CN-224207128-U - Atomizing core for fragrance

Abstract

The utility model discloses an atomization core for a fragrance device, which belongs to the field of atomization cores of fragrance devices and comprises an atomization core assembly, wherein the atomization core assembly comprises an atomization core body, a gas channel and a liquid channel are respectively arranged at the lower end of the atomization core body, a boss is arranged at the upper end of the atomization core body, a first gradient angle, a second gradient angle and a third gradient angle are respectively arranged on the surface of the boss, the first gradient angle, the second gradient angle and the third gradient angle are connected from top to bottom, a liquid outlet hole is arranged at the joint of the first gradient angle and the second gradient angle of the surface of the boss, and the liquid outlet hole is communicated with the liquid channel.

Inventors

• WANG QIANG
• JIAO LINA

Assignees

• 东莞市汇悦环保科技有限公司

Dates

Publication Date

20260508

Application Date

20250321

Claims (6)

1. 1. An atomizing core for a fragrance, comprising: Atomizing core subassembly (100), atomizing core subassembly (100) include atomizing core body (101), gas channel (102) and liquid passageway (103) have been seted up respectively to the lower extreme of atomizing core body (101), the upper end of atomizing core body (101) is provided with boss (104), first slope angle (105), second slope angle (106) and third slope angle (107) have been seted up respectively to the surface of boss (104), first slope angle (105), second slope angle (106) and third slope angle (107) are from top to bottom continuous, liquid outlet hole (108) have been seted up in the junction of first slope angle (105) and second slope angle (106) on the surface of boss (104), liquid outlet hole (108) are linked together with liquid passageway (103), gas outlet hole (109) have been seted up in the upper end link up of gas passageway (102), liquid backward flow guide way (110) have been seted up at the offside at first slope angle (105) of atomizing core body (101), atomizing core body upper end (101) is located arc angle (120) department.
2. 2. An atomizing core for a fragrance according to claim 1, characterized in that the atomizing core body (101) is made of ceramic.
3. 3. An atomizing core for a fragrance machine according to claim 1, characterized in that the top plane of the outlet orifice (109) is 0.05mm above the lowest position of the arc corner table (120).
4. 4. An atomising core for a fragrance according to claim 1 characterized in that the angle of the first slope angle (105) is 108 °, the angle of the second slope angle (106) is 53.7 ° and the angle of the third slope angle (107) is 22.1 °.
5. 5. The atomizing core for a fragrance machine according to claim 1, wherein the perpendicular distance between the plane of the air outlet hole (109) and the axis of the liquid outlet hole (108) is 0.625mm.
6. 6. An atomizing core for a fragrance according to claim 1, characterized in that the diameter of the air outlet opening (109) is 0.4mm.

Description

Atomizing core for fragrance Technical Field The utility model relates to the field of atomization cores of fragrance devices, in particular to an atomization core for a fragrance device. Background The atomizing core is one of important components of perfume, the material of the atomizing core of the perfume is mainly ceramic, but specific types and processes possibly differ according to product design and functional requirements, wherein the 'an atomizing core and a perfume device' disclosed by application number 202320678984.3 are also increasingly mature technologies, and the 'stop block is fixed on the side wall of the liquid inlet pipe', so that the atomizing core can atomize essential oil with higher viscosity and effectively reduce the composition structure of the atomizing core (simplify the matching part and the connecting rod), further reduce the material consumption of the atomizing core during production and manufacture, and simultaneously reduce the difficulty of designing and manufacturing a die for producing the atomizing core, namely, reduce the production and manufacture cost of the atomizing core. The fragrance device has the following defects that the production cost is actually reduced by the aid of the arranged atomization core matched with the connecting rod, the atomization core has only 1 negative pressure angle, the center distance between the air outlet hole and the liquid outlet hole is large, accordingly, the liquid feeding speed is low, meanwhile, the negative pressure boss is flush with the center of the air outlet hole, the air outlet hole and the liquid outlet hole are not in size alignment, the air pressure is weak, the mist particles are thick, the liquid flows back to the air outlet hole to damage the air pump, and on the basis, the air pump can be increased, blockage and liquid residue collection are avoided, the air pump is prevented from being corroded, and the practical atomization core is obviously enhanced. Disclosure of utility model The embodiment of the utility model provides an atomization core for a fragrance machine, which aims to solve the problems that the existing atomization core is low in atomization speed and efficiency and can not avoid corroding an air pump In order to achieve the above object, the present utility model provides an atomizing core for a fragrance, comprising an atomizing core assembly; The atomizing core assembly comprises an atomizing core body, a gas channel and a liquid channel are respectively formed in the lower end of the atomizing core body, a boss is arranged at the upper end of the atomizing core body, a first gradient angle, a second gradient angle and a third gradient angle are respectively formed in the surface of the boss, the first gradient angle, the second gradient angle and the third gradient angle are connected from top to bottom, a liquid outlet hole is formed in the joint of the first gradient angle and the second gradient angle of the surface of the boss, the liquid outlet hole is communicated with the liquid channel, a gas outlet hole is formed in the upper end of the gas channel in a penetrating mode, a liquid backflow guide groove is formed in the opposite side of the first gradient angle of the upper end of the atomizing core body, and an arc angle table is formed in the position, located at the gas outlet hole, of the upper end of the atomizing core body. As a preferred embodiment of the present utility model, the atomizing core body is made of ceramic. As a preferable scheme of the utility model, the top plane of the air outlet hole is 0.05mm higher than the lowest position of the arc angle table. As a preferable aspect of the present utility model, the angle of the first gradient angle is 108 °, the angle of the second gradient angle is 53.7 °, and the angle of the third gradient angle is 22.1 °. As a preferable scheme of the utility model, the vertical distance between the plane of the air outlet hole and the axis of the liquid outlet hole is 0.625mm. As a preferable scheme of the utility model, the diameter of the air outlet hole is 0.4mm. Compared with the prior art, the utility model has the beneficial effects that: When the atomizing core is installed and used, the electromagnetic pump is connected with the atomizing core and generates gas, so that the gas enters the gas channel, the gas is controlled to be pressurized through the gas outlet hole with the diameter of 0.4mm, negative pressure is generated through the mutual matching of the first gradient angle, the second gradient angle and the third gradient angle at the upper end of the atomizing core, liquid is absorbed to the liquid outlet hole through the liquid absorbing pipe, nano particles are formed by cutting at the position with the angle of 53.7 degrees, in the process, the gas can be rapidly pressurized through the first gradient angle, the second gradient angle and the third gradient angle arranged on the boss of the liquid channel, so that