CN117019500A - Conductive vibration modules, atomizer bombs and aromatherapy devices - Google Patents

Abstract

The present invention relates to the field of electronic atomization technology, and in particular to conductive vibration modules, atomization bombs and aromatherapy devices. The conductive vibration module of the present invention has an atomization port at the upper end of the mounting base, and has opening slots and heat dissipation ports on both sides of the mounting base. , the oil guide has a first end and a second end, the first end is connected to the liquid storage tank, the second end is inserted into the installation groove from the opening groove, the oscillation piece is arranged in the installation groove and is located at the lower end of the oil guide, the first The pole piece and the second pole piece are respectively arranged at the upper and lower ends of the oscillation piece and are crimped to the oscillation piece. This design has the advantage of a simple structure and easy installation, and the first pole piece and the second pole piece are always crimped to fix the oscillation piece, which avoids The problem of structural loosening occurs after long-term use. The installation groove is connected to the air inlet chamber through the heat dissipation port, and rapid heat dissipation is achieved through gas flow. Therefore, the vibration frequency of the conductive vibration module of the present invention can be designed to be higher to obtain better Vibration atomization effect.

Description

Conductive vibration module, atomization bullet and aromatherapy device

Technical Field

The invention relates to the technical field of electronic atomization, in particular to a conductive vibration module, an atomization bomb and an aromatherapy device.

Background

With the development of economy, people have higher and higher requirements on life quality, and various products for improving the life quality of people are more and more. Among them, aromatherapy atomizers are a household product with increasingly wide application. The atomizer is a device for atomizing atomized raw materials, and mainly atomizes aromatherapy essential oil and generates fog to be emitted into air, so that indoor air quality is improved, and life quality is improved.

The aromatherapy machine mainly comprises an atomization bullet and a main body, wherein the atomization bullet is internally provided with a conductive vibration module, the atomization bullet is connected with an essential oil bottle and extracts liquid in the essential oil bottle, the conductive vibration module volatilizes and ejects outside after atomizing the liquid, the conventional conductive vibration module has the problems of complex structure and poor heat dissipation effect, and the long-term use easily causes the risks of loosening of the structure and ageing and leakage of an installation seat.

Disclosure of Invention

To achieve the above object, the present invention provides a conductive vibration module, comprising:

the mounting seat is internally provided with a mounting groove, the upper end of the mounting groove is provided with an atomization opening, the atomization opening is communicated with the mounting groove, and one side of the mounting seat is provided with an opening groove;

the first end of the oil guide piece is connected with the liquid storage bin, and the second end of the oil guide piece is placed in the mounting groove from the open groove and corresponds to the atomization port;

the oscillating piece is arranged in the mounting groove and is positioned at the lower end of the oil guide piece;

the first pole piece and the second pole piece are respectively arranged at the upper end and the lower end of the oscillating piece and are in pressure connection with the oscillating piece;

and the heat dissipation port is arranged on the mounting seat, and the mounting groove is communicated with the air inlet cavity through the heat dissipation port.

In some possible implementations, the mount is integrally formed from a fluorine-containing material or the surface of the mount is coated with a fluorine-containing coating.

In some possible implementations, the heat dissipation port and the open slot are separately disposed on two opposite sides of the mounting base, and the heat dissipation port extends to an upper end face and a side face of the mounting base.

In some possible implementations, the upper and lower ends of the mounting groove are respectively provided with a first groove position and a second groove position, the first groove position is formed on the upper wall surface of the mounting groove and is used for accommodating the second end of the oil guide piece, and the second groove position is formed on the lower wall surface of the mounting groove and is used for accommodating the second pole piece.

In some possible implementations, the second end of the oil guide is in a shape of a circular plate, and a groove for accommodating the second end of the oil guide is arranged on the oscillating plate, and the second end of the oil guide is arranged between the first groove and the groove.

In some possible implementations, the first pole piece is ring slice, first connecting wire is connected to the one end of first pole piece, first connecting wire is followed the thermovent wears out, the thickness of first pole piece with the thickness sum of oscillating piece with the groove depth looks adaptation of mounting groove, the second connecting wire is connected to the one end of second pole piece, the second connecting wire is followed the upper end of mount pad wears out downwards, and follows the lower surface level of mount pad extends to with the second pole piece is connected.

