CN217743146U - Air regulating assembly and inhalable device - Google Patents

Abstract

The application provides a regulating air assembly and an inhalable device. The bottom cover is provided with a buckle, and the bottom cover is also provided with a plurality of first air inlets penetrating through the bottom cover. The mounting seat comprises a base plate and a first side wall, the base plate comprises a first surface and a second surface which are arranged oppositely, a through groove which penetrates through the first surface and the second surface is formed in the base plate, the first side wall is located on the first surface and encloses a first accommodating groove communicated with the through groove, the bottom cover is rotatably accommodated in the first accommodating groove, the buckle penetrates through the through groove, and the bottom cover is used for adjusting the number of the first air inlets corresponding to the through groove when the mounting seat rotates.

Description

Air regulating assembly and inhalable device

Technical Field

The application relates to the technical field of atomizing an atomized matrix and inputting the atomized matrix into a human body, in particular to an air regulating assembly and an inhalable device.

Background

The inhalable device generally includes a reservoir, an atomizer, and a power supply. The atomizer heats the liquid aerosolizable substrate by means of atomization, causing it to generate an aerosolizable gas through the gas flow path for ingestion by a user. The power supply device is used for supplying power to the atomizer. The reservoir component provides an absorbent liquid aerosolizable substrate for the atomizer.

However, the size of the vent hole of the air flow channel in the inhalable device is fixed, and the mouth feel of the user is single.

SUMMERY OF THE UTILITY MODEL

In order to solve the above disadvantages, it is necessary to provide an air regulating assembly and an inhalable device.

The application provides a transfer the gas subassembly, transfer the gas subassembly to include bottom and mount pad. The bottom cover is provided with a buckle, and the bottom cover is also provided with a plurality of first air inlets penetrating through the bottom cover. The mounting seat comprises a base plate and a first side wall, the base plate comprises a first surface and a second surface which are arranged oppositely, a through groove which penetrates through the first surface and the second surface is formed in the base plate, the first side wall is located on the first surface and encloses a first accommodating groove communicated with the through groove, the bottom cover is rotatably accommodated in the first accommodating groove, the buckle penetrates through the through groove, and the bottom cover is used for adjusting the number of the first air inlets corresponding to the through groove when the mounting seat rotates.

In some possible implementation manners, the substrate is provided with two through grooves symmetrically arranged relative to a central axis of the substrate, and the bottom cover is provided with two corresponding buckles.

In some possible implementation manners, the first surface is further provided with a groove communicated with the first accommodating groove, a sealing ring is arranged in the groove, and the sealing ring is arranged between the bottom cover and the substrate.

In some possible implementation manners, the mounting base further includes a second side wall, the second side wall is disposed on the second surface and encloses a second accommodating groove that is formed to be communicated with the through groove, an installation cylinder is further disposed on the second surface, the installation cylinder is located in the second accommodating groove, an airflow hole is disposed on the substrate and is communicated with the first accommodating groove and the installation cylinder, a second air inlet hole is disposed in a position of the bottom cover corresponding to the airflow hole, an airflow sensor is disposed in the installation cylinder and is used for sensing an airflow that reaches the installation cylinder through the airflow hole by the second air inlet hole.

In some possible implementations, the mounting cylinder includes a first portion and a second portion connected to the first portion, the second portion is mounted between the substrate and the first portion, an inner diameter of the second portion is smaller than an inner diameter of the first portion, the airflow sensor is disposed on the first portion, a gap is formed in the first portion, and the gap further extends to a part of the second portion.

In some possible implementation manners, the air adjustment assembly further includes a cover body, a protruding ring extends from an edge of one side of the cover body facing the mounting seat, the protruding ring is accommodated in the second accommodating groove, a plurality of air guide holes penetrating through the cover body are formed in the cover body, and the air guide holes are communicated with the second accommodating groove.

In some possible implementations, a plurality of elastic rings are provided on the outer sidewall of the convex ring in a circumferential direction.

In some possible implementations, a third receiving groove is formed on a side of the cover body facing the mounting barrel, and the first portion of the mounting barrel is partially received in the third receiving groove.

The application also provides an inhalable device which comprises a shell and a power supply assembly, wherein the inhalable device further comprises the air regulating assembly, the power supply assembly is arranged in the shell, the air regulating assembly is arranged at the end part of the shell, and the power supply assembly is sealed in the shell.

