A heat-not-burn appliance
By designing a fragrance-enhancing component in a heated non-combustible appliance, and utilizing the cooperation of a moving part and a storage cavity, fragrance-enhancing substances are added to the aerosol product, solving the problem of insufficient fragrance in the later stage of inhalation of heated non-combustible aerosol products and improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HG INNOVATION LTD
- Filing Date
- 2025-04-14
- Publication Date
- 2026-06-23
AI Technical Summary
The problem of insufficient aroma in the later stages of inhalation of heat-not-burn aerosol products.
Design a heat-not-burning appliance comprising a flavoring component, the flavoring component including a storage chamber and a delivery chamber, wherein flavoring substances, such as pods, can be added to the aerosol product through the cooperation of first and second moving parts to ensure sufficient aroma in the later stage of inhalation.
By adding flavoring substances to aerosol products, insufficient aroma in the later stages of inhalation is avoided, thus improving the user experience and aroma satisfaction.
Smart Images

Figure CN224386758U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of heat-not-burning technology, specifically to a heat-not-burning appliance. Background Technology
[0002] To meet diverse user taste preferences, flavorings are typically added to aerosol products to impart fragrance to the aerosols produced after heating. Flavored aerosol products usually experience rapid aroma decay and short shelf life. Excessive flavoring can lead to leakage, seepage, and pipe contamination, while insufficient flavoring can result in fragrance initially present but diminished later in the pumping process. Utility Model Content
[0003] This application provides a heat-not-burning appliance to solve the technical problem of insufficient aroma in the later stage of inhalation.
[0004] According to a first aspect, one embodiment provides a heating non-combustible appliance, comprising:
[0005] The main body of the device has a accommodating cavity for containing aerosol products, and the cavity wall has perforations;
[0006] A fragrance-enhancing component is disposed within the main body of the appliance. The fragrance-enhancing component includes a fragrance-enhancing element. The fragrance-enhancing component has a storage cavity and a delivery cavity that are respectively fixed relative to the receiving cavity. The storage cavity is used to store the fragrance-enhancing element, and the delivery cavity communicates with the storage cavity to obtain the fragrance-enhancing element.
[0007] The flavoring component includes a first movable member and a second movable member, which are reciprocally mounted at both ends of the extending direction of the delivery cavity. The first movable member has an insertion end and a delivery channel that passes through the insertion end and communicates with the delivery cavity. The second movable member can move toward the first movable member so that the insertion end passes through the perforation and inserts into the aerosol product. The second movable member can also squeeze the flavoring component and inject the flavoring substance in the flavoring component into the aerosol product along the delivery channel.
[0008] In one alternative embodiment, the flavoring component includes a burst bead, the flavoring component has a collection chamber for collecting the shell of the burst bead, and the delivery chamber has a first opening communicating with the collection chamber, the first opening being located on the side of the delivery chamber opposite to the storage chamber in the extending direction of the receiving chamber.
[0009] In one alternative embodiment, the flavoring component includes a first resilient reset member, the first movable member having a first movable seal member that seals against the cavity wall of the delivery cavity, the first resilient reset member being located within the delivery cavity and elastically compressed between the end of the delivery cavity near the receiving cavity and the first movable seal member.
[0010] In an optional embodiment, the storage cavity is connected to the delivery cavity via a connecting channel. When the first elastic reset member is in a freely extended state, the first movable seal is located on the side of the connecting channel away from the second movable member in the extension direction of the delivery cavity. The first movable seal is located at the first opening, or the first movable seal is located between the first opening and the connecting channel in the extension direction of the delivery cavity.
[0011] In one alternative embodiment, the size of the first movable seal is larger than the size of the first opening in the extension direction of the delivery cavity; when the first elastic reset member is in a free-stretched state, the first movable seal seals the first opening.
[0012] In one alternative embodiment, the size of the first opening is smaller than the diameter of the popping bead in the direction of extension of the delivery cavity.
[0013] In an optional embodiment, the flavoring component further includes a second resilient reset member, the second movable member having a stop end located outside the delivery cavity, the second resilient reset member being elastically compressed between the end of the delivery cavity facing away from the first movable member and the stop end.
[0014] In one alternative embodiment, the device body has a housing, on which an operating button is mounted that can reciprocate in the direction of extension of the conveying cavity, and the operating button abuts against the abutment head in the direction of extension of the conveying cavity.
