CN111642820A - Atomizer capable of reducing steam fog temperature - Google Patents

Abstract

The invention discloses an atomizer capable of reducing steam fog temperature, which comprises a suction nozzle shell, wherein a suction port is arranged at the upper end of the suction nozzle shell, a base is sleeved at the bottom of the suction nozzle shell, an atomizing seat is arranged in the suction nozzle shell and connected with the base, a heating unit is transversely arranged in the atomizing seat in an overhead manner, an atomizing cavity is formed at the periphery of the heating unit, a steam suction pipe is arranged above the atomizing cavity and communicated with the suction port, the atomizer further comprises a steam fog baffle, the steam fog baffle is transversely arranged between the atomizing cavity and the steam suction pipe, gaps are formed at two sides of the steam fog baffle, and steam fog heated and atomized by the heating unit flows to the steam suction pipe through the gaps; the atomizer has the beneficial effects that the temperature of high-temperature steam fog can be reduced by the steam fog baffle arranged on the atomizer, and the damage caused by the fact that a user inhales the steam fog with higher temperature when using the atomizer is avoided.

Description

Atomizer capable of reducing steam fog temperature

Technical Field

The invention relates to the technical field of electronic atomization equipment, in particular to an atomizer capable of reducing vapor fog temperature.

Background

Electronic atomization equipment generally includes power supply unit and atomizer, and the atomizer includes the unit that generates heat, and the unit that generates heat can be atomized into the vapour fog with the solution that treats the atomizing, supplies the user to inhale.

The electronic atomization device specifically comprises an electronic cigarette, medical medicine atomization equipment and the like, and the basic task of the electronic atomization device is to provide a heating process and convert solutions such as tobacco juice or liquid medicine and the like stored in the electronic atomization device into vapor fog, aerosol, steam or electronic cigarette smoke and the like.

The steam fog that produces after its heating unit heating atomizing of current atomizer, directly unobstructed ground is inhaled the steam fog straw from the atomizing chamber and then to the suction inlet of suction nozzle, and the heat that the heating unit sent when high temperature heating directly radiates and conducts to steam fog straw and suction inlet, and the user will inhale the higher steam fog of temperature and lead to inhaling the taste of steam fog bad when using the atomizer, and serious person probably produces slight burn to the oral cavity and causes some harm.

Disclosure of Invention

The invention aims to provide an atomizer capable of reducing the temperature of vapor fog in order to overcome the defects of the prior art.

The technical scheme of the invention is realized as follows: the utility model provides a can reduce atomizer of vapour fog temperature, includes the suction nozzle shell, the upper end of suction nozzle shell is equipped with the suction inlet, and the bottom cover of suction nozzle shell is equipped with the base, the inside of suction nozzle shell with the base is connected and is equipped with the atomizing seat, transversely make somebody a mere figurehead in the atomizing seat is equipped with the unit that generates heat, the unit periphery that generates heat constitutes the atomizing chamber, atomizing chamber top is equipped with the fog suction pipe, fog suction pipe and suction inlet intercommunication, its special character lie in, still include the vapour fog baffle, the vapour fog baffle is transversely located between atomizing chamber and the fog suction pipe, vapour fog baffle both sides are equipped with the space, the vapour fog warp after the unit that generates heat and atomizes the space flow direction the fog suction pipe.

Preferably, the steam fog baffle is provided with a structure with a downward concave middle part.

Preferably, a limiting support is connected between the atomizing base and the mist suction pipe, and the vapor-mist baffle is arranged in the limiting support.

Preferably, the limiting support comprises an annular wall part, the lower part of the limiting support is hollow, a mist outlet hole connected with the mist suction pipe is formed in the middle of the upper part of the limiting support, liquid supply holes are formed in two sides of the mist outlet hole, and the vapor and mist baffle is arranged in the middle of the mist outlet hole.

Preferably, the outer walls of two sides of the bottom of the annular wall part of the limiting support are connected with the inner walls of two sides of the upper part of the base, and the inner wall of the bottom of the annular wall part of the limiting support is sleeved with the outer wall of the upper part of the atomizing seat.

Preferably, the upper part of the limiting support is further provided with a sealing cap in a sleeved mode, the sealing cap comprises a flat wall, a flat wall center hole, an inner vertical wall connected with the flat wall center hole and an outer vertical wall connected with the outer edge of the flat wall, the outer vertical wall is connected between the inner wall of the nozzle shell and the outer wall of the upper part of the limiting support in a sealed sleeved mode, the inner vertical wall is connected between the inner wall of the mist outlet hole and the outer wall of the lower part of the mist suction pipe in a sealed and sleeved mode, and a sealing cap through hole is formed in the position, located at the liquid supply hole of the limiting support, of the flat wall.

