Patent Publication Number: US-2022225666-A1

Title: Electronic cigarette body, vaporization device, and electronic cigarette

Description:
CROSS-REFERENCE TO RELATED APPLICATION 
     This application is a national stage application filed under 35 U.S.C. 371 of International Application No. PCT/CN2021/096347 filed May 27, 2021, which claims priority to China Patent Application No. 202022087361.8 filed Sep. 21, 2020. The entire disclosures of the above applications are incorporated herein by reference in their entirety. 
    
    
     TECHNICAL FIELD 
     This application relates to an electronic device, and specifically to an electronic cigarette body, a vaporization device, and an electronic cigarette. 
     BACKGROUND 
     In recent years, manufacturers start to produce a wide range of electronic cigarette products, including an e-liquid type electronic cigarette product that heats and atomizes a volatile solution to produce a vapor for a user to vape. E-liquid generally includes different flavors of fragrances, which can be atomized to produce different fragrances. 
     SUMMARY 
     This application provides an electronic cigarette body, a vaporization device, and an electronic cigarette to provide aroma of the electronic cigarette in a way that is different from the related art. 
     This application provides an electronic cigarette body. The electronic cigarette body includes a housing provided with a power supply. One end of the housing is configured to be connected to a vaporization device, and an airflow channel is provided in the housing. A heating portion and a heated portion in an airflow communication with the heating portion are provided in the airflow channel. 
     In an implementation, the heated portion is located at downstream of the heating portion in an airflow direction. 
     In an implementation, the electronic cigarette body further includes a temperature sensor, configured to measure a temperature of the heating portion. 
     In an implementation, the housing has a first part and a second part located at the one end, the second part being located between the first part and the one end; and the first part is configured to dispose the heating portion and the heated portion, and the second part is configured to be connected to the vaporization device. 
     In an implementation, a hollow base is provided in the first part, a hollow part of the hollow base including a heating region and a heated region, respectively configured to dispose the heating portion and the heated portion. 
     In an implementation, the heating region and the heated region are arranged in a direction toward the one end. 
     In an implementation, an electric connection terminal is further provided in the first part, the electric connection terminal being disposed between the base and an inner wall of the housing. 
     This application further provides a vaporization device. One end of the vaporization device is provided with a mouthpiece and the other end of the vaporization device is configured to be connected to the electronic cigarette body. 
     In an implementation, an end portion of the other end of the vaporization device is provided with a concave portion. The concave portion, used as a heated portion, is configured to be in communication with the heated portion of the electronic cigarette body and accommodate part of a flavor adjusting portion. 
     In an implementation, the concave portion is located at a central region of the end portion. 
     This application further provides an electronic cigarette. The electronic cigarette includes the aforementioned electronic cigarette body and vaporization device. 
     In an implementation, the concave portion of the vaporization device is aligned with the heated portion of the electronic cigarette body in a depth direction of the concave portion. 
     The electronic cigarette body, the vaporization device, and the electronic cigarette provided in this application may enrich flavors of the vapor vaped by a user and improve the user&#39;s experience. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The accompanying drawings are provided for further understanding of this application and constitute part of the specification, and explain this application together with the following specific implementations, but do not constitute a limitation to this application. In the accompanying drawings: 
         FIG. 1  is a schematic diagram of an electronic cigarette according to some embodiments of this application. 
         FIG. 2  is a schematic diagram of a demonstrative combination of an electronic cigarette according to some embodiments of this application. 
         FIG. 3A ,  FIG. 3B ,  FIG. 3C , and  FIG. 3D  are schematic exploded views of a vaporization device according to some embodiments of this application. 
         FIG. 4A ,  FIG. 4B ,  FIG. 4C , and  FIG. 4D  respectively are a section side view, a partial enlarged side view, a section front view, and a partial enlarged front view of an electronic cigarette body according to some embodiments of this application. 
         FIG. 5  is a structural section view of an electronic cigarette according to some embodiments of this application. 
