CN217885101U - Storage guide element and atomization device - Google Patents

Abstract

The utility model relates to the technical field of liquid atomization, in particular to a storage guide element and an atomization device, which comprises a cavity, a storage medium, a first bracket, a second bracket and an atomization sheet, wherein the storage medium is arranged in the cavity and can be used for storing and flowing guide liquid; the first bracket is arranged in the cavity and internally provided with a guide medium, the guide medium is attached to the storage medium, and the storage medium can guide the stored liquid into the guide medium; the second bracket is connected with the first bracket and is provided with a mounting cavity; the atomizing sheet is arranged in the placing cavity and is used for atomizing the liquid introduced by the guide medium to form aerosol. The utility model discloses a storage medium is used for storing liquid, and storage medium and direction medium are cotton material or micropore pottery, act on and store liquid and direction, use as the atomizing piece, heat formation aerial fog with liquid direction to the atomizing piece, have solved current no medium dust removal liquid and have appeared leaking the phenomenon easily, and liquid stores the direction problem.

Description

Storage guide element and atomization device

Technical Field

The utility model relates to a liquid atomization technical field especially relates to a store guide element and atomizing device.

Background

The electronic atomization device comprises an atomization device and a power supply device for supplying power to the atomization device, and a liquid storage cavity, an airflow channel and an electronic atomization assembly are constructed in the atomization device. The holding tank has been seted up to the power supply ware, and atomizing device installs in the holding tank to establish electric connection with the power supply ware. When the power supply device supplies power for the electronic atomization assembly in the atomization device, the atomization assembly atomizes the solution stored in the liquid storage cavity into aerosol and discharges the aerosol.

The liquid storage cavity arranged in the atomizing device is used for storing liquid, and the existing liquid storage mode can be independent liquid storage and storage through materials capable of storing media. In the existing liquid storage and medium storage, due to structural design reasons, a liquid leakage phenomenon easily occurs, and further, the storage structure needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a be used for storing liquid through the storage medium, storage medium and direction medium are cotton material or micropore pottery, act on with liquid storage and direction, in the atomizing piece use, heat the formation aerial fog with liquid direction to the atomizing piece, have solved current no medium dust removal liquid and have appeared leaking the phenomenon easily, and the storage guide element and the atomizing device of direction problem are stored to liquid.

The utility model adopts the technical proposal that: a storage guide element comprises a cavity, a storage medium, a first support, a second support and an atomization sheet, wherein the storage medium is arranged in the cavity and can be used for storing and flowing guide liquid; the first support is arranged in the cavity and internally provided with a guide medium, the guide medium is attached to a storage medium, and the storage medium can guide the stored liquid into the guide medium; the second bracket is connected with the first bracket and is provided with a placing cavity; the atomization piece is arranged in the placement cavity and is used for atomizing the liquid guided by the guide medium to form aerosol.

The further improvement of the scheme is that the cavity is provided with an air passage, the air passage penetrates through the storage medium to extend and is connected to the first support, the first support is provided with an air guide groove communicated with the air passage, and the air guide groove is communicated with the atomizing surface of the atomizing sheet.

In a further improvement of the above solution, the storage medium is filled in the cavity and surrounds the air passage.

The further improvement of the scheme is that a guide cavity is formed in the first support, the guide medium is filled in the guide cavity, the upper surface of the guide medium is connected with the storage medium, and the lower surface of the guide medium is attached with the atomizing sheet.

The further improvement of the scheme is that a sealing outer cover is sleeved outside the first support.

The further improvement of the scheme is that the second support is connected to the lower side of the first support, the first support is arranged above the placement cavity and is provided with a permeable medium, and the two sides of the permeable medium are respectively connected with the guide medium and the atomization sheet and are used for permeating the liquid guided by the guide medium into the atomization sheet.

In a further improvement of the above solution, the atomizing plate includes a silicon substrate, the silicon substrate includes a first surface and a second surface, the second surface is provided with a microporous region, the microporous region is communicated with the first surface, the second surface is attached to an infiltration medium, and the microporous region is used for infiltrating a liquid from the second surface to the second surface.

The further improvement of the scheme is that micropores are uniformly distributed in the micropore area, the micropores can pass through liquid when receiving negative pressure, and the first surface is provided with a heating element which is used for heating the liquid passing through or attached to the micropores to form aerial fog.

In a further improvement of the above scheme, the heating element comprises a heating circuit passing through the microporous region and electric contact points connected to two ends of the heating circuit; the second surface is sunk into the sinking groove towards the first surface, and the micropore area is arranged on the bottom surface of the sinking groove.

An atomizing device comprises the storage guide element.

