CN218457304U - Oil inlet balance control mechanism and atomization device - Google Patents

Abstract

The utility model relates to an oil feed balance control mechanism and atomizing device, wherein oil feed balance control mechanism includes casing, oil feed subassembly and oil storage piece, the inside oil storage chamber that is equipped with of casing, the oil feed subassembly sets up in the inside in oil storage chamber, the inside airflow channel that is equipped with of oil feed subassembly, be equipped with the oil inlet that communicates oil storage chamber and airflow channel on the oil feed subassembly, be equipped with on the oil inlet and lead oil spare, oil storage piece sets up in the oil storage chamber, and oil storage piece and lead oil spare contact, oil storage piece is used for leading the oil body transmission in the oil storage chamber for leading oil spare; it absorbs the oil body of oil storage intracavity earlier through the oil storage piece, and then through the mode with lead the contact of oil piece, give the oil piece of leading with the oil body transmission, the speed that the control oil body got into in the oil feed subassembly for the atmospheric pressure of oil storage intracavity is when changing, and the speed that the oil body got into in the oil feed subassembly also is difficult for receiving the influence, reaches the balanced effect of oil feed speed.

Description

Oil inlet balance control mechanism and atomization device

Technical Field

The utility model relates to an atomizing technology field especially relates to oil feed balance control mechanism and atomizing device.

Background

Current atomizing device includes suction nozzle, base and sets up the breather pipe between suction nozzle and base, is equipped with the atomizing core in the breather pipe, and the lateral part of breather pipe is equipped with the oil inlet, and wherein the atomizing core is including leading the oil cotton and the piece that generates heat, leads the oil cotton setting on the oil inlet, and after the tobacco tar soaks in leading the oil cotton, the piece that generates heat can heat leading the oil cotton and make the oil body atomizing to supply the user to inhale and eat.

However, when the tobacco tar is immersed in the oil guide cotton, the flow rate of the oil body is completely controlled by the change of the air pressure in the oil storage bin, when the air pressure is higher, the flow rate of the oil body is higher, and when the air pressure is lower, the flow rate of the oil body is lower. This results in different amounts of oil bodies absorbed by the oil guide cotton in different periods, and the heating power of the heating element is constant, so that when the amount of oil bodies absorbed by the oil guide cotton is small, the phenomenon that the oil guide cotton is burnt due to dry burning of the heating element is easy to occur.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an oil feed balance control mechanism and atomizing device to above-mentioned problem, improve the oil feed balanced effect of atomizing core.

An oil inlet balance control mechanism, comprising:

the oil storage device comprises a shell, wherein an oil storage cavity is formed in the shell;

the oil inlet assembly is arranged inside the oil storage cavity, an airflow channel is arranged inside the oil inlet assembly, and an oil inlet communicated with the oil storage cavity and the airflow channel is formed in the oil inlet assembly;

the atomizing assembly comprises an oil guide piece and a heating piece, the oil guide piece penetrates through the oil inlet and is arranged in the airflow channel, the heating end of the heating piece is located on the inner side of the airflow channel, and the heating end of the heating piece is wound on the oil guide piece.

The oil storage piece is arranged in the oil storage cavity, the oil storage piece is in contact with the oil guide piece, and the oil storage piece is used for transmitting an oil body in the oil storage cavity to the oil guide piece.

In one embodiment, the oil storage member is made of a porous oil absorption material such as sponge or fiber.

In the embodiment, the oil storage part can absorb the oil in the oil storage cavity and uniformly distribute the oil to the oil guide part by selecting the porous oil absorption material such as sponge or fiber, and the stable oil inlet speed is ensured.

In one embodiment, a fixed channel is arranged in the middle of the oil storage part, and the left side and the right side of the oil guide part are both in contact with the inner side wall of the fixed channel.

In the above embodiment, the oil storage part is wrapped outside the oil guide part, so that the contact area between the oil storage part and the oil guide part is increased, the contact effect between the oil storage part and the oil guide part is improved, and the oil body distribution effect of the oil storage part on the oil guide part is further ensured.

