CN220916613U - Atomization component, atomizer and atomizing device - Google Patents

Abstract

The application relates to an atomization assembly, an atomizer and an atomization device, wherein the atomization assembly comprises a shell, a heating piece and an oil absorption piece; the shell comprises a first shell part and a second shell part, the first shell part and the second shell part are in butt joint and enclose to form an accommodating space, and an atomization channel penetrating through the accommodating space is further formed in the shell; be equipped with the oil inlet with accommodation space intercommunication on the lateral wall of first shell portion, generate heat the piece and the oil absorption piece sets up in accommodation space, oil absorption piece shutoff oil inlet, the piece laminating of generating heat is in the one side that oil absorption piece kept away from the oil inlet, and the piece that generates heat is equipped with the through-hole of intercommunication oil absorption piece and atomizing passageway. Can simplify the installation operation of atomizing subassembly, improve installation effectiveness to guarantee atomizer's uniformity and atomizing taste, promote user experience.

Description

Atomization component, atomizer and atomizing device

Technical Field

The application relates to the technical field of atomizing equipment, in particular to an atomizing assembly, an atomizer and an atomizing device.

Background

The atomization component is used as an important component in the atomization device and comprises a heating piece and an oil guiding cotton, the heating piece can generate heat after being electrified, oil liquid adsorbed on the oil guiding cotton is evaporated, and atomized smoke is taken away by air flow inhaled by a user.

Among the prior art, atomization component is mostly manual operation installation, and installation technique uniformity is poor, leads to atomizing device's atomizing taste uniformity poor to installation effectiveness is low, influences production.

How to simplify the installation operation of the atomization assembly, improve the installation efficiency, ensure the consistency and the atomization taste of the atomizer, and improve the user experience is a technical problem required to be solved by the technicians in the field.

Disclosure of utility model

The application aims to provide an atomization assembly, an atomizer and an atomization device, which can simplify the installation operation of the atomization assembly, improve the installation efficiency, ensure the consistency and the atomization taste of the atomizer and improve the user experience.

In order to solve the technical problems, the application provides an atomization assembly, which comprises a shell, a heating element and an oil absorption element; the shell comprises a first shell part and a second shell part, wherein the first shell part and the second shell part are in butt joint and enclose to form an accommodating space, and an atomization channel penetrating through the accommodating space is further formed in the shell; the side wall of the first shell part is provided with an oil inlet communicated with the accommodating space, the heating part and the oil absorbing part are arranged in the accommodating space, the oil absorbing part seals the oil inlet, the heating part is attached to one side, away from the oil inlet, of the oil absorbing part, and the heating part is provided with a through hole communicated with the oil absorbing part and the atomizing channel.

The shell is arranged to be of a structure comprising the first shell part and the second shell part, the two shell parts are in butt joint and enclose to form an accommodating space, and the heating part and the oil absorption part are conveniently arranged in the accommodating space, so that the installation operation is simplified, and the installation efficiency is improved.

The first shell part is further provided with a mounting opening, the mounting opening is positioned at one side end facing the second shell part, during mounting, the oil absorbing part is firstly mounted on the first shell part through the mounting opening, so that the oil absorbing part is used for blocking the oil inlet, then the heating part is mounted on the first shell part through the mounting opening and is tightly attached to the oil absorbing part, the second shell part is fixedly abutted to the first shell part, the mounting operation of the atomization assembly can be completed, the mounting consistency between the oil absorbing part and the heating part can be guaranteed, and further the taste consistency of the atomization device is guaranteed.

Optionally, the oil inlet is disposed on a side wall of the first shell portion parallel to the extending direction of the atomizing channel, and two opposite side walls of the second shell portion perpendicular to the extending direction of the atomizing channel are provided with groove structures.

Optionally, in the first shell portion and the second shell portion, a positioning groove is formed in one side wall, and a positioning protrusion matched with the positioning groove is formed in the other side wall.

Optionally, a connecting piece extending towards the direction where the positioning protrusion is located is further arranged on the inner wall of the positioning groove, the clamping protrusion is arranged on the connecting piece, and a clamping groove or a clamping through hole matched with the clamping protrusion is formed in the positioning protrusion.