In some possible implementations, the first pole piece and/or the second pole piece are/is in a spring piece structure, and the end faces of the first pole piece/the second pole piece are arc-shaped protruding and are in pressure connection with the oscillating piece.

In some possible implementations, a collecting hole is arranged in the middle of the second end, the collecting hole is arranged corresponding to the atomizing port, the aperture is matched with the aperture of the atomizing port, and the arc-shaped protrusion position of the second pole piece corresponds to the collecting hole.

In some possible implementations, the atomizing port is in a horn hole shape with the pore diameter gradually increasing from bottom to top.

In some possible implementations, a diversion yielding port is arranged on one side, away from the heat dissipation port, of the mounting seat, and the second end of the oil guide piece is horizontally placed in the mounting groove and passes below the diversion yielding port.

The present invention also provides a cartomizer comprising: a housing, a base, an atomizing bin and a conductive vibration module according to the above embodiment, wherein,

the base is detachably connected with the liquid storage bin, and the first end penetrates through the base and stretches into the liquid storage bin;

the atomization bin is arranged on the base and is used for fixing the mounting seat on the upper end face of the base;

the atomization bin comprises an air inlet chamber and an air outlet chamber which are communicated, and the mounting seat is positioned at the lower end of the air inlet chamber;

the shell cover is arranged on the base, an air inlet is formed in the shell, and the air inlet is communicated with the air inlet cavity.

In some possible implementation manners, a plurality of compression ribs extending vertically are arranged on the inner wall of the air inlet chamber, the lower end of the atomization bin is fixed on the upper end face of the base in an ultrasonic welding mode, and the compression ribs are abutted against and compress the upper end face of the mounting seat.

In some possible implementations, a diversion hole is arranged between the air inlet chamber and the air outlet chamber, the diversion hole is positioned above the oil guide piece, an oblique diversion part is arranged at the bottom of the air outlet chamber, and the lower end of the oblique diversion part extends to the diversion hole.

The invention also provides an aromatherapy device, which comprises the conductive vibration module or the atomization bomb according to the embodiment, and further comprises a host machine, wherein the host machine is provided with a slot for placing a liquid storage bin, and the second end of the oil guide piece can be inserted into the liquid storage bin.

The invention has the beneficial effects that: the conductive vibration module is characterized in that an atomization port is formed in the upper end of the mounting seat, an opening groove and a heat dissipation port are formed in two sides of the mounting seat respectively, the oil guide piece is provided with a first end and a second end, the first end is connected with the liquid storage bin, the second end is arranged in the mounting groove from the opening groove, the vibration piece is arranged in the mounting groove and positioned at the lower end of the oil guide piece, the first pole piece and the second pole piece are respectively arranged at the upper end and the lower end of the vibration piece and are in pressure connection with the vibration piece, the design has the advantage of simple structure and easy installation, the first pole piece and the second pole piece are always in pressure connection with the vibration piece to avoid the problem of loose structure after long-time use, the mounting groove is communicated with the air inlet cavity through the heat dissipation port, and rapid heat dissipation is realized through air flow.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a conductive vibration module according to an embodiment of the present invention;

fig. 2 is an assembly schematic diagram of a conductive vibration module according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a conductive vibration module according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a mounting seat according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a mounting seat according to a second embodiment of the present invention; the method comprises the steps of carrying out a first treatment on the surface of the

FIG. 6 is a schematic view of an assembled atomizer according to an embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of a first embodiment of a cartomizer according to the present invention;

FIG. 8 is an enlarged schematic view of FIG. 7 at A;

FIG. 9 is a schematic cross-sectional view of a second embodiment of the present invention;

fig. 10 is a schematic structural diagram of an aromatherapy device according to an embodiment of the invention.

Reference numerals:

a host 1 and a slot 11;

the atomization bomb 2, the base 21, the atomization bin 22, the air inlet chamber 221, the air outlet chamber 222, the air inlet channel 223, the compression ribs 225, the flow guiding holes 226, the inclined flow guiding parts 227, the shell 23, the air inlet 231, the conduction contacts 232 and the air outlet 233;

a liquid storage bin 3;

mounting seat 40, mounting groove 401, atomizing port 402, opening groove 403, heat dissipation port 404, upper part of first groove position 405, lower part of second groove position 406, diversion relief port 407;

the oil guide 41, the first end 411, the second end 412, and the collection hole 413;

oscillation piece 42, groove 421;

a first pole piece 43 and a first connecting wire 431;

the second pole piece 44, the second connecting line 441, the arc-shaped protrusion 442.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention. The terms "first" and "second" are used below for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the embodiments of the present disclosure, unless otherwise indicated, the meaning of "a plurality" is two or more.

