CN216315598U - Atomizer and electronic atomization device - Google Patents

Abstract

The application provides an atomizer and electronic atomization device. The atomizer comprises an atomizing assembly and an air guide atomizing generating piece; the atomization assembly comprises an atomization seat, an atomization piece and a liquid guide piece, wherein the atomization seat is provided with a holding tank, a liquid guide mounting hole, a gas passing hole and an insertion hole, and the liquid guide piece is respectively arranged in the liquid guide mounting hole and the holding tank in a penetrating manner; the air guide atomization generating piece is connected with the liquid guide piece so as to be used for surrounding and blocking the liquid guide piece which is abutted against the heating part of the atomization piece in the air inlet channel. The space diminishes around the heating part of atomizing spare, make the heating part of atomizing spare produce the heat and concentrate on the drain better, reduce the calorific loss of the heating part of atomizing spare, the heat utilization ratio of the heating part of atomizing spare has been improved promptly, make the atomizer have better atomization effect, the energy consumption of atomizer simultaneously can be lower, save the electric energy promptly, under equal atomization effect condition, the electric power of atomizing spare has been reduced, the thermal efficiency of atomizer has been improved, thereby the atomization effect of atomizer has been improved.

Description

Atomizer and electronic atomization device

Technical Field

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

Background

Traditional atomizer, the atomizing seat is connected with the seal receptacle, and is formed with the atomizing chamber between seal receptacle and the atomizing seat, and oil cup spare cup joints respectively on seal receptacle and atomizing seat, and atomizing liquid in the oil cup spare is through the leading-in atomizing intracavity in the outside of seal receptacle heating atomizing.

However, because the atomizing chamber is directly communicated with the air inlet of the atomizing base, the space of the atomizing chamber of the atomizer is large and has a certain amount of air, so that the atomizing chamber generates atomized steam at the beginning of user's smoking, namely, at the beginning of the initial start of the atomizer, the concentration of the atomized gas mixed with the air in the atomizing chamber is low, and the atomizing effect of the atomizer is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides an atomizer with a good atomizing effect and an electronic atomizing device.

The purpose of the utility model is realized by the following technical scheme:

an atomizer, comprising:

the atomizing assembly comprises an atomizing seat, an atomizing piece and a liquid guide piece, wherein the atomizing seat is provided with a holding groove, a liquid guide mounting hole, an air passing hole and an inserting hole, and the liquid guide mounting hole, the air passing hole and the inserting hole are all communicated with the holding groove; the liquid guide piece is respectively arranged in the liquid guide mounting hole and the accommodating groove in a penetrating mode; the atomization piece is arranged in the accommodating groove;

the air guide atomization generating piece is inserted into the inserting hole, an air inlet channel is formed in the air guide atomization generating piece, the air guide atomization generating piece is connected with the liquid guiding piece so as to be used for surrounding and blocking the liquid guiding piece and the heating part of the atomization piece which are abutted into each other in the air inlet channel, and the air inlet channel is communicated with the air passing hole.

In one embodiment, the heating portion of the atomizing member is located entirely within the air intake passage.

In one embodiment, the atomizing member is disposed around the outer peripheral wall of the liquid guide member.

In one embodiment, the atomizing member is a heating wire structure or a heating strip structure.

In one embodiment, part of the air guide atomization generating piece is positioned in the air passing hole and connected with the atomization seat.

In one embodiment, the air passing hole is opposite to the inserting hole.

In one embodiment, the liquid-conducting member is a liquid-conducting tampon or a liquid-conducting ceramic strip.

In one embodiment, the atomizer further comprises an oil cup piece, wherein the oil cup piece is sleeved on the atomizing base, so that an oil storage cavity is formed between the oil cup piece and the atomizing base; the oil cup piece is further provided with an air outlet channel, and the air passing hole is communicated with the air inlet channel.

In one embodiment, the atomizing base comprises an atomizing base body and a sealing insulator, the atomizing base body is formed with a containing cavity, the inserting hole and the liquid guide mounting hole are formed in the atomizing base body, the containing cavity is respectively communicated with the inserting hole and the liquid guide mounting hole, the sealing insulator is located in the containing cavity and connected with the atomizing base body, and the sealing insulator is sleeved on the air guide atomizing generating piece; first mounting hole and second mounting hole have been seted up to sealed insulating part, the both ends of atomizing piece all expose in the outside that the piece takes place in the air guide atomizing, just the both ends of atomizing piece wear to locate respectively first mounting hole with the second mounting hole.