[0015] In one optional embodiment, the flavoring component has a housing, the storage cavity and the delivery cavity are both located within the housing, and the flavoring component is detachably connected to the main body of the device; the flavoring component has a detachable state that can be separated from the main body of the device, and when the flavoring component is in the detachable state, the first moving part and the second moving part are both located within the housing.
[0016] In an optional embodiment, in the extending direction of the accommodating cavity, the perforation is provided on the cavity wall of the accommodating cavity in a region corresponding to the matrix segment of the aerosol article or in a region between the matrix segment and the opening of the accommodating cavity.
[0017] The heated non-combustible appliance according to the above embodiment includes an appliance body and a flavoring component disposed within the appliance body. The appliance body has a receiving cavity for accommodating an aerosol product, and the cavity wall of the receiving cavity has perforations. The flavoring component includes a flavoring element and has a storage cavity and a conveying cavity respectively fixed relative to the receiving cavity. The storage cavity is used to store the flavoring element, and the conveying cavity is connected to the storage cavity to obtain the flavoring element. The flavoring component includes a first moving member and a second moving member. The first moving member and the second moving member are respectively reciprocally mounted at both ends in the extension direction of the conveying cavity. The first moving member has an insertion end and a conveying channel that penetrates the insertion end and connects to the conveying cavity. The second moving member can move toward the first moving member so that the insertion end passes through the perforations and inserts into the aerosol product. The second moving member can also squeeze the flavoring element and inject the flavoring substance in the flavoring element into the aerosol product along the conveying channel. In this way, when an external force pushes the second moving member toward the first moving member, the flavoring component can supplement the flavoring substance into the aerosol product, which can avoid insufficient aroma in the later stage of aerosol product extraction. Attached Figure Description
[0018] Figure 1 This is a schematic diagram showing the specific location and structure of the flavor-enhancing component within a heated non-combustible appliance in one embodiment.
[0019] Figure 2 This is a schematic diagram showing the specific location of a flavoring component within a heated non-combustible appliance containing an aerosol product, according to one embodiment.
[0020] Figure 3 This is a schematic diagram showing the specific positions of the first moving member, the second moving member, and the popping bead in the delivery cavity when both the first and second elastic reset members are in a freely elongated state in the flavoring component according to one embodiment.
[0021] Figure 4 This is a schematic diagram of the structure of a second moving member pushing the popping bead and the first moving member in the delivery cavity of a flavoring component according to one embodiment.
[0022] In the diagram: 1. Main body of the device; 11. Outer shell; 111. Perforation; 12. Operation button; 13. Receptacle; 2. Aerosol product; 3. Flavoring component; 31. Storage chamber; 32. Connecting channel; 33. Conveying chamber; 331. First end; 332. Second end; 333. First opening; 34. Collection chamber; 35. First moving part; 351. First moving sealing part; 352. Hollow tube; 3521. Conveying channel; 3522. Insertion end; 36. Second moving part; 361. Abutment end; 362. Squeezing end; 37. First elastic reset part; 38. Second elastic reset part; 39. Flavoring component; 390. Bursting bead; 391. Bursting bead shell.
[0023] Explanation of reference numerals in parentheses in the accompanying drawings: The feature referred to by the reference numerals in parentheses in the accompanying drawings is the feature represented by both the number inside the parentheses and the number outside the parentheses. Detailed Implementation
[0024] The present application will now be described in further detail with reference to the accompanying drawings and specific embodiments. Similar elements in different embodiments are referred to by related similar element reference numerals. In the following embodiments, many details are described to facilitate a better understanding of the present application. However, those skilled in the art will readily recognize that some features may be omitted in different situations, or may be replaced by other elements, materials, or methods. In some cases, certain operations related to the present application are not shown or described in the specification. This is to avoid obscuring the core parts of the present application with excessive description. For those skilled in the art, detailed description of these related operations is not necessary; they can fully understand the related operations based on the description in the specification and general technical knowledge in the art.
[0025] Furthermore, the features, operations, or characteristics described in the specification can be combined in any suitable manner to form various embodiments, and the operational steps involved in each embodiment can also be rearranged or adjusted in a manner that is obvious to those skilled in the art. Therefore, the specification and drawings are only for clearly describing a particular embodiment and do not imply that they represent the necessary components and / or order.