     
    
    
     DETAILED DESCRIPTION 
     The following disclosure provides many different embodiments or examples for implementing different features of the provided subject matter. The following describes particular examples of members and deployments. Certainly, these are merely examples and are not intended to be limitative. In this application, in the following descriptions, reference formed by the first feature above or on the second feature may include an embodiment formed by direct contact between the first feature and the second feature, and may further include an embodiment in which an additional feature may be formed between the first feature and the second feature to enable the first feature and the second feature to be not in direct contact. In addition, in this application, reference numerals and/or letters may be repeated in examples. This repetition is for the purpose of simplification and clarity, and does not indicate a relationship between the described various embodiments and/or configurations. 
     The embodiments of this application are described in detail below. However, it should be understood that, this application provides many applicable concepts that can be implemented in various particular cases. The described particular embodiments are only illustrative and do not limit the scope of this application. 
       FIG. 1  is a schematic diagram of an electronic cigarette  100  according to some embodiments of this application. 
     The electronic cigarette  100  includes a vaporization device  100 A and an electronic cigarette body  100 B. In some embodiments, the vaporization device  100 A and the electronic cigarette body  100 B may be designed as a unity. In some embodiments, the vaporization device  100 A and the electronic cigarette body  100 B may be designed as two separate members. In some embodiments, the vaporization device  100 A may be designed to be removably combined with the electronic cigarette body  100 B. In some embodiments, when the vaporization device  100 A is combined with the electronic cigarette body  100 B, the vaporization device  100 A is partly accommodated in the electronic cigarette body  100 B. In some embodiments, the vaporization device  100 A may be referred to as a cartridge or an e-liquid storage assembly. The vaporization device  100 A stores an atomization material. The atomization material may be a liquid. The atomization material may be a solution. The atomization material may alternatively be referred to as e-liquid. The e-liquid is edible. In some embodiments, the electronic cigarette body  100 B may be referred to as a main body. 
       FIG. 2  is a schematic diagram of a demonstrative combination of an electronic cigarette  100  according to some embodiments of this application. 
     From the appearance, the vaporization device  100 A includes a casing  1  and a base  9 . The casing  1  is provided with a mouthpiece  1   c  which is generally flat circular. The mouthpiece  1   c  is located at an end portion T 1  of the vaporization device  100 A. In other embodiments, the mouthpiece  1   c  may be in other shapes. 
     The base  9  is located at an end portion T 2  of the vaporization device  100 A relative to the end portion T 1 . The base  9  includes a concave portion  9   a  used for accommodating a flavor adjusting portion  6  (may also referring to  FIG. 3C ). The concave portion  9   a  is in communication with an atomization chamber inside the vaporization device  100 A. The concave portion  9   a  is used as an air-inlet vent, and air flows into the vaporization device  100 A through the concave portion  9   a . In some embodiments, the concave portion  9   a  is disposed at a central region of the base  9 . In some embodiments, the concave portion  9   a  is disposed on the central axis of the vaporization device  100 A, and in other words, the concave portion  9   a  may be located at the center position of the base  9 . The flavor adjusting portion  6  stores an atomization material. In some embodiments, the vaporization device  100 A may not have directivity. In some embodiments, the vaporization device  100 A may be removably combined with the electronic cigarette body  100 B in either of two different directions (for example, a direction in which the mouthpiece  1   c  shown in  FIG. 2  faces upward or a direction in which the mouthpiece  1   c  faces downward). 
     The electronic cigarette body  100 B has a housing  22 . The housing  22  has an end portion T 3 . The end portion T 3  is connected to the vaporization device  100 A. The end portion T 3  includes an opening  22   h . When the vaporization device  100 A is combined with the electronic cigarette body  100 B, the opening  22   h  accommodates the end portion T 2  of the vaporization device  100 A. As a heated portion, the concave portion  9   a  receives heat from the electronic cigarette body  100 B and heats the flavor adjusting portion  6  at the same time. When the flavor adjusting portion  6  is heated, the stored atomization material is heated and atomized, and the atomized gas flows into the vaporization device  100 A to provide more different flavors. A detailed structure of the vaporization device  100 A is described in subsequent embodiments. 