Referring to the conductive vibration module shown in fig. 1 to 3, which is used for vibrating and atomizing liquid, the conductive vibration module of the present invention comprises a mounting seat 40, an oil guiding member 41, an oscillating piece 42, a first pole piece 43 and a second pole piece 44, wherein a mounting groove 401 is arranged in the mounting seat 40, one side of the mounting seat 40 is provided with an opening groove 403, the oil guiding member 41, the oscillating piece 42, the first pole piece 43 and the second pole piece 44 are all placed in the mounting groove 401 from the opening groove 403, the oil guiding member 41 can be a conventional oil guiding cotton structure, the first end 411 can be vertically extended, the second end 42 can be horizontally extended and integrally structured, or can be in a split structure, an atomizing opening 402 is arranged on the upper end face of the mounting seat 40, the atomizing opening 402 is communicated with the mounting groove 401, the oscillating piece 42 atomizes the liquid on the oil guiding member 41 and then sends the atomized liquid out from the atomizing opening 402 to an air inlet chamber 221, then the liquid in the liquid storage bin 3 is conveyed to the second end 42 from the first end 411, the liquid in the liquid storage bin 3 is vibrated and atomized by the oscillating piece 42, the atomized particles enter the air inlet cavity 221 from the atomizing opening 402 and are dispersed to the outside along with the air flow, the first pole piece 43 and the second pole piece 44 are respectively arranged at the upper end and the lower end of the oscillating piece 42, the first pole piece 43 and the second pole piece 44 are respectively connected with the positive and the negative of a power supply, the oscillating piece 42 can generate high-frequency vibration after the first pole piece 43 and the second pole piece 44 are electrified so as to atomize the liquid, the first pole piece 43 and the first pole piece 43 are respectively pressed against the upper end and the lower end of the oscillating piece 42 to fix the oscillating piece 42 in the mounting groove 401, avoiding the problem of loosening caused by long-time use/vibration; the mounting seat 40 is also provided with a heat dissipation opening 404, the heat dissipation opening 404 is communicated with the mounting groove 401 and the air inlet cavity 221, and when air is blown to the outside through the air inlet cavity 221, heat generated by high-frequency vibration in the mounting groove 401 can be taken away, so that the heat dissipation effect in the mounting groove 401 is improved, and therefore, the conductive vibration module can meet the design requirement of higher vibration frequency, and further, a better atomization effect is obtained.

In some possible implementations, the mounting base 40 is integrally formed by using a fluorine-containing material or the surface of the mounting base 40 is coated with a fluorine-containing coating, so that the mounting base 40 is more resistant to essential oil and is not easy to corrode and harden, and the service life of the mounting base 40/conductive vibration module is effectively prolonged.

In some possible implementations, referring to fig. 4 and 5, the heat dissipation port 404 and the open groove 403 are provided on opposite sides of the mounting base 40, the heat dissipation port 404 extends to the upper end surface and the side surface of the mounting base 40, and in use, the liquid flows along the oil guide 41 from one end of the open groove 403 to one end of the heat dissipation port 404, and is vibration atomized by the oscillating piece 42 at the position of the atomizing port 402.

In some possible implementations, referring to fig. 4 and 5, the upper and lower ends of the installation groove 401 are respectively provided with a first groove 405 and a second groove 406, the first groove 405 is formed on the upper wall surface of the installation groove 401, the first groove 405 is used for accommodating the second end 42 of the oil guiding member 41, the second groove 406 is formed on the lower wall surface of the installation groove 401, and a part protruding from the lower end surface of the installation groove 401 can be used for accommodating the second pole piece 44, so as to meet the requirement of the second groove 406 for accommodating the second pole piece 44, in this embodiment, the side wall of the first groove 405 is used for restricting the degree of freedom of the oil guiding member 41 in the horizontal direction, the oscillating piece 42/the first pole piece 43 is used for restricting the degree of freedom of the oil guiding member 41 in the vertical direction so as to fix the second end 42 of the oil guiding member 41, the second pole piece 44 is accommodated in the second groove 406, and one end of the second pole piece 44 is pressed against the bottom of the second groove 406, and the other end of the oscillating piece 42 is pressed against the lower end surface of the oscillating piece 42, so that the oscillating piece 42 is always pressed to be fixed in the installation groove 401.