Optionally, the device further comprises a sealing block, and a positioning groove structure matched with the connecting piece is arranged on the sealing block.

Optionally, the first shell portion and the second shell portion are respectively provided with a clamping structure which is mutually matched, wherein one of the clamping structure of the first shell portion and the clamping structure of the second shell portion is a clamping protrusion, and the other is a clamping groove or a clamping through hole.

Optionally, a mounting notch is further formed in a side wall of the first shell portion facing one side end of the second shell portion, and the heating element is further provided with a pin assembled in the mounting notch.

Optionally, the sealing ring is sleeved at one side end of the first shell part far away from the second shell part, and the sealing ring is arranged along the circumferential direction of the oil inlet.

The application also provides an atomizer comprising an atomizing assembly as described above.

The application also provides an atomization device, which comprises the atomizer and further comprises a power supply assembly, wherein the power supply assembly is used for supplying power to the atomizer.

The technical effects of the atomizer with the atomization assembly and the atomization device with the atomizer are similar to those of the atomization assembly, and the technical effects are omitted for saving the space.

Drawings

FIG. 1 is a cross-sectional view of a nebulizer provided by an embodiment of the application;

FIG. 2 is a schematic view of an atomizing assembly according to an embodiment of the present disclosure;

FIG. 3 is a cross-sectional view of FIG. 2;

fig. 4 is an exploded view of fig. 2.

In fig. 1 to 4, reference numerals are explained as follows:

10 an atomizing assembly; 20 a housing; 30 airflow channels; a 40 oil cup; 50 oil feed channels; 60 suction nozzles; 70 sealing the plug; 80 air inlets;

1a shell, 11a first shell, 111 an oil inlet, 112 a mounting opening, 113 a mounting notch, 12a second shell, 121 a through groove, 13 an atomization channel, 14 a sealing block and 141 a positioning groove structure; 2 heating element, 21 through hole, 22 pins; 3, an oil absorption piece; 4, positioning grooves; 5, positioning the bulge; 6, connecting pieces; 71 clamping bulges and 72 clamping through holes; and 8, sealing rings.

Detailed Description

In order to make the technical solution of the present application better understood by those skilled in the art, the present application will be further described in detail with reference to the accompanying drawings and specific embodiments.

The embodiment of the application provides an atomization assembly, an atomizer and an atomization device, wherein the atomization device comprises the atomizer and a power supply assembly, as shown in fig. 1, the atomizer comprises a shell 20, an atomization assembly 10, an airflow channel 30, an oil cup 40, a sealing structure and the like which are arranged in the shell 20, wherein one end of the shell 20 is provided with a suction nozzle 60, the other end of the shell 20 is provided with an air inlet 80, the atomization assembly 10 is provided with an atomization channel 13, the oil cup 40 is used for providing oil to the atomization assembly 10, the atomization assembly 10 can heat and atomize the oil, the suction nozzle 60, the air inlet 80, the airflow channel 30 and the atomization channel 13 are communicated, and when a user sucks the oil through the suction nozzle 60, external air can enter the airflow channel 30 through the air inlet 80 and carry the atomized oil along the airflow channel 30 to the suction nozzle 60. The suction nozzle 60 is further provided with a blocking plug 70 for preventing false start and oil leakage from the suction nozzle 60 while ensuring cleanliness of the suction nozzle 60. The power supply assembly is used for providing power for the atomizer, the atomizer and the power supply assembly can be of an integrated structure or a split structure, namely, the atomizing device can be a disposable product of an integrated structure, and can also be a bullet-exchanging product of a replaceable atomizer.

As shown in fig. 2 to 4, the atomizing assembly 10 includes a housing 1, and a heat generating member 2 and an oil absorbing member 3 disposed in the housing 1, wherein the housing 1 includes two housing portions, namely a first housing portion 11 and a second housing portion 12, and the first housing portion 11 and the second housing portion 12 are abutted and enclosed to form an accommodating space. The housing 1 is further provided with an atomizing channel 13 penetrating the receiving space.

