CN218300268U - Conductive structure of aromatherapy machine atomization module - Google Patents

Abstract

The utility model discloses a conductive structure of champignon machine atomizing module, including the positive pole conductor, electrically conductive copper head of negative pole and piezoceramics atomizing piece, the upper surface of piezoceramics atomizing piece is equipped with the negative pole layer, the lower surface of piezoceramics atomizing piece is equipped with the positive pole layer, piezoceramics atomizing piece is established in the electrically conductive copper head of negative pole and the negative pole layer contacts with the electrically conductive copper head of negative pole, the one end and the negative pole layer of positive pole conductor contact, the other end of positive pole conductor extends to the electrically conductive copper head of negative pole and links to each other with the positive pole of power outward, the electrically conductive copper head of negative pole links to each other with the negative pole of power. The connection between the piezoelectric ceramic atomization piece and the positive electrode and the negative electrode of a power supply is realized by arranging the positive electrode conductor and the negative electrode conductive copper head to be respectively contacted with the positive electrode layer and the negative electrode layer of the piezoelectric ceramic atomization piece, so that the traditional wire connection is replaced by a contact conductive mode, and the power supply to the piezoelectric ceramic atomization piece is more stable and reliable.

Description

Conductive structure of aromatherapy machine atomization module

Technical Field

The utility model relates to an champignon machine field especially relates to a conductive structure of champignon machine atomizing module.

Background

The existing anhydrous aromatherapy machine directly atomizes essential oil through the piezoelectric ceramic atomizing piece, utilizes the piezoelectric ceramic atomizing piece to generate high-frequency resonance during working, scatters the liquid structure of the essential oil to generate liquid drops, can directly atomize the essential oil without heating or adding any chemical reagent, and has the characteristics of energy conservation, low noise and the like compared with other atomizing modes. Because the piezoelectric ceramic atomization piece is small in size and thin in thickness, the conventional connection mode in the market at present is that the positive electrode and the negative electrode of the piezoelectric ceramic atomization piece are respectively connected by using conducting wires, and the silica gel sleeve is sleeved at the connection position for insulation, so that the structure is unreliable in use stability, poor in sealing performance, complex in process and poor in conductive effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a champignon machine atomizing module's conducting structure to solve one or more technical problem that exist among the above-mentioned background art.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a conductive structure of champignon machine atomizing module, includes anodal conductor, the electrically conductive copper head of negative pole and piezoceramics atomizing piece, the upper surface of piezoceramics atomizing piece is equipped with the negative pole layer, the lower surface of piezoceramics atomizing piece is equipped with the positive layer, piezoceramics atomizing piece is established in the electrically conductive copper head of negative pole just the negative pole layer with the electrically conductive copper head of negative pole contacts, the one end of anodal conductor with the negative pole layer contacts, the other end of anodal conductor extends to the electrically conductive copper head of negative pole links to each other with the positive pole of power outward, the electrically conductive copper head of negative pole links to each other with the negative pole of power.

Preferably, the negative electrode conductive copper head comprises a conductive ring and a conductive base, the conductive base is arranged at the bottom of the conductive ring, the conductive ring is provided with a contact conductive part, the negative electrode layer is distributed in an annular shape on the periphery of the upper surface of the piezoelectric ceramic atomizing plate, the contact conductive part is in contact with the negative electrode layer, a first through hole is formed in the conductive base, and the first through hole is communicated with the inner cavity of the conductive ring.

Preferably, the top of electrically conductive ring is equipped with the gland of inside extension, the gland with the piezoceramics atomizing piece is laminated from top to bottom, the contact electric conduction part is established the bottom of gland, the middle part of gland is equipped with the second through-hole, the open area of second through-hole is less than the area of piezoceramics atomizing piece upper surface.

Preferably, the negative electrode conductive copper head further comprises a radiator, and the radiator is arranged on the outer side of the negative electrode conductive copper head.

Preferably, the other end of the positive conductor is provided with a wiring end, and an insulating layer is arranged between the wiring end and the conductive base.