       FIG. 3A ,  FIG. 3B ,  FIG. 3C , and  FIG. 3D  are schematic exploded views of a vaporization device  100 A according to some embodiments of this application. 
     As shown in  FIG. 3A ,  FIG. 3B ,  FIG. 3C , and  FIG. 3D , in addition to the casing  1 , the flavor adjusting portion  6 , and the base  9 , the vaporization device  100 A further includes an upper cover sealing member  2 , an upper cover  3 , a sealing member  4 , a vapor generation assembly  5 , a support  61 , a middle cover  71 , and a sealing ring  8 . 
     Referring to  FIG. 3B , a tube  1   t  is provided in the casing  1 . The tube  1   t  is in communication with an opening  1   h . When the vaporization device  100 A is in use, vapor generated by the vaporization device  100 A may be vaped by the user through the tube  1   t.    
     As shown in  FIG. 3B , the upper cover sealing member  2  may be provided with a plurality of openings. The upper cover  3  may be provided with a plurality of openings. In some embodiments, the upper cover sealing member  2  may be provided with a first opening  2   h   1 , a second opening  2   h   2 , and a third opening  2   h   3 . In some embodiments, the upper cover  3  may be provided with a first opening  3   h   1 , a second opening  3   h   2 , and a third opening  3   h   3 . The first opening  2   h   1 , the second opening  2   h   2 , and the third opening  2   h   3  of the upper cover sealing member  2  are respectively corresponding to the first opening  3   h   1 , the second opening  3   h   2 , and the third opening  3   h   3  of the upper cover  3 . The first opening  2   h   1 , the second opening  2   h   2 , and the third opening  2   h   3  of the upper cover sealing member  2  respectively expose the first opening  3   h   1 , the second opening  3   h   2 , and the third opening  3   h   3  of the upper cover  3 . 
     The first opening  3   h   1  of the upper cover  3  may be used as part of a vapor channel. The vapor generated by the vapor generation assembly  5  may reach the tube  1   t  inside the casing  1  through the first opening  3   h   1  of the upper cover  3 . The second opening  3   h   2  and the third opening  3   h   3  of the upper cover  3  may be used as part of an e-liquid channel. E-liquid stored in the vaporization device  100 A may flow to the vapor generation assembly  5  through the openings  3   h   2  and  3   h   3 . The E-liquid stored in the vaporization device  100 A may be in contact with the vapor generation assembly  5  through the second opening  3   h   2  and the third opening  3   h   3  of the upper cover  3 . The first opening  3   h   1  and the second opening  3   h   2  of the upper cover  3  are isolated from each other, and e-liquid flowing in the second opening  3   h   2  does not flow into the vapor channel directly. The first opening  3   h   1  and the third opening  3   h   3  of the upper cover  3  are isolated from each other, and e-liquid flowing in the third opening  3   h   3  of the upper cover  3  does not flow into the vapor channel directly. 
     In some embodiments, a quantity of the openings of the upper cover sealing member  2  may be the same as that of the upper cover  3 . In some embodiments, a quantity of the openings of the upper cover sealing member  2  may be different from that of the upper cover  3 . In some embodiments, a quantity of the openings of the upper cover sealing member  2  may be less than that of the upper cover  3 . In some embodiments, a quantity of the openings of the upper cover sealing member  2  may be greater than that of the upper cover  3 . 
     When some or all the members of the vaporization device  100 A are combined with each other, the upper cover sealing member  2  may cover part of the upper cover  3 . The upper cover sealing member  2  may surround part of the upper cover  3 . The upper cover sealing member  2  may expose part of the upper cover  3 . 