[0026] The serial numbers assigned to components in this document, such as "first" and "second," are used only to distinguish the described objects and have no sequential or technical meaning. The terms "connection" and "linkage" used in this application, unless otherwise specified, include both direct and indirect connections (linkages).
[0027] This application discloses a heat-not-burning appliance, which is equipped with a fragrance-enhancing component 3. When the fragrance in the aerosol product 2 is insufficient, a fragrance-enhancing substance, namely a fragrance-enhancing liquid, is added to the aerosol product 2 to avoid insufficient fragrance in the later stage of suction.
[0028] Please refer to Figures 1 to 4The heated non-combustible appliance of this application embodiment includes an appliance body 1 and a flavoring component 3. The appliance body 1 has a receiving cavity 13 for accommodating an aerosol product 2. The receiving cavity 13 extends in a first direction and has an opening at one end in the first direction. The aerosol product 2 can be inserted into the receiving cavity 13 through the opening in the first direction. A perforation 111 is provided on the cavity wall of the receiving cavity 13. The perforation 111 allows the insertion end 3522 of the first moving member 35 in the flavoring component 3 to pass through so as to inject flavoring substances into the aerosol product 2. The fragrance enhancer is located in the cavity wall of the cavity 13, which is the first direction. The perforation 111 can be located in the area between the matrix section of the aerosol product 2 and the opening of the cavity 13, so as to allow the fragrance enhancer to be heated by the hotter aerosol during the discharge of the aerosol generated by the matrix section to produce fragrance. The perforation 111 can also be located in the area of the matrix section of the aerosol product 2 in the first direction. The position of the perforation 111 is such that the position of the perforation 111 in the aerosol product 2 can be heated to produce fragrance.
[0029] Among them, the aerosol product 2 may include a matrix section and a functional section located downstream of the matrix section. The functional section may include one or more sections such as a cooling section, a support section, and a filter section. The perforation 111 corresponds to the matrix section or the functional section, so as to inject flavoring substances into the corresponding section.
[0030] The aroma-enhancing component 3 is disposed within the main body 1 of the appliance. The aroma-enhancing component 3 includes an aroma-enhancing element 39. The aroma-enhancing component 3 has a storage cavity 31 and a delivery cavity 33, which are respectively fixed relative to the receiving cavity 13. The storage cavity 31 is used to store the aroma-enhancing element 39. The delivery cavity 33 is connected to the storage cavity 31 through a connecting channel 32, and the delivery cavity 33 can obtain the aroma-enhancing element 39 from the storage cavity 31 through the connecting channel 32. The aroma-enhancing component 3 includes a first moving member 35 and a second moving member 36. The first moving member 35 and the second moving member 36 are respectively reciprocally mounted at both ends of the extension direction of the delivery cavity 33. The delivery cavity 33 extends in a second direction, which may be perpendicular to the first direction, or the angle between the second and first directions may be slightly less than 90 degrees. The first moving member 35 is located at the end of the delivery cavity 33 facing the receiving cavity 13 in the second direction, and the second moving member 36 is located at the end of the delivery cavity 33 away from the receiving cavity 13 in the extension direction of the delivery cavity 33.
[0031] Both the first moving member 35 and the second moving member 36 extend in a second direction. The first moving member 35 has an insertion end 3522 facing away from the second moving member 36 in the second direction. This insertion end 3522 can penetrate and pass through the perforation 111 on the cavity wall of the receiving cavity 13 during the movement of the first moving member 35 along the conveying cavity 33. The first moving member 35 also has a conveying channel 3521 extending in the second direction. This conveying channel 3521 passes through the insertion end 3522 and communicates with the conveying cavity 33. The first moving member 35 and the second moving member 36 extend in a second direction. In the initial state, the two moving parts 36 are located on both sides of the connecting channel 32. The second moving part 36 can move towards the first moving part 35 in the second direction. After passing the connecting channel 32, it pushes the first moving part 35 so that the insertion end 3522 passes through the perforation 111 and inserts into the aerosol product 2. During the process of moving towards the first moving part 35, the second moving part 36 can also squeeze and break the flavoring component 39 in the conveying cavity 33 and inject the flavoring substance in the flavoring component 39 into the aerosol product 2 along the conveying channel 3521.
[0032] In this way, when the aroma of aerosol product 2 is insufficient, or when the aroma of aerosol product 2 is insufficient in the later stage of inhalation, the second moving part 36 of the aroma-enhancing component 3 is operated to push the first moving part 35 to squeeze the aroma-enhancing component 39, so as to add aroma-enhancing substances to aerosol product 2. This can avoid insufficient aroma in the later stage of inhalation and help improve the user's experience and aroma satisfaction.
