CN212468649U - Atomizing device capable of adjusting air flow - Google Patents

Abstract

The utility model relates to an atomizing device with adjustable air flow size, which comprises a rotary cap, an atomizing cover and an atomizing bin, wherein the atomizing bin is sequentially arranged from top to bottom, a heating structure is arranged in the atomizing bin, the lower part of the atomizing cover is detachably connected with the upper part of the atomizing bin, the upper part of the atomizing cover is provided with a plurality of air vents I, the side wall of the rotary cap is provided with a plurality of air vents II, the rotary cap is sleeved on the upper part of the atomizing cover in a rotary manner, the rotary cap is manually rotated on the upper part of the atomizing cover through operation, and the overlapping area of the air vents I and the air vents II is changed so; the utility model manually rotates the rotary cap on the atomizing cover to flexibly and rotatably adjust the overlapping area of the first exhaust port and the second exhaust port according to different requirements of users so as to change the size of the air outlet/smoke exhaust amount, and the flexibility is strong; through set up the sealing washer in atomizing lid and atomizing storehouse, the effectual smog that prevents leaks has good market using value.

Description

Atomizing device capable of adjusting air flow

Technical Field

The utility model relates to atomizer technical field especially relates to an atomizing device of adjustable air current size.

Background

The atomizer is used for directly pressurizing or heating the test solution to atomize or liquefying and then atomizing the solid by heating; the atomizer can be used to multiple field according to different usage, can be used for carrying out the atomizing humidifier for air heating, can be used to the medical atomizer of treatment respiratory disease on the medical instrument, can also be used to the hair spray that the hair was stereotyped, but above-mentioned three kinds all require the atomizer to spray stably, the droplet is tiny, even and atomization efficiency is high.

The existing atomizer cannot adjust the size of the air outlet flow after atomization due to the fact that an air outlet or a smoke outlet is customized, is poor in flexibility and cannot be flexibly set according to different requirements of users, and therefore the existing atomizer has the defects and needs to be improved.

Disclosure of Invention

The utility model provides an atomizing device of adjustable air current size, the above-mentioned problem of solution.

The utility model provides an atomizing device of adjustable air current size, including rotatory cap, atomizing lid and atomizing storehouse and from last to arranging in proper order down, place heating structure in the atomizing storehouse, the lower part of atomizing lid can be dismantled with the upper portion in atomizing storehouse and be connected, the upper portion of atomizing lid is equipped with a plurality of gas vents one, rotatory cap side wall is equipped with a plurality of gas vents two, the upper portion at the atomizing lid is established to rotatory cap swivel sleeve, carry out manual rotation on the upper portion of atomizing lid through the rotatory cap of operation, change the coincidence area of gas vent one and gas vent two, in order to adjust the air current size.

Preferably, the atomizing cover comprises an air adjusting cover, a first sealing ring, an upper cover, an air guide pipe and an air vent pipe, wherein the upper cover comprises an air outlet part, a connecting part and an air inlet part which are sequentially and fixedly connected from top to bottom; the side walls of the air outlet part and the air inlet part are respectively provided with a plurality of air outlet holes I and a plurality of air inlet holes I.

Further, the top end of the air outlet part is fixedly connected with the air adjusting cover through a rivet.

Further, the diameter of the air outlet part is smaller than that of the air inlet part, and the diameter of the air inlet part is smaller than that of the connecting part.

Preferably, the atomization bin comprises a riveting cover, a sealing ring II, a top support, a bearing cup, a bottom support, an atomization seat, an insulation ring and a conductive column, wherein the insulation ring is embedded in the lower part of the atomization seat, and the conductive column is movably embedded in the insulation ring; the bearing cup is placed at the bottom of the atomizing seat through a bottom support, the riveting cover is installed at the upper part of the atomizing seat through a top support, and the sealing ring II is installed between the riveting cover and the top support; the lower part of the riveting cover is sleeved on the upper part of the atomizing seat.