     In some embodiments, the upper cover sealing member  2  may have elasticity. In some embodiments, the upper cover sealing member  2  may have flexibility. In some embodiments, the upper cover sealing member  2  may include silica gel. In some embodiments, the upper cover sealing member  2  may be made of silica gel. 
     When some or all the members of the vaporization device  100 A are combined with each other, the sealing member  4  may cover part of the vapor generation assembly  5 . The sealing member  4  may surround part of the vapor generation assembly  5 . The sealing member  4  may expose part of the vapor generation assembly  5 . 
     In some embodiments, the sealing member  4  may have elasticity. In some embodiments, the sealing member  4  may have flexibility. In some embodiments, the sealing member  4  may include silica gel. In some embodiments, the sealing member  4  may be made of silica gel. The sealing member  4  may have high temperature resistance. In some embodiments, the sealing member  4  has a melting point higher than 350 degrees Celsius. 
     As shown in  FIG. 3B , the sealing member  4  has an opening  4   h , and the vapor generation assembly  5  has a recess  5   c . When the sealing member  4  and the vapor generation assembly  5  are combined with each other, the opening  4   h  of the sealing member  4  may expose at least part of the recess  5   c.    
     As shown in  FIG. 3D , the vapor generation assembly  5  includes a first electrically conductive pin  5   p   1  and a second electrically conductive pin  5   p   2 . The first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  are hooks curved towards two sides. Shapes of the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  have many advantages. During assembly of the vaporization device  100 A, the shapes of the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  are designed to enable the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  to be easily in contact with a first electrically conductive structure  9   p   1  and a second electrically conductive structure  9   p   2 . The shape design of the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  decreases a probability of poor contact between the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  and the first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2 . The shape design of the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2  further reduces steps for assembling the vaporization device  100 A. 
     Although not drawn in  FIG. 3D , the vapor generation assembly  5  may include a heating circuit disposed on a bottom surface  5   s   1 . The heating circuit disposed on the bottom surface  5   s   1  is electrically connected to the first electrically conductive pin  5   p   1  and the second electrically conductive pin  5   p   2 . The vaporization device  100  may increase the temperature of the vapor generation assembly  5  by providing power to the heating circuit on the bottom surface  5   s   1 . 
     The support  61  may have a rectangular shape. The support  61  has a plurality of openings  61   h . In some embodiments, the plurality of openings  61   h  are arranged on the support  61  in a matrix. In some embodiments, the support  61  may have a circular shape. In some embodiments, the support  61  may have a triangular shape. In some embodiments, the support  61  may have a polygonal shape. 
     In some embodiments, the plurality of openings  61   h  of the support  61  are arranged at the same distance. The openings  61   h  of the support  61  may have the same aperture. In some embodiments, the openings  61   h  of the support  61  may have different apertures. In some embodiments, the opening  61   h  of the support  61  may have an aperture of 0.1 mm. In some embodiments, the opening  61   h  of the support  61  may have an aperture of 0.2 mm. In some embodiments, the opening  61   h  of the support  61  may have an aperture of 0.3 mm. In some embodiments, the opening  61   h  of the support  61  may have an aperture of 0.35 mm. In some embodiments, the opening  61   h  of the support  61  may have an aperture of 0.4 mm. In some embodiments, the opening  61   h  of the support  61  may have an aperture of 0.5 mm. 
     In some embodiments, the aperture of the opening  61   h  of the support  61  may be within a range of 0.1 mm to 0.2 mm. In some embodiments, the aperture of the opening  61   h  of the support  61  may be within a range of 0.2 mm to 0.3 mm. In some embodiments, the aperture of the opening  61   h  of the support  61  may be within a range of 0.15 mm to 0.35 mm. In some embodiments, the aperture of the opening  61   h  of the support  61  may be within a range of 0.3 mm to 0.4 mm. In some embodiments, the aperture of the opening  61   h  of the support  61  may be within a range of 0.4 mm to 0.5 mm. 