In some possible implementations, the inhalable device further includes a protective cover sleeved on an end of the housing where the air regulating assembly is mounted.

In this application, pass the logical groove connection of base plate on the bottom through the buckle on the bottom on the mount pad, the user rotates the bottom through comparing in the mount pad for the buckle is in logical inslot rotation, and then the quantity of the first inlet port that control bottom and logical groove correspond, with the air input that the control got into the shell, thereby realize that the user brings different taste of sucking through controlling different air inputs, this kind of structural style is simple convenient, convenient to use person operates.

Drawings

Fig. 1 is a perspective view of a register assembly according to an embodiment of the present application.

Fig. 2 is an exploded view of the air adjustment assembly shown in fig. 1.

Fig. 3 is an exploded view of the air adjustment assembly shown in fig. 1 from another perspective.

Fig. 4 is a schematic structural view illustrating the communication between the plurality of first air inlets and the through slot when the bottom cover of the air adjustment assembly shown in fig. 2 is engaged with the mounting seat.

FIG. 5 is a cross-sectional view of the air adjustment assembly shown in FIG. 1 taken along V-V.

Fig. 6 is a perspective view of an inhalable device according to an embodiment of the present application.

Fig. 7 is a cross-sectional view of the inhalable device shown in fig. 6 taken along VII-VII.

Description of the main elements

Inhalable device 1000

Air regulating assembly 100

Bottom cap 10

Fastener 11

First air intake hole 12

Second intake port 13

Hand-held part 14

Mounting base 20

Through slot 21

First accommodation groove 22

Mounting cylinder 23

First part 231

Second portion 232

Notch 233

Airflow aperture 24

Base plate 25

Groove 251

First surface 252

Second surface 253

Second receiving groove 26

First side wall 27

Second side wall 28

Cover body 30

Convex ring 31

Elastic ring 32

Third accommodation groove 33

Air guide hole 34

Sealing ring 40

Airflow sensor 50

Power supply assembly 200

Atomizer 300

Suction nozzle 310

Outer cover 400

Protective cap 500

The following detailed description will further describe the present application in conjunction with the above-described figures 1-7.

Detailed Description

The technical solutions in the embodiments of the present application are described in detail below clearly, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Hereinafter, embodiments of the present application will be described in detail. This application may, however, be embodied in many different forms and should not be construed as limited to the exemplary embodiments set forth herein. Rather, these exemplary embodiments are provided so that this disclosure will be thorough and detailed and will fully convey the scope of the disclosure to those skilled in the art.

In addition, the dimensions or thicknesses of various components, layers, and/or layers may be exaggerated in the figures for clarity and conciseness. Like numbers refer to like elements throughout. As used herein, the term "and/or", "and/or" includes any and all combinations of one or more of the associated listed items. In addition, it should be understood that when element a is referred to as being "connected" element B, element a may be directly connected to element B, or intermediate element C may be present and element a and element B may be indirectly connected to each other.

Further, the use of "may" when describing embodiments of the present application refers to "one or more embodiments of the present application.

The terminology used herein is for the purpose of describing particular embodiments and is not intended to be limiting of the application. As used herein, the singular forms are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, values, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, values, steps, operations, elements, components, and/or groups thereof.

Spatially relative terms, such as "upper" and the like, may be used herein for convenience of description to describe one element or feature's relationship to another element(s) or feature(s) as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device or apparatus in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other elements or features would then be oriented "below" or "beneath" the other elements or features. Thus, the exemplary term "up" can include both an orientation of above and below. It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms are used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings of the example embodiments.

Referring to fig. 1 and 2, the present application provides an air regulating assembly 100, wherein the air regulating assembly 100 is configured to be installed in a housing 400 (see fig. 7) and is configured to adjust an amount of air entering the housing 400. The air adjustment assembly 100 includes a bottom cover 10, a mounting base 20, and a cover body 30, and the bottom cover 10 and the cover body 30 are respectively mounted to both sides of the mounting base 20. The air regulating assembly 100 is received in an end portion of the housing 400.

Referring to fig. 2 and 3, mount 20 is generally cylindrical in profile. The mounting base 20 includes a base plate 25, a first side wall 27 and a second side wall 28, the base plate 25 includes a first surface 252 and a second surface 253 which are oppositely arranged, the base plate 25 has two through slots 21 penetrating through the first surface 252 and the second surface 253, and the two through slots 21 are symmetrically arranged about a central axis of the base plate 25. The first sidewall 27 is located on the first surface 252 and encloses the first receiving grooves 22 which are communicated with the two through slots 21. The second sidewall 28 is located on the second surface 253 and encloses the second receiving grooves 26 which are both communicated with the two through grooves 21, that is, the first receiving grooves 22 and the second receiving grooves 26 are communicated through the through grooves 21. In some embodiments, the through slots 21 are disposed on the base plate 25 in a fan shape about a central axis of the base plate 25.