In some possible implementations, referring to fig. 2, the second end 42 of the oil guiding member 41 is in a disc shape, the oscillating piece 42 is provided with a groove 421 for accommodating the second end 42 of the oil guiding member 41, the second end 42 of the oil guiding member 41 is disposed between the first slot 405 and the groove 421, specifically, the sum of the slot depth of the groove 421 and the slot depth of the first slot 405 is adapted to the thickness of the second end 42, and the second end 42 is fixed by the clamping force of the bottom of the first slot 405 and the bottom of the groove 421 opposite to the second end 42; further, the groove 421 is circular and has a diameter larger than that of the second end 42 of the circular plate, at this time, the oscillating piece 42 is partially exposed at the heat dissipating opening 404, and an annular heat dissipating channel is formed between the side surface of the second end 42 and the inner side surface of the groove 421 and extends into the mounting groove 401, so that heat in the mounting groove 401 can flow along the heat dissipating channel to the heat dissipating opening 404, and then be dissipated to the outside along with the air flow at the heat dissipating opening 404, thereby further improving the heat dissipating effect.

In some possible implementation manners, referring to fig. 2 and fig. 3, the first pole piece 43 is in a ring shape, one end of the first pole piece 43 is connected with a first connecting wire 431, the first connecting wire 431 penetrates out from the heat dissipation port 404, the sum of the thickness of the first pole piece 43 and the thickness of the oscillating piece 42 is adapted to the groove depth of the mounting groove 401, in this embodiment, the first pole piece 43 is lapped on the upper end surface of the oscillating piece 42, and the heat dissipation channel is formed between the inner ring side surface of the first pole piece 43 and the outer side surface of the second end 42; one end of the second pole piece 44 is connected with a second connecting wire 441, the second connecting wire 441 penetrates out downwards from the upper end of the mounting seat 40 and then horizontally extends along the lower surface of the mounting seat 40 to be connected with the second pole piece 44, and the first connecting wire 431 and the second connecting wire 441 are respectively connected with the anode and the cathode of an external power supply; the design of the embodiment can effectively reduce the problem of heat accumulation at the connection point of the first connection line 431 and the first pole piece 43.

In some possible implementations, referring to fig. 2 and 3, the first pole piece 43 and/or the second pole piece 44 are in a shrapnel structure, and the end surface arc-shaped protrusions 442 of the first pole piece 43 and/or the second pole piece 44 are in crimping connection with the oscillating piece 42; taking the first pole piece 43 as an example, a plurality of arc-shaped protrusions 442 are formed on the lower end surface of the circular-ring-shaped first pole piece 43, the first pole piece 43 can be always pressed against the edge of the oscillating piece 42 through the arc-shaped protrusions 442 to fix the oscillating piece 42 in the mounting groove 401, at this time, the first pole piece 43 only contacts the oscillating piece 42 through the end surfaces of the arc-shaped protrusions 442, so that the contact area between the first pole piece 43 and the oscillating piece 42 is reduced, particularly, a gap is formed between the first pole piece 43 and the oscillating piece 42 at the heat dissipation opening 404, the heat dissipation effect of the oscillating piece 42 is further improved, in the embodiment, the vibration point of the oscillating piece 42 is located at the position where the middle part corresponds to the atomizing opening 402, and the edge of the oscillating piece 42 is pressed against loosening by the arc-shaped protrusions 442, so that the vibration and atomization positions of liquid on the oscillating piece 42 are more concentrated; in other possible implementation manners, the middle part of the second pole piece 44 forms an arc-shaped protrusion 442, and the upper end surface of the arc-shaped protrusion 442 is in pressure connection with the lower end surface of the oscillating piece 42, in this embodiment, the elastic deformation of the material/structure of the second pole piece 44 is adopted to apply pressure to the oscillating piece 42, so as to ensure that the oscillating piece 42 is always pressed and fixed in the mounting groove 401, avoid the problem that the oscillating piece 42 is loose after long-time use/vibration, the second pole piece 44 is in direct contact with the oscillating piece 42 to effectively conduct heat, and a certain heat dissipation space is provided between the lower end surface of the oscillating piece 42 and the second pole piece 44, so that the heat dissipation effect between the second pole piece 44 and the lower end surface of the oscillating piece 42 is ensured, and the problem that the oscillating piece 42 is overheated is avoided; further, the second pole piece 44 is located at the lower end of the oscillating piece 42, and can absorb the downward kinetic energy of the oscillating piece 42 without affecting the upward kinetic energy of the oscillating piece 42, that is, the second pole piece 44 has an energy absorbing effect on the oscillating piece 42 without affecting the vibration and atomization effects of the oscillating piece 42, and the oscillating piece 42 is not easy to loosen, so that the structure of the conductive module is more compact; in other possible implementations, the first pole piece 43 and the second pole piece 44 are each formed with an arc-shaped protrusion 442, and the arc-shaped protrusion 442 on the first pole piece 43 in the shape of a circular ring is crimped to the outer edge of the oscillating piece 42, and the arc-shaped protrusion 442 on the second pole piece 44 is crimped to the center position of the oscillating piece 42.