Further, the riveting cover is made of iron materials, and the atomizing seat is made of conductive metal materials; the outside of riveting the gland still is equipped with the silica gel cover.

Further, the upper part of the riveting cover is fixedly connected with the connecting part through a bolt.

Furthermore, the lower part of the connecting part is provided with an annular clamping groove, a magnet is fixedly embedded in the annular clamping groove, and the magnet is magnetically connected with the upper part of the riveting cover.

Preferably, the atomizing seat is made of conductive metal material; the atomizing base comprises a first barrel body and a connecting pipe, the first barrel body and the connecting pipe are of an integrated structure, an annular convex rib is arranged on the outer wall of the first barrel body, a plurality of air inlets are formed in the bottom of the first barrel body, and external threads used for being electrically connected with a negative electrode of an external power supply are formed in the outer wall of the connecting pipe.

Preferably, the bottom of the bearing cup is provided with two positioning holes, the anode pin and the cathode pin of the heating structure respectively penetrate through the two positioning holes downwards, the upper end of the anode pin and the upper end of the conductive column are in electric contact connection, and the cathode pin is in electric contact connection with the bottom of the first barrel.

Compared with the prior art, the technical scheme has the advantages that the rotary cap is manually rotated on the atomizing cover, so that the overlapping area of the first exhaust port and the second exhaust port can be flexibly and rotatably adjusted according to different requirements of users, the size of the air outlet/smoke exhaust amount can be changed, and the flexibility is high; the seal rings are arranged in the atomizing cover and the atomizing bin, so that smoke is effectively prevented from leaking out, and smoke is prevented from being discharged at will; the silica gel sleeve is sleeved outside the riveting cover, so that the riveting cover is convenient for a user to take and place and is effectively scald-proof; simple structure, convenient use and good market application value.

Drawings

For a clearer explanation of the embodiments or technical solutions in the prior art, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the utility model, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall assembly section structure of the present invention;

FIG. 2 is a schematic diagram of the overall explosion profile structure of the present invention;

FIG. 3 is a schematic view of the overall explosion three-dimensional structure of the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the upper cover of the present invention.

As shown in the above legend: 1. the rotary cap 2, the atomization cover 21, the air regulation cover 22, the first sealing ring 23, the upper cover 231, the air outlet part 232, the connecting part 233, the air inlet part 234, the annular clamping groove 24, the air duct 25, the air duct 26, the rivet 27, the magnet 3, the heating structure 41, the silica gel sleeve 42, the riveting cover 43, the second sealing ring 44, the top bracket 45, the bearing cup 46, the bottom bracket 47, the atomization seat 471, the first cylinder 472, the annular convex rib 473, the air inlet 474, the connecting pipe 48, the insulating ring 49 and the conductive column.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. 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. The use of the terms "fixed," "integrally formed," "left," "right," and the like in this specification is for illustrative purposes only, and elements having similar structures are designated by the same reference numerals in the figures.

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 4, the overall structure of the present invention is:

embodiment 1, an atomizing device capable of adjusting the size of an air flow, which includes a rotating cap 1, an atomizing cover 2 and an atomizing chamber, wherein the atomizing chamber is sequentially arranged from top to bottom, a heating structure 3 is placed in the atomizing chamber, the lower part of the atomizing cover 2 is detachably connected with the upper part of the atomizing chamber, the upper part of the atomizing cover 2 is provided with a plurality of first air outlets, the side wall of the rotating cap 1 is provided with a plurality of second air outlets, the rotating cap 1 is rotatably sleeved on the upper part of the atomizing cover 2, the rotating cap 1 is manually rotated on the upper part of the atomizing cover 2 through operation, and the overlapping area of the first air outlets and the second air outlets is changed; further, the rotating cap 1 can be made of silica gel materials and can play a role in preventing scalding and skidding.