In one embodiment, oil inlets are formed in two sides of the oil inlet assembly, and two ends of the oil guide member respectively penetrate through the two oil inlets.

In the above embodiment, the oil inlet speed is improved by increasing the number of the oil inlets and the contact area between the oil guide part and the oil storage part, and meanwhile, the oil body can enter the oil inlet assembly more uniformly.

In one embodiment, both ends of the oil guide are bent.

In the above embodiment, the end portion of the oil guiding member in the bending state enables the oil guiding member to be difficult to deviate from the oil inlet assembly through the oil inlet, and therefore the stability of the oil guiding member on the oil inlet assembly is guaranteed.

In one embodiment, the oil inlet assembly includes a first seat body and a second seat body, the first seat body and the second seat body are detachably connected, and the oil inlet is disposed between the first seat body and the second seat body.

In the above embodiment, the oil inlet is disposed between the first base and the second base, so that the oil guide member is also located between the first base and the second base after installation, and then the oil guide member is taken out from the first base and the second base after detachment in a detachable connection manner for replacement, and similarly, the oil guide member is also convenient to be installed on the oil inlet assembly formed by the first base and the second base.

In one embodiment, a slot is formed on a side surface of the first seat body close to the second seat body, and an end portion of the second seat body is inserted into the slot.

In the above embodiment, the detachable connection between the first seat and the second seat is completed by inserting the end of the second seat into the first seat, so that the connection effect is ensured under the condition of sufficiently simple structure, and the plugging manner is convenient for a user to perform the mounting and dismounting operations.

In one embodiment, the heating element is a heating wire, the first base is provided with a mounting channel, and the heating wire further includes a fixing end penetrating through the mounting channel.

In the above embodiment, the mounting channel is disposed on the first seat, so that the end of the heating wire can pass through the mounting channel to be connected to the power supply element, so that the power supply element provides power for the heating wire.

The utility model provides an atomizing device, includes suction nozzle subassembly and above-mentioned oil feed balance control mechanism, the suction nozzle subassembly sets up on the casing, be equipped with the suction channel in the suction nozzle subassembly, just the suction channel with airflow channel communicates with each other.

In the above embodiment, the aerosol generated by heating the oil guide can be sucked through the suction nozzle assembly.

Advantageous effects

This application absorbs the oil body in the oil storage intracavity earlier through the oil storage piece, again through with lead the mode of oil piece contact, give the oil guide piece with the oil body transmission, the speed in the control oil body gets into the oil feed subassembly, make the atmospheric pressure in the oil storage intracavity when changing, the speed that the oil body got into in the oil feed subassembly also is difficult for receiving the influence, reach the effect of oil feed speed balance, keep steady oil feed speed, and the accessible is changed different oil storage pieces and is adjusted different oil guide speed, be convenient for lead oily control.

Drawings

FIG. 1 is a schematic structural view of an oil feed balance control mechanism according to some embodiments of the present application;

fig. 2 is a schematic structural disassembly diagram between an oil inlet assembly and an oil guide member of the oil inlet balance control mechanism in fig. 1;

FIG. 3 is a schematic diagram of the oil inlet assembly and the oil guide member of the oil inlet balance control mechanism shown in FIG. 1, which are separated from each other at another angle;

FIG. 4 is a schematic, exploded view of an atomizing device according to some embodiments of the present disclosure;

FIG. 5 is a schematic view of an atomization device of some embodiments of the present application shown in another angle and disassembled;

fig. 6 is a schematic view of the external structure of an atomizing device according to some embodiments of the present application.

Reference numerals:

1. a housing;

11. a sealing seat;

12. an air inlet;

2. an oil inlet assembly; 21. a first seat body; 22. a second seat body; 23. a central tube;

24. a heat generating member;

25. inserting slots;

26. a rib;

27. a clamping groove;

28. a protrusion;

29. installing a channel;

20. a groove;

3. an oil storage member;

4. an air flow channel;

5. an oil guide member; 51. a straight portion; 52. a bending section;

6. a nozzle assembly;

7. and a terminal.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. Also, a first feature "on," "above," and "over" a second feature may be directly on or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature "under," "beneath," and "under" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are for purposes of illustration only and do not denote a single embodiment.