Preferably, the bottom of the annular wall part of the limiting support is provided with a first convex buckle, the inner wall of the upper part of the base is provided with a first buckle hole, and the first convex buckle is buckled in the first buckle hole.

Preferably, the space that forms between the inner wall of suction nozzle shell, the outer wall of inhaling the fog pipe and the spacing support constitutes the stock solution chamber for store the solution of treating atomizing, the confession liquid hole with stock solution chamber intercommunication, the both ends of the unit that generates heat are from the solution feed hole absorption solution of treating atomizing.

Preferably, the middle of the base is provided with a first air inlet hole, the bottom of the atomizing base is provided with a second air inlet hole, and the first air inlet hole, the second air inlet hole and the atomizing cavity are communicated with each other.

Preferably, a groove is formed in the middle of the inner bottom of the atomizing base, and the second air inlet holes are formed in two sides of the groove.

The invention has the following beneficial effects: the atomizer is transversely provided with a steam fog baffle between the atomizing cavity and the fog suction pipe, can prevent heat generated by the heating unit during high-temperature heating from radiating and conducting to the fog suction pipe and the suction port, and can also play a role in buffering high-temperature steam fog which is just atomized; after the blocking of vapor fog baffle, the temperature of high temperature vapor fog can reduce, avoid the user to inhale the higher vapor fog of temperature and cause the harm when using the atomizer.

Drawings

FIG. 1 is a perspective exploded view of the atomizer of the present invention;

FIG. 2 is a front cross-sectional view of the atomizer of the present invention;

FIG. 3 is a side sectional view of the atomizer of the present invention;

FIG. 4 is a cross-sectional view of a nozzle housing of the present invention;

FIG. 5 is a top view of the spacing bracket of the present invention;

FIG. 6 is a front cross-sectional view of the first spacing bracket of the present invention;

FIG. 7 is a side sectional view of the first spacing bracket of the present invention;

FIG. 8 is a second elevational view in elevation of the spacing bracket of the present invention;

FIG. 9 is a side sectional view of the spacing bracket of the present invention;

FIG. 10 is a front cross-sectional view of the seal cap of the present invention;

FIG. 11 is a side cross-sectional view of the seal cap of the present invention;

FIG. 12 is a perspective view of the base of the present invention;

FIG. 13 is a front cross-sectional view of the base of the present invention;

FIG. 14 is a front view of the atomizing base of the present invention;

FIG. 15 is a front cross-sectional view of an atomizing base of the present invention;

fig. 16 is a side cross-sectional view of an atomizing base of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example (b):

as shown in fig. 1-4, the atomizer of the present invention, which can reduce the temperature of the vapor fog, is connected to a battery pole or a power supply module to form an electronic atomization device, wherein the outermost surface of the atomizer is a nozzle housing 1, a suction port 10 is disposed at the upper end of the nozzle housing 1, an opening is disposed at the bottom of the nozzle housing 1, and a base 2 is sleeved at the opening. In the interior of the suction nozzle shell 1, an atomizing base 3, a heating unit 4, a limiting bracket 5 and a sealing cap 6 are sequentially arranged above the base 2. Specifically, be connected with base 2 and be equipped with atomizing seat 3, the bottom of atomizing seat 3 is installed on base 2. The atomizing seat 3 is of a hollow structure, the upper part of the atomizing seat 3 is transversely provided with a heating unit 4 in an overhead manner, the heating unit 4 consists of a liquid guide strip and a heating wire arranged on the liquid guide strip (not shown in the figure), the periphery of the heating unit 4 forms an atomizing cavity 40, a mist suction pipe 11 which is integrally formed with the suction nozzle shell 1 is arranged above the atomizing cavity 40, the upper part of the mist suction pipe 11 is communicated with the suction port 10, and a vapor-mist baffle 50 is transversely arranged between the atomizing cavity 40 and the mist suction pipe 11. Atomizing seat 3 is generally made by soft high temperature resistant silica gel material, atomizes seat 3 and inhale and is connected between fog pipe 11 and be equipped with spacing support 5, and the sub-unit connection of spacing support 5 is on atomizing seat 3's upper portion for carry on spacingly and fixed atomizing seat 3 and heating element 4, prevent that atomizing seat 3 and heating element 4 from taking off at high temperature during operation deformation pine. The outer walls of the two sides of the bottom of the annular wall part 51 of the limiting support 5 are connected with the inner walls of the two sides of the upper part of the base 2, and the inner wall of the bottom of the annular wall part 51 of the limiting support 5 is sleeved with the outer wall of the upper part of the atomizing seat 3. The upper part of the limit bracket 5 is sleeved and communicated with the mist suction pipe 11, and a sealing cap 6 is also arranged on the limit bracket 5. The spacing bracket 5 of the present embodiment is made of a high temperature resistant hard plastic material or a metal material so as to have a certain rigidity to play a role of fixed connection. In order to ensure the sealing performance, the annular wall part 51 of the limiting support 5 is provided with a sealing ring groove 55, the sealing ring groove 55 is provided with a sealing ring 550, and the sealing ring 550 seals the gap between the limiting support 5 and the suction nozzle shell 1 to prevent liquid leakage.

