CN219230862U

CN219230862U - Atomization component and aromatherapy machine

Info

Publication number: CN219230862U
Application number: CN202320153845.9U
Authority: CN
Inventors: 黄聪; 黄晓勇; 钱政; 李蒙
Original assignee: Guangdong Haikebao Environmental Technology Co ltd
Current assignee: Guangdong Haikebao Environmental Technology Co ltd
Priority date: 2023-01-17
Filing date: 2023-01-17
Publication date: 2023-06-23
Anticipated expiration: 2033-01-17

Abstract

The utility model belongs to the technical field of aromatherapy machines, and particularly relates to an atomization assembly and an aromatherapy machine. According to the atomization assembly, the atomization chamber which is respectively communicated with the air inlet, the liquid inlet and the atomization outlet is arranged, so that negative pressure is formed when pressurized and accelerated gas flows through the atomization chamber, liquid in the liquid storage container is sucked into the atomization chamber through the infusion pipeline to be mixed with the gas to form an atomization state, and then the liquid is discharged through the mist outlet chamber, and the atomization assembly is simple in structure and low in manufacturing cost; the atomization assembly can intermittently introduce gas at a specific frequency to realize atomization of liquid in the liquid storage container, so that the energy consumption is high due to continuous operation is well avoided, and the device has the advantage of low energy consumption.

Description

Atomization component and aromatherapy machine

Technical Field

The utility model belongs to the technical field of aromatherapy machines, and particularly relates to an atomization assembly and an aromatherapy machine.

Background

Along with the increasing requirements of people on living standard, the aromatherapy machine has the characteristics that the aromatherapy machine can purify air and relax the mind and body of people, and is gradually accepted by people. The aromatherapy machine is generally provided with an essential oil bottle, the essential oil bottle stores essential oil and is matched with other structural parts so as to realize normal operation of the aromatherapy machine. Most of aromatherapy machines in the existing market work in a heating evaporation and ultrasonic atomization evaporation mode, however, long-time heating and ultrasonic vibration piece work are needed, energy consumption is high, the structure is complex, and manufacturing cost is high.

Disclosure of Invention

The utility model aims to solve the problems of high energy consumption, complex structure and high manufacturing cost of the traditional aromatherapy machine in a heating evaporation and ultrasonic atomization evaporation mode, and provides an atomization assembly and an aromatherapy machine for rapidly dispersing atomized aromatherapy liquid by pressurizing gas.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the atomizing assembly comprises an atomizer and a liquid storage container, wherein the atomizer is provided with an atomizing chamber, a flow guide channel, a mist outlet chamber, an air inlet, a liquid inlet and an atomizing outlet, wherein the air inlet, the liquid inlet and the atomizing outlet are respectively communicated with the atomizing chamber, the mist outlet chamber is respectively communicated with the atomizing outlet and the liquid storage container, the liquid inlet is connected with the liquid storage container through an infusion pipeline, and the flow guide channel is used for conveying pressurized gas discharged through the air inlet, atomizing liquid entering the atomizing chamber and conveying the atomized liquid to the mist outlet chamber through the atomizing outlet.

Compared with the prior art, the atomization assembly has the advantages that through the arrangement of the atomization chambers which are respectively communicated with the air inlet, the liquid inlet and the atomization outlet, the pressurized and accelerated gas flows through the atomization chambers to form negative pressure, liquid in the liquid storage container is sucked into the atomization chambers through the infusion pipeline to be mixed with the gas to form an atomization state, and then the atomized liquid is discharged through the mist outlet chamber, so that the atomization assembly has a simple structure and low manufacturing cost; the atomization assembly can intermittently introduce gas at a specific frequency to realize atomization of liquid in the liquid storage container, so that the energy consumption is high due to continuous operation is well avoided, and the device has the advantage of low energy consumption.

Further, the atomizer also comprises a gas pressurizing component arranged in the atomizer, the diversion channel is arranged in the gas pressurizing component and is in a conical shape and is used for pressurizing and accelerating the entering gas and then discharging the gas through an air inlet, and the air inlet is formed at the output end of the diversion channel; through the arrangement, the gas pressurizing member has a good gas pressurizing and accelerating effect, and the liquid atomizing effect is effectively improved.

Further, the atomizing chamber is conical, and the inner diameter of the atomizing chamber is gradually reduced along the direction of an atomizing outlet; by this arrangement, the mist generated in the atomizing chamber is discharged to the atomizing outlet with an acceleration, and the mist discharge rate is increased.