     The support  61  may include a plastic material. The support  61  may be made of a plastic material. The support  61  may include a metallic material. The support  61  may be made of a metallic material. In some embodiments, the support  61  may include stainless steel. 
     The middle cover  71  may include an opening  71   h   1 . The support  61  may be disposed on the middle cover  71 . The support  61  may be disposed above the opening  71   h   1  in the middle cover  71 . The support  61  may cover the opening  71   h   1  of the middle cover  71 . The length of the opening  71   h   1  of the middle cover  71  is approximately slightly less than the length of the support  61 . The width of the opening  71   h   1  of the middle cover  71  is approximately slightly less than the width of the support  61 . Therefore, after the support  61  is mounted in the opening  71   h   1  of the middle cover  71 , there is no need to use an additional member for fixing the support  61  and the middle cover  71 . When the support  61  is disposed on the middle cover  71 , the openings  61   h  on the support  61  can enable an airflow to pass through. 
     The bottom of the base  9  includes a recess  9   r   1 . The sealing ring  8  may be disposed inside the recess  9   r   1  at the bottom of the base  9 . The base  9  includes openings  9   h   3  and  9   h   4  disposed at two sides of the concave portion  9   a . The first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  may respectively pass through the openings  9   h   3  and  9   h   4  of the base  9 , and are secured on the base  9 . The first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  pass through the openings  9   h   3  and  9   h   4  of the base  9 , and extend to an inner portion of the vaporization device  100 A. The first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  may have a current conduction function. The first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  may provide power to the vapor generation assembly  5  inside the vaporization device  100 A. 
     After the first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  pass through the openings  9   h   3  and  9   h   4  of the base  9 , an electric contact surface  9   s   1  of the first electrically conductive structure  9   p   1  and an electric contact surface  9   s   2  of the second electrically conductive structure  9   p   2  are exposed out of an outer surface of the base  9 . The first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  may include metal. The first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  may be attracted by magnetic members. 
     As shown in  FIG. 3A  to  FIG. 3D , in some embodiments, the vaporization device  100  may include a protection plug  1   a . The protection plug  1   a  is detachably disposed, and extends into the opening  1   h . In this case, the protection plug  1   a  may prevent foreign matters from entering the opening  1   h . When the vaporization device  100 A is not in use, the protection plug  1   a  may prevent an e-liquid or a condensed liquid from leaking from the opening  1   h . When the vaporization device  100 A has just been manufactured, the protection plug  1   a  may have a good sealing effect, to prevent e-liquid from leaking during transport in the vaporization device  100 A. 
     Before starting to use the vaporization device  100 A, the user need to first remove the protection plug  1   a , and then use the vaporization device  100 A. 
     The flavor adjusting portion  6  includes a top surface  6   s   1  and a bottom surface  6   s   2  disposed opposite to each other. The top surface  6   s   1  includes a plurality of openings  6   h   1 . The bottom surface  6   s   2  includes a plurality of openings  6   h   2 . In some embodiments, the quantity of the plurality of openings  6   h   1  corresponds to the quantity of the plurality of openings  6   h   2 . In some embodiments, the plurality of openings  6   h   1  are in communication with the plurality of openings  6   h   2 . 
     As shown in  FIG. 2 , when some or all of the vaporization device  100 A are combined with each other, the top surface  6   s   1  of the flavor adjusting portion  6  is disposed in the concave portion  9   a  of the base  9 , and the bottom surface  6   s   2  of the flavor adjusting portion  6  is exposed out of the base  9 . When some or all of the vaporization device  100 A are combined with each other, the plurality of openings  6   h   2  replace the concave portion  9   a  to be used as an air inlet vent, and air flows into the vaporization device  100 A through the plurality of openings  6   h   2 . 
     It is to be noted that, structures of the vaporization device  100 A shown in  FIG. 3A  to  FIG. 3D  are only examples and descriptions, and this application does not limit components to be included in the vaporization device  100 A, and also does not limit shapes of the components in the vaporization device  100 A. 
