CN218108167U - Electronic atomization assembly and spraying device - Google Patents

Abstract

The utility model provides an electronic atomization subassembly and atomizer, include: the device comprises an electronic atomization mechanism and an external guide piece; the external guide piece is connected with the electronic atomization mechanism and used for guiding an external medium to be atomized to the electronic atomization mechanism and outputting the atomized medium through the electronic atomization mechanism; the output direction of the atomized medium and the direction of the medium to be atomized guided by the external guide part form an included angle of 0-180 degrees. Electronic atomization subassembly adopt medium guiding mechanism to provide and treat the atomizing medium, can utilize electronic atomization mechanism to produce the less atomizing granule of diameter, promoted user experience.

Description

Electronic atomization assembly and spraying device

Technical Field

The utility model belongs to the atomizer field, concretely relates to electron atomization component and atomizer including this electron atomization component.

Background

The probiotics are active microorganisms which are beneficial to a host by changing the composition of flora at a certain part of the host in a human body; for probiotic spray products, portable use of probiotics can be achieved through the spray mechanism.

The existing spraying mechanism has a spraying mechanism with a pressing type spray head, is similar to a watering can for watering flowers, and is pressed by hands, a medium to be atomized is pumped up by utilizing a siphon principle and then sprayed out in a mist shape; a high-speed air pump atomization mechanism is also provided, and the high-speed air is used for blowing away liquid to form mist; however, the spray particles produced by the above two methods are large and the atomized particles are susceptible to gravity.

An atomization mechanism capable of generating smaller particles is in need of research and development.

SUMMERY OF THE UTILITY MODEL

In order to solve the too big problem of atomizing particle that the atomizing mechanism produced among the prior art, the utility model provides an electronic atomization subassembly and atomizer can effectively solve above-mentioned problem.

In order to achieve the above object, the utility model discloses a concrete scheme does:

an electronic atomization assembly comprising:

an electronic atomization mechanism;

the external guide piece is connected with the electronic atomization mechanism and used for guiding an external medium to be atomized to the electronic atomization mechanism and outputting the atomized medium through the electronic atomization mechanism;

the output direction of the atomized medium and the direction of the medium to be atomized guided by the external guide part form an included angle of 0-180 degrees.

The electronic atomization mechanism comprises:

a linker;

a media guide set disposed within the connector body;

the atomizing unit is arranged in the connecting body and is connected with one end of the medium guide group;

a fastener disposed on an opposite side of the working end of the atomizing unit;

the electronic pin is electrically connected with the atomization unit and is used for being connected with an external power supply;

the electronic pin is arranged on the connecting body and is positioned on the opposite side of the fastener;

the fastener is detachably connected with the end part of the connecting body;

the medium guide group is in contact with the external guide for guiding the medium to be atomized.

And the middle part of the fastener is provided with a mist overflow port for passing through an atomized medium.

The media guidance group comprising:

a built-in guide member;

and an elastic member provided between the built-in guide and the connection body, for bringing an end of the built-in guide into close contact with the atomizing unit.

The built-in guide piece is a hollow tubular body;

the wall of the hollow tubular body has a capillary structure.

In the connector, be provided with:

the first groove is used for sequentially arranging the medium guide group and the atomizing unit;

and the second groove is communicated with the first groove and is used for communicating the input end of the connecting body with the outside.

The connecting body is a T-shaped piece;

the first groove and the second groove are respectively arranged in the T-shaped piece.

The first groove is positioned at one end of the horizontal section of the T-shaped piece;

the second groove is located at an end of the vertical section of the tee.

The electronic atomization component further comprises:

a second medium guide provided on the connection body;

the second media guide is in contact with the media guide mechanism for guiding the media to be atomized to the electronic atomization assembly.

A spray device comprising:

the electronic atomization assembly described above;

the medium container is detachably connected with an electronic atomization mechanism in the electronic atomization assembly;

a second medium guide in the electronic atomization assembly extends into the medium container and is used for guiding the medium to be atomized in the medium container.

The spraying device, still include:

a support disposed between the outboard guide and the media container bottom.

The utility model has the advantages that:

the electronic atomization assembly of the utility model utilizes the medium guide mechanism to output the medium to be atomized to the electronic atomization mechanism by arranging the electronic atomization mechanism in the connecting body, and the electronic atomization mechanism is arranged at the end part of the connecting body to output the atomized medium; the electronic atomization mechanism of the utility model adopts the medium guide mechanism to provide the medium to be atomized, can utilize the electronic atomization mechanism to generate atomized particles with smaller diameter, and improves the user experience;

the spraying device of the utility model comprises the electronic atomizing assembly, and the electronic atomizing assembly is connected with the medium container, so that the medium in the medium container is guided into the electronic atomizing assembly for atomizing operation; the spraying device has the advantages of simple structure, miniaturization and portability.

