CN113662255A

CN113662255A - Atomizer and atomizing device

Info

Publication number: CN113662255A
Application number: CN202110963238.4A
Authority: CN
Inventors: 吴成琴
Original assignee: Shenzhen Aiyi Technology Research Co Ltd
Current assignee: Shenzhen Aiyi Technology Research Co Ltd
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2021-11-19

Abstract

The application provides an atomizer and atomizing device. The atomizer comprises a sealing and fixing integrated part, an oil guide heating assembly, a positive conductive column and a negative conductive column, wherein the sealing and fixing integrated part is provided with two oil inlet cavities, two oil passing pressing grooves and two atomizing cavities, and each oil inlet cavity is communicated with the atomizing cavity through the oil passing pressing grooves; the oil guide heating assembly is tightly pressed and fixed in the oil passing pressing groove, and part of the oil guide heating assembly is respectively positioned in the oil inlet cavity and the atomizing cavity; the positive conductive column is arranged on the sealing and fixing integrated part, and part of the positive conductive column is positioned in one of the oil inlet cavities and is connected with the heating sheet; compare in traditional atomizer, the atomizer of this application's component number is less, has simplified the structure of atomizer greatly, has solved the structure of atomizer and has more complicated problem because of the component number is more.

Description

Atomizer and atomizing device

Technical Field

The invention relates to the technical field of electronic atomization, in particular to an atomizer and an atomization device.

Background

The heating seat of the traditional atomizer is of a structure that a heating sheet and a fixed seat are integrally formed, and the heating seat is connected to a fixed support, so that the heating seat is externally connected with a conductor through the fixed support; in addition, the heating seat still needs to lead the oil face butt of the cotton of oil of leading of the seal receptacle of atomizer, makes the atomizing liquid in the oil cup lead-in to the heating seat through the oil face of leading the cotton of oil, and then makes the heating seat heat the atomizing to leading the cotton of oil.

However, the conventional atomizer has a large number of components, and a sealing structure is required between the components, so that the structure of the atomizer is complicated.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an atomizer and an atomizing device with simple structures.

The purpose of the invention is realized by the following technical scheme:

an atomizer, comprising:

the integrated part is sealed and fixed and is provided with two oil inlet cavities, two oil passing pressing grooves and two atomizing cavities, and each oil inlet cavity is communicated with the atomizing cavity through the oil passing pressing groove;

the oil guide heating assembly is tightly pressed and fixed in the oil passing pressing groove, parts of the oil guide heating assembly are respectively positioned in the oil inlet cavity and the atomizing cavity, the oil guide heating assembly comprises an oil guide piece and a heating sheet, and the heating sheet is used for heating the oil guide piece;

the positive conductive column is arranged on the sealing and fixing integrated part, and the positive conductive column is partially positioned in one of the oil inlet cavities and connected with the heating sheet;

the negative pole leads electrical pillar, locates sealed fixed integrated component, just the negative pole leads electrical pillar part to be located another one the oil feed chamber and with the heating plate is connected.

In one embodiment, the oil guide is located above the heating plate.

In one embodiment, the oil guide heating assembly further comprises a compression reinforcing part, the compression reinforcing part abuts against one side of the oil guide part, which faces away from the heating sheet, and the compression reinforcing part, the oil guide part and the heating sheet are stacked and compressed and fixed in the oil passing compression groove.

In one embodiment, the compression reinforcement is an elastomeric compression block structure.

In one embodiment, the sealing and fixing integrated piece is further provided with two mounting holes, the two mounting holes are respectively communicated with the two oil inlet cavities, the positive conductive column is arranged in one of the mounting holes in a penetrating manner and connected with the sealing and fixing integrated piece, and the negative conductive column is arranged in the other mounting hole in a penetrating manner and connected with the sealing and fixing integrated piece.

In one embodiment, the positive conductive post and the negative conductive post are detachably connected to the heat patch.

In one embodiment, the positive conductive column and the negative conductive column are both connected with the heating plate in a snap-fit manner.

In one embodiment, the sealing and fixing integrated piece comprises a fixing integrated piece main body and a sealing and pressing part, the sealing and pressing part is connected with the fixing integrated piece main body, and the oil passing pressing groove is formed between the fixing integrated piece main body and the sealing and pressing part;

each oil feed chamber is including offering in the oil pocket body of fixed integrated part main part and offering in the inlet port of sealed portion that compresses tightly, the fog chamber is offered in fixed integrated part main part, each the inlet port of oil feed chamber with corresponding the oil pocket body intercommunication, each the oil feed chamber the oil pocket body pass through cross oily pressure tank with the fog chamber intercommunication.

In one embodiment, the atomizer further comprises an oil cup member, the oil cup member is provided with an oil storage tank and a central air outlet, the sealing and fixing integrated member is positioned in the oil storage tank and tightly connected with the oil cup member, the oil storage tank is respectively communicated with the two oil inlet cavities, and the central air outlet is communicated with the atomizing cavity; the sealed fixed integrated piece is also provided with an air inlet which is communicated with the atomizing cavity.

An atomizing device comprising the atomizer according to any one of the above embodiments.