An electronic atomizer comprising the atomizer of any one of the above embodiments.

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

because the atomizing seat is provided with the holding tank, the liquid guide mounting hole, the air passing hole and the inserting hole are communicated with the holding tank, the air guide atomization generating part is inserted in the inserting hole, the air guide atomization generating part is provided with the air inlet channel, the liquid guide part is respectively arranged in the liquid guide mounting hole and the holding tank in a penetrating way, the air guide atomization generating part is connected with the liquid guide part and used for surrounding the abutted liquid guide part and the heating part of the atomization part in the air inlet channel, namely the heating part of the atomization part is abutted against the liquid guide part for heating, the abutting part of the heating part and the liquid guide part of the atomization part is positioned in the air inlet channel, the heating part of the atomization part heats and atomizes the atomized liquid of the liquid guide part positioned in the air inlet channel to generate atomized vapor, the atomized vapor is mixed with the air flow in the air inlet channel to form atomized gas, and meanwhile, the surrounding space of the heating part of the atomization part is reduced, make the heat that the heating position of atomizing part produced concentrate on the drain better, reduce the calorific loss of the heating position of atomizing part, the heat utilization ratio of the heating position of atomizing part has been improved promptly, make the atomizer have better atomization effect, the energy consumption that makes the atomizer simultaneously can be lower, save the electric energy promptly, under equal atomization effect condition, the electric power of atomizing part has been reduced, the heat efficiency of atomizer has been improved, thereby the atomization effect of atomizer has been improved.

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 schematic cross-sectional view of the atomizer shown in FIG. 1;

FIG. 3 is an exploded view of the atomizer shown in FIG. 2;

FIG. 4 is a schematic view of a portion of the atomizer shown in FIG. 2;

FIG. 5 is a schematic view of a portion of the atomizer shown in FIG. 2;

FIG. 6 is a partial schematic view of an atomizer according to still another embodiment;

fig. 7 is a schematic view of the atomizer shown in fig. 6 from another perspective.

Detailed Description

To facilitate an understanding of the utility model, the utility model 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 utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The application provides an atomizer which comprises an atomizing assembly and an air guide atomizing generating piece; the atomization assembly comprises an atomization seat, an atomization piece and a liquid guide piece, wherein the atomization seat is provided with a holding tank, a liquid guide mounting hole, an air passing hole and an insertion hole, and the liquid guide mounting hole, the air passing hole and the insertion hole are all communicated with the holding tank; the liquid guide piece is respectively arranged in the liquid guide mounting hole and the accommodating groove in a penetrating mode; the atomization piece is arranged in the accommodating groove; the air guide atomization generating piece is inserted into the insertion hole, an air inlet channel is formed in the air guide atomization generating piece, the air guide atomization generating piece is connected with the liquid guide piece and used for surrounding and blocking the liquid guide piece which is abutted against the heating part of the atomization piece in the air inlet channel, and the air inlet channel is communicated with the air passing hole.

In the atomizer, the atomizing base is provided with the holding tank, the liquid guide mounting hole, the air hole and the inserting hole are communicated with the holding tank, the air guide atomization generating part is inserted into the inserting hole, the air guide atomization generating part is provided with the air inlet channel, the liquid guide part is respectively arranged in the liquid guide mounting hole and the holding tank in a penetrating way, the air guide atomization generating part is connected with the liquid guide part and used for surrounding the abutted liquid guide part and the heating part of the atomization part in the air inlet channel, namely, the heating part of the atomization part is abutted against the liquid guide part for heating, the abutting part of the heating part and the liquid guide part of the atomization part is positioned in the air inlet channel, the heating part of the atomization part heats and atomizes the atomization liquid of the liquid guide part positioned in the air inlet channel to generate the atomization steam, and the atomization steam is mixed with the air flow in the air inlet channel to form atomization gas, make the heating part of atomizing spare space around diminishing simultaneously, make the heating part of atomizing spare produce heat and concentrate on the drain spare better, reduce the calorific loss of the heating part of atomizing spare, the heat utilization ratio of the heating part of atomizing spare has been improved promptly, make the atomizer have better atomization effect, make the energy consumption of atomizer lower simultaneously, save the electric energy promptly, under the equal atomization effect condition, the electric power of atomizing spare has been reduced, the thermal efficiency of atomizer has been improved, thereby the atomization effect of atomizer has been improved.