Referring to fig. 2, 3 and 5, two sets of buckles 11 are disposed on the bottom cover 10 and are symmetrical about a central axis of the bottom cover 10. The bottom cover 10 is substantially circular. The bottom cover 10 is further provided with a plurality of first air inlet holes 12 penetrating through the bottom cover 10. In some embodiments, six first air intake holes 12 are exemplified, wherein the size and the number of the first air intake holes 12 on the bottom cover 10 can be specifically set according to requirements. The bottom cover 10 is rotatably received in the first receiving groove 22, and the two sets of fasteners 11 respectively pass through the corresponding through grooves 21 and are rotatably connected to the base plate 25 and can rotate in the through grooves 21 around the central axis of the base plate 25, so as to adjust the number of the first air inlet holes 12 of the bottom cover 10 corresponding to the through grooves 21. Two sets of buckle 11 structures that provide in this application, the person of being convenient for to suck is more steady when rotating bottom 10.

Referring to fig. 2 and 3, the surface of the bottom cover 10 facing away from the buckle 11 is further provided with a hand-held portion 14, and a user can rotate the bottom cover 10 by acting on the hand-held portion 14. In some embodiments, the handle 14 may be provided as a protrusion protruding from the surface of the bottom cover 10. When a user needs to suck, the user rotates the bottom cover 10 through the handle 14, so that the plurality of first air inlet holes 12 are communicated with the corresponding local through grooves 21, and the outside air is conveyed into the housing 400 through the plurality of first air inlet holes 12, the through grooves 21 and the second accommodating groove 26, so that the user can suck. If the person who takes the food needs to experience different tastes of taking the food, the bottom cover 10 can be further rotated, so that the number of the first air inlet holes 12 communicated with the corresponding through grooves 21 can be selectively adjusted, and different intake air amounts can be achieved to achieve different tastes of taking the food.

Referring to fig. 3 and 5, in some embodiments, the first surface 252 of the base plate 25 is provided with a groove 251 communicated with the first receiving groove 22, and the sealing ring 40 is disposed in the groove 251, wherein the sealing ring 40 is located between the bottom cover 10 and the base plate 25. With this configuration, the bottom cover 10 and the substrate 25 are tightly connected, so as to improve the stability of the connection between the bottom cover 10 and the mounting seat 20. In some embodiments, the sealing ring 40 is made of silicone.

Referring to fig. 2, 3 and 5, in some embodiments, the base plate 25 is provided with a mounting cylinder 23 on the second surface 253, and the mounting cylinder 23 is located in the second receiving groove 26. The base plate 25 is provided with an airflow hole 24, and the airflow hole 24 is communicated with the first accommodating groove 22 and the mounting cylinder 23. The bottom cover 10 is provided with a second air inlet hole 13 at a position corresponding to the airflow hole 24, the second air inlet hole 13 is communicated with the outside, and the second air inlet hole 13 is located at the middle of the bottom cover 10. The mounting tube 23 is generally cylindrical, with the mounting tube 23 being located in the middle of the base plate 25. The mounting cylinder 23 includes a first portion 231 and a second portion 232 connected to the first portion 231, the second portion 232 being provided between the base plate 25 and the first portion 231. The inner diameter of the first portion 231 is larger than the inner diameter of the second portion 232. The first portion 231 of the mounting tube 23 houses the airflow sensor 50. The airflow sensor 50 is used to sense the airflow from the second intake holes 13 to the mounting cylinder 23 through the airflow hole 24.

Referring to fig. 2, 4 and 5, in some embodiments, the first portion 231 is formed with a notch 233, and the notch 233 further extends to a portion of the second portion 232. The mounting tube 23 communicates with the second receiving groove 26 through the notch 233, that is, the air flow is delivered into the housing 400 through the second receiving groove 26. The arrangement of the notch 233 on the mounting tube 23 does not affect the mounting of the airflow sensor 50, and the communication with the second accommodating groove 26 is realized, so that the structure is simple.