Compared with the prior art, the invention has at least the following advantages:

1. because the sealing and fixing integrated part is provided with two oil inlet cavities, two oil passing pressing grooves and two atomizing cavities, each oil inlet cavity is communicated with the atomizing cavity through the oil passing pressing groove, the oil guide heating assembly is pressed and fixed on the oil passing pressing groove, and parts of the oil guide heating assembly are respectively positioned in the oil inlet cavities and the atomizing cavities, atomized liquid in each oil inlet cavity can be adsorbed and conducted through the oil guide member, and the heating sheet heats and atomizes the atomized liquid in the oil guide member to generate atomized steam, and the atomized steam is mixed with air in the atomizing cavities to form atomized gas;

2. because the oil guide heating assembly is tightly pressed and fixed in the oil passing pressing groove, the oil guide piece and the heating sheet are tightly contained in the inner wall of the oil passing pressing groove, so that the fixed installation of the oil guide piece and the heating sheet is realized, the oil guide heating assembly is tightly connected in the oil passing pressing groove, atomized liquid in two oil inlet cavities can only lead the liquid to the position corresponding to the atomization cavity through the oil guide piece, the oil guide piece is pressed to be tightly abutted against the heating sheet, and the heating sheet is respectively connected with the positive conductive post and the negative conductive post, so that the heating sheet is conductive and generates heat, the heat generated by the heating sheet can better act on the oil guide piece, the atomized liquid of the oil guide piece is heated and atomized, the problem that the atomized liquid in the oil passing cavity directly flows into the atomization cavity without being heated and atomized is avoided, compared with the traditional atomizer, the number of elements of the atomizer is small, the structure of the atomizer is greatly simplified, and the problem that the structure of the atomizer is complex due to more elements is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of an embodiment of an atomizer;

FIG. 2 is a cross-sectional view of the atomizer shown in FIG. 1;

FIG. 3 is another cross-sectional view of the atomizer shown in FIG. 1;

FIG. 4 is an exploded view of the atomizer shown in FIG. 1;

FIG. 5 is a schematic diagram of another view of the heater chip of the oil-guiding heater assembly of the atomizer shown in FIG. 4;

fig. 6 is a partial structural schematic view of the atomizer shown in fig. 1.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" 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. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only 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 invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The atomizer comprises a sealing and fixing integrated part, an oil guide heating assembly, a positive conductive column and a negative conductive column, wherein the sealing and fixing integrated part is provided with two oil inlet cavities, oil passing pressing grooves and an atomization cavity, and each oil inlet cavity is communicated with the atomization cavity through the oil passing pressing grooves; the oil guide heating assembly is tightly pressed and fixed on the oil passing pressing groove, parts of the oil guide heating assembly are respectively positioned in the oil inlet cavity and the atomizing cavity, the oil guide heating assembly comprises an oil guide piece and a heating sheet, and the heating sheet is used for heating the oil guide piece; the positive conductive column is arranged on the sealing and fixing integrated part, and the positive conductive column is partially positioned in one of the oil inlet cavities and connected with the heating sheet; the negative electrode conductive column is arranged on the sealing and fixing integrated part, and the part of the negative electrode conductive column is positioned in the other oil inlet cavity and is connected with the heating plate.

In the atomizer, the sealing and fixing integrated part is provided with the oil inlet cavity, the oil passing pressing groove and the atomizing cavity, the number of the oil inlet cavities is two, each oil inlet cavity is communicated with the atomizing cavity through the oil passing pressing groove, the oil guide heating assembly is pressed and fixed on the oil passing pressing groove, and parts of the oil guide heating assembly are respectively positioned in the oil inlet cavity and the atomizing cavity, so that atomized liquid in each oil inlet cavity can be adsorbed and conducted through the oil guide member; because the oil guide heating assembly is tightly pressed and fixed in the oil passing pressing groove, the oil guide piece and the heating sheet are tightly contained in the inner wall of the oil passing pressing groove, so that the fixed installation of the oil guide piece and the heating sheet is realized, the oil guide heating assembly is tightly connected in the oil passing pressing groove, atomized liquid in two oil inlet cavities can only lead the liquid to the position corresponding to the atomization cavity through the oil guide piece, the oil guide piece is pressed to be tightly abutted against the heating sheet, and the heating sheet is respectively connected with the positive conductive post and the negative conductive post, so that the heating sheet is conductive and generates heat, the heat generated by the heating sheet can better act on the oil guide piece, the atomized liquid of the oil guide piece is heated and atomized, the problem that the atomized liquid in the oil passing cavity directly flows into the atomization cavity without being heated and atomized is avoided, compared with the traditional atomizer, the number of elements of the atomizer is small, the structure of the atomizer is greatly simplified, and the problem that the structure of the atomizer is more complicated due to more elements is solved; furthermore, because positive pole is led electrical pillar and negative pole and is led electrical pillar and all partly be located corresponding oil feed intracavity and be connected with the heating plate, make the easy assembly of heating plate connect in positive pole is led electrical pillar and negative pole and is led electrical pillar.

In order to better understand the technical scheme and the beneficial effects of the present application, the following detailed description is further provided in conjunction with specific embodiments:

as shown in fig. 1 to 3, the atomizer 10 of an embodiment includes a sealing and fixing assembly 100, an oil-conducting heating assembly 300, a positive conductive pillar 400, and a negative conductive pillar 600. The sealing and fixing integrated part 100 is provided with an oil inlet cavity 101, an oil passing pressing groove 105 and an atomizing cavity 103, the number of the oil inlet cavities 101 is two, and each oil inlet cavity 101 is communicated with the atomizing cavity 103 through the oil passing pressing groove 105. The oil guide heating assembly 300 is tightly pressed and fixed on the oil passing pressing groove 105, and parts of the oil guide heating assembly 300 are respectively located in the oil inlet cavity 101 and the atomization cavity 103.

