CN218527716U - Atomizing core for reducing condensate - Google Patents

Abstract

The utility model discloses an atomizing core for reducing condensate, which comprises a liquid guiding element and an atomizing element, wherein the liquid guiding element is made of microporous materials and comprises a liquid guiding element body and an oil guiding cover plate; the liquid guide element body is provided with a liquid blocking bone, the liquid blocking bone is provided with a first step surface, the liquid guide element body is provided with atomized gas cooling holes along the vertical direction of the liquid guide element body, and the liquid guide element body is provided with an atomized element mounting cavity; the oil guide cover plate is detachably connected with the liquid plugging rib, the lower end face of the oil guide cover plate is upwards concavely provided with a positioning groove and a first vent groove which are intersected, and the inner top wall of the first vent groove is higher than the inner top wall of the positioning groove; stifled liquid bone stretches into in the constant head tank and leads and be formed with first ventilation gap between the lower terminal surface of oil cover board and the first step face, and atomizing gas cooling hole is through first air channel and first ventilation gap intercommunication, and it has reached and has cooled down and adsorb the effect of large granule for the aerogel after the high temperature atomizing, and then has reduced the formation of condensate, refines the aerogel granule and does not scald the mouth, is favorable to promoting user experience and feels.

Description

Atomizing core for reducing condensate

Technical Field

The utility model belongs to the technical field of the atomizing core technique and specifically relates to indicate a reduce atomizing core of condensate.

Background

The conventional atomizer (especially the electronic cigarette) generates condensate on the side wall of the flow channel, the condensate flows to the surface of an electronic component to influence the function and the service life of the product, and the condensate enters the mouth of a user to seriously influence the use experience of the user.

The traditional solution is to add absorbent cotton or add a new containing cavity. However, neither of these methods can solve the problem fundamentally, and the absorbent cotton flows out when it is filled or the holding chamber is filled, which increases the product cost and the product volume.

Therefore, in the present invention, the applicant has studied a new technical solution to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a reduce atomizing core of condensate, and it has reached and has cooled down and adsorb the effect of big granule for the aerogel after the high temperature atomizing, and then has reduced the formation of condensate, refines the aerogel granule and does not scald the mouth, is favorable to promoting user experience and feels.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an atomizing core for reducing condensate comprises a liquid guide element and an atomizing element which are connected with each other,

the liquid guiding element is made of microporous materials and comprises a liquid guiding element body and an oil guiding cover plate detachably connected to the liquid guiding element body;

the upper end surface of the liquid guide element body is convexly provided with a liquid blocking bone, the liquid blocking bone is provided with a first step surface arranged along the axial direction of the liquid blocking bone, and the first step surface is positioned below the upper end surface of the liquid blocking bone;

the liquid guide element body is provided with atomizing gas cooling holes along the vertical direction, the atomizing gas cooling holes penetrate from the upper end surface of the liquid blocking bone to the lower end surface of the liquid guide element body, the lower end surface of the liquid guide element body is upwards concavely provided with an atomizing element mounting cavity communicated with the atomizing gas cooling holes, and the atomizing element is arranged in the atomizing element mounting cavity;

the oil guide cover plate is detachably connected with the liquid plugging bone, the lower end face of the oil guide cover plate is upwards concavely provided with a positioning groove and a first vent groove which are intersected, and the inner top wall of the first vent groove is higher than the inner top wall of the positioning groove;

the liquid blocking bone stretches into the positioning groove, a first ventilation gap is formed between the lower end face of the oil guide cover plate and the first step face, and the atomized gas cooling hole is communicated with the first ventilation gap through the first ventilation groove.

As a preferable scheme, the atomizing element comprises a cup body, a heating element, an oil storage element and a conductive element, and the conductive element is electrically connected with the heating element; the cup body is concavely provided with a cavity, the heating element and the oil storage element are both arranged in the cavity, and the heating element and the oil storage element are both arranged in the atomization element mounting cavity.

Preferably, the heating element has an installation groove, and the oil storage element is installed in the installation groove.

Preferably, the heating element has a front plate portion and a rear plate portion which are arranged at a distance and connected to each other, and the mounting groove is located between the front plate portion and the rear plate portion.

Preferably, the mounting groove has an upper end opening.

As a preferred scheme, the lower terminal surface of cup upwards is sunken to be equipped with the conductive element installation cavity of intercommunication cavity, conductive element installs in conductive element installation cavity and conductive element stretches into the electric connection heating element behind the cavity.

As a preferred scheme, the left end and the right end of the front plate part and the rear plate part are respectively provided with a conductive connecting part, a hollowed heating part is arranged between the conductive connecting parts at the two corresponding ends on the front plate part and the rear plate part, the hollowed heating part is provided with a plurality of hollowed holes which are arranged at intervals, and the hollowed heating part wraps the outside of the oil storage part; the liquid guide element guides liquid to the oil storage piece.

Preferably, a second vent groove is formed in the outer side surface of the liquid blocking bone in an inward concave mode, and the second vent groove penetrates from the first step surface to the upper end face of the liquid guiding element body.