Referring to fig. 3 and 5, in some embodiments, a protruding ring 31 extends from an edge of a side of the cover body 30 facing the mounting seat 20, and the protruding ring 31 is received in the second receiving groove 26 of the mounting seat. A plurality of elastic rings 32 are further disposed on the outer side wall of the convex ring 31 in the circumferential direction, and the elastic rings 32 elastically abut against the inner wall of the second receiving groove 26 of the mounting seat, so as to improve the stability of the connection between the cover body 30 and the mounting seat 20. In some embodiments, the airflow sensor 50 is a microphone, and the cover 30 may be made of silicone or rubber.

Referring to fig. 3, 4 and 5, in some embodiments, the cover body 30 is further provided with a plurality of air vents 34 penetrating through the cover body 30, and the air vents 34 are communicated with the second receiving groove 26. The external air is led out through the first air inlet hole 12, the through groove 21, the second accommodating groove 26 and the air guide hole 34 in sequence, and flows to the atomizer 300 through a gap between the power supply assembly 200 and the inner wall of the housing 400.

Referring to fig. 3 and 5, in some embodiments, the cover body 30 is provided with a third receiving groove 33 on a side facing the mounting cylinder 23, and the first portion 231 of the mounting cylinder 23 is partially received in the third receiving groove 33. The third receiving groove 33 allows the airflow sensor 50 to be more stably defined between the mounting cylinder 23 and the cover body 30.

Referring to fig. 6 and 7, the present application further provides an inhalable apparatus 1000, where the inhalable apparatus 1000 includes the power supply assembly 200, the atomizer 300, the housing 400, and the air regulating assembly 100 described above. Housing 400 is generally hollow and cylindrical, and atomizer 300 is used to heat a liquid aerosolizable substrate to generate an aerosol through an airflow channel for inhalation by a user. The atomizer 300 has a suction nozzle 310 at one end, and the suction nozzle 310 extends out of one end of the housing 400 for a user to suck from the suction nozzle 310. The other end of the atomizer 300 is housed in the housing 400. In some embodiments, housing 400 is secured to the outer sidewall of atomizer 300 by an adhesive (not shown). In some embodiments, the shape of the mouthpiece 310 may take the form of an ergonomically rounded shape, an elliptical shape, a duckbill shape, or the like.

Referring to fig. 5 and 7, the power supply module 200 is accommodated in the housing 400, and the power supply module 200 is fixed in the housing 400 by the air adjustment module 100. Power supply assembly 200 is used to provide electrical power to atomizer 300 for heating a liquid aerosolizable substrate. When a user takes the food, the airflow in the second air inlet hole 13 passes through the airflow hole 24 to the first portion 231, so that the airflow sensor 50 is activated, the airflow sensor 50 transmits information to a controller (not shown), and the controller controls the power supply assembly 200 to supply power to the atomizer 300. The atomizer 300 heats and atomizes to generate aerosol, which is fed through the mouthpiece 310 by a user. The air flow entering the housing 400 is adjusted by the air adjustment assembly 100, so that the air flow flows to the esophagus of the atomizer 300 through the gap between the power supply assembly 200 and the housing 400 to adjust different tastes of the smoker. In some embodiments, power supply assembly 200 may be a cylindrical battery.

Referring to fig. 6 and 7, the end of the housing 400 away from the mouthpiece 310 is further sleeved with a detachable protective cover 500, so that when the inhalable apparatus 1000 is not used by a smoker, the protective cover 500 covers the end of the housing 400 away from the mouthpiece 310, thereby preventing external impurities or moisture from entering the housing 400 through the bottom cover 10 and protecting the power supply assembly 200 in the housing 400.

In some embodiments, the inhalable device 1000 may be an electronic cigarette, i.e., the aerosolizable substrate is tobacco tar. In other embodiments, inhalable device 1000 is not limited to an e-cigarette, but may be other nebulizers 300 for nebulizing an nebulizable substrate into an aerosol for inhalation by a user. For example, the inhalable apparatus 1000 may also be a device for aerosolizing a liquid for delivery to a human body, such as a medical aerosol inhaler for treating upper respiratory diseases. In this case, the nebulizable matrix may be a liquid medicine for the treatment of upper respiratory diseases. The medicinal fog formed by atomizing the medicinal liquid is inhaled into the respiratory tract of a human body until reaching the alveoli by the respiration of a patient, so that the medicinal fog is used for local medicinal treatment of the upper respiratory tract. Inhalable device 1000 may also be applied to aerosolize an aerosolizable substrate for aerosol delivery to a skin surface, e.g., cosmetic benefits may also be achieved by spraying the aerosol onto the skin.