In some possible implementations, referring to fig. 2, a collecting hole 413 is disposed in the middle of the second end 42, where the collecting hole 413 is disposed corresponding to the atomizing port 402, and the aperture of the collecting hole 413 is matched with the aperture of the atomizing port 402, and when the liquid is conveyed from the first end 411 to the second end 42, the liquid seeps out through the side wall of the collecting hole 413 and flows to the position of the oscillating piece 42 corresponding to the atomizing port 402, where the position exactly corresponds to the arc-shaped protrusion 442 of the second pole piece 44, so that the efficiency and effect of vibration atomization can be improved, and meanwhile, the second pole piece 44 can also well absorb the kinetic energy of the oscillating piece 42 with downward amplitude.

In some possible implementations, and referring to fig. 3-5, the atomizing port 402 is in the shape of a bell mouth with gradually increasing pore diameter from bottom to top, and this design allows atomized particles to quickly/sufficiently flow from the air inlet chamber 221 to the air outlet chamber 222 and diverge to the outside.

In some possible implementations, referring to fig. 4 and 5, a diversion yielding port 407 is disposed on a side, away from the heat dissipation port 404, of the mounting seat 40, the diversion yielding port 407 is located at an upper end of the open slot 403, the oil guiding member 41 is horizontally placed into the mounting slot 401 from the open slot 403, the oil guiding member 41 is also located below the diversion yielding port 407, atomized particles mixed in the air flow may be collected into large particles when not being dispersed to the outside, and at this time, the large particles may flow back onto the oil guiding member 41 from the diversion yielding port 407, and flow to the second end 42 along the oil guiding member 41 for continuing to perform vibration atomization.

The invention also provides a atomization bullet 2, refer to fig. 6-9, this atomization bullet 2 includes the outer casing 23, the base 21, atomization storehouse 22 and conductive vibration module of the above-mentioned embodiment, wherein, conductive vibration module and atomization storehouse 22 are installed in the upper end of the base 21, there are air inlet cavity 221 and air outlet cavity 222 communicated on the atomization storehouse 22, the side surface of atomization storehouse 22 also has air inlet channels 223, the air inlet channel 223 communicates with air inlet cavity 221, the upper end of the air outlet cavity 222 is also connected with air outlet 233, the air outlet 233 is set up in the upper end of the outer casing 23, conductive vibration module locates at the bottom of air inlet cavity 221, the outer casing 23 covers and is set up on the base 21, the side of the outer casing 23 has air inlets 231, air inlet 231 communicates with air inlet channel 223, in use, the essential oil is conveyed to the second end 42 through the first end 411, the first pole piece 43 and second pole piece 44 are energized and driven the work of the oscillating piece 42, the oscillating piece 42 produces the high-frequency vibration and will collect the essential oil of hole 413 to oscillate into the atomized particle, the particle enters the air inlet cavity 221 through the atomization port 402 and flows from air inlet cavity 221 to the air inlet cavity 221 along with the air flow, the air outlet cavity 404 also produces the heat from the air inlet cavity 43 and air outlet cavity 404 along with the air flow of the air outlet cavity 221; the liquid storage bin 3 is detachably connected to the lower end of the base 21 through a thread structure, specifically, the lower part of the base 21 is in a sleeve shape with one open end, the lower end of the base 21 is provided with internal threads, the bottle mouth of the liquid storage bin 3 is provided with external threads matched with the internal threads, the base 21 is also provided with a through hole, the second end 42 can pass through the through hole and be inserted into the liquid storage bin 3, and after the essential oil in the liquid storage bin 3 is used up, the liquid storage bin 3 can be screwed and detached for replacement or the essential oil is added into the liquid storage bin 3 for reuse; the first connection line 431 and the second connection line 441 are both led out from the air inlet channel 223 and connected with an external power supply, and when air flows from the air inlet channel 223 into the air inlet chamber 221, atomized particles attached to the first connection line 431 and the second connection line 441 can be blown down, so that atomized particles are prevented from converging into liquid drops on the surfaces of the first connection line 431 and the second connection line 441 and seeping onto external electrical components along the first connection line 431 and the second connection line 441, and pollution or erosion damage to the electrical components is avoided.