Referring to fig. 1, an embodiment of the present invention provides an oil inlet balance control mechanism, which includes a housing 1, an oil inlet assembly 2, and an oil storage member 3. Wherein, casing 1 is used for providing installation space for oil feed subassembly 2 and oil storage 3, and supplementary oil feed subassembly 2 combines with oil storage 3.

An oil storage cavity is arranged inside the shell 1. Wherein, one side of casing 1 can be equipped with the oiling mouth, and user's accessible oiling mouth pours into the oil storage intracavity into the oil body into, can set up seal receptacle 11 on the oiling mouth, guarantees that the oil body of pouring into can not spill when using, and seal receptacle 11 is installed on the oiling mouth with the detachable mode, is convenient for take off. In addition, the area of the horizontal section of the oil filling opening can be consistent with the area of the horizontal section of the oil storage cavity, so that the oil inlet assembly 2 can be conveniently installed inside the shell 1 through the oil filling opening during installation.

The oil inlet assembly 2 is arranged inside the oil storage cavity, the airflow channel 4 is arranged inside the oil inlet assembly 2, an oil inlet communicated with the oil storage cavity and the airflow channel 4 is formed in the oil inlet assembly 2, and the oil guide piece 5 is arranged on the oil inlet. The air flow channel 4 is communicated with an air inlet 12 on the shell, so that external air can enter the air flow channel 4 through the air inlet 12, the air flow channel 4 is arranged in the oil inlet assembly 2 in a penetrating mode, and the circulation effect of air in the oil inlet assembly 2 is guaranteed; in addition, when the sealing seat 11 is arranged on the oil filling port, the sealing seat 11 can be provided with an air outlet communicated with the air flow channel 4, so that the air in the air flow channel 4 can be sucked out by a user through the air outlet.

Oil storage 3 sets up in the oil storage intracavity, and oil storage 3 with lead the contact of oil piece 5, oil storage 3 is used for leading oil piece 5 with the transmission of the oil body of oil storage intracavity. Wherein, lead oily 5 optional cotton material, through the high density of cotton material and better hygroscopicity and moisture retention, be convenient for lead oily 5 and carry out quick absorption to the oil body of oil storage 3 distribution.

When the oil inlet balance control mechanism is used, a user can take the sealing seat 11 off the oil inlet and then inject an oil body into the oil storage cavity through the oil inlet, the oil body in the oil storage cavity is firstly absorbed by the oil storage part 3, the oil storage part 3 transmits the oil body to the oil guide part 5 which is contacted with the oil storage part after absorbing the oil body, and the speed of the oil body entering the oil inlet component 2 through the oil guide part 5 is controlled, so that when the air pressure in the oil storage cavity changes, the speed of the oil body entering the oil inlet component 2 is not easily influenced, the effect of oil inlet speed balance is achieved, and the stable oil inlet speed is kept; in addition, the user can adjust different oil guiding rates by replacing different oil storage parts 3, so that the oil guiding control is facilitated.

In one embodiment, the oil storage member 3 is made of a porous oil absorption material such as sponge or fiber. The oil storage part 3 can absorb the oil body in the oil storage cavity and uniformly distribute the oil body to the oil guide part 5 by selecting the characteristics made of sponge or fiber and other porous oil absorption materials, and the stable oil inlet speed is ensured. Specifically, the oil storage member 3 may be oil cotton. Through the high density and better hygroscopicity and the moisturizing of cotton material, make oil storage 3 can absorb the oil body in the oil storage intracavity fast, and because the oil absorption rate of cotton material is certain, consequently can guarantee that it is fixed to the volume of leading the oil body that oil guide 5 departments transmit, keeps steady oil feed rate.