Compared with common intravenous injection and oral medicines, the liquid medicine atomization mode can atomize the liquid medicine to form aerosol which directly acts on a position needing treatment, and a better treatment effect can be achieved. Instead of the intravenous injection method, the liquid medicine is delivered into the vein by a syringe and finally delivered to the required treatment position, and the process needs to pass through blood circulation and metabolism; or for example, oral drug approaches, such as oral drug approaches, are required to reach the treatment site through the digestive system and blood circulation, and both approaches do not guarantee sufficient drug action at the treatment site. Meanwhile, in some occasions, compared with the medicine in the mouth, the medicine liquid is not more convenient to atomize, such as the throat pain, and if the medicine in the mouth is sucked, the speaking is influenced.

In this application, pass through groove 21 that base plate 25 was passed to buckle 11 on bottom 10 and connect on mount pad 20, the user rotates bottom 10 through comparing in mount pad 20, make buckle 11 in leading the rotation of groove 21, and then the quantity of the first inlet port 12 that bottom 10 and logical groove 21 correspond is controlled, with the air input of control entering shell 400, thereby realize that the user brings different tastes of sucking through controlling different air inputs, this kind of structural style is simple and convenient, convenient to use person operates.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. An air regulating assembly, comprising:

the bottom cover is provided with a buckle, and a plurality of first air inlets penetrating through the bottom cover are also arranged on the bottom cover;

the mounting seat comprises a base plate and a first side wall, the base plate comprises a first surface and a second surface which are arranged oppositely, the base plate is provided with a through groove which is communicated with the first surface and the second surface, the first side wall is positioned on the first surface and surrounds the first surface to form a first accommodating groove communicated with the through groove, the bottom cover is rotatably accommodated in the first accommodating groove, the buckle penetrates through the through groove, and the bottom cover is compared with the mounting seat and is used for adjusting the quantity of the first air inlet holes corresponding to the through groove when the mounting seat rotates.

2. The assembly of claim 1, wherein the base plate has two through slots symmetrically disposed about a central axis of the base plate, and the bottom cover has two corresponding fasteners.

3. The assembly of claim 1, wherein the first surface further defines a groove in communication with the first receiving groove, the groove defining a seal disposed between the bottom cover and the base plate.

4. The assembly of claim 1, wherein the mounting base further includes a second side wall, the second side wall is disposed on the second surface and encloses a second receiving cavity communicating with the through slot, the second surface is further provided with a mounting cylinder, the mounting cylinder is disposed in the second receiving cavity, the base plate is provided with an airflow hole, the airflow hole communicates with the first receiving cavity and the mounting cylinder, the bottom cover is provided with a second air inlet hole at a position corresponding to the airflow hole, and an airflow sensor is disposed in the mounting cylinder and is used for sensing an airflow from the second air inlet hole to the mounting cylinder through the airflow hole.

5. The assembly of claim 4, wherein the mounting cylinder includes a first portion and a second portion connected to the first portion, the second portion being mounted between the base plate and the first portion, the second portion having an inner diameter smaller than an inner diameter of the first portion, the airflow sensor being disposed in the first portion, the first portion having a notch formed therein, the notch further extending partially into the second portion.

6. The assembly of claim 5, further comprising a cover body, wherein a protruding ring extends from an edge of a side of the cover body facing the mounting seat, the protruding ring is received in the second receiving groove, the cover body is provided with a plurality of air vents penetrating the cover body, and the air vents are communicated with the second receiving groove.

7. The air adjustment assembly of claim 6, wherein a plurality of elastic rings are provided on an outer side wall of the convex ring in a circumferential direction.

8. The assembly of claim 6, wherein a third receiving groove is defined in a side of the cover body facing the mounting cylinder, the first portion of the mounting cylinder being partially received in the third receiving groove.

9. An inhalable device comprising a housing and a power supply assembly, wherein the inhalable device further comprises the gas regulating assembly as claimed in any one of claims 1-8, wherein the power supply assembly is disposed within the housing, and wherein the gas regulating assembly is mounted to an end of the housing and seals the power supply assembly within the housing.

10. The inhalable device of claim 9, further comprising a protective cap that is fitted over the end of the housing where the air regulating assembly is mounted.

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