Drawings

Fig. 1 is a perspective view of an electronic atomizer assembly according to the present invention;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is an enlarged view of the resilient member of FIG. 2;

fig. 4 is a perspective view of the spraying device of the present invention;

FIG. 5 is an embodiment of a support member of the spraying device of FIG. 4;

FIG. 6 is another embodiment of a support member of the spray device of FIG. 4;

FIG. 7 is a partial view of the support member of FIG. 6;

FIG. 8 is a block diagram of the second tower spring of FIG. 7;

in fig. 1-8:

1. an electronic atomization mechanism; 2. an external guide; 3. a media container; 4. a support member; 101. a linker; 102. a media guidance group; 103. an atomizing unit; 104. a fastener; 105. an electronic pin; 1021. a built-in guide member; 1022. an elastic member; 1A, a first groove; 1B, a second groove; 104A, a fog overflow port; 1022A, a first tower spring; 1022AA, first convex end; 3A, a positioning table; 4A, supporting columns; 4B, a second tower-shaped spring; 4BB, a second convex end.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Specific example I:

the utility model provides an embodiment:

referring to fig. 1-2, an electronic atomizing assembly includes: an electronic atomization mechanism 1 and an external guide part 2; the electronic atomization mechanism 1 is detachably connected with the external guide piece 2, and an external medium to be atomized is guided into the electronic atomization mechanism 1 through the external guide piece 2, so that the medium is atomized;

wherein, electronic atomization mechanism 1 includes: a connecting body 101, a medium guide set 102, an atomizing unit 103, a fastener 104, and an electronic pin 105; the media guide group 102 is disposed within the connection body 101; the atomization unit 103 is arranged in the connecting body 101 and connected with one end of the medium guide group 102; the fasteners 104 are arranged on the opposite side of the working end of the atomizing unit 103; the electronic pin 105 is electrically connected with the atomizing unit 103 and is used for being connected with an external power supply; the electronic pins 105 are arranged on the connecting body 101 and are positioned on the opposite side of the fastener 104; the fastener 104 is detachably connected with the end part of the connecting body 101; the medium guide set 102 is in contact with the outer guide 2 and is capable of guiding the medium to be atomized.

Preferably, the medium guiding group 102 is elastically arranged between the connecting body 101 and the electronic atomization mechanism 1, so that the medium guiding group 102 presses the electronic atomization mechanism 1 to output the medium to be atomized to the electronic atomization mechanism 1; the external guide part 2 is arranged on the connecting body 101, and the external guide part 2 is in contact with the medium guide group 102 and can guide external medium to be atomized to the electronic atomization assembly; the electronic atomization mechanism 1 is arranged at the end of the connecting body 101 and can output atomized media.

Specifically, a first groove 1A and a second groove 1B are arranged in the connecting body 101; wherein, the medium guide group 102 and the atomization unit 103 are sequentially arranged in the first groove 1A; the second groove 1B is communicated with the first groove 1A and can be used as an input end of the connecting body 101 to be communicated with the outside; the external guide piece 2 is in contact with the medium guide group 102 to realize the transmission of the medium; the atomized medium floats out from the opening end of the first groove 1A, and forms an included angle of 0-180 degrees with the direction of the medium to be atomized guided by the external guide piece 2;

in practical use, the first groove 1A can be used as an output end, and the medium guide group 102 can be used as an input end; because of different parts to be sprayed, the angles of the output end and the input end can be controlled in different product series according to requirements; for a certain product aiming at hand skin, the angle between the output end and the input end is 90 degrees, so that the spraying direction of the atomized medium is positioned at the side of the external guide part 2, and the use is convenient; if on the product to the nasal cavity, the angle of above-mentioned output and above-mentioned input is 135, and above-mentioned output perk upwards makes things convenient for the post-atomization medium to get into the nasal cavity.

Preferably, as one of the most commonly used configurations, the connector 101 is a T-shaped member; the first groove 1A is positioned at one end of the horizontal section of the connecting body 101; the second groove 1B is positioned on the vertical section of the connecting body 101 and is opposite to the circumferential direction of the medium guide group 102, so that the first groove 1A and the second groove 1B form an included angle of 90 degrees on the basis of internal communication;

meanwhile, the atomizing unit 103 is disposed in the first groove 1A; the working end of the atomization unit 103 is in contact with the output end of the medium guide group 102; the fastener 104 is arranged at the open end of the first groove 1A and can be in threaded connection with the open end; the electronic pin 105 is electrically connected with the atomizing unit 103 and is used for being connected with an external power supply; preferably, the electronic pins 105 are disposed on the connecting body 101 and on opposite sides of the fastener 104;