       FIG. 4A ,  FIG. 4B ,  FIG. 4C , and  FIG. 4D  respectively are a section side view, a partial enlarged side view, a section front view, and a partial enlarged front view of an electronic cigarette body  100 B according to some embodiments of this application. 
     The housing  22  of the electronic cigarette body  100 B includes a first part T 3   p   1  and a second part T 3   p   2  located at the end portion T 3 . The second part T 3   p   2  is located between the first part T 3   p   1  and the end portion T 3 . The second part T 3   p   2  is configured to accommodate the end portion T 2  of the vaporization device  100 A and to be connected to the vaporization device  100 A. 
     As shown in a partial enlarged view in  FIG. 4B , the first part T 3   p   1  includes a base  31 . The base  31  includes a hollow structure. The hollow structure of the base  31  may be generally divided into a heating region  31   a   1  and a heated region  31   a   2 . In some embodiments, the heating region  31   a   1  and the heated region  31   a   2  are arranged in a direction toward the end portion T 3 . 
     A heating portion  42  is provided in the heating region  31   a   1 . The heating portion  42  includes a hollow portion  42   p  and a heat source portion  42   a  for air to pass through. The heat source portion  42   a  is configured to heat air in the hollow portion  42   p . In some embodiments, the hollow portion  42   p  is a through hole running through the heating portion  42 . The hollow portion  42   p  forms a first opening  42   h   1  on an upper surface of the heating portion  42 . The hollow portion  42   p  forms a second opening  42   h   2  on a lower surface of the heating portion  42 . The heat source portion  42   a  is provided with a heating circuit used for converting electrical energy into heat. In some embodiments, the heating portion  42  is generally a column, and the heat source portion  42   a  is disposed at a periphery of the column and around the hollow portion  42   p . However, a shape and a heating manner of the heating portion  42  is not limited in this application. 
     The heated region  31   a   2  is provided with a heated portion  43 . The heated portion  43  includes a recess  43   a . In some embodiments, the heated portion  43  is aligned with the concave portion  9   a  of the base  9  in a depth direction of the concave portion  9   a . In this setting, when the vaporization device  100 A is combined with the electronic cigarette body  100 B, the recess  43   a  may accommodate part of the flavor adjusting portion  6  exposed out of the base  9 . The heated portion  43  further includes an opening  43   h   1  located at a bottom of the heated portion  43 . In some embodiments, the opening  43   h   1  of the heated portion  43  is in communication with the first opening  42   h   1  of the heating portion  42 . 
     Referring to  FIG. 4D , an airflow channel  41   p  (identified in a dotted line in  FIG. 4D ) is provided in the housing  22 . In some embodiments, a width range of the airflow channel  41   p  is limited in an inner wall  22   w  of the housing  22 . In some embodiments, the airflow channel  41   p  covers the heating portion  42  of the heating region  31   a   1  and the heated portion  43  of the heated region  31   a   2 . In some embodiments, the width of the airflow channel  41   p  is roughly equal to the width of the hollow portion  42   p . In some embodiments, the airflow channel  41   p  extends in a vertical direction, which is corresponding to an extension direction of the heating region  31   a   1  and the heated region  31   a   2 . In some embodiments, corresponding to the airflow channel  41   p  extending in a vertical direction, an airflow direction is shown by an arrow  41   f . In this setting, along the airflow direction  41   f , the heated portion  43  in the heated region  31   a   2  is located at downstream of the heating region  31   a   1 . 
     However, this application does not limit thereto. In other embodiments, the heating region  31   a   1  and the heated region  31   a   2  may not be arranged in the direction toward the end portion T 3 . For example, the heating region  31   a   1  and the heated region  31   a   2  may be arranged horizontally, or staggered in a vertical direction. Correspondingly, the airflow channel  41   p  and the airflow direction  41   f  may not extend in a vertical direction. 