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, an atomizer 10 according to an embodiment includes an atomizing assembly 100 and an air-guide atomizing generating member 200. Wherein, atomizing subassembly 100 includes atomizing seat 110, atomizing piece 120 and drain 130, atomizing seat 110 is formed with holding tank 108, drain mounting hole 104, crosses gas pocket 106 and inserts and establish hole 102, the drain mounting hole cross the gas pocket with insert establish the hole all with the holding tank intercommunication. The liquid guiding member 130 is respectively inserted into the liquid guiding installation hole 104 and the accommodating groove. The atomizing part is arranged in the accommodating groove. The air guide atomization generating part 200 is inserted into the insertion hole, an air inlet channel is formed in the air guide atomization generating part, the air guide atomization generating part is connected with the liquid guiding part, so that the liquid guiding part and the heating part of the atomization part are abutted and blocked in the air inlet channel, namely, the liquid guiding part and the heating part of the atomization part are abutted and blocked in the air inlet channel of the air guide atomization generating part 200. The air inlet channel is communicated with the air passing holes, so that the atomizing gas flows out through the air passing holes, the liquid guide member 130 in the air inlet channel 204 is heated by the heating part of the atomizing member 120 to generate atomizing steam, and the atomizing steam is communicated with the air flow of the air inlet channel 204.

As shown in fig. 2, in the present embodiment, a portion of the liquid guiding member is located in the air inlet passage, a heating portion of the atomizing member is at least partially located in the air inlet passage, and at least a portion of the heating portion of the atomizing member abuts against the liquid guiding member. The air intake passage 204 communicates with the periphery of the nebulizer 10, so that the peripheral air flow flows into the nebulizer 10 through the air intake passage 204.

In the atomizer 10, the atomizing base is formed with the receiving groove, the liquid guiding mounting hole 104, the air passing hole 106 and the inserting hole 102, the liquid guiding mounting hole, the air passing hole and the inserting hole are all communicated with the receiving groove, the air guiding atomizing generating element is inserted in the inserting hole and is formed with the air inlet channel, the liquid guiding element is respectively arranged in the liquid guiding mounting hole and the receiving groove in a penetrating manner, the air guiding atomizing generating element is connected with the liquid guiding element and is used for surrounding the abutted liquid guiding element and the heating part of the atomizing element in the air inlet channel, namely, the heating part of the atomizing element is abutted against the liquid guiding element for heating, the abutting part of the heating part and the liquid guiding element is positioned in the air inlet channel, the heating part of the atomizing element heats and atomizes the atomized liquid of the liquid guiding element positioned in the air inlet channel to generate atomized vapor, and the atomized vapor is mixed with the air flow in the air inlet channel to form atomized gas, make the heating part of atomizing spare space around diminishing simultaneously, make the heating part of atomizing spare produce heat and concentrate on the drain spare better, reduce the calorific loss of the heating part of atomizing spare, the heat utilization ratio of the heating part of atomizing spare has been improved promptly, make the atomizer have better atomization effect, make the energy consumption of atomizer lower simultaneously, save the electric energy promptly, under the equal atomization effect condition, the electric power of atomizing spare has been reduced, the thermal efficiency of atomizer has been improved, thereby the atomization effect of atomizer has been improved.

In one embodiment, the air-guiding atomization generating element further forms a through hole communicated with the air inlet channel, and the liquid guiding element 130 is respectively inserted into the liquid guiding installation hole 104 and the through hole 202, that is, the liquid guiding element 130 is installed in the atomization seat 110 in a penetrating manner, that is, at least a portion of the liquid guiding element 130 is exposed outside the atomization seat 110 and contacts with the atomized liquid to realize liquid guiding.

As shown in fig. 2, in one embodiment, the atomizer 10 further includes an oil cup 300, and the oil cup 300 is sleeved on the atomizing base 110, so that an oil storage cavity 302 is formed between the oil cup 300 and the atomizing base 110. In this embodiment, reservoir chamber 302 is used to store an atomized liquid, which may be a tobacco or medicinal liquid or other atomized liquid. The liquid guiding member 130 is at least partially exposed outside the atomizing base 110 to contact the atomized liquid in the oil chamber 302 for guiding the liquid. Further, the oil cup 300 is further formed with an air outlet channel 304, and the air outlet channel 304 is communicated with the air inlet channel 204, so that the atomizing gas formed in the air guide atomizing generating member 200 can flow out through the air outlet channel 304.