Be equipped with the oil inlet 111 of intercommunication accommodation space on the lateral wall of first shell portion 11, the piece 2 that generates heat and the oil absorption piece 3 all are located accommodation space, and the oil absorption piece 3 can shutoff oil inlet 111, and the piece 2 that generates heat is laminated in the one side that oil absorption piece 3 kept away from oil inlet 111 to the piece that generates heat still is equipped with the through-hole 21 of intercommunication oil absorption piece 3 and atomizing passageway 13.

The oil cup 40 is communicated with the oil inlet 111 through the oil inlet channel 50 and can supply oil to the oil inlet 111, the oil enters from the oil inlet 111 and is absorbed by the oil absorbing member 3, the heating member 2 heats and atomizes the oil absorbed by the oil absorbing member 3, so that the oil is atomized, and aerosol generated by the atomization of the oil passes through the through hole 21 of the heating member 2 and flows along the atomization channel 13 along with the airflow and reaches the suction nozzle 60 through the airflow channel 30.

The shell 1 is arranged to be of a structure comprising the first shell part 11 and the second shell part 12, and the two shell parts are in butt joint and enclose to form a containing space, so that the heating element 2 and the oil absorbing element 3 are conveniently installed in the containing space, the installation operation is simplified, and the installation efficiency is improved.

As shown in fig. 4, the first shell portion 11 is further provided with a mounting opening 112, the mounting opening 112 is located at one side end facing the second shell portion 12, during mounting, the oil absorbing member 3 is mounted on the first shell portion 11 through the mounting opening 112, so that the oil absorbing member 3 seals the oil inlet 111, then the heating member 1 is mounted on the first shell portion 11 through the mounting opening 112 and is tightly attached to the oil absorbing member 3, and then the second shell portion 12 is fixedly abutted to the first shell portion 11, so that the mounting operation of the atomization assembly 10 can be completed, the mounting consistency between the oil absorbing member 3 and the heating member 2 can be ensured, and further the taste consistency of the atomization device is ensured.

The heating element 2 is in a plate-shaped structure, and specifically can be in a plate-shaped structure formed by stacking heating wires, can be in a plate-shaped structure with through holes or can be a heating net, and the heating element 2 of the plate-shaped structure is stable in structure, can be produced in batches, and can be ensured in self consistency.

Compared with the prior art, the atomization assembly 10 provided by the embodiment has the advantages that the heating wire is wound on the surface of the oil absorbing member 3, or the oil absorbing member 3 is wrapped outside the heating wire, so that the overall structure can be obviously simplified, the installation operation of the oil absorbing member 3 and the heating member 2 is simplified, the installation efficiency is improved, and the production is facilitated.

The oil inlet 111 is disposed on a side wall of the first shell portion 11 parallel to the extending direction of the atomizing channel 13, as shown in fig. 4, the first shell portion 11 and the second shell portion 12 are in a groove structure, and after the first shell portion 11 and the second shell portion 12 are butt-jointed and mounted, groove walls of the groove structures of the two shell portions are butt-jointed and enclose to form a whole shell 1.

As shown in fig. 3, after the first shell portion 11 and the second shell portion 12 are butt-mounted, an atomization passage 13 can be formed between the first shell portion 11 and the second shell portion 12, and an extending direction of the atomization passage 13 is a groove wall penetrating through the groove structure, so that a side wall parallel to the extending direction of the atomization passage 13 means a side wall of the first shell portion 11 away from the second shell portion 12.

Groove structures 121 are correspondingly arranged on two opposite side walls (namely two opposite side walls of the groove structure) of the second shell portion 12 perpendicular to the extending direction of the atomizing channel 13 respectively, after the first shell portion 11 and the second shell portion 12 are in butt joint and mounted, the first shell portion 11 can seal the groove structures 121 and enclose to form a hole structure located in the shell 1, and the atomizing channel 13 is communicated between the two hole structures. So set up, the heating element 2 forms a lateral wall of atomizing passageway 13, and the tobacco tar after the heating element 2 heats the atomizing can directly get into in the atomizing passageway 13, simple structure and can simplify processing technology and installation technique.