In some possible implementation manners, referring to fig. 7 and 8, the inner wall of the air inlet chamber 221 is provided with a pressing rib 225 extending vertically from a plurality of channels, the lower end of the atomizing bin 22 is fixed with the upper end surface of the base 21 through ultrasonic welding, and at this time, the pressing rib 225 abuts against and presses the mounting seat 40 to fix the mounting seat 40 on the base 21, so that the connection structure/manner/method between the base 21 and the mounting seat 40 can be simplified by the structural design, and the production and assembly cost can be reduced.

In some possible implementations, referring to fig. 8, a diversion hole 226 is disposed between the air inlet chamber 221 and the air outlet chamber 222, the diversion hole 226 is located above the oil guiding piece 41, further the diversion hole 226 is located above the diversion yielding port 407, an inclined diversion portion 227 is disposed at the bottom of the air outlet strong force, the lower end of the inclined diversion portion 227 extends to the diversion hole 226, and when the atomized particles flow into the air outlet chamber 222 from the air inlet chamber 221 through the diversion hole 226 along with the air flow, part of the atomized particles may be collected into droplets, and the collected droplets may flow back to the oil guiding piece 41 through the diversion hole 226 and the diversion yielding port 407 sequentially along the inclined diversion portion 227, so as to avoid the collected droplets from being released to the outside from the air outlet 233 along with the air flow.

The invention also provides an aromatherapy device, referring to fig. 10, the aromatherapy device comprises a main machine 1, and further comprises a conductive vibration module or an atomization bullet 2 according to the above embodiment, namely, the aromatherapy device of the invention can be integrated on the main machine 1 or the conductive vibration module is integrated on the atomization bullet 2, and then is in plug-in connection and matching with the atomization bullet 2 and the main machine 1; the host 1 is provided with a slot 11, the liquid storage bin 3 or the liquid storage bin 3 and the atomization bullet 2 can be placed in the slot 11, the second end 42 of the oil guide 41 can be disassembled into the liquid storage bin 3, and the oil guide 41 can guide the essential oil in the liquid storage bin 3 to the first end 411 and is vibrated and atomized by the oscillating piece 42; the electrical control structure and principle of the host 1 of the present invention can adopt the conventional design and model in industry, and generally comprises a power supply, a switch, a circuit board and a fan, wherein the power supply, the switch, the fan and the conductive vibration module are all electrically connected with the circuit board, the circuit board is provided with a control circuit, the switch controls the conductive vibration module and the fan through the control circuit of the circuit board, specifically, the inner wall of the slot 11 on the host 1 is provided with an electrical interface, the conductive contact 232 on the atomizing bullet 2 is conducted with the electrical interface after the atomizing bullet 2 is inserted into the slot 11, the circuit board can supply power to the conductive vibration module through the electrical interface and control the conductive vibration module of the atomizing sheet to be opened and closed, the air flow blown by the fan enters the air inlet cavity 221 from the air inlet 231 along the air inlet channel 223, the atomized particles are mixed with the air flow in the air inlet cavity 221 and then released to the air outlet 233 through the air outlet cavity 222, and at the same time, the heat generated by the first pole piece 43/the oscillating sheet 42 is taken away along with the air flow in the air inlet cavity 221.