Specifically, the oil guide heating assembly 300 includes an oil guide 310 and a heating fin 320, and the heating fin 320 is used for heating the oil guide 310. In this embodiment, both ends of the heating fin are respectively located in the two oil inlet chambers 101. In this embodiment, lead oil 310 and heating plate 320 and butt each other, make oil 310 and the pressure-equalizing of heating plate 320 fix in the oily pressure tank 105 of mistake, make the one side of leading oil 310 closely butt with the one side of heating plate 320 simultaneously, the heat that makes heating plate 320 produce when electrically conducting acts on oil reliably and leads, and then make heating plate 320 can heat the atomizing liquid of leading oil 310 surface and atomize, and the heat that leads oil 310 surface can also heat the atomizing liquid of leading in oil 310 and atomize, so realize heating the atomizing liquid and atomizing, in order to produce atomizing steam, atomizing steam mixes with the air in atomizing chamber 103 and forms atomizing gas. It will be appreciated that the aerosolized liquid may be a tobacco tar or a liquid medicine or other aerosolized liquid.

As shown in fig. 2, further, a positive conductive pillar 400 is disposed on the sealing and fixing assembly 100, and the positive conductive pillar 400 is partially located in one of the oil inlet cavities 101 and connected to the heating plate. The negative electrode conductive column 600 is arranged in the sealing and fixing integrated part 100, and the part of the negative electrode conductive column 600 is positioned in the other oil inlet cavity 101 and connected with the heating plate, so that the negative electrode conductive column 600 and the positive electrode conductive column 400 are respectively arranged in the corresponding oil inlet cavity 101 and connected with the heating plate, and the heating plate is further externally connected with the positive electrode conductive column 400 through the negative electrode conductive column 600. Because anodal conductive column 400 and the negative pole is led electrical pillar 600 and is all partly located corresponding oil feed chamber 101 and be connected with the heating plate, make the easy assembly of heating plate connect in anodal conductive column 400 and negative pole and lead electrical pillar 600, so conveniently lead the fixed mounting of oil heating element 300.

In the atomizer 10, the sealing and fixing integrated part 100 is provided with the oil inlet cavity 101, the oil passing pressing groove 105 and the atomizing cavity 103, the number of the oil inlet cavities 101 is two, each oil inlet cavity 101 is communicated with the atomizing cavity 103 through the oil passing pressing groove 105, the oil guiding heating assembly 300 is pressed and fixed on the oil passing pressing groove 105, and parts of the oil guiding heating assembly 300 are respectively positioned in the oil inlet cavity 101 and the atomizing cavity 103, so that the atomized liquid in each oil inlet cavity 101 can be adsorbed and conducted through the oil guiding part, and the heating plate heats the oil guiding part, so that the heating plate heats and atomizes the atomized liquid in the oil guiding part to generate atomized steam, and the atomized steam is mixed with air in the atomizing cavity 103 to form atomized gas; because the oil guiding heating assembly 300 is tightly pressed and fixed in the oil passing pressing groove 105, the oil guiding piece and the heating sheet are tightly accommodated in the inner wall of the oil passing pressing groove 105, so that not only the fixed installation of the oil guiding piece and the heating sheet is realized, but also the oil guiding heating assembly 300 is tightly connected in the oil passing pressing groove 105, further the atomized liquid in the two oil inlet cavities 101 can only be led to the position corresponding to the atomization cavity 103 through the oil guiding piece, and the oil guiding piece is pressed to be tightly abutted against the heating sheet, and the heating sheet is respectively connected with the anode conductive post 400 and the cathode conductive post 600, so that the heating sheet is conductive and generates heat, further the heat generated by the heating sheet can better act on the oil guiding piece, the atomized liquid of the oil guiding piece is heated and atomized, the problem that the atomized liquid in the oil passing cavity directly flows into the atomization cavity 103 without being heated and atomized is avoided, compared with the traditional atomizer 10, the atomizer 10 of the present application has a small number of elements, which greatly simplifies the structure of the atomizer 10 and solves the problem that the structure of the atomizer 10 is complicated due to the large number of elements; further, since the positive conductive column 400 and the negative conductive column 600 are both partially located in the corresponding oil inlet cavity 101 and connected to the heater chip, the heater chip is easily assembled and connected to the positive conductive column 400 and the negative conductive column 600.

Further, lead oil 310 and the range upon range of setting of heating plate 320, the area that makes oil and heating plate butt is great, and then makes the heating plate heat oil better to leading, so makes the heating plate heat the atomizing liquid in leading oil better and atomizes.

As shown in fig. 2 and 3, in one embodiment, the oil guiding member 310 is located above the heating plate 320, so that the atomized liquid in the oil guiding member 310 is better heated by contact with the heating plate 320 due to gravity and adsorption of the oil guiding member 310, and the heating plate 320 is better used for heating and atomizing the atomized liquid in the oil guiding member. It is understood that in other embodiments, the oil guide 310 is not limited to being located above the heating sheet 320. For example, the oil guide 310 is positioned below the heating plate 320, or the oil guide 310 is wrapped around the heating plate.

As shown in fig. 2, in one embodiment, the oil guiding heating assembly 300 further includes a pressing reinforcing member 330, the pressing reinforcing member 330 abuts against a side of the oil guiding member 310 away from the heating plate 320, the pressing reinforcing member 330, the oil guiding member 310 and the heating plate 320 are stacked and pressed and fixed in the oil passing pressing groove 105, two sides of the oil guiding member 310 are clamped together by the pressing reinforcing member 330 and the heating plate 320, so that the pressing force applied to the oil guiding member is uniform, the oil guiding member is pressed and abutted against the heating plate more smoothly, a problem that the abutting position of the oil guiding member and the heating plate is partially warped or even the heating plate is dry-burned is avoided, and the reliability of the atomizer 10 is improved. In this embodiment, the oil guiding member 310 is located above the heating plate 320, and the pressing reinforcing member 330 abuts against a side of the oil guiding member facing away from the heating plate, so that the pressing reinforcing member 330, the oil guiding member, and the heating plate are laminated and fixed in the oil passing pressing groove 105.