As shown in fig. 2 and 4, in one embodiment, the heating portion of the atomizing element 120 is located completely within the air inlet passage 204, and the position where the heating portion of the atomizing element 120 acts on the liquid guiding element 130 is located completely within the air inlet passage 204, so as to better form the atomized gas within the air inlet passage 204.

As shown in fig. 2 and 4, in one embodiment, the atomizing element 120 is disposed around the outer peripheral wall of the liquid guiding element 130, so that the contact area between the atomizing element 120 and the liquid guiding element 130 is large, and the atomizing element 120 can better heat and atomize the liquid guiding element 130. In one embodiment, the atomizing element 120 is a heating wire structure or a heating strip structure, so that the atomizing element 120 is better disposed around the outer peripheral wall of the liquid guiding element 130. In the present embodiment, the atomizing member 120 is a heating wire structure. It is understood that in other embodiments, the atomizing member 120 can have other configurations.

As shown in fig. 2 and 4, in one embodiment, the air inlet channel 204 is communicated with the air passing hole 106 through a receiving groove, and a portion of the air guide atomization generating element 200 is located in the air passing hole 106 and connected to the atomizing base 110, so that the atomization gas generated in the air passing hole flows out of the atomizing base 110 through the air outlet channel 304. In the present embodiment, the air holes 106 are communicated with the air outlet channel 304, so that the atomizing gas flows out through the air outlet channel 304.

As shown in fig. 2 and 4, further, the gas-guide atomization generator 200 is tubular, which makes the structure of the gas-guide atomization generator 200 simpler and easier to manufacture and mold. In order to avoid heat dissipation of the air guide atomization generating piece 200, furthermore, a thermal insulation coating is coated on the outer circumferential wall of the air guide atomization generating piece 200, because the heating part of the atomization piece 120 is abutted against and heated by the liquid guide piece 130 in the air inlet channel 204, that is, the atomization piece 120 is heated and atomized in the air inlet channel 204, the temperature of the inner wall of the air guide atomization generating piece 200, which is close to the heating part of the atomization piece 120, is higher, and because the thermal insulation coating is coated on the outer circumferential wall of the air guide atomization generating piece 200, the heat conducted from the air guide atomization generating piece 200 to the atomization seat 110 is reduced, and meanwhile, the heat loss of the air guide atomization generating piece 200 is reduced, so that the heat of the heating part of the atomization piece 120 acts on the liquid guide piece 130 better, and the atomization effect of the atomizer 10 is improved.

In order to better insert the air guide atomization generating piece 200 into the air outlet channel 304 and the insertion hole 102 respectively and reduce the manufacturing difficulty of the air guide atomization generating piece 200, as shown in fig. 2 and 4, in one embodiment, the air passing hole is opposite to the insertion hole 102, so that the air guide atomization generating piece 200 can be better inserted into the air outlet channel 304 and the insertion hole 102 respectively and the manufacturing difficulty of the air guide atomization generating piece 200 is reduced.

In one embodiment, as shown in fig. 2 and 4, the liquid guiding member 130 is a tampon or a ceramic strip, which provides the liquid guiding member 130 with good liquid guiding performance. In this embodiment, fluid-directing member 130 is a tampon.

As shown in fig. 2 and 4, in one embodiment, the atomizing base 110 includes an atomizing base body 110a and a sealing insulator 110b, the atomizing base body 110a is formed with an accommodating groove 108, the liquid guiding installation hole 104 is formed in the atomizing base body 110a, the insertion hole 102 is formed in the sealing insulator 110b, the accommodating groove 108 is respectively communicated with the insertion hole 102 and the liquid guiding installation hole 104, the sealing insulator 110b is located in the accommodating groove 108 and connected to the atomizing base body 110a, and the sealing insulator 110b is sleeved on the air guiding atomizing generator 200, so that the air guiding atomizing generator 200 is better connected to the atomizing base 110, and meanwhile, the liquid guiding element is conveniently installed through the liquid guiding installation hole and the through hole, thereby improving the installation convenience of the liquid guiding element. The sealing insulating member 110b is provided with a first mounting hole 112 and a second mounting hole 114, two ends of the atomizing member 120 are exposed outside the air guide atomizing generating member 200, and two ends of the atomizing member 120 are respectively penetrated through the first mounting hole 112 and the second mounting hole 114, so that the two ends of the atomizing member 120 can be reliably and externally connected with electric conduction due to the good sealing property and insulating property of the sealing insulating member 110 b. In this embodiment, the sealing insulator 110b is a silicone member.