Compared with the prior art, the beneficial effects of the utility model are that: through setting up anodal conductor and the electrically conductive copper head of negative pole respectively with the anodal layer and the negative pole layer contact of piezoceramics atomizing piece realize being connected of piezoceramics atomizing piece and power positive negative pole, adopt the electrically conductive mode of contact to replace traditional wire to connect from this for the power supply to piezoceramics atomizing piece is more reliable and more stable, avoided connecting wire and by the direct contact of atomized liquid, insulating nature is better, the life of champignon machine has been prolonged, and simple structure, the degree of difficulty of atomizing module installation has been reduced.

Drawings

The accompanying drawings are used for further explaining the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is a schematic overall structure diagram of one embodiment of the present invention;

fig. 2 is a top view of one embodiment of the present invention;

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

fig. 4 is a schematic structural diagram of the negative conductive copper head according to one embodiment of the present invention.

Wherein: the structure comprises a positive electrode conductor 1, a negative electrode conductive copper head 2, a piezoelectric ceramic atomizing sheet 3, a negative electrode layer 31, a conductive ring 21, a conductive base 22, a first through hole 221, a gland 211, a second through hole 212, a heat radiator 4, a terminal 11 and an insulating layer 5.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the drawings.

The electrically conductive structure of champignon machine atomizing module of this embodiment, refer to attached 1-3, including positive conductor 1, electrically conductive copper head 2 of negative pole and piezoceramics atomizing piece 3, the upper surface of piezoceramics atomizing piece 3 is equipped with negative pole layer 31, the lower surface of piezoceramics atomizing piece 3 is equipped with the positive pole layer, piezoceramics atomizing piece 3 is established in electrically conductive copper head 2 of negative pole and negative pole layer 31 contacts with electrically conductive copper head 2 of negative pole, the one end and the negative pole layer 31 of positive conductor 1 contact, the other end of positive conductor 1 extends to electrically conductive copper head 2 of negative pole and links to each other with the anodal of power outward, electrically conductive copper head 2 of negative pole links to each other with the negative pole of power.

Through setting up anodal conductor 1 and the electrically conductive copper head of negative pole 2 respectively with the anodal layer and the negative pole layer 31 contact of piezoceramics atomizing piece 3 realize being connected of piezoceramics atomizing piece 3 and power positive negative pole, adopt the electrically conductive mode of contact to replace the mode that the positive pole layer and the negative pole layer that tradition adopted wire and piezoceramics atomizing piece 3 pass through soldering tin and be connected from this, make the power supply to piezoceramics atomizing piece 3 more reliable and more stable, avoided connecting wire and solder joint and by the direct contact of atomized liquid, insulating nature is better, the life of champignon machine has been prolonged, and simple structure, the degree of difficulty of atomizing module installation has been reduced.

Preferably, referring to fig. 4, the negative conductive copper head 2 includes a conductive ring 21 and a conductive base 22, the conductive base 22 is disposed at the bottom of the conductive ring 21, the conductive ring 21 is provided with a contact conductive portion, the negative electrode layer 31 is annularly distributed on the periphery of the upper surface of the piezoelectric ceramic atomizing plate 3, the contact conductive portion is in contact with the negative electrode layer 31, the conductive base 22 is provided with a first through hole 221, and the first through hole 221 is communicated with an inner cavity of the conductive ring 21. From this, contact through the contact conduction part of electrically conductive ring 21 and the negative pole layer 31 contact on the piezoceramics atomization piece 3, realized that piezoceramics atomization piece 3 links to each other with the negative pole of power, electrically conductive ring 21 makes as an organic whole with electrically conductive base 22 for connecting wire between the electrically conductive copper head of negative pole 2 and the power negative pole can be connected in electrically conductive base 22, makes the structure of atomizing module more reasonable.