As shown in fig. 2 and 4, in one embodiment, the compression reinforcement 330 is an elastic compression block structure, so that the compression reinforcement elastically compresses the oil guide, and thus the oil guide is reliably compressed between the compression reinforcement 330 and the heating plate. In this embodiment, the compression reinforcement 330 may be a silicone compression block or a rubber compression block, so that the compression reinforcement has better elasticity. It is understood that in other embodiments, the compression reinforcement 330 is not limited to only an elastomeric compression block structure. For example, the compaction reinforcement 330 can also be a compacted ceramic block.

As shown in fig. 2, in one embodiment, the sealing and fixing integrated component 100 further defines two mounting holes 106, and the two mounting holes are respectively communicated with the two oil inlet cavities 101. The positive conductive column 400 is inserted into one of the mounting holes and connected to the sealing and fixing integrated part 100, and the negative conductive column 600 is inserted into the other mounting hole and connected to the sealing and fixing integrated part, so that the positive conductive column 400 and the negative conductive column 600 are both mounted and fixed to the sealing and fixing integrated part 100, and the positive conductive column 400 and the negative conductive column 600 are conveniently and externally connected to conduct electricity. In order to tightly connect the positive conductive pillar 400 and the negative conductive pillar 600 to the sealing and fixing integrated assembly 100, further, the positive conductive pillar 400 and the negative conductive pillar 600 are in interference fit with the sealing and fixing integrated assembly 100, that is, the outer diameters of the positive conductive pillar 400 and the negative conductive pillar 600 are larger than the inner diameters of the corresponding mounting holes 106, so that the positive conductive pillar 400 and the negative conductive pillar 600 are tightly connected to the sealing and fixing integrated assembly 100.

In order to further improve the connection tightness between the positive conductive pillar 400 and the negative conductive pillar 600 and the sealing and fixing integrated component 100, further, the outer walls of the positive conductive pillar 400 and the negative conductive pillar 600 are respectively provided with an insulating sealing sleeve, so that the positive conductive pillar 400 and the negative conductive pillar 600 are elastically connected with the sealing and fixing integrated component 100 through the corresponding insulating sealing sleeves, and the connection tightness between the positive conductive pillar 400 and the sealing and fixing integrated component 100 and the connection tightness between the negative conductive pillar 600 and the sealing and fixing integrated component 100 are further improved. It will be appreciated that in other embodiments, the insulating sealing boot may be omitted. For example, the sealing and fixing integrated component 100 is an elastic fixing mounting seat, and the positive conductive pillar 400 and the negative conductive pillar 600 are both in interference fit with the sealing and fixing integrated component 100, so that the positive conductive pillar 400 and the negative conductive pillar 600 are both tightly connected to the sealing and fixing integrated component 100.

As shown in fig. 2 and 4, in one embodiment, the positive conductive post 400 and the negative conductive post 600 are detachably connected to the heating plate 320, so that the positive conductive post 400, the negative conductive post 600, and the heating plate 320 are disassembled and maintained, and the convenience of the atomizer 10 is improved. In one embodiment, the positive conductive post 400 and the negative conductive post 600 are both configured to enable the positive conductive post 400 and the negative conductive post 600 to be quickly assembled and disassembled with the heating plate 320, so as to further improve the convenience of the atomizer 10. Referring to fig. 5, specifically, the heating sheet 320 is provided with two clamping interfaces 322, the end portion of the positive conductive pillar 400 adjacent to the heating sheet 320 is provided with a first clamping flange 402, the end portion of the negative conductive pillar 600 adjacent to the heating sheet 320 is provided with a second clamping flange 602, and the first clamping flange and the second clamping flange are respectively clamped into the two clamping interfaces 322, so that the conductive pillar 400 is in snap-fit connection with the heating sheet 320. Further, each clamping interface 322 includes a clamping circular interface 322a and a clamping shrinkage notch 322b, the clamping circular interface 322a communicates with the clamping shrinkage notch 322b, the clamping flange 402 is clamped into the clamping circular interface 322a and is in interference fit with the heating plate 320, the clamping shrinkage notch 322b is extruded and deformed in the process that the clamping flange 402 is clamped into the clamping circular interface 322a, so that the heating plate 320 is elastically clamped with the positive conductive post 400 and the negative conductive post 600, and the reliability of the heating plate 320 in clamping with the positive conductive post 400 and the negative conductive post 600 is further improved. In the present embodiment, the profile of the clamping contraction notch 322b is U-shaped, and it is understood that in other embodiments, the profile of the clamping contraction notch 322b is not limited to be U-shaped, but may also be triangular, trapezoidal, or other shapes.

As shown in fig. 2 and 5, in an embodiment, the heating plate 320 is a metal plate, so that the heating plate 320 has electrical conductivity and can better adapt to the magnetic adsorption assembly manner of the manipulator, and compared with the assembly manner that the assembly of the conventional heating seat and the fixing bracket needs manual operation, the heating plate is not required to be manually clamped and assembled on the conductive column, so that the assembly efficiency of the atomizer 10 is improved, and further, the production efficiency of the atomizer 10 is improved.