As shown in fig. 4, the atomizing member 120 further includes a positive lead 122, a conductive heat generating portion 124 and a negative lead 126, two ends of the conductive heat generating portion 124 are respectively connected to the positive lead 122 and the negative lead 126, the positive lead 122 and the negative lead 126 both extend out of the air guide atomization generating member 200, the positive lead 122 is inserted into the first mounting hole 112, and the negative lead 126 is inserted into the second mounting hole 114, so that the positive lead 122 and the negative lead 126 are externally connected to be conductive. In this embodiment, the conductive heat generating portion 124 is located in the air intake channel 204 and is abutted against the liquid guiding member 130, the conductive heat generating portion 124 generates heat when electricity is applied, and the heating portion of the atomizing member 120 is the conductive heat generating portion 124. Specifically, the conductive heat generating portion 124 is disposed around the outer peripheral wall of the liquid guiding member 130, so that the conductive heat generating portion 124 heats and atomizes the outer peripheral wall of the liquid guiding member 130.

As shown in FIG. 4, in one embodiment, the through-hole 202 extends in a direction through the air guide atomizing generating member 200. In the present embodiment, the extending direction of the through hole 202 and the extending direction of the air inlet channel 204 are perpendicular to each other, and the extending direction of the air inlet channel 204 is the axial direction of the air guide atomization generating member 200. It will be appreciated that the positive lead wire 122 and the negative lead wire 126 may extend outside the air guide atomization generating member 200 through the through hole 202, which makes the atomizer 10 more compact. In order to improve the convenience of installing the positive lead wire 122, the negative lead wire 126 and the liquid guide member, as shown in fig. 5, a bevel groove 207 is further formed on the side wall of the air guide atomization generating member 200, the bevel groove extends into the through hole, when the air guide atomization generating member is installed, the conductive heating portion 124 of the atomization member can be wound on the peripheral wall of the liquid guide member, the positive lead wire 122 and the negative lead wire 126 respectively extend towards the two ends of the liquid guide member, and then the liquid guide member wound with the atomization member is placed in the through hole through the bevel groove, so that the air guide atomization generating member 200 and the liquid guide member wound with the atomization member can be assembled quickly.

However, the provision of the chamfered groove on the sidewall of the air guide atomization generating member 200 may affect the service life of the air guide atomization generating member 200 to a certain extent, and the manner in which the positive lead wire 122 and the negative lead wire 126 are installed along with the liquid guide member 130 extending through the through hole may affect the liquid guide sealing property of the through hole, so that the sealing property requirement of the connection between the liquid guide member and the air guide atomization generating member 200 is high, especially the hardness of the liquid guide member is high, such as liquid guide ceramics, and the protrusion of the positive lead wire 122 and the negative lead wire 126 along with the liquid guide member 130 through the through hole may further increase the sealing difficulty at the through hole, which is not favorable for the assembly and manufacture of the atomizer 10, in order to reduce the manufacturing difficulty of the atomizer 10, as shown in fig. 4, 6 and 7, in another embodiment, the sidewall of the air guide atomization generating member 200 is further provided with a first through hole 201 and a second through hole 203, both the first through hole 201 and the second through hole 203 are communicated with the air inlet channel 204, the positive lead wire 122 is led out of the outer side of the air guide atomization generating piece 200 through the first through hole 201, and the negative lead wire 126 is led out of the outer side of the air guide atomization generating piece 200 through the second through hole 203, so that the difficulty of the arrangement mode that the positive lead wire 122 and the negative lead wire 126 can extend out of the outer side of the air guide atomization generating piece 200 through the through hole 202 is low. In this embodiment, the positive lead wire 122 is slidably sleeved with a first insulating sealing sliding sleeve, the negative lead wire 126 is slidably sleeved with a second insulating sealing sliding sleeve, and the first insulating sealing sliding sleeve is used for blocking the inner wall of the first via hole 201, so that the positive lead wire 122 is tightly connected with the air guide atomization generating member 200. The second insulating sealing sliding sleeve is used for blocking the inner wall of the second through hole 203, so that the negative lead wire 126 is tightly connected with the air guide atomization generating piece 200. In this embodiment, the first insulating sealing sliding sleeve and the second insulating sealing sliding sleeve are both silicone sleeves.

