surface is a liquid guiding surface, and the liquid guiding surface is used for guiding liquid atomized substrate to the atomizing surface.
  10. 10. The atomizing device of claim 9, wherein the first fibers in contact with the heat generating component include at least one of cotton fibers, hemp fibers, and wood pulp fibers.

Description

Liquid guide piece and atomizing device Technical Field The application relates to the technical field of atomization, in particular to a liquid guide and an atomization device. Background The present atomizing device for liquid aerosol substrates generally comprises a liquid guiding member, wherein the liquid guiding member is provided with a liquid guiding surface and an atomizing surface which are arranged in a back-to-back mode, the liquid guiding surface is used for absorbing and guiding the liquid aerosol substrates to the atomizing surface, and the heating member is used for heating the liquid aerosol substrates guided to the atomizing surface to generate aerosol for a user. With the popularization of the atomizing device, the use taste of the atomizing device is required to be higher and higher by users. The existing method for adding natural essence and aerosol matrix extract into liquid aerosol matrix can not better improve the reduction degree of the using taste of aerosol matrix, and the using taste of an atomization device is still worse. Disclosure of utility model The application provides a liquid guide piece and an atomization device, which are used for solving the technical problem that the atomization device is poor in using taste. The embodiment of the application provides a liquid guide piece, which comprises an atomization part, a conducting medium and a liquid guide part, wherein the atomization part, the conducting medium and the liquid guide part are sequentially arranged along the thickness direction of the liquid guide piece, the atomization part comprises a first fiber layer, the first fiber layer comprises a net structure formed by interweaving first fibers, the conducting medium comprises a mixed layer, the mixed layer comprises a net structure formed by interweaving second fibers and a solid aerosol matrix, the liquid guide part comprises a second fiber layer, and the second fiber layer comprises a net structure formed by interweaving third fibers. In some embodiments, the lay-up direction of at least one of the first fiber layer and the second fiber layer is arranged crosswise to the lay-up direction of the hybrid layer. In some embodiments, the conductive medium includes a plurality of the mixed layers, the mixed layers are sequentially stacked in a thickness direction of the liquid guide, and laying directions of two adjacent mixed layers are crossed. In some embodiments, the conductive medium further comprises a third fiber layer, the third fiber layer comprises a mesh structure formed by interweaving fourth fibers, the mixed layer and the third fiber layer are stacked in the thickness direction of the liquid guide piece, the number of the mixed layer is larger than that of the third fiber layer, and the fourth fibers comprise at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers and Willebrand fibers. In some embodiments, the solid aerosol matrix comprises at least one of a fibrous matrix, a particulate matrix. In some embodiments, the fibrous matrix has an aspect ratio of greater than or equal to 10 and a length of from 1mm to 5mm. In some embodiments, the particulate substrate has an average particle size of 0.2mm to 1mm. In some embodiments, the first fibers comprise at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and Willemot fibers, and/or the second fibers comprise at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and Willemot fibers, and/or the third fibers comprise at least one of cotton fibers, hemp fibers, wood pulp fibers, viscose fibers, cuprammonium fibers, lyocell fibers, and Willemot fibers. The embodiment of the application provides an atomization device, which comprises a heating element and the liquid guide element in any embodiment, wherein the heating element is contacted with the atomization part, the surface contacted with the heating element in the thickness direction of the liquid guide element is an atomization surface, the surface opposite to the atomization surface is a liquid guide surface, and the liquid guide surface is used for guiding liquid atomized matrix to the atomization surface. In some embodiments, the first fibers in contact with the heat generating component comprise at least one of cotton fibers, hemp fibers, and wood pulp fibers. According to the liquid guide piece and the atomizing device, the liquid guide piece comprises the atomizing part, the conducting medium and the liquid guide part which are sequentially arranged along the thickness direction of the liquid guide piece, wherein the atomizing part comprises a first fiber layer, the first fiber layer comprises a reticular structure formed by interweaving first fibers, the conducting medium comprises a mixed layer, the mixed layer comprises a reticular structure formed by interweaving sec