Further, the air inlet and the atomization outlet are respectively arranged at two ends of the atomization chamber and are concentrically arranged, and the liquid inlet is arranged at one side between the air inlet and the atomization outlet; through the arrangement, the fog formed by the air flow generated by the air inlet and the liquid can be directly discharged through the atomization outlet, and the liquid atomization effect is good.

Further, the air inlet has an inner diameter of 2 to 4mm; through the arrangement, the airflow pressurization and the acceleration are remarkable, and the atomization effect of impact collision with liquid is good.

Further, an air inlet port and an installation channel are arranged on the outer side of the atomizer, the installation channel is respectively communicated with the air inlet port and the atomization chamber, a positioning step is arranged between the installation channel and the atomization chamber, and the gas pressurizing member is installed in the installation channel through the air inlet port and is abutted to the positioning step; by the arrangement, the gas pressurizing member is convenient to directly assemble in place in the mounting channel, and the assembly is convenient.

Further, the installation channel is conical, the inner diameter of the installation channel gradually decreases from one side of the air inlet interface to the other side, and the shape of the gas pressurizing component is matched with that of the installation channel; by this arrangement, the gas pressurizing member is assembled and fixed effectively.

Further, a mist outlet port is arranged on the outer side of the atomizer, and is communicated with the mist outlet chamber and used for discharging atomized gas entering the mist outlet chamber to the outer side; through the arrangement, the fog outlet port can be connected with the fog outlet part of the aromatherapy machine through the pipeline and can convey fog.

Further, a cover connecting wall is circumferentially arranged at the bottom of the atomizer, and the cover connecting wall is connected with the upper end of the liquid storage container through a threaded connection structure; through the arrangement, the atomizer and the liquid storage container are simple in assembly mode and convenient and fast to assemble.

The aromatherapy machine comprises a bracket, a pump body, a control circuit board and an atomization assembly, wherein the pump body, the control circuit board and the atomization assembly are respectively arranged on the bracket, the pump body is communicated with an air inlet interface of the atomization assembly through a first pipeline and is used for conveying required gas, and an air outlet interface of the atomization assembly is connected with an air outlet part of the bracket through a second pipeline so that mist generated by the atomization assembly is conveyed to the air outlet part; through the arrangement, through arranging the atomizing chambers which are respectively communicated with the air inlet, the liquid inlet and the atomizing outlet, the pressurized and accelerated gas flows through the atomizing chambers to form negative pressure, and the liquid in the liquid storage container is sucked into the atomizing chambers through the liquid conveying pipeline to be mixed with the gas to form an atomizing state, and then is discharged through the mist outlet chamber, so that the atomizing assembly has a simple structure and low manufacturing cost; the atomization assembly can intermittently introduce gas at a specific frequency to realize atomization of liquid in the liquid storage container, so that the energy consumption is high due to continuous operation is well avoided, and the device has the advantage of low energy consumption.

Drawings

FIG. 1 is a schematic view of an atomizing assembly

FIG. 2 is an exploded view of the atomizing assembly

FIG. 3 is a cross-sectional view of an atomizing assembly

FIG. 4 is an exploded view of the atomizing assembly in cross section

FIG. 5 is a schematic view of a mist transporting member

FIG. 6 is an exploded view of the mist transporting component

FIG. 7 is a schematic view of a fragrance machine

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings:

embodiment one:

referring to fig. 1 to 6, the atomization assembly of the present utility model comprises an atomizer 1 and a liquid storage container 2, wherein the atomizer 1 is provided with an atomization chamber 15, a diversion channel 160, a mist outlet chamber 17, an air inlet 161, a liquid inlet 162 and an atomization outlet 163, wherein the air inlet 161, the liquid inlet 162 and the atomization outlet 163 are respectively communicated with the atomization chamber 15, the mist outlet chamber 17 is respectively communicated with the atomization outlet 163 and the liquid storage container 2, the liquid inlet 162 is connected with the liquid storage container 2 through an infusion pipeline 22, the diversion channel 160 is used for conveying pressurized gas discharged through the air inlet 161, and the liquid entering the atomization chamber 15 is atomized and conveyed to the mist outlet chamber 17 through the atomization outlet 163.

Compared with the prior art, the atomization assembly provided by the utility model has the advantages that through the arrangement of the atomization chamber 15 which is respectively communicated with the air inlet 161, the liquid inlet 162 and the atomization outlet 163, the pressurized and accelerated gas flows through the atomization chamber 15 to form negative pressure, the liquid in the liquid storage container 2 is sucked into the atomization chamber 15 through the infusion pipeline to be impacted and collided with the gas mixture to form an atomization state, and then is discharged through the mist outlet chamber 17, so that the atomization assembly has a simple structure and low manufacturing cost; the atomization component can intermittently introduce gas at a specific frequency to realize atomization of the liquid in the liquid storage container 2, so that the high energy consumption caused by continuous operation is well avoided, and the device has the advantage of low energy consumption.