Embodiment 2, on the basis of embodiment 1, the atomizing cover 2 includes an air adjusting cover 21, a first sealing ring 22, an upper cover 23, an air guiding tube 24 and an air pipe 25, wherein the upper cover 23 includes an air outlet portion 231, a connecting portion 232 and an air inlet portion 233, which are sequentially and fixedly connected from top to bottom, the first sealing ring 22 is sleeved outside the air outlet portion 231, the air adjusting cover 21 is fixedly sleeved outside the upper cover 23 and presses the first sealing ring 22 on the upper surface of the connecting portion 232, the air guiding tube 24 is movably sleeved outside the air pipe 25, an annular clamping position is arranged inside the air inlet portion 233, the outside of the air guiding tube 24 is movably embedded into the annular clamping position inside the air inlet portion 233, and the air guiding portion extends upwards into the air outlet portion 231; the side walls of the air outlet part 231 and the air inlet part 233 are respectively provided with a plurality of air outlet holes I and a plurality of air inlet holes I; the lower part of the breather pipe 25 is provided with a plurality of vent holes; the sidewall of the air adjusting cover 21 is provided with a first air outlet at a position corresponding to the first air outlet of the air outlet 231.

In embodiment 3, in addition to embodiment 2, the top end of the air outlet 231 is fixedly connected to the air adjustment cover 21 by a rivet 26; for another example, the air adjusting cover 21 may be further disposed outside the air outlet 231; further, an annular extension portion is integrally fixed at the lower end of the gas adjusting cover 21, the first sealing ring 22 is sleeved outside the annular extension portion, and the gas adjusting cover 21 is fixedly sleeved outside the gas outlet portion 231 to tightly press the first sealing ring 22 on the upper surface of the connecting portion 232, so that the smoke is effectively prevented from leaking and overflowing from the connecting portion between the gas outlet portion 231 and the gas adjusting cover 21.

In example 4, in addition to example 2, the diameter of the air outlet portion 231 is smaller than that of the air inlet portion 233, and the diameter of the air inlet portion 233 is smaller than that of the connection portion 232.

Embodiment 5, on the basis of embodiment 2, the atomization bin includes a riveting cover 42, a second sealing ring 43, a top support 44, a bearing cup 45, a bottom support 46, an atomization seat 47, an insulating ring 48 and a conductive column 49, the insulating ring 48 is embedded in the lower portion of the atomization seat 47, and the conductive column 49 is movably embedded in the insulating ring 48; the bearing cup 45 is placed at the bottom of the atomizing base 47 through the bottom bracket 46, the riveting cover 42 is installed at the upper part of the atomizing base 47 through the top bracket 44, and the sealing ring II 43 is installed between the riveting cover 42 and the top bracket 44; the lower part of the riveting cover 42 is sleeved on the upper part of the atomizing seat 47; further, the bearing cup 45 is a ceramic cup, the heating structure 3 is placed in the bearing cup 45, and a product to be atomized is prevented from being arranged on the upper portion of the heating structure 3; an annular groove is formed in the upper portion of the inner wall of the riveting cover 42, and the second sealing ring 43 is embedded into the annular groove.

Example 6, in addition to example 5, the rivet pressing cover 42 is made of an iron material, the atomizing base 47 is made of a conductive metal material, the atomizing base 47 is made of copper, and chromium is electroplated on the copper surface of the atomizing base 47 in order to prevent rusting; the outside of riveting gland 42 still overlaps and is equipped with silica gel cover 41, plays to prevent scalding the effect, and the handheld getting of user of being convenient for is put.

In example 7, in addition to example 6, the upper portion of the rivet cap 42 and the connecting portion 232 are fixedly connected by bolts, thereby preventing the rivet cap 42 and the connecting portion 232 from coming off.

Embodiment 8 is different from embodiment 7 in that, in embodiment 6, a ring-shaped slot 234 is provided at a lower portion of the connecting portion 232, a magnet 27 is fixedly fitted into the ring-shaped slot 234, and the magnet 27 is magnetically connected to an upper portion of the rivet cap 42, and the magnet 27 is a ring-shaped magnet 27.