The beneficial effects of the utility model are that:

compare current atomizing device liquid and store, the utility model discloses a storage medium is used for storing liquid, and storage medium and direction medium are cotton material or micropore pottery, act on and store liquid and direction, use when the atomizing piece, heat formation aerial fog to the atomizing piece with liquid direction, have solved current no medium dust removal liquid and have appeared leaking the phenomenon easily, and liquid stores the direction problem, and atomization effect is good. The device comprises a cavity, a storage medium, a first bracket, a second bracket and an atomizing sheet, wherein the storage medium is arranged in the cavity and can be used for storing and flowing guide liquid; the first support is arranged in the cavity and internally provided with a guide medium, the guide medium is attached to a storage medium, and the storage medium can guide the stored liquid into the guide medium; the second bracket is connected with the first bracket and is provided with a placing cavity; the atomization piece is arranged in the placement cavity and is used for atomizing the liquid guided by the guide medium to form aerosol. Structurally, seal in with the cavity through first support to fixed and the storage medium laminating in the cavity of guide medium is used for the liquid direction, and the second support is used for fixing the atomizing piece, and stability is good when cooperation liquid direction, stable in structure, and atomization effect is good.

Drawings

Fig. 1 is a schematic perspective view of a storage guide element of the present invention;

FIG. 2 is a schematic top view of the storage guide member of FIG. 1;

FIG. 3 isbase:Sub>A cross-sectional view A-A of FIG. 2;

FIG. 4 is a perspective view of the atomization plate of the storage guide member of FIG. 3;

fig. 5 is a perspective view of the atomization sheet of the storage guide element of fig. 3 from another perspective.

Description of reference numerals: the device comprises a cavity 1, an air channel 11, a storage medium 2, a first support 3, a guide medium 31, a guide cavity 32, a sealing outer cover 33, a second support 4, a placing cavity 41, a penetrating medium 42, an atomizing sheet 5, a silicon substrate 51, a sink 511, a micropore area 52, a heating element 53, a heating circuit 531 and an electric contact 532.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The 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.

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 in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 5, a storage guiding element is provided with a cavity 1, a storage medium 2, a first bracket 3, a second bracket 4, and an atomizing plate 5, wherein the storage medium 2 is disposed in the cavity 1 and can be used for storing and flowing a guiding liquid; the first support 3 is arranged in the cavity 1 and is internally provided with a guide medium 31, the guide medium 31 is attached to the storage medium 2, and the storage medium 2 can guide the stored liquid into the guide medium 31; the second bracket 4 is connected with the first bracket 3 and is provided with a placing cavity 41; the atomizing plate 5 is disposed in the housing chamber 41 and is used for atomizing the liquid introduced into the guiding medium 31 to form an aerosol.

Cavity 1 has air flue 11, air flue 11 passes storage medium 2 and extends and be connected in first support 3, first support 3 is equipped with air guide groove and 11 intercommunications of air flue, air guide groove intercommunication in atomizing piece 5's atomizing face is used for cooperating air guide groove through setting up air flue 11 and is used for exporting the aerial fog that produces after atomizing piece 5 atomizes, and atomization effect is good, and the air guide is stable.

The storage medium 2 is filled in the cavity 1 and surrounds the air passage 11, the storage medium 2 is a cotton material or a ceramic material which can store liquid and guide the liquid in a flowing manner, the cotton material can be soaked with dust removal liquid, and the ceramic adopts microporous ceramic which can guide the liquid in a micro-storage and flowing manner. In the same embodiment, the same material may be used for the directing medium 31 to increase the fluidity of the liquid directing.

A guide cavity 32 is formed in the first support 3, the guide medium 31 is filled in the guide cavity 32, the upper surface of the guide medium 31 is connected with the storage medium 2, and the lower surface of the storage medium is attached to the atomizing sheet 5, the guide cavity 32 is used for accommodating the guide medium 31, the liquid can be guided along the shape of the guide cavity 32 when being guided, and the liquid is guided into the atomizing sheet 5 to be heated and atomized by matching with the guide of the guide medium 31.

The outside cover of first support 3 is equipped with sealed dustcoat 33, and sealed dustcoat 33 is used for the structure to be sealed, and the weeping phenomenon appears in the prevention, further promotes the leak protection effect.

The second bracket 4 is connected to the lower side of the first bracket 3, the first bracket 3 is provided with a permeable medium 42 above the placement cavity 41, two sides of the permeable medium 42 are respectively connected with the guide medium 31 and the atomization sheet 5, and the permeable medium 42 is used for permeating the liquid guided by the guide medium 31 into the atomization sheet 5, and the permeable medium 42 is provided and can be microporous ceramic or oil-guiding cotton integrated with the guide medium 31 or can be single oil-guiding cotton or microporous ceramic and is used for permeating and guiding the liquid into the atomization sheet 5 for atomization.