Referring to fig. 2 to 6, in one embodiment, the atomizer further comprises a gas pressurizing member 16 disposed in the atomizer 1, the flow guide channel 160 is disposed in the gas pressurizing member 16 and is tapered for pressurizing and accelerating the incoming gas and then discharging the gas through a gas inlet 161, the gas inlet 161 is formed at an output end of the flow guide channel 160, and preferably, an inner diameter of the gas inlet 161 is 2 to 4mm; by this arrangement, the gas pressurizing member 16 has a remarkable gas pressurizing and accelerating effect, and the liquid atomizing effect is good.

In one embodiment, the atomizing chamber 15 is tapered, and the inner diameter of the atomizing chamber 15 gradually decreases along the direction of the atomizing outlet 163; by this arrangement, the mist generated in the atomizing chamber 15 is discharged to the atomizing outlet 163 with an acceleration, and the mist discharge rate is increased.

In one embodiment, the air inlet 161 and the atomization outlet 163 are respectively provided at both ends of the atomization chamber 15 and concentrically arranged, and the liquid inlet 162 is provided at one side between the air inlet 161 and the atomization outlet 163; by this arrangement, mist formed by the air flow generated by the air inlet 161 and the liquid can be directly discharged through the atomization outlet 163, and the liquid atomization effect is good.

Referring to fig. 1 to 6, in one embodiment, an air inlet port 121 and a mounting channel 122 are disposed on the outer side of the atomizer 1, the mounting channel 122 is respectively communicated with the air inlet port 121 and the atomizing chamber 15, the mounting channel 122 is tapered, the inner diameter of the mounting channel gradually decreases from one side of the air inlet port 121 to the other side, a positioning step 123 is disposed between the mounting channel 122 and the atomizing chamber 15, and the gas pressurizing member 16 is mounted in the mounting channel 122 via the air inlet port 121 and abuts against the positioning step 123; by this arrangement, the gas pressurizing member 16 is conveniently and directly assembled in place within the mounting channel 122.

Referring to fig. 1 to 4, in one embodiment, a circumferentially arranged cap connecting wall 124 is disposed at the bottom of the atomizer 1, and the cap connecting wall 124 is connected with the upper end of the liquid storage container 2 through a threaded connection structure; a mounting groove 125 is formed in the bottom of the atomizer 1 and located on the inner side of the cover connecting wall 124, a sealing ring 126 is arranged in the mounting groove 125, and the upper end of the liquid storage container 2 is abutted against the sealing ring 126; through the arrangement, the atomizer 1 and the liquid storage container 2 are simple in assembly mode, convenient and fast to assemble and good in sealing effect.

In one embodiment, a mist outlet 131 is arranged at the outer side of the atomizer 1, and the mist outlet 131 is communicated with the mist outlet chamber 17 and is used for discharging the atomized gas entering the mist outlet chamber 17 to the outer side; by this arrangement, the mist outlet 131 can be connected to the mist outlet 6 of the aromatherapy machine via a pipe, and the mist can be supplied.

Referring to fig. 2 to 6, in a further embodiment, the mist outlet 131 communicates with the mist outlet 163 via a spiral mist outlet channel 141; through such setting, atomizing subassembly should be when the champignon machine, makes champignon machine side turn over or extend champignon liquid at outside flow time when empting, avoids champignon liquid to flow out through play fog interface 131 against current immediately to prevent that champignon liquid from flowing out the organism in quick-speed against current, provide more operating time who puts positive champignon machine for the user, convenient to use.

Referring to fig. 2 to 6, in one embodiment, the atomizer 1 includes an atomizing member 12, a mist outlet member 13 and a mist delivery member 14, the mist outlet port 131 is provided on the mist outlet member 13, the air inlet port 121, the atomizing chamber 15, the mist outlet chamber 17, the air inlet 161, the liquid inlet 162 and the mist outlet 163 are provided on the atomizing member 12, the spiral mist outlet channel 141 is provided on the mist delivery member 14, the atomizing member 12 is provided with a mounting cavity 127 with an upper opening, the mist delivery member 14 is provided in the mounting cavity 127, the outlet 1412 of the spiral mist outlet channel 141 is communicated with the mist outlet port 131, the inlet 1411 of the spiral mist outlet channel 141 is communicated with the atomizing chamber 15, and the atomizing member 12 is in sealing fit with the mounting cavity 127; by the arrangement, the atomization component 12, the mist outlet component 13 and the mist conveying component 14 are assembled and connected in a simple mode, and the product assembly is convenient and fast.