Example 9, on the basis of example 5, the atomizing base 47 is made of a conductive metal material; the atomizing base 47 comprises a first barrel 471 and a connecting pipe 474, the first barrel 471 and the connecting pipe 474 are integrated, an annular convex rib 472 is arranged on the outer wall of the first barrel 471, when the riveting cover 42 is sleeved outside the atomizing base 47, the annular convex rib 472 plays a limiting role, a plurality of air inlets 473 are arranged at the bottom of the first barrel 471, and an external thread used for being electrically connected with a negative electrode of an external power supply is arranged on the outer wall of the connecting pipe 474; further, the inner wall lower part of connecting pipe 474 is equipped with annular card muscle, and insulating circle 48's outside is equipped with the annular groove, and insulating circle 48 passes through the annular groove and blocks the muscle joint with the annular to fix in connecting pipe 474, prevent to drop.

In embodiment 10, on the basis of embodiment 9, two positioning holes are formed in the bottom of the bearing cup 45, and the positive pin and the negative pin of the heating structure 3 respectively penetrate through the two positioning holes, so that the heating structure 3 is effectively prevented from being dislocated and shaken in the bearing cup 45, the positive pin is electrically connected with the upper end of the conductive column 49, and the negative pin is electrically connected with the bottom of the first barrel 471 in a contacting manner; the conductive column 49 is a solid conductive column 49, that is, the external air can only enter from the air inlet at the bottom of the atomizing base 47.

Further, the external power supply comprises a negative electrode seat and a positive electrode piece, the negative electrode seat is movably sleeved on an external thread outside the connecting pipe 474 in the atomizing seat 47, and the negative electrode of the heating structure 3 is electrically connected with the negative electrode seat through the external thread of the atomizing seat 47; the positive pole piece is fixed in the bottom of the negative pole seat through an insulating pad and is electrically connected with the lower part of the conductive column 49 in a contact manner, the positive pole piece is electrically connected with the positive pole of the heating structure through the conductive column 49, and the positive pole piece is a positive pole made of a metal material.

The working principle is as follows: after the accessories of the atomization device are assembled, the atomization seat is combined firstly, namely, the sealing ring is sleeved outside the air outlet part, the air outlet part of the upper cover and the middle part of the air adjusting cover are fixed together through the rivet, then the air guide pipe is sleeved outside the air guide pipe, the air guide pipe is embedded in the air inlet part, the upper end of the air guide pipe is positioned in the air outlet part of the upper cover, and the magnet is fixedly embedded in the annular clamping groove of the connecting part in the upper cover; then, combining an atomization bin, namely placing a heating structure in a bearing cup, sequentially placing a bottom support, the bearing cup, a top support and an atomization seat in the atomization seat, embedding a sealing ring II in a riveting cover, sleeving the riveting cover on the upper part of the atomization seat, movably sleeving a silica gel sleeve outside the riveting cover and an annular convex rib of the atomization seat, embedding an insulating ring in a connecting pipe of the atomization seat, embedding a conductive column in the insulating ring, ensuring that an anode pin of the heating structure is in electric shock connection with the upper end of the conductive column, and electrically connecting a cathode pin with the bottom of a cylinder body I of the atomization seat in a contact manner; the atomization cover is placed at the upper part of the atomization bin, so that the magnet in the connecting part attracts the riveting cover, the atomization cover and the atomization bin are fixed, and separation is prevented; finally, the rotating cap is sleeved outside the air adjusting cover; atomizing: external air enters from an air inlet at the lower part of the atomizing seat and then enters into the bearing cup from the positioning hole of the bearing cup; external power supply passes through the negative pole of atomizing seat and leads the positive pole of electrical pillar and gives the electrical current for heating structure, thereby treat the atomizing product on heating structure upper portion and heat the atomizing, produce smog, external air mixes the back with smog, get into from a plurality of air vents of breather pipe lower part, the portion position department of giving vent to anger to the upper cover of come-up after that, then the gas vent one of the portion of giving vent to anger is at the gas vent two discharges from rotatory cap through the gas vent one of adjusting the lid, thereby form complete earlier admit air, mix with smog again, the gaseous circulation circuit of last discharge atomizing.