In one embodiment, the oil storage member 3 is provided with a fixed passage at the middle portion thereof, and the oil guide member 5 is in contact with the inner sidewall of the fixed passage. Through making the parcel of oil storage piece 3 in the outside of leading oil piece 5, increase oil storage piece 3 and lead the area of contact between oil piece 5, improve oil storage piece 3 and lead the contact effect between oil piece 5, and then guarantee oil storage piece 3 to the oil body distribution effect of leading oil piece 5. In addition, in order to guarantee the stability of the oil storage part 3 between the shell 1 and the oil inlet component 2, the outer side wall of the oil storage part 3 is contacted with the inner side wall of the shell 1, and the inner side wall of a fixed channel in the oil storage part 3 is contacted with the outer side wall of the oil inlet component 2.

In one embodiment, the two sides of the oil inlet assembly 2 are provided with oil inlets, and the two ends of the oil guiding member 5 respectively pass through the two oil inlets. Specifically, the two oil inlets are symmetrically arranged on the oil inlet assembly 2 by taking the central axis of the oil inlet assembly 2 as an axis, the outer side wall of the oil guide member 5 is in contact with the inner side wall of the oil inlet, the middle part of the oil guide member 5 is positioned inside the airflow channel 4, and the two end parts of the oil guide member 5 are both positioned inside the oil storage cavity. By increasing the number of oil inlets and the contact area between the oil guide part 5 and the oil storage part 3, the oil inlet speed is improved, and simultaneously, oil bodies can enter the oil inlet assembly 2 more uniformly.

Referring to fig. 2, in one embodiment, two ends of the oil guiding member 5 are respectively located at two sides of the oil inlet, and two ends of the oil guiding member 5 are both bent. The end part of the oil guide piece 5 in a bent state enables the oil guide piece 5 not to be easily separated from the oil inlet component 2 through the oil inlet. Specifically, lead oil spare 5 and include straight portion 51 and the kink 52 of setting at straight portion 51 both ends, straight portion 51 is used for sheltering from the oil inlet, and kink 52 is used for preventing straight portion 51 from deviating from in the oil inlet, guarantees to lead the steadiness of oil spare 5 on oil feed subassembly 2.

Referring to fig. 2 and fig. 3, in one embodiment, the oil inlet assembly 2 includes a first seat 21 and a second seat 22, the first seat 21 and the second seat 22 are detachably connected, and the oil inlet is disposed between the first seat 21 and the second seat 22. Through setting up the oil inlet between first pedestal 21 and second pedestal 22 for lead oil spare 5 and also be located between first pedestal 21 and the second pedestal 22 after the installation, and then be convenient for lead oil spare 5 and take out from first pedestal 21 and the second pedestal 22 after the split through the mode of dismantling the connection, in order to replace, also be convenient for lead oil spare 5 to install on the oil feed subassembly 2 that first pedestal 21 and second pedestal 22 constitute on the same principle. In some embodiments, a receiving groove may be disposed on a side surface of the second seat 22 close to the first seat 21, the oil inlet is a gap between the receiving groove and the first seat 21, and when part of the oil guiding element 5 is disposed in the receiving groove, the oil guiding element 5 contacts with the first seat 21; in other embodiments, an accommodating groove may be disposed on a side surface of the first seat 21 close to the second seat 22, the oil inlet is a gap between the accommodating groove and the second seat 22, and when part of the oil guiding element 5 is disposed in the accommodating groove, the oil guiding element 5 contacts with the second seat 22; in other embodiments, the side surface of the first seat 21 close to the second seat 22 and the side surface of the second seat 22 close to the first seat 21 can be provided with receiving slots, when the first seat 21 and the second seat 22 are combined, part of the oil guiding member 5 is disposed in a space formed by splicing the two receiving slots.