[0033] In some embodiments, please refer to Figures 1 to 4 For the flavoring component 39, the flavoring component 39 includes a bursting bead 390, which includes a bursting bead shell 391 and a flavoring liquid encapsulated inside the bursting bead shell 391. The storage cavity 31 and the conveying cavity 33 are arranged in a first direction, which is the vertical direction when the heat-not-burning appliance is in use. When the heat-not-burning appliance is in use, the storage cavity 31 is located above the conveying cavity 33. The bursting bead 390 in the storage cavity 31 can enter the conveying cavity 33 along the connecting channel 32 under the action of gravity and fall between the first moving member 35 and the second moving member 36. As the second moving member 36 moves toward the first moving member 35, it can cooperate with the first moving member 35 in the second direction to squeeze the bursting bead 390, causing the bursting bead 390 to burst. During the squeezing process by the second moving member 36, the flavoring liquid in the bursting bead 390 overflows and is conveyed to the aerosol product 2 along the conveying channel 3521.
[0034] In some embodiments, the connecting channel 32 extends in the first direction, and the cross-section of the connecting channel 32 perpendicular to the first direction is circular. The diameter of the cross-section of the connecting channel 32 is larger than the diameter of the bursting bead 390 but less than twice the diameter of the bursting bead 390, thus ensuring that the bursting beads 390 fall sequentially and orderly under the action of gravity within the connecting channel 32. Furthermore, the cross-section of the conveying cavity 33 perpendicular to the second direction is circular, and the diameter of the cross-section of the conveying cavity 33 is larger than the diameter of the bursting bead 390 but less than twice the diameter of the bursting bead 390, thus ensuring that the flavoring liquid in only one bursting bead 390 is squeezed and conveyed to the aerosol product 2 at a time under the pushing action of the second moving member 36.
[0035] In some embodiments, the flavoring component 3 further includes a collection chamber 34 for collecting the burst capsule shells 391. The delivery chamber 33 has a first opening 333 communicating with the collection chamber 34. This first opening 333 is located on the side of the delivery chamber 33 opposite to the storage chamber 31 in a first direction; that is, the first opening 333 is located below the delivery chamber 33 when the heated non-combustible appliance is in use (or in an upright position). The collection chamber 34 is located below the delivery chamber 33, and the flavoring liquid inside the burst capsules 390 is delivered to… After the aerosol product 2 is processed, the first moving part 35 can move and reset towards the second moving part 36. During the reset process, the first moving part 35 can push the bursting bead shell 391 to the first opening 333, or the bursting bead 390 is squeezed to form the bursting bead shell 391 at the first opening 333. The bursting bead shell 391 can directly enter the collection chamber 34 through the first opening 333 under the action of gravity, so as to avoid the residual bursting bead shell 391 in the conveying chamber 33 from affecting the conveying of the flavoring liquid in other bursting beads 390.
[0036] In some embodiments, the fragrance-enhancing component 3 may not include a collection chamber 34 and a first opening 333. The fragrance-enhancing component 39 consists only of fragrance liquid, which is located in a storage chamber 31. The fragrance liquid in the storage chamber 31 can enter the conveying chamber 33 along the connecting channel 32 under gravity. During the movement of the second moving component 36 toward the first moving component 35, the fragrance liquid in the conveying chamber 33 can enter the aerosol product 2 along the conveying channel 3521. In these embodiments, it is necessary to ensure that the conveying channel 3521 can only allow the fragrance liquid to pass through during the movement of the second moving component 36 toward the first moving component 35, and that the second moving component 36 can avoid the outlet of the connecting channel 32 when in its initial state, so as to ensure that the fragrance liquid can enter the conveying chamber 33. During the movement of the second moving component 36 toward the first moving component 35, the second moving component 36 can seal the outlet of the connecting channel 32 to prevent the fragrance liquid in the storage chamber 31 from leaking along the connecting channel 32.