It should be noted that the above technical features are continuously combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention described in the specification; moreover, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides an atomizing device of adjustable air current size, a serial communication port, including rotatory cap, atomizing lid and atomizing storehouse and from last to arranging in proper order down, place heating structure in the atomizing storehouse, the lower part of atomizing lid can be dismantled with the upper portion in atomizing storehouse and be connected, the upper portion of atomizing lid is equipped with a plurality of gas vents one, rotatory cap side wall is equipped with a plurality of gas vents two, the upper portion at atomizing lid is established to rotatory cap swivel sleeve, carry out manual rotation on the upper portion of atomizing lid through the rotatory cap of operation, change the coincidence area of gas vent one and gas vent two, with the adjustment air current size.

2. The atomizing device with the adjustable air flow size as claimed in claim 1, wherein the atomizing cover comprises an air adjusting cover, a first sealing ring, an upper cover, an air duct and a vent pipe, wherein the upper cover comprises an air outlet part, a connecting part and an air inlet part which are sequentially and fixedly connected from top to bottom, the sealing ring is sleeved outside the air outlet part, the air adjusting cover is fixedly sleeved outside the upper cover and presses the first sealing ring on the upper surface of the connecting part, the air duct is sleeved outside the vent pipe, the air duct is embedded in the air inlet part, and the air outlet part extends upwards to the air outlet part; the side walls of the air outlet part and the air inlet part are respectively provided with a plurality of air outlet holes I and a plurality of air inlet holes I.

3. The atomizing device of claim 2, wherein the top end of the air outlet is fixedly connected to the air regulating cover by a rivet.

4. An adjustable airflow size atomizing device as set forth in claim 2, wherein the diameter of the outlet portion is smaller than the diameter of the inlet portion, and the diameter of the inlet portion is smaller than the diameter of the connecting portion.

5. The atomizing device with adjustable airflow size as claimed in claim 2, wherein the atomizing chamber comprises a riveting cover, a second sealing ring, a top support, a bearing cup, a bottom support, an atomizing base, an insulating ring and a conductive column, the insulating ring is embedded in the lower portion of the atomizing base, and the conductive column is movably embedded in the insulating ring; the bearing cup is placed at the bottom of the atomizing seat through a bottom support, the riveting cover is installed at the upper part of the atomizing seat through a top support, and the sealing ring II is installed between the riveting cover and the top support; the lower part of the riveting cover is sleeved on the upper part of the atomizing seat.

6. The atomizing device of claim 5, wherein the rivet cover is made of iron, and the atomizing base is made of conductive metal; the outside of riveting the gland still is equipped with the silica gel cover.

7. The atomizing device of claim 6, wherein the upper portion of the rivet cover is fixedly connected to the connecting portion by a bolt.

8. The atomizing device of claim 6, wherein the lower portion of the connecting portion has a ring-shaped slot, and a magnet is fixed in the ring-shaped slot and magnetically connected to the upper portion of the rivet cover.

9. The atomizing device of claim 5, wherein the atomizing base is made of a conductive metal material; the atomizing base comprises a first barrel body and a connecting pipe, the first barrel body and the connecting pipe are of an integrated structure, an annular convex rib is arranged on the outer wall of the first barrel body, a plurality of air inlets are formed in the bottom of the first barrel body, and external threads used for being electrically connected with a negative electrode of an external power supply are formed in the outer wall of the connecting pipe.

10. The atomizing device of claim 9, wherein the bottom of the cup has two positioning holes, the positive pin and the negative pin of the heat generating structure respectively pass through the two positioning holes, the positive pin is electrically connected to the upper end of the conductive post, and the negative pin is electrically connected to the bottom of the first barrel.

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