Referring to fig. 3 to 6, in one embodiment, a mounting step 1271 is disposed inside the mounting cavity 127 and is circumferentially disposed, a limit edge 142 is disposed on the periphery of the mist transporting member 14, the mist transporting member 14 is placed on the mounting step 1271 by the limit edge 142, so that the mounting cavity 127 is divided into a mist outlet chamber 1271 with an upper side communicating with the mist outlet port 131 and a mist inlet chamber 1272 with a lower side communicating with the mist outlet 163, the mist inlet chamber 1272 communicates with the mist outlet chamber 17, an inlet of the spiral mist outlet channel 141 is located in the mist inlet chamber 1272, and an outlet of the spiral mist outlet channel 141 is located in the mist outlet chamber 1271; by such arrangement, the mist transporting member 14 is facilitated to be quickly assembled in place in the installation cavity 127, and the assembly efficiency of the product is improved.

Referring to fig. 2 to 4, in one embodiment, the atomizing member 12 is provided with a first socket portion 128 located at an upper top opening, the installation cavity 127 is provided in the first socket portion 128, the mist outlet member 13 is provided with a second socket portion 132 having an opening at a bottom, and the first socket portion 128 and the second socket portion 132 are in socket fit; through the arrangement, the atomizing member 12 and the mist outlet member 13 are assembled in a sleeving manner, and tools or connectors are not needed, so that the product can be assembled quickly.

In one embodiment, an assembling groove 133 is formed in the inner periphery of the top of the inner cavity of the second sleeving part 132, a sealing ring 134 is arranged in the assembling groove 133, the second sleeving part 132 is sleeved outside the first sleeving part 128, and the upper end of the first sleeving part 128 is abutted against the sealing ring 134; by the arrangement, the atomization component 12 and the mist outlet component 13 are good in sealing connection effect, and the outward leakage of the aromatherapy mist is avoided.

In one embodiment, the mist transporting member 14 includes a first transporting member 143 and a second transporting member 144 arranged up and down, the first transporting member 143 is provided with a first vortex guiding groove 145 with an opening at the bottom, the second transporting member 144 is provided with a second vortex guiding groove 146 with an opening at the top, the radian of the first vortex guiding groove 145 and the second vortex guiding groove 146 is smaller than 360 °, and the first vortex guiding groove 145 and the second vortex guiding groove 146 are relatively spliced to form the spiral mist outlet channel 141; by the arrangement, the mist conveying member 14 is manufactured and assembled in a split mode, machining difficulty of the spiral mist outlet channel 141 is reduced, and the mist conveying member 14 is convenient to manufacture.

Referring to fig. 2 to 6, in one embodiment, the first conveying member 143 and the second conveying member 144 are connected to each other by an axial socket structure, the axial socket structure includes an axial positioning hole 1472 formed in the center of the second conveying member 144 and an axial positioning post 1471 formed in the first conveying member 143, the axial positioning post 1471 is in socket fit with the axial positioning hole 1472, the first conveying member 143 and the second conveying member 144 are positioned to each other by a circumferential positioning structure, the circumferential positioning structure includes a circumferential positioning post 1481 eccentrically disposed on the second conveying member 144 and a circumferential positioning hole 1482 eccentrically disposed on the first conveying member 143, and the circumferential positioning post 1481 is in socket fit with the circumferential positioning hole 1482; by this arrangement, the first vortex guide groove 145 and the second vortex guide groove 146 are prevented from being assembled in a staggered manner, and the assembly angle between the first conveying member 143 and the second conveying member 144 is correctly guided.

Referring to fig. 1 and 2, in one embodiment, a plurality of connecting posts 1361 are disposed on the outer side of the atomizing member 12, a plurality of connecting holes 136 are disposed on the outer side of the mist generating member 13, and the connecting posts 1361 are connected with the connecting holes 136 through connectors; by arranging the atomizing member 12 in this way, the fitting connection with the mist outlet member 13 is stable.