As shown in fig. 3 and 4, the atomizing assembly 10 further includes a sealing block 14, the sealing block 14 is located in the accommodating space, specifically, the sealing block 14 may be disposed in the second housing portion 12, and the sealing block 14 is provided with a groove structure corresponding to the groove structure 121 along the extending direction of the atomizing channel 13, in the mounted state, the groove structure of the sealing block 14 and the heat generating element 2 enclose to form the atomizing channel 13, and the sealing block 14 can provide a sealing effect on the atomizing channel 13.

In this embodiment, in the abutting and fixing state of the first shell portion 11 and the second shell portion 12, the sealing block 14 can abut against at least part of the edge of the heat generating element 2, so as to ensure the positional stability of the heat generating element 2.

In this embodiment, the first shell portion 11 and the second shell portion 12 are respectively provided with a mutually adapted clamping structure 7, and after the first shell portion 11 and the second shell portion 12 are butted, they can be clamped and fixed by the clamping structure 7.

Of course, in this embodiment, how the first shell portion 11 and the second shell portion 12 are fixed after being abutted is not particularly limited, for example, the two shell portions may be fixed by plugging, jogging, or other manners, or the two shell portions may be fixed by additionally providing a fixing member, and when the two shell portions are fixed by clamping, the overall structure and the installation operation can be simplified.

Specifically, the mutually-adapted clamping structure 7 may be configured as a clamping protrusion 71 and a clamping hole 72, for example, the first shell 11 is provided with the clamping protrusion 71, the second shell 12 is provided with the clamping hole 72, or the first shell 11 is provided with the clamping hole 72, and the second shell is provided with the clamping protrusion 71. Of course, the mutually adapted clamping structures 7 may also be provided as both clamping projections 71 and clamping recesses.

In this embodiment, for further convenient installation, the first shell portion 11 and the second shell portion 12 are further provided with positioning structures adapted to each other, specifically, as shown in fig. 4, a positioning protrusion 5 is provided on a side wall of the first shell portion 11, a positioning groove 4 is provided on a side wall of the second shell portion 12, and the positioning protrusions 5 and the positioning grooves 4 are adapted to each other and form positioning structures respectively. Of course, the first housing portion 11 may be provided with the positioning groove 4, and the second housing portion 12 may be provided with the positioning protrusion 5.

When the device is installed, the second shell part 12 seals the installation opening 112, and the first shell part 11 and the second shell part 12 are in butt joint and fixed in a state of being matched with each other in a positioning way through the positioning protrusions 5 and the positioning grooves 4. By such arrangement, the accuracy of the mounting of the first and second shell portions 11 and 12 can be ensured, the mounting efficiency can be improved, and the adjustment time can be reduced.

The cell wall of constant head tank 4 still can be equipped with the guide surface, and during the installation, the location arch 5 can slide along the guide surface for first shell portion 11 and second shell portion 12 are along the installation direction relative movement who presets, and when location arch 5 and constant head tank 4 location cooperation, first shell portion 11 and second shell portion 12 accessible joint structure 7 joint are fixed. The arrangement of the guide surfaces can further simplify the mounting operation between the first and second housing portions 11 and 12 and improve the mounting efficiency.

As shown in fig. 4, the positioning protrusion 5 is also provided with a guiding surface in a matching manner, and the shape of the positioning protrusion 5 is matched with the shape of the positioning groove 4, when the first clamping structure 7 is in clamping fit with the second clamping structure 7, the positioning protrusion 5 and the positioning groove 4 can be matched with each other, so that the appearance of the housing 1 is more regular.

Specifically, the width of the end part of the positioning protrusion 5 is smaller than the width of the root part, the width of the notch of the positioning groove 4 is larger than the width of the groove bottom, and when the positioning protrusion is matched at first, the end part of the positioning protrusion 5 is inserted into the notch of the positioning groove 4 and moves relatively along the installation direction until the end part of the positioning protrusion 5 is matched with the groove bottom of the positioning groove 4 in a positioning way, and the root part of the positioning protrusion 5 is matched with the notch of the positioning groove 4 in a positioning way.