Referring to fig. 4 to 5, the atomizing sheet 5 includes a silicon substrate 51, the silicon substrate 51 includes a first surface and a second surface, the second surface is opened with a microporous region 52, the microporous region 52 is communicated with the first surface, the second surface is attached to the penetrating medium 42, the microporous region 52 is used for penetrating liquid from the second surface to the second surface, in a further embodiment, micropores are uniformly distributed in the microporous region 52, the micropores can pass through the liquid when receiving negative pressure, the first surface is provided with a heating element 53, the heating element 53 is used for heating the liquid passing through or attached to the micropores to form aerosol, the structure of the atomizing sheet 5 of the silicon substrate 51 is adopted, the structure is reliable, and the liquid can be better infused and atomized by matching with cotton or microporous ceramics, specifically, the liquid is introduced into the microporous region 52, and the liquid is introduced into the heating element 53 through the microporous region 52 to be heated to form atomizing gas.

The heating element 53 includes a heating line 531 passing through the fine hole area 52, and electrical contacts 532 connected to both ends of the heating line 531; in this embodiment, the heating circuit 531 is used to cooperate with the electrical contact 532 for electrical conduction, and the controller is used to increase power to the heating circuit 531 to heat.

The second surface is sunk into the sunk groove 511 towards the first surface, the microporous region 52 is arranged on the bottom surface of the sunk groove 511, and the silicon substrate 51 can be thinned by arranging the sunk groove 511, so that the heating atomization of the structure is more concentrated, and the thermal field cannot be rapidly diffused.

The utility model discloses a storage medium 2 is used for storing liquid, and storage medium 2 is cotton material, and direction medium 31 is cotton material equally, and the effect is used for storing liquid and direction, uses when atomizing piece 5, heats formation aerial fog to atomizing piece 5 with the liquid direction, has solved current no medium dust removal liquid and has appeared leaking the phenomenon easily, and liquid stores the direction problem, and atomization effect is good. Specifically, a cavity 1, a storage medium 2, a first support 3, a second support 4 and an atomizing sheet 5 are arranged, wherein the storage medium 2 is arranged in the cavity 1 and can be used for storing and flowing guide liquid; the first support 3 is arranged in the cavity 1 and is internally provided with a guide medium 31, the guide medium 31 is attached to the storage medium 2, and the storage medium 2 can guide the stored liquid into the guide medium 31; the second bracket 4 is connected with the first bracket 3 and is provided with a placing cavity 41; the atomizing plate 5 is disposed in the housing chamber 41 and is used for atomizing the liquid introduced by the guiding medium 31 to form an aerosol. Structurally, through first support 3 with cavity 1 internal seal to fixed and the 2 laminating of storage medium in the cavity 1 of guide medium 31 is used for the liquid direction, and second support 4 is used for fixing atomizing piece 5, and stability is good when cooperation liquid direction, stable in structure, and atomization effect is good.

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

Claims (10)

1. A storage guide element, comprising: comprises that

The cavity body is provided with a plurality of cavities,

a storage medium disposed within the cavity, the storage medium operable to store and flow-direct a liquid;

the first bracket is arranged in the cavity and internally provided with a guide medium, the guide medium is attached to a storage medium, and the storage medium can guide the stored liquid into the guide medium;

the second bracket is connected with the first bracket and is provided with a placing cavity;

and the atomizing sheet is arranged in the arranging cavity and is used for atomizing the liquid guided by the guide medium to form aerosol.

2. The storage guide element of claim 1, wherein: the cavity has the air flue, the air flue passes storage medium and extends and be connected in first support, first support is equipped with air guide groove and air flue intercommunication, air guide groove communicates in the atomizing face of atomizing piece.

3. The storage guide element of claim 2, wherein: the storage medium is filled in the cavity and surrounds the air channel.

4. The storage guide element of claim 1, wherein: a guide cavity is formed in the first support, the guide medium is filled in the guide cavity, the upper surface of the guide medium is connected with the storage medium, and the lower surface of the guide medium is attached with the atomizing sheet.

5. The storage guide element of claim 1, wherein: the outside cover of first support is equipped with sealed dustcoat.

6. The storage guide element of claim 1, wherein: the second support is connected to the lower side of the first support, the first support is arranged above the placement cavity and is provided with a penetrating medium, and two sides of the penetrating medium are respectively connected with the guide medium and the atomizing sheet and used for penetrating liquid guided by the guide medium into the atomizing sheet.

7. The storage guide element of claim 6, wherein: the atomization sheet comprises a silicon substrate, the silicon substrate comprises a first surface and a second surface, the second surface is provided with a micropore area, the micropore area is communicated with the first surface, the second surface is attached to an infiltration medium, and the micropore area is used for infiltrating liquid from the second surface to the second surface.

8. The storage guide element of claim 7, wherein: micropores are uniformly distributed in the micropore area, the micropores can pass through liquid when receiving negative pressure, a heating element is arranged on the first surface, and the heating element is used for heating the liquid passing through or attached to the micropores to form aerosol.

9. The storage guide element of claim 8, wherein: the heating element comprises a heating circuit passing through the micropore area and electric contacts connected with two ends of the heating circuit; the second surface is sunk into the sinking groove towards the first surface, and the micropore area is arranged on the bottom surface of the sinking groove.

10. An atomizing device, characterized in that: comprising a storage guide element according to any one of claims 1 to 9.

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