In order to provide the oil guiding member 310 with better oil guiding performance and prevent the oil from leaking from the oil guiding member 310, as shown in fig. 2 and 4, in one embodiment, the oil guiding member 310 may be an oil guiding cotton block or an oil guiding porous ceramic block, so that the oil guiding member 310 has better oil guiding performance and prevents the oil from leaking from the oil guiding member 310. In the present embodiment, the oil guide 310 is an oil guide cotton block, and the oil guide 310 and the heating sheet 320 are preferably stacked in the oil passing pressing groove 105.

As shown in fig. 5, further, the heating plate 320 includes a heating plate body 320a, a pressing portion 320b and a fixing portion 320c, the heating plate body 320a is connected with the fixing portion 320c through the pressing portion 320b, and the heating plate body 320a is located in the atomizing chamber 103, and the heating plate body 320a is used for heating the oil guide 310 when power is supplied. The figure of fixed part and portion of compressing tightly is two, and two fixed parts are connected with the both ends of heating plate main part through corresponding portion of compressing tightly respectively, and corresponding fixed part 320c is seted up respectively to two joint interfaces 322, makes two fixed parts 320c respectively lead electrical pillar 400 with the positive pole and lead electrical pillar 600 buckle with the negative pole and be connected, and then makes heating plate 320 lead electrical pillar 400 with the positive pole and lead electrical pillar 600 buckle with the negative pole and be connected. In the present embodiment, both ends of the heating chip main body 320a are electrically connected to the corresponding fixing portions 320c through the two pressing portions 320b, and the inner walls of the oil passing receiving groove are respectively abutted to the two pressing portions 320b, so that the heating chip 320 and the oil guide 310 are reliably fixed to the oil passing receiving groove. Further, the heating chip main body 320a is provided with a conductive heating portion 321, and the conductive heating portion 321 generates heat when current is applied, so that the heating chip main body 320a can heat the oil guide 310 when current is applied. It is understood that the conductive heating part 321 may be a heating mesh structure or a heating bar structure.

As shown in fig. 2 and 6, in one embodiment, the sealing fixing manifold 100 includes a fixing manifold body 100a and a sealing pressing part 100b connected to the fixing manifold body 100a, the sealing pressing part being connected to the fixing manifold body, and the oil passing pressing groove 105 being formed between the fixing manifold body and the sealing pressing part. Each oil feed chamber 101 is including seting up in the oil chamber body 101a of fixed integrated component main part 100a and seting up in the inlet port 101b of sealed portion of compressing tightly 100b, the fog chamber 103 is seted up in fixed integrated component main part 100a, each oil feed chamber 101 inlet port 101b and corresponding oil chamber body 101a intercommunication, each the oil feed chamber 101 the oil chamber body passes through the oil compresses tightly groove 105 with fog chamber 103 intercommunication makes sealed fixed integrated component 100 seted up respectively two oil feed chambers 101 with fog chamber 103 makes sealed fixed integrated component 100 have better sealing performance and structural strength simultaneously.

As shown in fig. 2, further, the sealing part is coupled to the fixing chip body such that the sealing part is tightly coupled to the fixing chip body. Further, the fixing assembly body 100a is provided with a first abutting flange 107 in a protruding manner, the sealing pressing portion 100b is provided with a second abutting flange 108 in a protruding manner, and the first abutting flange 107 and the second abutting flange 108 are provided in correspondence, so that the oil passing pressing groove 105 is formed between the first abutting flange 107 and the second abutting flange 108, and thus the oil guiding heating elements 300 are respectively abutted between the first abutting flange 107 and the second abutting flange 108. In this embodiment, the oil guiding heating assembly 300 further includes a pressing reinforcing member 330, the pressing reinforcing member 330 abuts against one side of the oil guiding member deviating from the heating plate, the pressing reinforcing member 330, the oil guiding member and the heating plate are laminated and fixed in the oil passing pressing groove 105, so that two sides of the oil guiding member are clamped together by the pressing reinforcing member 330 and the heating plate, pressing force applied to the oil guiding member is uniform, the oil guiding member is pressed and abutted against the heating plate more smoothly, the problem that the heating plate is dry-burned even under the condition that the abutting position of the oil guiding member and the heating plate is partially warped is avoided, and reliability of the atomizer 10 is improved. The first abutment flange 107 abuts against the side of the heating plate facing away from the oil guide, and the second abutment flange 108 abuts against the side of the compression reinforcement 330 facing away from the oil guide.

As shown in fig. 2 and 4, one end of the fixing manifold body 100a is provided with a socket 1009, the sealing pressing part 100b is provided with a plug 1008, and the plug 1008 is located in the socket 1009 and connected to the inner wall of the fixing manifold body 100a, so that the fixing manifold body 100a and the sealing pressing part 100b are reliably connected. In the present embodiment, the second abutment flange 108 is provided to protrude from the insertion and extraction portion 1008. In order to reliably insert the inserting/removing portion 1008 into the insertion groove 1009 and reliably align the first abutting flange 107 with the second abutting flange 108, the fixing manifold body 100a is further provided with a guide groove 1007 that communicates with the insertion groove 1009, and the second abutting flange 108 is inserted into the guide groove and elastically connected to the fixing manifold body 100a, so that the inserting/removing portion 1008 is reliably inserted into the insertion groove 1009 and the first abutting flange 107 is reliably aligned with the second abutting flange 108. In the present embodiment, the guide groove is provided corresponding to the first abutment flange 107. Specifically, the center line of the guide groove and the center line of the first abutment flange 107 are located on the same straight line.