The inner wall of the positioning groove 4 is also connected with a connecting piece 6, the connecting piece 6 extends towards the direction of the positioning protrusion 5, specifically, one end of the connecting piece 6 is fixed with the groove bottom, the other end extends towards the other shell part, the connecting piece 6 is provided with a clamping protrusion 71, and the positioning protrusion 5 is provided with a clamping through hole 72 (or a clamping groove) matched with the clamping protrusion 71.

During installation, the first shell part 11 and the second shell part 12 are in butt joint, so that the positioning groove 4 is matched with the positioning protrusion 5 in a positioning way, and meanwhile, the clamping protrusion 71 is matched with the clamping through hole 72 (or the clamping groove) in a clamping way, so that the two shell parts can be fixed through clamping.

As shown in fig. 4, taking the example that the first shell portion 11 is provided with the positioning protrusion 5 and the second shell portion 12 is provided with the positioning groove 4, the second shell portion 12 is further provided with the connecting piece 6, one end of the connecting piece 6 is fixed with the groove bottom of the positioning groove 4, the other end of the connecting piece 6 extends toward the first shell portion 11, the connecting piece 6 is provided with the clamping protrusion 71, and the positioning protrusion 5 is provided with the clamping through hole 72.

Only one end of the connecting piece 6 is connected with the bottom of the positioning groove 4, so that the connecting piece 6 can be slightly deformed before the clamping protrusion 71 and the clamping through hole 72 are clamped and matched in the installation process until the connecting piece 6 is restored to the original position after the clamping protrusion 71 and the clamping through hole 72 are clamped and matched. By the arrangement, the acting force required by the clamping protrusion 71 and the clamping through hole 72 during the clamping in the mounting process can be reduced, so that the mounting operation is convenient.

Specifically, as shown in fig. 4, the connecting piece 6 may be located in the second shell portion 12, the outer wall of the connecting piece 6 and the inner wall of the positioning protrusion 5 are respectively provided with the fastening structure 7, or the connecting piece 6 may be located outside the second shell portion 12, and the inner wall of the connecting piece 6 and the outer wall of the positioning protrusion 5 are respectively provided with the fastening structure 7.

As shown in fig. 4, the sealing block 14 is further provided with a positioning groove structure 141 adapted to the connecting member 6, facilitating the assembling operation between the sealing block 14 and the second housing portion 12.

As shown in fig. 4, a mounting notch 113 is further formed at a side wall of the first shell portion 11 facing a side end of the second shell portion 12, the heating element 2 is further provided with a positive and negative electrode pin 22, the pin 22 is assembled in the mounting notch 113, and when the first shell portion 11 and the second shell portion 12 are in a butt joint fixing state, the side wall of the second shell portion 12 can seal the mounting notch 113 and enclose the mounting notch 113 to form a perforation, and the pin 22 can be penetrated out from the perforation.

Of course, in this embodiment, the side wall of the first shell portion 11 may be directly provided with a perforation, and the side wall of the first shell portion 11 may be provided with an installation notch 113, so that when the perforation is formed by enclosing the side wall of the second shell portion 12 and the installation notch 113, the processing technology of the first shell portion 11 is simplified, and meanwhile, the installation operation of the heat generating element 2 can be facilitated, and the installation efficiency is improved.

As shown in fig. 4, the heat generating component 2 is further provided with pins 22, the pins 22 include positive pins and negative pins arranged in a staggered manner, the two pins 22 are not led out from the same position, the two pins 22 are specifically led out from two opposite sides of the heat generating component 2, and the led out directions of the two pins 22 are opposite, so that the two mounting notches 113 of the first shell 11 are respectively arranged on two opposite side walls.

As shown in fig. 2-4, the atomization assembly 10 further includes a sealing ring 8, the sealing ring 8 is sleeved on the outer side of one side end of the first shell 11 far away from the second shell 12, the sealing ring 8 is arranged along the circumference of the oil inlet 111 and is used for sealing from the circumference of the oil inlet 111, so that oil in the oil cup 40 can enter the oil inlet 111 through the oil inlet channel 50, and oil leakage is prevented.