For the convenience of the dismouting that has improved first insulation sealing sliding sleeve, furtherly, first insulation sealing sliding sleeve includes two half covers of first snap ring, and two half mutual buckle connection of cover of first snap ring, and two half covers of first snap ring slip jointly and cup joint in anodal lead-out wire 122. In this embodiment, the abutting surface of one of the first half-rings is provided with a first hook, the abutting surface of the other one of the first half-rings is provided with a first slot, and the first hook is clamped into the first slot, so that the two first half-rings are mutually connected in a buckling manner. When the first insulating sealing sliding sleeve needs to be disassembled, the first insulating sealing sliding sleeve is firstly pulled out of the first through hole 201, and then the two first clamping rings are separated in a half-sleeve mode, so that the first insulating sealing sliding sleeve is rapidly disassembled; similarly, at installation first insulation sliding sleeve, earlier with two first snap ring half cover relative cladding in anodal lead-out wire 122 and buckle, make first insulation sliding sleeve cup joint in anodal lead-out wire 122, go into first via hole 201 with first insulation sliding sleeve card again, so realize first insulation sliding sleeve quick assembly disassembly, improved the convenience of the dismouting of first insulation sliding sleeve.

For the convenience of the dismouting that has improved the sealed sliding sleeve of second insulation, furtherly, the sealed sliding sleeve of second insulation includes two half covers of second snap ring, and two half mutual buckle connection of cover of second snap ring, and two half covers of second snap ring slide jointly and cup joint in negative pole lead-out wire 126. In this embodiment, one of the second snap rings has a second hook on its abutting surface, and the other second snap ring has a second slot on its abutting surface, and the second hook is engaged into the second slot, so that the two second snap rings are engaged with each other. When the second insulating sealing sliding sleeve needs to be disassembled, the second insulating sealing sliding sleeve is firstly pulled out of the second through hole 203, and then the two second clamping rings are separated in a half-sleeve mode, so that the second insulating sealing sliding sleeve is rapidly disassembled; similarly, at installation second insulating seal sliding sleeve, earlier with two second snap rings half set cladding in negative pole lead-out wire 126 and buckle relatively, make second insulating seal sliding sleeve cup joint in negative pole lead-out wire 126, go into second via hole 203 with second insulating seal sliding sleeve card again in, so realize second insulating seal sliding sleeve quick assembly disassembly, improved the convenience of the dismouting of second insulating seal sliding sleeve.

As shown in fig. 4, the atomization holder body 110a further includes a base 1102 and a seal seat 1104, the seal seat 1104 is sleeved on the base 1102, and the seal seat 1104 and the base 1102 together enclose the receiving groove 108. The oil cup 300 is sleeved on the seal seat 1104 and tightly connected with the seal seat 1104, so that the oil storage cavity 302 is formed between the seal seat 1104 and the oil cup 300. The fluid conducting mounting hole 104 is formed in the base 1102 or the seal base 1104. In the present embodiment, the liquid guiding installation hole 104 is formed in the base 1102, and the liquid guiding element 130 is pressed between the base 1102 and the sealing seat 1104, so that the liquid guiding element 130 is reliably connected to the atomizing base body 110 a. In order to facilitate the disassembly, assembly and maintenance of the atomizer 10, further, the base 1102 is detachably connected with the seal holder 1104, and the base 1102 is detached from the seal holder 1104, so that the components such as the liquid guiding member 130 and the atomizing member 120 can be maintained or replaced, the disassembly, assembly and maintenance of the atomizer 10 are facilitated, and the difficulty in manufacturing the atomizer 10 is reduced.