As shown in fig. 2, in the present embodiment, the oil passing pressing groove 105 is in interference fit with the oil guiding heating element 300, that is, the first abutting flange 107 and the second abutting flange 108 are pressed on the upper and lower surfaces of the oil guiding heating element 300 together in interference fit, that is, the first abutting flange 107 abuts on the side of the heating sheet 320 departing from the oil guiding element 310, and the second abutting flange 108 abuts on the side of the pressing reinforcing element 330 departing from the oil guiding element 310, so that the oil guiding element 310 has a certain deformation, and the atomized liquid in the oil inlet cavity 101 can be conducted into the atomizing cavity 103 through the oil guiding element 310 for heating and atomizing, and the oil leakage caused by the excessive oil guiding amount of the oil guiding element 310 is avoided.

As shown in fig. 2, in one embodiment, the sealing and compressing portion 100b includes a sealing portion body 110 and an extending portion 120 connected to each other, the sealing portion body 110 is sleeved on the fixing assembly body 100a, and the extending portion is wrapped on an outer wall of the fixing assembly body. Further, the sealing and compressing portion 100b further includes a limiting portion (not shown), the sealing portion body 110, the extending portion 120 and the limiting portion are sequentially connected, a positioning slot is formed on an outer wall of the fixing integrated piece main body 100a, and the limiting portion is embedded in the positioning slot, so that the sealing and compressing portion 100b is reliably connected with the fixing integrated piece main body 100 a. Specifically, an annular flange is convexly arranged in the limiting part, and the annular flange is clamped into the positioning clamping groove, so that the limiting part is reliably embedded in the positioning clamping groove.

As shown in fig. 2, in one embodiment, the atomizer 10 further includes an oil cup member 500, the oil cup member 500 defines an oil storage tank 502 and a central air outlet 504, and the sealing and fixing integrated member 100 is located in the oil storage tank 502 and elastically connected to the oil cup member 500, so that the sealing and fixing integrated member 100 is tightly connected to the oil cup member 500, and the sealing performance of the atomizer 10 is improved. The oil storage tank 502 is respectively communicated with the two oil inlet cavities 101, so that atomized liquid in the oil storage tank 502 enters through the two oil inlet cavities 101 and is guided to the position corresponding to the atomization cavity 103 through the oil guide part 310 to be heated and atomized to generate atomized steam, and the atomized steam generated in the atomization cavity 103 is mixed with air flow to form atomized gas. The central air outlet 504 is communicated with the atomizing cavity 103, so that the atomizing gas flows out through the central air outlet 504. In this embodiment, the atomization chamber 103 is communicated with the outside, so that the outside air flow can enter the atomization chamber 103 to be mixed with the atomized vapor. Specifically, the sealing and fixing integrated piece 100 is further provided with an air inlet 102, and the air inlet 102 is respectively communicated with the atomization cavity 103 and the outside of the sealing and fixing integrated piece 100, so that the atomization cavity 103 is communicated with the outside of the sealing and fixing integrated piece 100.

As shown in fig. 2, further, the oil cup member 500 includes an oil cup main body 500a and a central tube 500b, the oil storage groove 502 is opened in the oil cup main body 500a, the oil cup main body 500a is further opened with an open groove 503 and an air outlet 505, the oil storage groove 502 is respectively communicated with the open groove 503 and the air outlet 505, the central tube 500b is located in the oil storage groove 502, and one end of the central tube 500b is located in the air outlet 505 and connected with the oil cup main body 500a, so that the air outlet 505 is separated from the oil storage groove 502. The sealing and fixing integrated piece 100 is located in the opening groove 503 and connected to the oil cup main body 500a, and the sealing and fixing integrated piece 100 is sleeved on the central tube 500 b. In this embodiment, a central air outlet hole 504 is formed in the central tube 500b, and both the open groove 503 and the air outlet 505 communicate with the central air outlet hole 504. Specifically, the sealing and compressing portion 100b is sleeved on the central tube 500b and tightly connected with the central tube 500 b.

In order to bring the sealing/compressing portion 100b into close contact with the inner wall of the oil reservoir 502, as shown in fig. 2, a sealing flange 112 is provided on the outer peripheral wall of the sealing portion main body 110, and the sealing flange 112 elastically contacts with the inner wall of the oil reservoir 502, so that the sealing/compressing portion 100b is brought into close contact with the inner wall of the oil cup 500, and the sealing/fixing integrated member 100 reliably seals the oil cup 500.

As shown in fig. 3 and fig. 6, the fixing integrated piece main body 100a is further provided with a first air passing hole 1002, a flow passing groove 1004 and a second air passing hole 1006, and both the first air passing hole 1002 and the second air passing hole 1006 are communicated with the flow passing groove 1004. In the present embodiment, the flow passage groove 1004 is formed in the outer peripheral wall of the fixed manifold body 100 a. Specifically, the air inlet hole 102 and the first air passing hole are both communicated with the atomizing cavity 103, and the second air passing hole is communicated with the central air outlet hole 504, so that the atomizing gas formed in the atomizing cavity 103 can flow into the central air outlet hole 504 through the first air passing hole, the flow passing groove 1004 and the second air passing hole, and thus, the circulation of the atomizing gas is realized.

In order to avoid the problem of leakage of the condensate in the atomization cavity 103, as shown in fig. 3, a liquid blocking boss 103a is convexly arranged on the inner wall of the atomization cavity 103, the liquid blocking boss 103a surrounds the air inlet hole 102, so that a liquid blocking structure is formed at the communication position of the atomization cavity 103 and the air inlet hole 102, and the problem that the condensate in the atomization cavity 103 leaks through the air inlet hole 102 is avoided.