Specifically during installation, firstly, the oil absorbing piece 3 is placed in the inner cavity of the first shell part 11 through the mounting opening 112 and is used for sealing the oil inlet 111, then, the heating piece 2 is placed in the inner cavity through the mounting opening 112, the pins 22 of the heating piece 2 are located at the mounting notch 113, then, the second shell part 12 and the first shell part 11 are clamped and fixed through the clamping structure 7, at the moment, the side wall of the second shell part 12 can seal the mounting notch 113 of the first shell part 11 and enclose to form a perforation, the positions of the pins 22 are stable, meanwhile, the heating piece 2 can seal the through groove 121 and enclose to form an atomization channel 1, and finally, the sealing ring 8 is sleeved at one side end of the first shell part 11 far away from the second shell part 12.

The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application, which are intended to be comprehended within the scope of the present application.

Claims (10)

1. An atomization assembly is characterized by comprising a shell (1), a heating element (2) and an oil absorption element (3);

The shell (1) comprises a first shell part (11) and a second shell part (12), the first shell part (11) and the second shell part (12) are in butt joint and enclose to form an accommodating space, and the shell (1) is also provided with an atomization channel (13) penetrating through the accommodating space;

be equipped with on the lateral wall of first shell portion (11) with oil inlet (111) of accommodation space intercommunication, generate heat piece (2) with oil absorption piece (3) set up in the accommodation space, oil absorption piece (3) shutoff oil inlet (111), generate heat piece (2) laminate in oil absorption piece (3) are kept away from one side of oil inlet (111), just generate heat piece (2) be equipped with the intercommunication oil absorption piece (3) with through-hole (21) of atomizing passageway (13).

2. An atomizing assembly according to claim 1, characterized in that the oil inlet (111) is provided on a side wall of the first housing part (11) parallel to the direction of extension of the atomizing passage (13), and that groove structures (121) are provided on two oppositely arranged side walls of the second housing part (12) perpendicular to the direction of extension of the atomizing passage (13).

3. An atomizing assembly according to claim 1, characterized in that one of the first shell portion (11) and the second shell portion (12) is provided with a positioning groove (4) on a side wall, and the other side wall is provided with a positioning protrusion (5) adapted to the positioning groove (4).

4. An atomizing assembly according to claim 3, characterized in that the inner wall of the positioning groove (4) is further provided with a connecting piece (6) extending towards the direction in which the positioning protrusion (5) is located, the connecting piece (6) is provided with a clamping protrusion (71), and the positioning protrusion (5) is provided with a clamping groove or a clamping through hole (72) which is matched with the clamping protrusion (71).

5. An atomizing assembly according to claim 4, characterized in that it further comprises a sealing block (14), said sealing block (14) being provided with a positioning groove structure (141) adapted to said connecting piece (6).

6. The atomizing assembly according to claim 1, wherein the first shell portion (11) and the second shell portion (12) are respectively provided with mutually-adapted clamping structures (7), and one of the clamping structures (7) of the first shell portion (11) and the clamping structures (7) of the second shell portion (12) is a clamping protrusion (71), and the other is a clamping groove or a clamping through hole (72).

7. An atomizing assembly according to any one of claims 1-6, characterized in that a side wall of the first housing part (11) facing a side end of the second housing part (12) is further provided with a mounting notch (113), and the heat generating member (2) is further provided with a pin (22) fitted in the mounting notch (113).

8. An atomizing assembly according to any one of claims 1-6, further comprising a sealing ring (8), wherein the sealing ring (8) is sleeved at a side end of the first shell portion (11) away from the second shell portion (12), and is arranged along a circumferential direction of the oil inlet (111).

9. A nebulizer comprising a nebulization assembly according to any one of claims 1 to 8.

10. An atomizing device comprising the atomizer of claim 9, further comprising a power supply assembly for providing power to the atomizer.