Preferably, a projection is convexly arranged on the upper end surface of the liquid guiding element body, and the projection and the second vent groove maintain a second vent gap.

Preferably, the liquid guiding element body is provided with a second step surface arranged along the axial direction of the liquid guiding element body, and the second step surface is positioned above the lower end surface of the liquid guiding element body.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme, it mainly is the design of leading oil cover board and first air channel for aerogel after the atomizing is tortuous up, at tortuous in-process, the large granule is absorbed, the heat is absorbed, reached and cooled down and adsorb the effect of large granule for aerogel after the high temperature atomizing, and then reduced the formation of condensate, refine the aerogel granule and do not scald the mouth, be favorable to promoting user experience and feel.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the preferred embodiment of the present invention;

FIG. 3 is an exploded view of the liquid guiding member according to the preferred embodiment of the present invention;

FIG. 4 is another exploded perspective view of the liquid-guiding member according to the preferred embodiment of the present invention;

FIG. 5 is an exploded view of the atomizing element in accordance with the preferred embodiment of the present invention;

FIG. 6 is another exploded perspective view of the atomizing element of the preferred embodiment of the present invention;

FIG. 7 is a cross-sectional view of the preferred embodiment of the present invention;

fig. 8 is another cross-sectional structure diagram of the preferred embodiment of the present invention.

The attached drawings indicate the following:

10. liquid guiding element

11. Liquid guiding element body

111. Atomizing gas cooling hole 112 and atomizing element mounting cavity

113. Bump 114, second step surface

12. Oil guide cover plate

121. Positioning groove 122 and first ventilation groove

13. Liquid blocking bone 131 and second vent groove

14. First step surface

20. Atomizing element

30. Cup body

31. Cavity 32, conductive element mounting cavity

40. Heating element 401, mounting groove

402. Front plate 403 and rear plate

41. Conductive connecting part 42 and hollowed-out heating part

421. Hollow hole

43. First connecting plate 44 and second connecting plate

50. Oil storage element

60. A conductive element.

Detailed Description

Fig. 1 to 8 show the specific structure of the preferred embodiment of the present invention.

An atomizing core for reducing condensate comprises a liquid guide element 10 and an atomizing element 20 which are connected with each other.

The liquid guiding element 10 is made of microporous materials, and the liquid guiding element 10 comprises a liquid guiding element body 11 and an oil guiding cover plate 12 detachably connected to the liquid guiding element body 11;

a liquid blocking bone 13 is convexly arranged on the upper end surface of the liquid guiding element body 11, the liquid blocking bone 13 is provided with a first step surface 14 arranged along the axial direction of the liquid blocking bone, and the first step surface 14 is positioned below the upper end surface of the liquid blocking bone 13;

the liquid guiding element body 11 is provided with atomizing gas cooling holes 111 along the upper and lower direction thereof, the atomizing gas cooling holes 111 penetrate from the upper end surface of the liquid blocking rib 13 to the lower end surface of the liquid guiding element body 11, and the lower end surface of the liquid guiding element body 11 is upwards concavely provided with an atomizing element mounting cavity 112 communicated with the atomizing gas cooling holes 111.

The oil guide cover plate 12 is detachably connected with the liquid blocking bone 13, the lower end surface of the oil guide cover plate 12 is upwards concavely provided with a positioning groove 121 and a first vent groove 122 which are intersected, and the inner top wall of the first vent groove 122 is higher than that of the positioning groove 121;

the liquid blocking rib 13 extends into the positioning groove 121, a first ventilation gap is formed between the lower end surface of the oil guide cover plate 12 and the first step surface 14, and the atomized gas cooling hole 111 is communicated with the first ventilation gap through a first ventilation groove 122.

The outer side surface of the liquid blocking bone 13 is provided with a second vent groove 131 which is concave inwards, and the second vent groove 131 penetrates from the first step surface 14 to the upper end surface of the liquid guiding element body 11.

The upper end surface of the liquid guiding element body 11 is convexly provided with a projection 113, and the projection 113 and the second vent groove 131 maintain a second vent gap.

The liquid guiding element body 11 is provided with a second step surface 114 arranged along the axial direction of the liquid guiding element body, and the second step surface 114 is positioned above the lower end surface of the liquid guiding element body 11. The portion of the liquid guiding member body 11 located below the second step surface 114 extends into the cavity 31 described below.

The atomization element 20 is mounted in the atomization element mounting cavity 112. In this embodiment, the atomizing element 20 includes a cup 30, a heating element 40, an oil storage element 50, and a conductive element 60, and the conductive element 60 is electrically connected to the heating element 40.

The cup body 30 is concavely provided with a cavity 31, the heating element 40 and the oil storage element 50 are both arranged in the cavity 31, and the heating element 40 and the oil storage element 50 are both arranged in the atomizing element mounting cavity 112.

The lower end surface of the cup body 30 is upwardly concavely provided with a conductive element mounting cavity 32 communicated with the cavity 31, the conductive element 60 is arranged in the conductive element mounting cavity 32, and the conductive element 60 is electrically connected with the heating element 40 after extending into the cavity 31.