As shown in fig. 4, in one embodiment, the sealing seat 1104 forms a clip groove 1105, and the base 1102 is clipped into the clip groove 1105, so that the base 1102 is detachably connected with the sealing seat 1104. Specifically, the seal seat 1104 includes an integrally formed seal seat main body 1106 and a clamping portion 1108, the clamping groove 1105 is opened in the clamping portion 1108, and the clamping portion 1108 is disposed corresponding to the liquid guiding installation hole 104, and the clamping portion 1108 abuts and is pressed against the liquid guiding element 130, and a portion of the clamping portion 1108 abutting against the liquid guiding element 130 is disposed adjacent to the clamping groove 1105, so that the liquid guiding element 130 is better fixed in the liquid guiding installation hole 104. In this embodiment, the clamping portion 1108 and the base 1102 together define the receiving groove 108, and the abutting portion abuts against the sealing insulator 110b, so that the sealing insulator 110b is pressed in the receiving groove 108. The liquid guiding member 130 is disposed in the through hole 202 through the receiving groove 108, and the air outlet channel 304 is formed in the clamping portion 1108. In order to make the joint portion 1108 better abut against and compress tightly on the liquid guiding member 130, further, the joint portion 1108 is convexly provided with an abutting flange, the abutting flange abuts against and compresses tightly on the liquid guiding member 130, and the abutting flange is in an oblate arc shape, so that the joint portion 1108 better abuts against and compresses tightly on the liquid guiding member 130. Further, the seal holder main body 1106 is formed with a bare hole 1107 communicating with the oil reservoir chamber 302, and a portion of the liquid guide member 130 is located in the bare hole 1107, so that the atomized liquid reliably enters the bare hole 1107 and contacts the liquid guide member 130.

As shown in fig. 4, further, a connecting groove 1101 and a supporting groove 1103 which are communicated with each other are formed on the base 1102, the sealing insulator 110b is located in the connecting groove 1101 and connected with the base 1102, the inner wall of the supporting groove 1103 supports and abuts against the sealing insulator 110b, an air inlet gap 1109 is formed at the position where the sealing insulator 110b abuts against the inner wall of the supporting groove 1103, the air inlet gap 1109 is communicated with the inserting hole 102, so that the peripheral air flow flows into the inserting hole 102 through the air inlet gap 1109, and further the peripheral air flow can reliably flow into the air guide atomization generator 200. In this embodiment, the insertion hole 102 is a stepped hole, and the air guide atomization generator 200 is located in the insertion hole 102 and inserted into the sealing insulator 110 b. The sealing insulator 110b is formed with a catching protrusion 111b, which is located in the supporting groove 1103 and connected with the base 1102, and an air inlet gap 1109 is formed in the catching protrusion.

Referring to fig. 3 again, further, the base 1102 is provided with an air inlet 1112, the air inlet 1112 is communicated with the supporting groove 1103, so that the peripheral air flow sequentially passes through the air inlet 1112, the supporting groove 1103 and the air inlet gap 1109 and flows into the air inlet channel 204. For the situation that the condensed liquid that avoids producing in inlet channel 204 spills through inlet channel 204, air intake gap 1109 and inlet port 1112, promptly avoid the atomizer 10 to have the problem of weeping, furthermore, atomizer 10 still includes the cotton piece of album liquid, the cotton piece of album liquid is located in supporting groove 1103, and the cotton piece of collection liquid corresponds the setting with inlet channel 204, the cotton piece of album liquid is used for adsorbing the condensate, the situation that the condensed liquid that has avoided producing in inlet channel 204 spills through inlet channel 204, air intake gap 1109 and inlet port 1112. In this embodiment, the liquid collecting cotton piece is liquid absorbing cotton. In order to reliably and correspondingly set the liquid-collecting cotton piece with the air inlet channel 204 and avoid the situation that the liquid-collecting cotton piece moves relative to the base 1102, furthermore, the base 1102 is further provided with a positioning groove which is communicated with the supporting groove 1103, the liquid-collecting cotton piece is arranged in the positioning groove and connected with the base 1102, so that the liquid-collecting cotton piece is reliably connected in the positioning groove, the situation that the liquid-collecting cotton piece moves relative to the base 1102 is avoided, and the liquid-collecting cotton piece is reliably and correspondingly set with the air inlet channel 204.

As shown in fig. 4, further, the clamping portion 1108 is sleeved on the central tube of the cup 300, and the air outlet channel 304 is formed on the central tube, so that the air outlet channel 304 is better communicated with the air inlet channel 204. In this embodiment, the fastening portion 1108 has a through air hole 106, and the central tube is located in the through air hole 106 and fastened to the fastening portion 1108. Further, the air guide atomization generating piece 200 is located in the air passing hole 106, the central tube is sleeved on the air guide atomization generating piece 200, so that the central tube is communicated with the air inlet channel 204, atomized steam generated in the air inlet channel 204 flows out quickly through the central tube, and the air guide smoothness of the atomizer 10 is improved. In this embodiment, the air intake passage 204 of the center tube adjacent to the end of the air guide atomization generator 200 is formed with a mounting step into which the center tube is inserted to securely connect the center tube to the air guide atomization generator 200.