preferably, the fastening member 104 is a sheet-shaped body, and the middle part of the sheet-shaped body is provided with a mist overflow opening 104A for passing the atomizing medium; in order to ensure the sealing performance, a soft rubber gasket is arranged between the fastener 104 and the opening end of the first groove 1A;

preferably, the atomizing unit 103 may be an atomizing plate, and in use, the fastener 104 is installed at the opening end of the first recess 1A to press the atomizing plate; after the electronic pin 105 is electrified, the high-frequency oscillation of the atomizing sheet is utilized to break up the medium to be atomized into mist which floats out of the mist overflow port 104A; it is to be understood that: when the atomization sheet is pressed, the edge of the atomization sheet can be pressed so as not to influence the work of the atomization sheet;

the atomizing sheet described herein is a microporous atomizing sheet; the micropore atomization sheet is synthesized by a stainless steel sheet and a piezoelectric ceramic sheet, and a hole can be punched on the metal steel sheet through laser equipment to form a micropore; the atomization amount is controlled by the aperture or the number of the micro-pores, the most common aperture range is 5-10 microns, and the number of the micro-pores is generally about 585; the pore diameter of the micropores which can be used in the micropore atomization sheet is about 4-6 microns, the atomization is fine, the particles are small, and the skin can better absorb the atomized medium;

in addition to the control of the atomization amount through the number and the aperture of the pores, the current and the voltage for driving the micropore atomization sheet can also control the atomization effect; if the current for driving the micropore atomization sheet is small, the atomization is weak, otherwise, the current is increased, the atomization force is strong, and the atomization amount is large; specifically, the type and the output power of the external power supply can be set according to the requirement so as to control the driving current and the voltage of the micropore atomization sheet and set the atomization effect.

Specifically, the media guidance group 102 includes: built-in guide 1021 and elastic member 1022; wherein, the elastic piece 1022 is arranged between the built-in guide 1021 and the connecting body 101, and can make the end of the built-in guide 1021 closely contact with the electronic atomization mechanism 1; the internal guide part 1021 and the external guide part 2 can be made of the same material, and can be selected to be hollow tubular bodies; the tube wall of the hollow tubular body is provided with a capillary structure;

it should be noted that: in use, the external guide 2 may pass through the open end of the second recess 1B to contact the internal guide 1021; for convenience of installation, an annular protrusion corresponding to the outer diameter of the external guide part 2 may be disposed on the inner wall of the second groove 1B to install and fix the external guide part 2, so that the external guide part 2 is tightly attached to the internal guide part 1021 to guide the medium;

preferably, the inner guide 1021 and the outer guide 2 may be hollow cotton sticks; since cotton is a fine fiber, the fine fiber has a capillary action on a liquid medium, such as water or other aqueous solutions; the liquid medium can automatically advance along the gaps among the fibers and is transmitted from one end to the other end through the external guide part 2; meanwhile, since the external guide 2 is tightly attached to the internal guide 1021, the medium to be atomized will be guided from the external guide 2 to the internal guide 1021 and will advance on its own on the internal guide 1021; meanwhile, the elastic piece 1022 tightly presses the end part of the built-in guide part 1021 to the micropore atomization sheet, so that the medium to be atomized is continuously supplied to the micropore atomization sheet, and atomized medium is formed by the micropore atomization sheet;

preferably, as shown in fig. 3, the elastic member 1022 may be a spring; the spring is preferably a first tower spring 1022A; the small diameter end of the first tower spring 1022A contacts the end of the built-in guide 1021; meanwhile, in order to prevent the built-in guide 1021 and the first tower spring 1022A from falling off, a first protrusion end 1022AA is provided at a small diameter end of the first tower spring 1022A; the first protruding end 1022AA extends into the hollow tube of the built-in guiding member 1021, so that when the first tower-shaped spring 1022A is compressed and reset, the first tower-shaped spring 1022A is separated from the built-in guiding member 1021 due to excessive elasticity, and the reliability of the product is improved; specific example II:

the utility model provides a further embodiment;

the electronic atomization component in the embodiment is applied to atomization of probiotics, and the specific technical scheme is as follows:

referring to fig. 4, a spray device includes: an electronic atomizing assembly as in the specific example I and a medium container 3 containing a probiotic liquid; the medium container 3 is connected with the input end of the connecting body 101 through threads, so that the medium container is convenient to disassemble; the external guide part 2 extends into the medium container 3 to guide the medium to be atomized in the medium container 3 to the internal guide part 1021, so that atomization is facilitated; moreover, the structure shown in the embodiment enables the spraying direction of the atomized medium to be positioned at the side of the external guide part 2, thereby being convenient for use;