Embodiment two:

referring to fig. 1 to 7, a main object of the present embodiment is to provide an aromatherapy machine using the atomization assembly according to the first embodiment, which includes a bracket 3, a pump body 4, a control circuit board 5, and the atomization assembly, wherein the pump body 4, the control circuit board 5, and the atomization assembly are respectively mounted on the bracket 3, the pump body 4 is communicated with an air inlet 121 of the atomization assembly through a first pipe (not shown) for conveying a required gas, and an air outlet 131 of the atomization assembly is connected with an air outlet 6 of the bracket 3 through a second pipe (not shown) for conveying mist generated by the atomization assembly to the air outlet 6.

Compared with the prior art, the aromatherapy machine of the utility model has the advantages that through the arrangement of the atomizing chambers 15 which are respectively communicated with the air inlet 161, the liquid inlet 162 and the atomizing outlet 163, the pressurized and accelerated gas flows through the atomizing chambers 15 to form negative pressure, the liquid in the liquid storage container 2 is sucked into the atomizing chambers 15 through the infusion pipeline to be mixed with the gas to form an atomization state, and then the atomization state is discharged through the mist outlet chamber 17, so that the atomization assembly has simple structure and low manufacturing cost; the atomization component can intermittently introduce gas at a specific frequency to realize atomization of the liquid in the liquid storage container 2, so that the high energy consumption caused by continuous operation is well avoided, and the device has the advantage of low energy consumption.

Variations and modifications to the above would be obvious to persons skilled in the art to which the utility model pertains from the foregoing description and teachings. Therefore, the utility model is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the utility model should be also included in the scope of the claims of the utility model. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present utility model in any way.

Claims

1. The atomizing assembly is characterized by comprising an atomizer and a liquid storage container, wherein the atomizer is provided with an atomizing chamber, a flow guide channel, a mist outlet chamber, an air inlet, a liquid inlet and an atomizing outlet, wherein the air inlet, the liquid inlet and the atomizing outlet are respectively communicated with the atomizing chamber, the mist outlet is respectively communicated with the atomizing outlet and the liquid storage container, the liquid inlet is connected with the liquid storage container through a liquid conveying pipeline, the flow guide channel is used for conveying pressurized gas exhausted through the air inlet, atomizing liquid entering the atomizing chamber and conveying the atomized liquid to the mist outlet chamber through the atomizing outlet.

2. The atomizing assembly of claim 1, further comprising a gas pressurization member disposed within the atomizer, wherein the flow guide channel is disposed within the gas pressurization member and is tapered for pressurizing and accelerating the incoming gas for discharge through a gas inlet formed in an output end of the flow guide channel.

3. The atomizing assembly of claim 1, wherein the atomizing chamber is tapered, and the atomizing chamber inner diameter decreases gradually in the direction of the atomizing outlet.

4. The atomizing assembly of claim 1, wherein the air inlet and the atomizing outlet are disposed at opposite ends of the atomizing chamber and are concentric, respectively, and the liquid inlet is disposed at a side between the air inlet and the atomizing outlet.

5. An atomising assembly according to claim 2 wherein the inlet has an internal diameter of 2 to 4mm.

6. The atomizing assembly according to claim 2, wherein an air inlet port and an installation channel are arranged on the outer side of the atomizer, the installation channel is respectively communicated with the air inlet port and the atomizing chamber, a positioning step is arranged between the installation channel and the atomizing chamber, and the gas pressurizing member is installed in the installation channel through the air inlet port and is abutted against the positioning step.

7. The atomizing assembly of claim 6, wherein the mounting channel is tapered, the mounting channel has an inner diameter that decreases from one side of the inlet port to the other, and the gas pressurizing member is shaped to fit the mounting channel.

8. The atomizing assembly according to claim 1, wherein an atomizing port is provided on the outside of the atomizer, and the atomizing port is in communication with the atomizing chamber for discharging the atomized gas entering the atomizing chamber to the outside.

9. An atomising assembly according to any of claims 1 to 8 wherein the atomiser base is provided with a circumferentially arranged cap connecting wall connected to the upper end of the reservoir by a threaded connection;

the atomizer bottom is located the lid connecting wall inboard and is equipped with the mounting groove, it has the sealing washer to settle in the mounting groove, stock solution container upper end butt the sealing washer.

10. The aromatherapy machine is characterized by comprising a support, a pump body, a control circuit board and the atomization assembly according to any one of claims 1 to 9, wherein the pump body, the control circuit board and the atomization assembly are respectively installed on the support, the pump body is communicated with an air inlet interface of the atomization assembly through a first pipeline and is used for conveying required gas, and an air outlet interface of the atomization assembly is connected with an air outlet part of the support through a second pipeline, so that mist generated by the atomization assembly is conveyed to the air outlet part.