However, when more condensed liquid is collected in the atomizing chamber 103, especially in the using process, the condensed liquid flows easily or even leaks out of the air inlet 102 through the liquid blocking boss 103a due to shaking or pouring, so that the problem of liquid leakage of the atomizer 10 exists, for this reason, as shown in fig. 3, further, the atomizer 10 further includes a liquid absorbing cotton piece 700, the liquid absorbing cotton piece 700 is disposed in the atomizing chamber 103, and the liquid absorbing cotton piece 700 is sleeved on the liquid blocking boss 103a, so that the condensed liquid in the atomizing chamber 103 is absorbed by the liquid absorbing cotton piece 700, and the problem of liquid leakage of the atomizer 10 caused by the condensed liquid leaking out of the air inlet 102 through the liquid blocking boss 103a due to shaking or pouring easily or even occurring when more condensed liquid is collected in the atomizing chamber 103 is avoided, especially in the using process. In one embodiment, the absorbent cotton member 700 is elastically abutted against the inner wall of the atomization chamber 103, so that the absorbent cotton member 700 is reliably connected to the sealing and fixing integrated member 100, and the problem that the absorbent cotton member 700 is easy to fall off is avoided. Further, the thickness of the liquid absorbing cotton piece 700 is larger than the height of the liquid blocking boss 103a, so that the liquid absorbing cotton piece 700 reliably absorbs condensate, and the problem of liquid leakage of the atomizer 10 is better avoided.

As shown in fig. 2 and 4, the sealing fixing manifold 100 is detachably connected to the oil cup main body 500a, so that the sealing fixing manifold 100 can be disassembled or maintained, and the convenience of the atomizer 10 can be improved. In this embodiment, the sealing fixing integrated piece 100 is connected to the oil cup body 500a by a snap fit, so that the sealing fixing integrated piece 100 and the oil cup body 500a can be quickly disassembled and assembled. Specifically, the outer peripheral wall of the sealing and fixing integrated piece 100 is convexly provided with a clamping table 140, the oil cup body 500a is provided with a clamping groove 503a communicated with the open groove 503, and the clamping table is clamped into the clamping groove, so that the sealing and fixing integrated piece 100 is connected with the oil cup body 500a in a buckling manner.

The present application further provides an atomizing device including the atomizer 10 according to any one of the above embodiments. As shown in fig. 1 to 3, in one embodiment, the atomizer 10 includes a sealing and fixing assembly 100, an oil-conducting heating assembly 300, a positive conductive pillar 400, and a negative conductive pillar 600. The sealing and fixing integrated part 100 is provided with an oil inlet cavity 101, an oil passing pressing groove 105 and an atomizing cavity 103, the number of the oil inlet cavities 101 is two, and each oil inlet cavity 101 is communicated with the atomizing cavity 103 through the oil passing pressing groove 105. The oil guide heating assembly 300 is tightly pressed and fixed on the oil passing pressing groove 105, and parts of the oil guide heating assembly 300 are respectively located in the oil inlet cavity 101 and the atomization cavity 103.

Specifically, the oil guide heating assembly 300 includes an oil guide 310 and a heating fin 320, and the heating fin 320 is used for heating the oil guide 310. In this embodiment, both ends of the heating fin are respectively located in the two oil inlet chambers 101. In this embodiment, lead oil 310 and the setting of heating plate 320 butt, make oil 310 and the pressure-equalizing of heating plate 320 fix in the oily pressure tank 105 of mistake, the one side that makes oil 310 simultaneously leads closely butt with the one side of heating plate 320, the heat that so makes heating plate 320 produce when electrically conducting acts on oil guide reliably, and then make heating plate 320 can heat the atomizing liquid of leading oil 310 surface and atomize, and the heat that leads oil 310 surface can also heat the atomizing liquid of leading in oil 310 and atomize, so realize heating the atomizing liquid and atomizing, in order to produce atomizing steam, atomizing steam mixes with the air in atomizing chamber 103 and forms atomizing gas. It will be appreciated that the aerosolized liquid may be a tobacco tar or a liquid medicine or other aerosolized liquid.

Further, the positive conductive pillar 400 is disposed on the sealing and fixing integrated component 100, and the positive conductive pillar 400 is partially located in one of the oil inlet cavities 101 and connected to the heater chip. The negative electrode conductive column 600 is arranged in the sealing and fixing integrated part 100, and the part of the negative electrode conductive column 600 is positioned in the other oil inlet cavity 101 and connected with the heating plate, so that the negative electrode conductive column 600 and the positive electrode conductive column 400 are respectively arranged in the corresponding oil inlet cavity 101 and connected with the heating plate, and the heating plate is further externally connected with the positive electrode conductive column 400 through the negative electrode conductive column 600. Because anodal conductive column 400 and the negative pole is led electrical pillar 600 and is all partly located corresponding oil feed chamber 101 and be connected with the heating plate, make the easy assembly of heating plate connect in anodal conductive column 400 and negative pole and lead electrical pillar 600, so conveniently lead the fixed mounting of oil heating element 300.