Furthermore, the top end of the conductive ring 21 is provided with a pressing cover 211 extending inwards, the pressing cover 211 is attached to the piezoelectric ceramic atomization sheet 3 up and down, the contact conductive part is arranged at the bottom of the pressing cover 211, the middle part of the pressing cover 211 is provided with a second through hole 212, and the opening area of the second through hole 212 is smaller than the area of the upper surface of the piezoelectric ceramic atomization sheet 3. Therefore, by setting the opening area of the second through hole 212 smaller than the area of the upper surface of the piezoelectric ceramic atomization sheet 3, the liquid can contact with the surface of the piezoelectric ceramic atomization sheet 3 through the second through hole 212, so that the liquid is atomized by the high-frequency oscillation generated by the piezoelectric ceramic atomization sheet 3. The piezoelectric ceramic atomization piece 3 is fixed in the inner cavity of the conductive ring 21, and the piezoelectric ceramic atomization piece 3 is axially fixed relatively by the pressing covers 211 and the positive conductors 1 which are positioned at the upper end and the lower end of the piezoelectric ceramic atomization piece 3, so that the negative electrode layer 31 and the positive electrode layer of the piezoelectric ceramic atomization piece 3 are respectively kept in contact with the pressing covers 211 and the positive conductors 1 to be conductive.

Preferably, the device further comprises a heat radiator 4, and the heat radiator 4 is arranged outside the negative electrode conductive copper head 2. The heat conduction through the radiator 4 avoids the heat generated by the operation of the conductive copper head from being transferred to the piezoelectric ceramic atomization sheet 3, and avoids the influence on the atomization efficiency of the piezoelectric ceramic atomization sheet 3 caused by heating.

Preferably, the other end of the positive conductor 1 is provided with a terminal 11, and an insulating layer 5 is arranged between the terminal 11 and the conductive base 22. The insulating layer 5 is arranged, so that the positive electrode conductor 1 and the negative electrode conductive copper head 2 are insulated, the short circuit phenomenon is avoided, and the normal work of the piezoelectric ceramic atomization sheet 3 is ensured. The positive electrode conductor 1 can be selected from a conductive spring, so that the piezoelectric ceramic atomization sheet 3 can be fixed by the elasticity of the conductive spring.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (5)

1. The utility model provides a conductive structure of champignon machine atomizing module, its characterized in that, includes positive pole conductor, the electrically conductive copper head of negative pole and piezoceramics atomizing piece, the upper surface of piezoceramics atomizing piece is equipped with the negative pole layer, the lower surface of piezoceramics atomizing piece is equipped with positive pole layer, piezoceramics atomizing piece is established in the electrically conductive copper head of negative pole just the negative pole layer with the electrically conductive copper head of negative pole contacts, the one end of positive pole conductor with the negative pole layer contacts, the other end of positive pole conductor extends to the electrically conductive copper head of negative pole is outer and link to each other with the positive pole of power, the electrically conductive copper head of negative pole links to each other with the negative pole of power.

2. The conducting structure of the atomizing module of the aromatherapy machine according to claim 1, wherein the negative electrode conducting copper head comprises a conducting ring and a conducting base, the conducting base is arranged at the bottom of the conducting ring, the conducting ring is provided with a contact conducting part, the negative electrode layer is annularly distributed on the periphery of the upper surface of the piezoelectric ceramic atomizing sheet, the contact conducting part is in contact with the negative electrode layer, the conducting base is provided with a first through hole, and the first through hole is communicated with the inner cavity of the conducting ring.

3. The conducting structure of the atomizer module of claim 2, wherein the top end of the conducting ring is provided with a pressing cover extending inwards, the pressing cover is attached to the piezoelectric ceramic atomizer plate vertically, the contact conducting part is arranged at the bottom of the pressing cover, the middle of the pressing cover is provided with a second through hole, and the opening area of the second through hole is smaller than the area of the upper surface of the piezoelectric ceramic atomizer plate.

4. The electric conduction structure of the aromatherapy machine atomization module according to claim 1, further comprising a radiator, wherein the radiator is arranged outside the negative electrode electric conduction copper head.

5. The conducting structure of the aromatherapy machine atomization module according to claim 2, wherein a terminal is provided at the other end of the positive conductor, and an insulating layer is provided between the terminal and the conducting base.

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