As shown in fig. 5-7, the limiting bracket 5 includes an annular wall 51, the lower portion of the limiting bracket 5 is hollow, the middle of the upper portion is provided with a mist outlet 52 connected to the mist suction pipe 11, two sides of the mist outlet 52 are provided with liquid supply holes 53, the mist baffle 50 is transversely disposed in the middle of the mist outlet 52, two sides of the mist baffle 50 are provided with gaps 54, and the mist heated and atomized by the heating unit 4 bypasses the mist baffle 50 and flows to the mist suction pipe 11 through the gaps 54. The bottom of the annular wall 51 of the limiting bracket 5 is provided with a first convex buckle 56, the inner wall of the upper part of the base 2 is provided with a first buckle hole 210, and the first convex buckle 56 is buckled in the first buckle hole 210.

The steam fog baffle 50 is transversely arranged between the atomizing cavity 40 and the steam suction pipe 11, can prevent the heat generated by the heating unit 4 during high-temperature heating from radiating and conducting to the steam suction pipe 11 and the suction port 10, and can also play a role in buffering the high-temperature steam fog which is just atomized, so that after the steam fog baffle 50 blocks, the temperature of the high-temperature steam fog can be reduced, and the damage caused by the higher steam fog of the suction temperature when a user uses the atomizer is avoided.

As shown in fig. 8 and 9, the steam fog baffle 50 of the present embodiment is configured to be downwardly concave in the middle, that is, the downwardly concave structure may form a pot-shaped structure, so that when steam fog flows upwards from the atomizing chamber 40, the steam fog flows to the gaps 54 at both sides along the bottom surface of the pot-shaped structure, and the bottom surface of the pot-shaped structure has a streamline shape, so that the steam fog flows smoothly, the resistance is small, and the steam fog is easy to be sucked out by a user. Therefore, the structure with the shape is designed, so that the vertical direct circulation of high-temperature steam fog can be avoided, the temperature of the steam fog can be reduced, and the steam fog can be smoothly sucked out.

As shown in fig. 2, 3, 10 and 11, the upper portion of the limiting bracket 5 is further provided with a sealing cap 6 in a sleeved manner, the sealing cap 6 comprises a flat wall 61, a flat wall central hole 62, an inner vertical wall 63 connected with the flat wall central hole 62 and an outer vertical wall 64 connected with the outer edge of the flat wall, the outer vertical wall 64 is connected between the inner wall of the nozzle shell 1 and the upper outer wall of the limiting bracket 5 in a sealed manner, the inner vertical wall 63 is connected between the inner wall of the mist outlet hole 52 and the lower outer wall of the mist suction pipe 11 in a sealed manner in a sleeved manner, and the flat wall 61 is provided with a liquid through hole 65 at the liquid supply hole 53 of the limiting bracket 5. The inner vertical wall 63 and the outer vertical wall 64 are used for sealing the gap.

As shown in fig. 2, a liquid storage cavity 12 is formed by a space formed between the inner wall of the suction nozzle shell 1, the outer wall of the mist suction pipe 11 and the limiting bracket 5, and is used for storing the solution to be atomized, the liquid supply hole 53 of the limiting bracket 5 is communicated with the liquid storage cavity 12, and the two ends of the heating unit 4 absorb the solution to be atomized from the liquid supply hole 53. The solution to be atomized of the atomizer 40 flows downward through the liquid through hole 65 of the sealing cap 6 and the liquid supply hole 53 of the limiting bracket 5 in the direction indicated by the downward arrow in fig. 2, reaches both ends of the heating unit 4, and is absorbed by the heating unit 4.

As shown in fig. 3, the upward continuous arrow direction indicates the direction of the air flow of the intake and exhaust mist.

As shown in fig. 12 and 13, the base 2 has an outer wall having the same shape as the opening of the nozzle housing 1, a second protruding buckle 23 connected to the second buckle hole 13 of the nozzle housing 1 in a buckling manner is provided on the outer wall, and the base 2 is fixed to the inner wall of the opening of the nozzle housing 1 by the connection between the second protruding buckle 23 and the second buckle hole 13. The outer walls of the two sides of the bottom of the annular wall 51 of the limiting support 5 are connected with the inner walls of the two sides of the upper part of the base 2, which means that the two sides of the upper part of the base 2 are provided with the protruding frames 21, and the protruding frames 21 are provided with the first buckling holes 210 for buckling the first protruding buckles 56 so that the base 2 and the limiting support 5 can be connected and fixed. The limit bracket 5 and the base 2 enclose the atomizing base 3 between the limit bracket and the base. The base 2 is provided with a first air inlet hole 22 in the middle, electrode holes 24 for mounting electrodes 241 are provided on both sides of the first air inlet hole 22, and magnet mounting holes 25 are provided on both sides of the bottom of the base 2 for mounting magnets 251 so that the atomizer can be magnetically connected to a battery pack.