[0037] Combination Figure 3In some embodiments, the second movable member 36 has a top end 361 located outside the delivery cavity 33. The user can push the top end 361 of the second movable member 36 to push the first movable member 35 so that the insertion end 3522 passes through the perforation 111. The user can also pull the top end 361 of the second movable member 36 outward so that the second movable member 36 avoids the outlet of the connecting channel 32, so that the flavoring component 39 in the storage cavity 31 can enter the delivery cavity 33 along the connecting channel 32. The second movable member 36 has an extension towards the first movable member 35. The pull rod structure (not shown in the figure) can be located outside the conveying cavity 33, or an elastic element (not shown in the figure) can be provided between the second moving member 36 and the first moving member 35. The elastic element can be located inside the conveying cavity 33. During the process of the second moving member 36 moving away from the first moving member 35, the second moving member 36 can drive the first moving member 35 to move towards the second moving member 36 through the pull rod structure or the elastic element, so that the first moving member 35 is reset and the insertion end 3522 exits the perforation 111, which facilitates the subsequent removal of the aerosol product 2 from the containment cavity 13.
[0038] In some embodiments, please refer to Figure 3 and Figure 4 Furthermore, a first elastic reset member 37 can be provided in the flavoring component 3. The first moving member 35 has a first moving seal member 351 that seals with the cavity wall of the delivery cavity 33. The first elastic reset member 37 can be located in the delivery cavity 33 and elastically compressed between the end of the delivery cavity 33 near the receiving cavity 13 and the first moving seal member 351. In this way, during the process of the second moving member 36 moving away from the first moving member 35, the first moving member 35 can be reset under the action of the first elastic reset member 37, and the insertion end 3522 can be withdrawn from the perforation 111.
[0039] Specifically, the first elastic reset member 37 includes a cylindrical spring or a rubber spring. The delivery cavity 33 has a first end 331 close to the receiving cavity 13 and a second end 332 away from the receiving cavity 13 in the second direction. The first moving member 35 includes a first moving seal 351 and a hollow tube 352 connected to the first moving seal 351. The hollow tube 352 extends in the second direction, and the end of the hollow tube 352 facing the receiving cavity 13 is an insertion end 3522. The hollow tube 352 passes through the first moving seal 351. The first elastic reset member 37 is fitted on the hollow tube 352. One end of the first elastic reset member 37 in the second direction abuts against the cavity wall of the first end 331 of the delivery cavity 33, and the other end abuts against the first moving seal 351. The first elastic reset member 37 can apply an elastic force to the first moving seal 351 to move and reset the first moving member 35 toward the second moving member 36.
[0040] In some embodiments, please refer to Figure 3When the first elastic reset member 37 is in a freely extended state, the first movable seal member 351 is located on the side of the connecting channel 32 away from the second movable member 36 in the extension direction of the delivery cavity 33, that is, in the second direction, so that the flavoring member 39 in the storage cavity 31 can enter the delivery cavity 33 through the connecting channel 32 under the action of gravity.
[0041] When the first elastic reset member 37 is in its freely extended state, the first movable seal 351 in the first movable member 35 is located at the first opening 333. As in one embodiment, please refer to... Figure 3 The flavoring component 39 includes a burst bead 390 and a flavoring liquid encapsulated within the burst bead 390. When the first elastic member is in a freely elongated state, the first movable sealing member 351 is located at the first opening 333. The size of the first movable sealing member 351 in the second direction is larger than the size of the first opening 333 in the second direction, so that the first movable sealing member 351 can seal the first opening 333 and prevent a large amount of gas from entering the storage cavity 31 from the first opening 333 when the heated non-combustible appliance is not in use, causing the burst bead 390 to absorb moisture. Alternatively, in another embodiment, the size of the first movable sealing member 351 in the first direction may be slightly smaller than the size of the first opening 333 in the second direction. The first movable sealing member 351 is located at the first opening 333, and the distance between the first movable member 35 and the edge of the first opening 333 in the second direction is smaller than the diameter of the burst bead 390, so as to prevent the burst bead 390 from entering the collection cavity 34 from the first opening 333.
[0042] In other embodiments, when the first elastic reset member 37 is in a freely extended state, the first movable seal member 351 is located in the second direction between the first opening 333 and the communicating channel 32, so as to prevent the flavoring liquid-containing popping beads 390 in the delivery cavity 33 from entering the collection cavity 34 through the first opening 333, and at the same time, to prevent a large amount of gas from entering the storage cavity 31 from the first opening 333 and causing the popping beads 390 to absorb moisture.