In one embodiment, a slot 25 is disposed on a side surface of the first fastening structure 21 close to the second fastening structure 22, and an end of the second fastening structure 22 is inserted into the slot 25. The detachable connection between the first seat body 21 and the second seat body 22 is completed by inserting the end portion of the second seat body 22 into the first seat body 21, so that the connection effect is ensured under the condition of sufficient and simple structure, and the plugging and unplugging mode is convenient for a user to install and detach. The inner side wall of the slot 25 is provided with a protrusion 28, the side surface of the second seat 22 close to the first seat 21 is provided with a groove 20 matched with the protrusion 28, and the protrusion 28 is inserted into the groove 20. In addition, when a part of the oil guide 5 is placed in the receiving groove, the oil guide 5 contacts the first seat 21 and the protrusion 28. The inner bottom wall of the slot 25 is provided with a protrusion structure, the side of the protrusion structure is provided with a rib 26, the side of the second seat 22 close to the first seat 21 is provided with a holding groove 27 matched with the rib 26, the rib 26 is inserted into the holding groove 27, and the stability between the first seat 21 and the second seat 22 is enhanced by the combination of the rib 26 and the holding groove 27.

The oil inlet assembly 2 further comprises a central tube 23, one end of the central tube 23 can be detachably connected with the second seat body 22, the other end of the central tube 23 can be inserted into the sealing seat 11, the central tube 23 is communicated with an air outlet of the sealing seat 11, and the central tube 23 assists the second seat body 22 to be connected with the sealing seat 11.

In one embodiment, the oil guiding member 5 is a part of the atomizing assembly, the atomizing assembly further includes a heat generating member 24, a heat generating end of the heat generating member 24 is located inside the air flow channel 4, and the heat generating end of the heat generating member 24 is wound on the oil guiding member 5. Can directly heat leading oil spare 5 through generating heat 24, make the gasification of the oil body in leading oil spare 5 to the user inhales, simultaneously through the end winding that generates heat that will generate heat 24 on leading oil spare 5, both can reach the effect fixed to generating heat 24, multiplicable generating heat 24 again and lead the area of contact between oil spare 5, improve heating effect and heating homogeneity.

In one embodiment, the heating element 24 is a heating wire, the first seat 21 is provided with a mounting channel 29, the mounting channel 29 is disposed on the protruding structure, and the heating wire further includes a fixing end passing through the mounting channel 29. At least one heating wire is arranged, at least two mounting channels 29 are arranged, and two ends of each heating wire respectively penetrate through the two mounting channels 29. Specifically, the heating wire includes a heating portion located in the middle and fixed ends located at the two ends, the heating portion of the heating wire is a heating end of the heating element 24 and is used for heating the oil guide element 5, and the fixed portion of the heating wire is used for being connected with the power supply element so as to enable the power supply element to provide electric quantity for the heating wire. By arranging the mounting channel 29 on the first seat 21, the fixed end of the heating wire can pass through the mounting channel 29 to be connected with the power supply element, so that the power supply element can provide power for the heating wire. In addition, in order to avoid the occurrence of the electric conduction phenomenon between the first seat 21 and the heating wire, the first seat 21 may be made of an insulating material, or an insulating member may be disposed between the heating wire and the first seat 21.

Referring to fig. 4 to 6, an embodiment of the present invention provides an atomizing device, which includes a suction nozzle assembly 6 and the above oil inlet balance control mechanism, the suction nozzle assembly 6 is disposed on the housing 1, an air suction channel is disposed in the suction nozzle assembly 6, and the air suction channel communicates with the air flow channel 4. In addition, the atomization device also comprises a terminal 7 and a power supply element, wherein the terminal 7 is arranged at the bottom of the shell 1, and the power supply element is electrically connected with the heating wire (not shown in the figure). Give through the power supply unit and add the heat-insulating material electric quantity, make the oil body of leading in the oil spare 5 produce aerial fog under the heating action of heat-insulating material to follow-up user inhales the aerial fog, guarantees the oil feed rate of leading oil spare 5 through oil feed balance control mechanism simultaneously.

When the atomizing device is used, the heating wire can be supplied with electric quantity through the power supply element, the heating element heats the oil guide part 5, and the oil body in the oil guide part 5 generates aerosol under the heating action, so that a subsequent user can place the suction nozzle assembly 6 in the oral cavity and suck the aerosol; in addition, in the using process, the oil body in the oil storage cavity is firstly absorbed by the oil storage part 3, the oil storage part 3 transmits the oil body to the oil guide part 5, the speed of the oil body entering the oil guide part 5 is controlled, the effect of oil inlet speed balance is achieved, and the stable oil inlet speed is kept.