As shown in fig. 14-16, U-shaped brackets 30 for mounting the heating unit 4 are disposed on two sides of the upper portion of the atomizing base 3, a second air inlet hole 32 is disposed on the bottom of the atomizing base 3, and the first air inlet hole 22, the second air inlet hole 32 and the atomizing chamber 40 are communicated with each other. The middle of the inner bottom of the atomizing base 3 is provided with a groove 31, and the second air inlet 32 is arranged at two sides of the groove 31. The groove 31 is used for receiving the condensate falling from the atomizing chamber 40 or the small liquid drops which are not atomized, and the condensate and the small liquid drops are prevented from leaking to the outside through the second air inlet holes 32. The lower wall of the atomising seat 3 is provided with an annular strip which acts as a sealing ring.

The above description is only for the preferred embodiment of the present invention, and the above specific embodiments are not intended to limit the present invention. Various modifications and alterations may occur to those skilled in the art without departing from the spirit and scope of the invention, and such modifications and alterations should be accorded the broadest interpretation so as to encompass all such modifications and alterations.

Claims (10)

1. The utility model provides a can reduce atomizer of vapour fog temperature, includes the suction nozzle shell, the upper end of suction nozzle shell is equipped with the suction inlet, and the bottom cover of suction nozzle shell is equipped with the base, the inside of suction nozzle shell with the base is connected and is equipped with the atomizing seat, transversely make somebody a mere figurehead in the atomizing seat is equipped with the unit that generates heat, the unit that generates heat periphery constitutes the atomizing chamber, atomizing chamber top is equipped with the fog suction pipe, fog suction pipe and suction inlet intercommunication, its characterized in that still includes the vapour fog baffle, the vapour fog baffle is transversely located between atomizing chamber and the fog suction pipe, vapour fog baffle both sides are equipped with the space, the vapour fog warp after the unit that generates heat and atomizes the space flow direction the fog suction pipe.

2. The atomizer of claim 1, wherein said mist barrier is configured to have a central downwardly concave configuration.

3. The atomizer according to claim 1, wherein a limiting bracket is connected between the atomizing base and the mist suction pipe, and the mist baffle is disposed in the limiting bracket.

4. The atomizer according to claim 3, wherein the limiting bracket comprises an annular wall portion, the lower portion of the limiting bracket is hollow, the middle of the upper portion of the limiting bracket is provided with a mist outlet connected to the mist suction pipe, liquid supply holes are provided on both sides of the mist outlet, and the mist baffle is provided in the middle of the mist outlet.

5. The atomizer according to claim 3, wherein the outer walls of two sides of the bottom of the annular wall of the limiting bracket are connected to the inner walls of two sides of the upper portion of the base, and the inner wall of the bottom of the annular wall of the limiting bracket is sleeved to the outer wall of the upper portion of the atomizing base.

6. The atomizer according to claim 4, wherein a sealing cap is further sleeved on an upper portion of the limiting bracket, the sealing cap includes a flat wall, a flat wall central hole, an inner vertical wall connected with the flat wall central hole, and an outer vertical wall connected with an outer edge of the flat wall, the outer vertical wall is hermetically sealed and connected between an inner wall of the nozzle housing and an outer wall of the upper portion of the limiting bracket, the inner vertical wall is hermetically sleeved between an inner wall of the mist outlet hole and an outer wall of a lower portion of the mist suction pipe, and a sealing cap through hole is formed in a liquid supply hole of the limiting bracket through the flat wall.

7. The atomizer according to claim 4, wherein the bottom of the annular wall of the limiting bracket is provided with a first protrusion, the inner wall of the upper portion of the base is provided with a first fastening hole, and the first protrusion is fastened in the first fastening hole.

8. The atomizer according to claim 4, wherein a space formed between the inner wall of the nozzle housing, the outer wall of the mist suction pipe and the limiting bracket forms a liquid storage chamber for storing the solution to be atomized, the liquid supply hole is communicated with the liquid storage chamber, and two ends of the heat generating unit absorb the solution to be atomized from the liquid supply hole.

9. The atomizer according to claim 1, wherein a first air inlet is provided in the middle of the base, a second air inlet is provided in the bottom of the atomizing base, and the first air inlet, the second air inlet and the atomizing chamber are communicated with each other.

10. The atomizer of claim 9, wherein a recess is formed in the middle of the inner bottom of the atomizing base, and the second air inlet holes are formed on two sides of the recess.

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