In the atomization device, the seal fixing integrated part 100 of the atomizer 10 is provided with the oil inlet cavity 101, the oil passing pressing groove 105 and the atomization cavity 103, the number of the oil inlet cavities 101 is two, each oil inlet cavity 101 is communicated with the atomization cavity 103 through the oil passing pressing groove 105, the oil guide heating assembly 300 is pressed and fixed on the oil passing pressing groove 105, and parts of the oil guide heating assembly 300 are respectively positioned in the oil inlet cavity 101 and the atomization cavity 103, so that atomized liquid in each oil inlet cavity 101 can be adsorbed and conducted through the oil guide member, and the heating sheet heats the oil guide member to heat and atomize the atomized liquid in the oil guide member so as to generate atomized steam, and the atomized steam is mixed with air in the atomization cavity 103 to form atomized gas; because the oil guiding heating assembly 300 is tightly pressed and fixed in the oil passing pressing groove 105, the oil guiding piece and the heating sheet are tightly accommodated in the inner wall of the oil passing pressing groove 105, so that not only the fixed installation of the oil guiding piece and the heating sheet is realized, but also the oil guiding heating assembly 300 is tightly connected in the oil passing pressing groove 105, further the atomized liquid in the two oil inlet cavities 101 can only be led to the position corresponding to the atomization cavity 103 through the oil guiding piece, and the oil guiding piece is pressed to be tightly abutted against the heating sheet, and the heating sheet is respectively connected with the anode conductive post 400 and the cathode conductive post 600, so that the heating sheet is conductive and generates heat, further the heat generated by the heating sheet can better act on the oil guiding piece, the atomized liquid of the oil guiding piece is heated and atomized, the problem that the atomized liquid in the oil passing cavity directly flows into the atomization cavity 103 without being heated and atomized is avoided, compared with the traditional atomizer 10, the atomizer 10 of the present application has a small number of elements, which greatly simplifies the structure of the atomizer 10 and solves the problem that the structure of the atomizer 10 is complicated due to the large number of elements; further, since the positive conductive column 400 and the negative conductive column 600 are both partially located in the corresponding oil inlet cavity 101 and connected to the heater chip, the heater chip is easily assembled and connected to the positive conductive column 400 and the negative conductive column 600.

1. because the sealing and fixing integrated part 100 is provided with the oil inlet cavity 101, the oil passing pressing groove 105 and the atomizing cavity 103, the number of the oil inlet cavities 101 is two, each oil inlet cavity 101 is communicated with the atomizing cavity 103 through the oil passing pressing groove 105, the oil guide heating assembly 300 is pressed and fixed on the oil passing pressing groove 105, and parts of the oil guide heating assembly 300 are respectively positioned in the oil inlet cavity 101 and the atomizing cavity 103, so that atomized liquid in each oil inlet cavity 101 can be adsorbed and conducted through the oil guide member, and the heating sheet heats the oil guide member to heat and atomize the atomized liquid in the oil guide member to generate atomized steam, and the atomized steam is mixed with air in the atomizing cavity 103 to form atomized gas;

2. because the oil guiding heating assembly 300 is tightly pressed and fixed in the oil passing pressing groove 105, the oil guiding piece and the heating sheet are tightly accommodated in the inner wall of the oil passing pressing groove 105, so that not only the fixed installation of the oil guiding piece and the heating sheet is realized, but also the oil guiding heating assembly 300 is tightly connected in the oil passing pressing groove 105, further the atomized liquid in the two oil inlet cavities 101 can only be led to the position corresponding to the atomization cavity 103 through the oil guiding piece, and the oil guiding piece is pressed to be tightly abutted against the heating sheet, and the heating sheet is respectively connected with the anode conductive post 400 and the cathode conductive post 600, so that the heating sheet is conductive and generates heat, further the heat generated by the heating sheet can better act on the oil guiding piece, the atomized liquid of the oil guiding piece is heated and atomized, the problem that the atomized liquid in the oil passing cavity directly flows into the atomization cavity 103 without being heated and atomized is avoided, compared with the traditional atomizer 10, the atomizer 10 of the present application has a small number of elements, which greatly simplifies the structure of the atomizer 10 and solves the problem that the structure of the atomizer 10 is complicated due to the large number of elements.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An atomizer, comprising:

2. The atomizer of claim 1, wherein said oil-directing member is positioned above said heater chip.

3. The atomizer of claim 1, wherein said oil-conducting heating assembly further comprises a compression reinforcement member, said compression reinforcement member abuts against a side of said oil-conducting member facing away from said heating plate, and said compression reinforcement member, said oil-conducting member and said heating plate are stacked and compressed in said oil-passing compression groove.

4. A nebulizer as claimed in claim 3, wherein the compression reinforcement is an elastomeric compression block structure.

5. The atomizer according to claim 1, wherein the sealing and fixing integrated member further defines two mounting holes, the two mounting holes are respectively communicated with the two oil inlet chambers, the positive conductive post is inserted into one of the mounting holes and connected to the sealing and fixing integrated member, and the negative conductive post is inserted into the other mounting hole and connected to the sealing and fixing integrated member.

6. The atomizer of claim 5, wherein said positive conductive post and said negative conductive post are both removably attached to said heater chip.

7. The atomizer of claim 6, wherein said positive conductive post and said negative conductive post are both snap-fit to said heater chip.

8. The atomizer according to claim 1, wherein said seal fixing manifold comprises a fixing manifold body and a seal pressing portion, said seal pressing portion being connected to said fixing manifold body, said oil passing pressing groove being formed between said fixing manifold body and said seal pressing portion;

9. The atomizer according to any one of claims 1 to 8, further comprising an oil cup member, wherein the oil cup member defines an oil storage groove and a central air outlet, the sealing and fixing integrated member is located in the oil storage groove and tightly connected to the oil cup member, the oil storage groove is respectively communicated with the two oil inlet chambers, and the central air outlet is communicated with the atomizing chamber; the sealed fixed integrated piece is also provided with an air inlet which is communicated with the atomizing cavity.

10. An atomisation device comprising an atomiser according to any of claims 1 to 9.