All possible combinations of the technical features in the above embodiments may not be described for the sake of brevity, but should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above embodiments only represent several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides an oil feed balance control mechanism which characterized in that includes:

the oil storage device comprises a shell (1), wherein an oil storage cavity is arranged inside the shell (1);

the oil inlet assembly (2) is arranged inside the oil storage cavity, an airflow channel (4) is arranged inside the oil inlet assembly (2), and an oil inlet communicated with the oil storage cavity and the airflow channel (4) is formed in the oil inlet assembly (2);

the atomizing assembly comprises an oil guide piece (5) and a heating piece (24), the oil guide piece (5) penetrates through the oil inlet and is arranged in the airflow channel (4), the heating end of the heating piece (24) is located on the inner side of the airflow channel (4), and the heating end of the heating piece (24) is wound on the oil guide piece (5);

oil storage spare (3), oil storage spare (3) set up the oil storage intracavity, just oil storage spare (3) with lead oil spare (5) contact, oil storage spare (3) are used for with the oil body transmission in the oil storage intracavity is for lead oil spare (5).

2. The oil inlet balance control mechanism according to claim 1, wherein the oil storage member (3) is made of a porous oil absorption material.

3. The oil inlet balance control mechanism according to claim 1, wherein a fixed passage is arranged in the middle of the oil storage part (3), and the left side and the right side of the oil guide part (5) are both in contact with the inner side wall of the fixed passage.

4. The oil inlet balance control mechanism according to claim 3, wherein oil inlets are formed in both sides of the oil inlet assembly (2), and both ends of the oil guide member (5) penetrate through the two oil inlets respectively.

5. The oil inlet balance control mechanism according to claim 4, wherein both ends of the oil guide member (5) are in a bent state, and the inner wall of the fixing passage abuts against both ends of the oil guide member (5).

6. The oil inlet balance control mechanism according to claim 1, wherein the oil inlet assembly (2) comprises a first seat (21) and a second seat (22), the first seat (21) is located below the second seat (22), the first seat (21) and the second seat (22) are detachably connected, and the oil inlet is disposed between the first seat (21) and the second seat (22).

7. The oil inlet balance control mechanism according to claim 6, wherein the oil inlet assembly (2) further comprises a central tube (23), one end of the central tube (23) is connected with the second seat body (22), an oil filling port is arranged on the housing (1), a sealing seat (11) is arranged on the oil filling port, the other end of the central tube (23) is connected with the sealing seat (11), and an air outlet of the central tube (23) is communicated with an air outlet of the sealing seat (11).

8. The oil inlet balance control mechanism according to claim 6, wherein a slot (25) is provided on a side surface of the first seat body (21) close to the second seat body (22), an end portion of the second seat body (22) is inserted into the slot (25), a protrusion (28) is provided on an inner side wall of the slot (25), a groove (20) structurally matched with the protrusion (28) is provided on a side surface of the second seat body (22) close to the first seat body (21), the protrusion (28) is inserted into the groove (20), a protrusion structure is provided on an inner bottom wall of the slot (25), a rib (26) is provided on a side surface of the protrusion structure, a holding groove (27) structurally matched with the rib (26) is provided on a side surface of the second seat body (22) close to the first seat body (21), and the rib (26) is inserted into the holding groove (27).

9. The oil inlet balance control mechanism according to claim 8, wherein the heating element (24) is a heating wire, the first seat (21) is provided with a mounting passage (29), the mounting passage (29) is arranged on the protruding structure in a penetrating manner, and the heating wire further comprises a fixed end penetrating through the mounting passage (29).

10. An atomizing device, characterized in that, includes a suction nozzle assembly (6) and the oil inlet balance control mechanism of any one of claims 1 to 9, the suction nozzle assembly (6) is disposed on the housing (1), a suction passage is disposed in the suction nozzle assembly (6), and the suction passage is communicated with the air flow passage (4).

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