[0043] In some embodiments, it is not necessary to consider whether the popping bead 39 absorbs moisture, and the specific position of the first movable seal 351 in the second direction when the first elastic reset member 37 is in a freely extended state is not limited. It is set in the extension direction of the conveying cavity 33, that is, in the second direction, the size of the first opening 333 is smaller than the diameter of the popping bead 390. In this way, even when the first elastic reset member 37 is in a freely extended state, the first movable seal 351 is located on the side of the first opening 333 away from the communicating channel 32 in the second direction, and the popping bead 390 will not enter the collecting cavity 34 from the first opening 333.
[0044] Of course, when the size of the first opening 333 in the second direction is larger than the diameter of the bursting bead 390, it must be set such that when the first elastic reset member 37 is in a free elongation state, the first movable seal 351 is located in the first opening 333 or between the first opening 333 and the connecting channel 32.
[0045] In some embodiments, please refer to Figure 3 and Figure 4 The flavoring component 3 also includes a second elastic reset member 38, which can be a cylindrical spring or a rubber spring. The second moving member 36 has a stop 361 located outside the conveying cavity 33. The second elastic reset member 38 is located outside the conveying cavity 33. The second elastic reset member 38 is elastically compressed between the end of the conveying cavity 33 facing away from the first moving member 35 and the stop 361 support, that is, elastically compressed between the second end 332 of the conveying cavity 33 and the stop 361. The second elastic reset member 38 can apply an elastic force to the second moving member 36 to make it move away from the first moving member 35 in the second direction, so as to realize the reset of the second moving member 36.
[0046] In some embodiments, the second elastic reset member 38 may also be located inside the conveying cavity 33. The end of the second moving member 36 located outside the conveying cavity 33 in the second direction is the abutment end 361, and the end located inside the conveying cavity 33 is the compression end 362. The second elastic reset member 38 may be connected between the compression end 362 and the second end 332 of the conveying cavity 33. The second elastic reset member 38 is in a stretched state. The second elastic reset member 38 can apply an elastic force to the second moving member 36 to reset the second moving member 36 away from the first moving member 35.
[0047] In some embodiments, the entire device body 1 has a housing 11, on which an operation button 12 is installed that can reciprocate in the extending direction of the conveying cavity 33. The operation button 12 abuts against the abutment 361 in the extending direction of the conveying cavity 33, that is, in the second direction. The user can press the operation button 12 to move the second moving member 36 toward the first moving member 35. Alternatively, in other embodiments, the housing 11 does not have an operation button, but a through hole can be provided on the housing 11, allowing the abutment 361 to be exposed. The user can directly press the abutment 361 to move the second moving member 36 toward the first moving member 35.
[0048] In some embodiments, the flavoring component 3 has a housing (for the entire flavoring component 3) Figure 3 and Figure 4(Not shown in the image) The housing may be cylindrical. The storage cavity 31 and the delivery cavity 33 are both located inside the housing. The main body 1 of the appliance has a cylindrical mounting cavity. The fragrance-enhancing component 3 is located inside the mounting cavity. The fragrance-enhancing component 3 is detachably connected to the main body 1 of the appliance. The fragrance-enhancing component 3 has a detachable state that can be separated from the main body 1 of the appliance. When the fragrance-enhancing component 3 is in the detachable state, the first elastic reset member 37 and the second elastic reset member 38 are both in a free extension state. The first moving member 35 and the second moving member 36 are both located inside the housing. This facilitates the separation of the fragrance-enhancing component 3 from the main body 1 of the appliance, making it easy to replace the fragrance-enhancing component 3 as a whole. By replacing the fragrance-enhancing component 3 with different fragrances, the different fragrance needs of the user can be met.
[0049] The housing of the flavoring component 3 has an installation cavity, and the storage cavity 31, the delivery cavity 33 and the collection cavity 34 are all located in the installation cavity. The housing has a through hole for the insertion end 3522 to pass through and a window for the abutment end 361 of the second moving member 36 to be exposed. The operation button 12 can be inserted into the window and abut against the abutment end 361. When the first moving member 35 and the second moving member 36 are in their initial positions, the flavoring component 3 is in a detachable state. The insertion end 3522 and the abutment end 361 of the first moving member 35 are both located inside the housing. The insertion end 3522 and the abutment end 361 can be located inside or outside the delivery cavity 33. As long as the entire first moving member 35 and the entire second moving member 36 are located inside the housing, the flavoring component 3 can be installed in the main body 1 of the device.