The foregoing is merely illustrative of specific embodiments of the present invention, and the scope of the present invention is not limited thereto, but any changes or substitutions within the technical scope of the present invention should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (14)

1. The conductive vibration module is characterized by comprising:

the mounting seat is internally provided with a mounting groove, the upper end of the mounting groove is provided with an atomization opening, the atomization opening is communicated with the mounting groove, and one side of the mounting seat is provided with an opening groove;

the oil guide piece is provided with a first end and a second end, the first end is connected with the liquid storage bin, and the second end is placed in the mounting groove from the open groove and corresponds to the atomization port;

the oscillating piece is arranged in the mounting groove and is positioned at the lower end of the oil guide piece;

the first pole piece and the second pole piece are respectively arranged at the upper end and the lower end of the oscillating piece and are in pressure connection with the oscillating piece;

and the heat dissipation port is arranged on the mounting seat, and the mounting groove is communicated with the air inlet cavity through the heat dissipation port.

2. The conductive vibration module of claim 1 wherein the mount is integrally formed from a fluorine-containing material or the surface of the mount is coated with a fluorine-containing coating.

3. The conductive vibration module of claim 1 wherein the heat sink and the open slot are separately provided on opposite sides of the mount, the heat sink extending to an upper end face and a side face of the mount.

4. The conductive vibration module of claim 1, wherein the mounting groove is provided with a first groove and a second groove at the upper and lower ends, the first groove is formed on the upper wall surface of the mounting groove for accommodating the second end of the oil guide, and the second groove is formed on the lower wall surface of the mounting groove for accommodating the second pole piece.

5. The conductive vibration module of claim 4 wherein the second end of the oil guide is in the form of a circular plate, and the oscillating plate is provided with a groove for receiving the second end of the oil guide, and the second end of the oil guide is disposed between the first groove and the groove.

6. The conductive vibration module according to claim 5, wherein the first pole piece is in a circular ring shape, one end of the first pole piece is connected with a first connecting wire, the first connecting wire penetrates out of the heat dissipation port, the sum of the thickness of the first pole piece and the thickness of the oscillating piece is matched with the groove depth of the mounting groove, one end of the second pole piece is connected with a second connecting wire, and the second connecting wire penetrates out downwards from the upper end of the mounting seat and horizontally extends along the lower surface of the mounting seat to be connected with the second pole piece.

7. The conductive vibration module according to claim 5, wherein the first pole piece and/or the second pole piece is/are of a spring piece structure, and the end faces of the first pole piece/the second pole piece are arc-shaped protrusions and are crimped with the oscillating piece.

8. The conductive vibration module of claim 7 wherein a converging hole is provided in the middle of the second end, the converging hole being disposed in correspondence with the atomizing port and having a pore diameter matching the pore diameter of the atomizing port, the arcuate projection of the second pole piece being positioned in correspondence with the converging hole.

9. The conductive vibration module of claim 1 wherein the atomizing port is in the form of a horn aperture of progressively increasing diameter from bottom to top.

10. The conductive vibration module of claim 1, wherein a side of the mounting base away from the heat dissipation port is provided with a diversion relief port, and the second end of the oil guide is horizontally placed in the mounting groove and passes below the diversion relief port.

11. Atomizing bullet, its characterized in that includes: the housing, base, atomizing cartridge, and conductive vibration module according to any one of claims 1 to 10, wherein,

the base is detachably connected with the liquid storage bin, and the first end penetrates through the base and stretches into the liquid storage bin;

the atomization bin is arranged on the base and is used for fixing the mounting seat on the upper end face of the base;

the atomization bin comprises an air inlet chamber and an air outlet chamber which are communicated, and the mounting seat is positioned at the lower end of the air inlet chamber;

the shell cover is arranged on the base, an air inlet is formed in the shell, and the air inlet is communicated with the air inlet cavity.

12. The atomizing bullet according to claim 11, wherein a plurality of compression ribs extending vertically are arranged on the inner wall of the air inlet chamber, the lower end of the atomizing bin is fixed on the upper end face of the base in an ultrasonic welding mode, and the compression ribs are abutted against and compress the upper end face of the mounting seat.

13. The atomizing bullet according to claim 11, wherein a diversion hole is arranged between the air inlet chamber and the air outlet chamber, the diversion hole is positioned above the oil guide piece, an oblique diversion part is arranged at the bottom of the air outlet chamber, and the lower end of the oblique diversion part extends to the diversion hole.

14. Aromatherapy device, characterized in that it comprises a conductive vibration module according to any of claims 1 to 10 or a cartomizer according to any of claims 11 to 13, and a main body, on which a slot for placing a reservoir is provided, into which the second end of the oil guide is insertable.