     Referring to  FIG. 4D , the first part T 3   p   1  further includes an electric connection terminal  32 . In some embodiments, there are two electric connection terminals  32 . In some embodiments, two electric connection terminals  32  are disposed between the base  31  and the inner wall  22   w . When the vaporization device  100 A is combined with the electronic cigarette body  100 B, upper ends of the two electric connection terminals  32  are in contact with the first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2  respectively, to conduct electric power to the vapor generation assembly  5  by using the first electrically conductive structure  9   p   1  and the second electrically conductive structure  9   p   2 . In some embodiments, the electric connection terminals  32  may be combined with magnetic members. When the vaporization device  100 A is combined with the electronic cigarette body  100 B, magnetic attraction force between the magnetic member and the first electrically conductive structure  9   p   1  and between the magnetic member and the second electrically conductive structure  9   p   2  may prevent the vaporization device  100 A from loosing. In some embodiments, the electric connection terminals  32  include spring probes or other forms of probes to conduct electric power to the vaporization device  100 A. 
     The electronic cigarette body  100 B further includes a temperature sensor  44  configured to measure an air temperature. A top end of the temperature sensor  44  enters the hollow portion  42   p  through the opening  42   h   2 . The electronic cigarette body  100 B further includes a charging member  45 , a battery  46 , and a main circuit board  47 . The charging member  45  includes a charging circuit board. When the charging member  45  is connected to an external charging cable to which a power supply is connected, the battery  46  is charged. As a power supply, the battery  46  is configured to supply electric power to electrical elements that require electricity in the electronic cigarette  100 . The main circuit board  47  is configured to control components of the electronic cigarette  100  to collaborate to implement functions of the electronic cigarette  100 . A person skilled in the art should understand that the electronic cigarette body  100 B may further include other elements to implement the functions of the electronic cigarette  100 , and only the part related to the invention spirit of this application is described in detail herein for concise. 
     Referring to  FIG. 5  and  FIG. 4A  to  FIG. 4D  at the same time,  FIG. 5  is a structural section view of an electronic cigarette  100  according to some embodiments of this application. When a user uses the electronic cigarette  100 , the suction pulls air in the electronic cigarette body  100 B to flow along the airflow channel  41   p . After flowing into the hollow portion  42   p  from below the heating portion  42  through the opening  42   h   2 , the air is heated by heat power provided by the heat source portion  42   a , and flows into the heated portion  43  through the opening  42   h   1  and the opening  43   h   1 . In some embodiments, the heated air is about 40-60° C. Moisture in the heated air may be reduced to improve generation of condensate between the vaporization device  100 A and the electronic cigarette body  100 B and to dry generated condensate, to prevent the condensate from damaging electronic parts and components. The recess  43   a  of the heated portion  43  accommodates part of a flavor adjusting portion  6 , to enable the heated air to flow into the flavor adjusting portion  6  to prompt volatilization of flavor adjusting materials in the flavor adjusting portion  6 . Air entrained with atomized gas flows into the atomization chamber of the vaporization device  100 A. In this case, the concentration and aroma of the atomized gas to be vaped by the user may be increased. 
     As used herein, the terms “approximately”, “basically”, “substantially”, and “about” are used to describe and consider small variations. When used in combination with an event or a situation, the terms may refer to an example in which an event or a situation occurs accurately and an example in which the event or situation occurs approximately. As used herein with respect to a given value or range, the term “about” generally means in the range of ±10%, ±5%, ±1%, or ±0.5% of the given value or range. The range may be indicated herein as from one endpoint to another endpoint or between two endpoints. Unless otherwise specified, all ranges disclosed herein include endpoints. The term “substantially coplanar” may refer to two surfaces within a few micrometers (μm) positioned along the same plane, for example, within 10 within within 1 or within 0.5 μm positioned along the same plane. When reference is made to “substantially” the same numerical value or characteristic, the term may refer to a value within ±10%, ±5%, ±1%, or ±0.5% of the average of the values. 