In this embodiment, the heating element 40 has an installation groove 401, and the oil storage element 50 is installed in the installation groove 401. The heating element 40 has a front plate portion 402 and a rear plate portion 403 which are arranged at a distance and connected to each other, and the mounting groove 401 is located between the front plate portion 402 and the rear plate portion 403. The mounting groove 401 has an upper end opening.

The left end and the right end of the front plate part 402 and the rear plate part 403 are respectively provided with a conductive connecting part 41, a hollow heating part 42 is arranged between the conductive connecting parts 41 at the two corresponding ends of the front plate part 402 and the rear plate part 403, the hollow heating part 42 is provided with a plurality of hollow holes 421 arranged at intervals, and the hollow heating part 42 is wrapped outside the hollow holes 421; the liquid guiding element 10 guides the liquid to the hollow hole 421.

The heating element 40 has a first connecting plate 43 and a second connecting plate 44 at the bottom of the mounting groove 401, the first connecting plate 43 connects the conductive connecting portions 41 on the same side of the front plate 402 and the rear plate 403 respectively, and the second connecting plate 44 connects the hollow heating portions 42 of the front plate 402 and the rear plate 403 respectively.

The utility model discloses a design focus lies in: it is mainly to lead the design of oil cover board and first air channel for aerogel after the atomizing is tortuous up, and at tortuous in-process, the large granule is absorbed, and the heat is absorbed, has reached and has cooled down and adsorb the effect of large granule for aerogel after the high temperature atomizing, and then has reduced the formation of condensate, refines the aerogel granule and does not scald the mouth, is favorable to promoting user experience and feels.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. An atomizing core for reducing condensate, comprising a liquid guiding element and an atomizing element which are connected with each other, characterized in that:

the liquid guiding element is made of microporous materials and comprises a liquid guiding element body and an oil guiding cover plate detachably connected to the liquid guiding element body;

the upper end surface of the liquid guide element body is convexly provided with a liquid blocking bone, the liquid blocking bone is provided with a first step surface arranged along the axial direction of the liquid blocking bone, and the first step surface is positioned below the upper end surface of the liquid blocking bone;

the liquid guiding element body is provided with atomizing gas cooling holes along the vertical direction, the atomizing gas cooling holes penetrate from the upper end surface of the liquid blocking bone to the lower end surface of the liquid guiding element body, the lower end surface of the liquid guiding element body is upwards concavely provided with an atomizing element mounting cavity communicated with the atomizing gas cooling holes, and the atomizing element is arranged in the atomizing element mounting cavity;

the oil guide cover plate is detachably connected with the liquid blocking bone, the lower end face of the oil guide cover plate is upwards concavely provided with a positioning groove and a first vent groove which are intersected, and the inner top wall of the first vent groove is higher than the inner top wall of the positioning groove;

the liquid blocking bone extends into the positioning groove, a first ventilation gap is formed between the lower end face of the oil guide cover plate and the first step face, and the atomized gas cooling hole is communicated with the first ventilation gap through the first ventilation groove.

2. The reduced condensate atomization core of claim 1, wherein: the atomization element comprises a cup body, a heating element, an oil storage element and a conductive element, and the conductive element is electrically connected with the heating element; the cup body is concavely provided with a cavity, the heating element and the oil storage element are both arranged in the cavity, and the heating element and the oil storage element are both arranged in the atomization element mounting cavity.

3. The reduced condensate atomization core of claim 2, wherein: the heating element is provided with an installation groove, and the oil storage element is arranged in the installation groove.

4. The reduced condensate atomization core of claim 3, wherein: the heating element has a front plate portion and a rear plate portion that are arranged at an interval and connected to each other, and the mounting groove is located between the front plate portion and the rear plate portion.

5. The reduced condensate atomization core of claim 3 or 4, wherein: the mounting groove has an upper end opening.

6. A reduced condensate atomizing wick according to claim 2, wherein: the lower terminal surface of cup is up the concave conducting element installation cavity that is equipped with the intercommunication cavity, conducting element installs in the conducting element installation cavity and the conducting element stretches into the electric connection heating element behind the cavity.

7. The reduced condensate atomization core of claim 4, wherein: the left end and the right end of the front plate part and the rear plate part are respectively provided with a conductive connecting part, a hollow heating part is arranged between the conductive connecting parts at the two corresponding ends of the front plate part and the rear plate part, the hollow heating part is provided with a plurality of hollow holes which are arranged at intervals, and the hollow heating part is wrapped outside the oil storage part; the liquid guide element guides liquid to the oil storage part.

8. A reduced condensate atomizing wick according to claim 1, wherein: and the outer side surface of the liquid plugging bone is inwards concavely provided with a second air vent groove, and the second air vent groove penetrates from the first step surface to the upper end surface of the liquid guide element body.

9. The reduced condensate atomization core of claim 8, wherein: and a convex block is convexly arranged on the upper end surface of the liquid guiding element body, and the convex block and the second vent groove keep a second vent gap.

10. The reduced condensate atomization core of claim 7, wherein: the liquid guide element body is provided with a second step surface arranged along the axial direction of the liquid guide element body, and the second step surface is positioned above the lower end surface of the liquid guide element body.

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