[0050] After the fragrance-enhancing component 39 in the fragrance-enhancing component 3 is consumed, the first moving component 35 and the second moving component 36 need to be moved to their initial positions under the action of external force or under the action of the first elastic reset component 37 and the second elastic reset component 38, so as to facilitate the removal of the fragrance-enhancing component 3 from the appliance body 1.
[0051] In some embodiments, the aroma-enhancing component 3 may be set to be non-detachable from the main body 1 of the device. When the first elastic reset member 37 and the second elastic reset member 38 are in a free extension state, the insertion end 3522 of the first moving member 35 and the abutment end 361 of the second moving member 36 may both be located outside the housing.
[0052] The above-described specific examples are for illustrative purposes only and are not intended to limit the scope of this invention. Those skilled in the art to which this invention pertains can make various simple deductions, modifications, or substitutions based on the concept of this invention.
Claims
1. A heat-not-burn appliance, characterized in that, include: The main body of the device has a accommodating cavity for containing aerosol products, and the cavity wall has perforations; A fragrance-enhancing component is disposed within the main body of the appliance. The fragrance-enhancing component includes a fragrance-enhancing element. The fragrance-enhancing component has a storage cavity and a delivery cavity that are respectively fixed relative to the receiving cavity. The storage cavity is used to store the fragrance-enhancing element, and the delivery cavity communicates with the storage cavity to obtain the fragrance-enhancing element. The flavoring component includes a first movable member and a second movable member, which are reciprocally mounted at both ends of the extending direction of the delivery cavity. The first movable member has an insertion end and a delivery channel that passes through the insertion end and communicates with the delivery cavity. The second movable member can move toward the first movable member so that the insertion end passes through the perforation and inserts into the aerosol product. The second movable member can also squeeze the flavoring component and inject the flavoring substance in the flavoring component into the aerosol product along the delivery channel.
2. The heat-not-burn appliance of claim 1, wherein, The flavoring component includes a burst bead, the flavoring component has a collection cavity for collecting the shell of the burst bead, and the delivery cavity has a first opening communicating with the collection cavity, the first opening being located on the side of the delivery cavity opposite to the storage cavity in the extending direction of the receiving cavity.
3. The heat-not-burn appliance of claim 2, wherein, The flavoring component includes a first elastic reset member, the first movable member having a first movable seal member that seals with the cavity wall of the delivery cavity, the first elastic reset member being located inside the delivery cavity and elastically compressed between the end of the delivery cavity near the receiving cavity and the first movable seal member.
4. The heat-not-burn appliance of claim 3, wherein, The storage cavity is connected to the delivery cavity through a connecting channel. When the first elastic reset member is in a free extension state, the first movable seal is located on the side of the connecting channel away from the second movable member in the extension direction of the delivery cavity. The first movable seal is located at the first opening, or the first movable seal is located between the first opening and the connecting channel in the extension direction of the delivery cavity.
5. The heat-not-burn appliance of claim 4, wherein, In the extending direction of the delivery cavity, the size of the first movable seal is larger than the size of the first opening; when the first elastic reset member is in a free-stretched state, the first movable seal seals the first opening.
6. The heat-not-burn appliance of claim 2, wherein, In the direction of extension of the delivery cavity, the size of the first opening is smaller than the diameter of the popping bead.
7. A heat-not-burn appliance according to any one of claims 1 to 6, wherein, The flavoring component further includes a second elastic reset member, the second movable member having a stop point located outside the delivery cavity, the second elastic reset member being elastically compressed between the end of the delivery cavity facing away from the first movable member and the stop point.
8. The heat-not-burn appliance of claim 7, wherein, The main body of the device has a shell, on which an operating button that can reciprocate in the extension direction of the conveying cavity is installed, and the operating button abuts against the abutting end in the extension direction of the conveying cavity.
9. A heat-not-burn appliance according to any one of claims 1 to 6, wherein, The flavoring assembly has a housing, the storage cavity and the delivery cavity are located in the housing, and the flavoring assembly is detachably connected with the appliance body; the flavoring assembly has a detachable state in which the flavoring assembly can be separated from the appliance body, and in the detachable state, the first moving piece and the second moving piece are located in the housing.
10. The heat-not-burn appliance of any of claims 1 to 6, wherein, In the extension direction of the accommodation cavity, the perforations are provided on the cavity wall of the accommodation cavity corresponding to the region of the substrate segment of the aerosol article or the region between the substrate segment and the opening of the accommodation cavity.