     As used herein, the terms “approximately”, “basically”, “substantially”, and “about” are used to describe and explain small variations. When used in combination with an event or a situation, the terms may refer to an example in which an event or a situation occurs accurately and an example in which the event or situation occurs approximately. For example, when being used in combination with a value, the term may refer to a variation range of less than or equal to ±10% of the value, for example, less than or equal to ±5%, less than or equal to ±4%, less than or equal to ±3%, less than or equal to ±2%, less than or equal to ±1%, less than or equal to ±0.5%, less than or equal to ±0.1%, or less than or equal to ±0.05%. For example, if a difference between two values is less than or equal to ±10% of an average value of the value (for example, less than or equal to ±5%, less than or equal to ±4%, less than or equal to ±3%, less than or equal to ±2%, less than or equal to ±1%, less than or equal to ±0.5%, less than or equal to ±0.1%, or less than or equal to ±0.05%), it could be considered that the two values are “substantially” or “approximately” the same. For example, being “substantially” parallel may refer to an angular variation range of less than or equal to ±10° with respect to 0°, for example, less than or equal to ±5°, less than or equal to ±4°, less than or equal to ±3°, less than or equal to ±2°, less than or equal to ±1°, less than or equal to ±0.5°, less than or equal to ±0.1°, or less than or equal to ±0.05°. For example, being “substantially” perpendicular may refer to an angular variation range of less than or equal to ±10° with respect to 90°, for example, less than or equal to ±5°, less than or equal to ±4°, less than or equal to ±3°, less than or equal to ±2°, less than or equal to ±1°, less than or equal to ±0.5°, less than or equal to ±0.1°, or less than or equal to ±0.05°. 
     For example, two surfaces can be deemed to be coplanar or substantially coplanar if a displacement between the two surfaces is no greater than 5 no greater than 2 no greater than 1 or no greater than 0.5 μm. A surface can be deemed to be planar or substantially planar if a displacement between any two points on the surface with respect to a plane is no greater than 5 no greater than 2 no greater than 1 or no greater than 0.5 μm. 
     As used herein, the terms “conductive”, “electrically conductive” and “electrical conductivity” refer to an ability to transport an electric current. Electrically conductive materials typically indicate those materials that exhibit little or no opposition to the flow of an electric current. One measure of electrical conductivity is Siemens per meter (S/m). Typically, an electrically conductive material is one having a conductivity greater than approximately 104 S/m, such as at least 105 S/m or at least 106 S/m. The electrical conductivity of a material can sometimes vary with temperature. Unless otherwise specified, the electrical conductivity of a material is measured at room temperature. 
     As used herein, singular terms “a”, “an”, and “the” may include plural referents unless the context clearly dictates otherwise. In the description of some embodiments, assemblies provided “on” or “above” another assembly may encompass a case in which a previous assembly is directly on a latter assembly (for example, in physical contact with the latter assembly), and a case in which one or more intermediate assemblies are located between the previous assembly and the latter assembly. 
     As used herein, for ease of description, space-related terms such as “under”, “below”, “lower portion”, “above”, “upper portion”, “lower portion”, “left side”, “right side”, and the like may be used herein to describe a relationship between one member or feature and another member or feature as shown in the figures. In addition to orientation shown in the figures, space-related terms are intended to encompass different orientations of the device in use or operation. A device may be oriented in other ways (rotated 90 degrees or at other orientations), and the space-related descriptors used herein may also be used for explanation accordingly. It should be understood that when a member is “connected” or “coupled” to another member, the member may be directly connected to or coupled to another member, or an intermediate member may exist. Several embodiments of this disclosure and features of details are briefly described above. The embodiments described in this disclosure may be easily used as a basis for designing or modifying other processes and structures for realizing the same or similar objectives and/or obtaining the same or similar advantages introduced in the embodiments in the specification. Such equivalent construction does not depart from the spirit and scope of this disclosure, and various variations, replacements, and modifications can be made without departing from the spirit and scope of this disclosure.