The present application further provides an electronic atomizer comprising the atomizer 10 according to any one of the above embodiments.

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

because the atomizing seat is provided with the holding tank, the liquid guide mounting hole, the air passing hole and the inserting hole are communicated with the holding tank, the air guide atomization generating part is inserted in the inserting hole, the air guide atomization generating part is provided with the air inlet channel, the liquid guide part is respectively arranged in the liquid guide mounting hole and the holding tank in a penetrating way, the air guide atomization generating part is connected with the liquid guide part and used for surrounding the abutted liquid guide part and the heating part of the atomization part in the air inlet channel, namely the heating part of the atomization part is abutted against the liquid guide part for heating, the abutting part of the heating part and the liquid guide part of the atomization part is positioned in the air inlet channel, the heating part of the atomization part heats and atomizes the atomized liquid of the liquid guide part positioned in the air inlet channel to generate atomized steam, the atomized steam is mixed with the air flow in the air inlet channel to form atomized gas, and meanwhile, the surrounding space of the heating part is reduced, make the heating position of atomizing part produce heat and concentrate on the drain better, reduce the calorific loss of the heating position of atomizing part, improved the heat utilization ratio of the heating position of atomizing part promptly, make the atomizer have better atomization effect, make the energy consumption of atomizer can be lower simultaneously, save the electric energy promptly, under equal atomization effect condition, reduced the electric power of atomizing part, improved the thermal efficiency of atomizer, thereby the atomization effect of atomizer has been improved.

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 utility model. 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 (10)

1. An atomizer, comprising:

the atomizing assembly comprises an atomizing seat, an atomizing piece and a liquid guide piece, wherein the atomizing seat is provided with a holding groove, a liquid guide mounting hole, an air passing hole and an inserting hole, and the liquid guide mounting hole, the air passing hole and the inserting hole are all communicated with the holding groove; the liquid guide piece is respectively arranged in the liquid guide mounting hole and the accommodating groove in a penetrating mode; the atomization piece is arranged in the accommodating groove;

the air guide atomization generating piece is inserted into the inserting hole, an air inlet channel is formed in the air guide atomization generating piece, the air guide atomization generating piece is connected with the liquid guiding piece so as to be used for surrounding and blocking the liquid guiding piece and the heating part of the atomization piece which are abutted into each other in the air inlet channel, and the air inlet channel is communicated with the air passing hole.

2. A nebulizer as claimed in claim 1, wherein the heated region of the nebulizing element is located entirely within the air intake passage.

3. A nebulizer as claimed in claim 1, wherein the nebulizing element is arranged around the peripheral wall of the liquid conducting element.

4. A nebulizer as claimed in claim 3, wherein the nebulizing element is a heating wire arrangement or a heating strip arrangement.

5. The atomizer of claim 1 wherein a portion of said air directing atomizer generating member is located within said air passage and is connected to said atomizing base.

6. The atomizer of claim 5, wherein said air vent is disposed directly opposite said insert.

7. A nebulizer as claimed in claim 1, wherein the liquid-conducting member is a tampon or a ceramic strip.

8. The atomizer of claim 1, further comprising an oil cup member, said oil cup member being received in said atomizing base such that an oil storage chamber is defined between said oil cup member and said atomizing base; the oil cup piece is further provided with an air outlet channel, and the air passing hole is communicated with the air inlet channel.

9. The atomizer according to any one of claims 1 to 8, wherein the atomizing base comprises an atomizing base body and a sealing insulator, the atomizing base body is formed with a receiving cavity, the insertion hole and the liquid guide mounting hole are formed in the atomizing base body, the receiving cavity is respectively communicated with the insertion hole and the liquid guide mounting hole, the sealing insulator is located in the receiving cavity and connected with the atomizing base body, and the sealing insulator is sleeved on the air guide atomization generator; first mounting hole and second mounting hole have been seted up to sealed insulating part, the both ends of atomizing piece all expose in the outside that the piece takes place in the air guide atomizing, just the both ends of atomizing piece wear to locate respectively first mounting hole with the second mounting hole.

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

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