in this embodiment, in order to improve the reliability of the contact between the inner guide 1021 and the outer guide 2, the spray device further includes: a support 4 disposed between the outer guide 2 and the bottom of the medium container 3;

specifically, as shown in fig. 5, the support member 4 may be a support column 4A disposed at the bottom of the medium container 3; the cross section of the supporting column 4A is larger than that of the external guide part 2, so that when the medium container 3 is screwed with the connecting body 101, the external guide part 2 is tightly attached to the internal guide part 1021;

however, the strength when the medium container 3 and the connecting body 101 are screwed is large, the external guide 2 and the medium container 3 are in hard contact with each other, and the external guide 2 is likely to have defects such as bending; therefore, the supporting member 4 is preferably a spring, so that a soft connection is formed between the external guide 2 and the medium container 3, which is beneficial for the external guide 2 to elastically cling to the internal guide 1021, and the reliability is improved;

in use, as shown in fig. 6-8, the spring may also preferably be a second tower spring 4B; the small diameter end of the second tower spring 4B contacts the end of the outer guide 2; meanwhile, in order to prevent the falling-off between the external guide 2 and the second tower spring 4B, a second protruding end 4BB is provided at the small-diameter end of the second tower spring 4B; the second protruding end 4BB extends into the hollow tube of the external guide part 2, so that when the second tower-shaped spring 4B is compressed and reset, the second tower-shaped spring 4B is prevented from being separated from the external guide part 2 by overlarge elastic force, and the reliability of a product is improved;

to further increase reliability, a positioning table 3A may be provided at the bottom of the media container 3; the outer diameter of the positioning table 3A is smaller than or equal to the inner diameter of the large-diameter end of the second tower-shaped spring 4B, so that the second tower-shaped spring 4B is positioned on the medium container 3; finally, the outer guide part 2 is reliably contacted with the second tower-shaped spring 4B through the combined action of the second tower-shaped spring 4B and the positioning table 3A;

it is to be understood that: the medium to be atomized as described herein may be any liquid that is aerosolizable, including probiotic liquids.

The above description is only the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily change or replace the technical scope of the present invention. Therefore, the protection scope of the present invention is subject to the protection scope of the claims.

Claims (10)

1. An electronic atomization assembly, comprising:

an electronic atomization mechanism;

the external guide piece is connected with the electronic atomization mechanism and used for guiding an external medium to be atomized to the electronic atomization mechanism and outputting the atomized medium through the electronic atomization mechanism;

the output direction of the atomized medium and the direction of the medium to be atomized guided by the external guide part form an included angle of 0-180 degrees.

2. An electronic atomization assembly in accordance with claim 1, wherein the electronic atomization mechanism comprises:

a connector;

a media guide set disposed within the connector body;

the atomizing unit is arranged in the connecting body and is connected with one end of the medium guide group;

a fastener disposed on an opposite side of the working end of the atomizing unit;

the electronic pin is electrically connected with the atomization unit and is used for being connected with an external power supply;

the electronic pins are arranged on the connecting body and are positioned on the opposite side of the fastener;

the fastener is detachably connected with the end part of the connecting body;

the medium guide group is in contact with the external guide piece and is used for guiding the medium to be atomized.

3. An electronic atomization assembly in accordance with claim 2, wherein:

and the middle part of the fastener is provided with a mist overflow port for passing through an atomized medium.

4. An electronic atomization assembly in accordance with claim 2 wherein the media guidance group comprises:

a built-in guide member;

and an elastic member provided between the built-in guide and the connection body, for bringing an end of the built-in guide into close contact with the atomizing unit.

5. An electronic atomization assembly in accordance with claim 4, wherein:

the built-in guide part is a hollow tubular body;

the wall of the hollow tubular body has a capillary structure.

6. An electronic atomization assembly in accordance with claim 2, wherein:

in the connector, be provided with:

the first groove is used for sequentially arranging the medium guide group and the atomization unit;

and the second groove is communicated with the first groove and is used as an input end of the connecting body to be communicated with the outside.

7. An electronic atomization assembly in accordance with claim 6, wherein:

the connector is a T-shaped piece;

the first groove and the second groove are respectively arranged in the T-shaped piece.

8. An electronic atomization assembly in accordance with claim 7, wherein:

the first groove is positioned at one end of the horizontal section of the T-shaped piece;

the second groove is located at an end of a vertical section of the tee.

9. A spray device, comprising:

the electronic atomization assembly of any of claims 1-8;

the medium container is detachably connected with an electronic atomization mechanism in the electronic atomization assembly;

an external guide piece in the electronic atomization assembly extends into the medium container and is used for guiding the medium to be atomized in the medium container.

10. A spraying device according to claim 9, further comprising:

a support disposed between the outboard guide and the media container bottom.

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