CN218773335U - Atomizing pneumatic induction structure and atomizing device - Google Patents

Abstract

The utility model relates to the technical field of liquid atomization, in particular to an atomization pneumatic induction structure and an atomization device, which comprises a host and an atomizer, wherein the host comprises a shell and a fixed support arranged in the shell, the fixed support is provided with a pneumatic induction bin, a pneumatic inductor is arranged in the pneumatic induction bin, the pneumatic induction bin is provided with an air column, and the air column is used for ventilating the pneumatic induction bin; the atomizer includes the casing, installs atomizing component in the upper casing, goes up the casing and is equipped with the air flue, and the air flue is used for atomizing subassembly atomizing aerial fog direction, and atomizing component's downside is equipped with the air guide storehouse, and the one end in air guide storehouse is connected in the gas post, and pneumatic response storehouse passes through gas post and air guide storehouse and atomizing component intercommunication. The utility model provides a current unstable at pneumatic response structure, the problem that flows unsmoothly.

Description

Pneumatic response structure of atomizing and atomizing device

Technical Field

The utility model relates to a liquid atomization technical field especially relates to a pneumatic response structure of atomizing and atomizing device.

Background

The electronic atomization device comprises an atomization device and a power supply device for supplying power to the atomization device, and a liquid storage cavity, an airflow channel and an electronic atomization assembly are built in the atomization device. The holding tank has been seted up to the power supply ware, and atomizing device installs in the holding tank to establish electric connection with the power supply ware. When the power supply device supplies power for the electronic atomization assembly in the atomization device, the atomization assembly atomizes the solution stored in the liquid storage cavity into aerosol and discharges the aerosol.

The atomizing device is used, the flowing of gas is an essential structure, the existing gas flowing structure is easy to cause the conditions of unstable flowing, unsmooth flowing and the like due to the design reason, and particularly, the use is influenced when negative pressure is generated by sucking.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a through the interior gas column in pneumatic response storehouse and air flue and atomization component cooperation be used for the response of gas flow, it is used for the pneumatic response storehouse to admit air to have inlet structure on the shell of host computer, when the user inhales on the air flue and produces the negative pressure, will form gas flow, and then touch the pneumatic inductor in the pneumatic response storehouse, gas flow is stable, touch the response efficiency height, solved current unstable at pneumatic response structure, the pneumatic response structure of atomizing and the atomizing device of the unsmooth problem of flow.

The utility model adopts the technical proposal that: an atomization pneumatic induction structure comprises a host machine and an atomizer, wherein the host machine comprises a shell and a fixed support arranged in the shell, the fixed support is provided with a pneumatic induction bin, a pneumatic inductor is arranged in the pneumatic induction bin, the pneumatic induction bin is provided with an air column, and the air column is used for ventilating the pneumatic induction bin; the atomizer includes the upper housing, install atomization component in the upper housing, the upper housing is equipped with the air flue, the air flue is used for the atomizing aerial fog direction of atomization component institute, atomization component's downside is equipped with the air guide storehouse, the one end in air guide storehouse is connected in the gas post, pneumatic response storehouse passes through gas post and air guide storehouse and atomization component intercommunication.

The further improvement of the scheme is that the fixed support is provided with an electric control element, and the electric control element is used for controlling the atomization assembly to atomize the liquid.

The further improvement of the scheme is that the electric control element comprises a power supply arranged on the fixed support, a control panel arranged on the fixed support and positioned on the lower side of the power supply, and an electrode arranged at the top end of the fixed support, wherein the electrode is electrically connected with the atomizing assembly, and the control panel is electrically connected with the air flue sensor.

The further improvement to above-mentioned scheme does, pneumatic inductor is used for responding to the negative pressure that the air flue brought to give the control panel with response information transmission, is equipped with control chip on the control panel, and control chip controls atomizing subassembly and atomizes liquid heating under through the electrode effect.

The scheme is further improved in that an air guide channel is arranged on one side of the fixing support and used for air inlet of the pneumatic induction bin.

The further improvement of the scheme is that the bottom of the shell is connected with a bottom cover, a fixing groove is formed in the bottom cover, an interface is arranged on the control panel, and one end of the interface is connected to the fixing groove.

The air inlet gap is communicated with the air guide channel and used for air inlet of the air guide channel.

The further improvement to the above scheme is that the top of the upper shell is provided with an oil injection connecting part, the oil injection connecting part is provided with an air tap, and the air tap is communicated with the air passage.

The further improvement to above-mentioned scheme does, the oiling connecting portion are equipped with the oiling groove, the oil filler point has been seted up to the oiling groove, oil filler point demountable installation has the sealing plug, the air cock is through demountable installation at oiling connecting portion.

An atomizing device comprises the atomizing pneumatic induction structure.

The utility model has the advantages that:

compare current atomizer, the utility model discloses installed pneumatic response storehouse in the fixed bolster of host computer, install pneumatic inductor in the pneumatic response storehouse, interior gas column through pneumatic response storehouse is used for the response of gas flow with air flue and atomization component cooperation, it is used for pneumatic response storehouse to admit air to have air inlet structure on the shell of host computer, when the user inhales on the air flue and produces the negative pressure, will form gas flow, and then touch the pneumatic inductor in the pneumatic response storehouse, gas flow is stable, touch the response efficient, it is unstable to have solved current at pneumatic response structure, the problem that flows unsmoothly. The device comprises a main machine and an atomizer, wherein the main machine comprises a shell and a fixed support arranged in the shell, the fixed support is provided with a pneumatic induction bin, a pneumatic inductor is arranged in the pneumatic induction bin, the pneumatic induction bin is provided with an air column, and the air column is used for ventilating the pneumatic induction bin; the atomizer includes the upper housing, install atomization component in the upper housing, the upper housing is equipped with the air flue, the air flue is used for the atomizing aerial fog direction of atomization component institute, atomization component's downside is equipped with the air guide storehouse, the one end in air guide storehouse is connected in the gas post, pneumatic response storehouse passes through gas post and air guide storehouse and atomization component intercommunication. The air guide bin is used as a medium for communicating the air column with the atomization assembly, so that the air guide bin and the atomization assembly can stably guide air, and the air guide bin is matched with an air passage to guide atomized aerial fog out for sucking.

Drawings

Fig. 1 is an explosion schematic diagram of the atomization pneumatic induction structure of the present invention;

FIG. 2 is a schematic structural view of the atomized air induction structure in FIG. 1;

fig. 3 is a schematic structural view of another view angle of the atomization gas dynamic response structure in fig. 1.

Description of reference numerals: the air-conditioning unit comprises a main unit 1, a shell 11, a bottom cover 111, a fixing groove 112, an air inlet gap 112a, a fixing bracket 12, a power supply 121, a control panel 122, an electrode 123, an air guide channel 124, a pneumatic induction bin 13, an air column 131, a pneumatic inductor 14, an atomizer 2, an upper shell 21, an oil filling connecting part 211, an air nozzle 212, an oil filling groove 213, an oil filling hole 214, a sealing plug 215, an atomizing assembly 22, an air guide bin 221 and an air channel 23.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 3, an atomization pneumatic induction structure is provided with a main machine 1 and an atomizer 2, wherein the main machine 1 comprises a housing 11 and a fixed support 12 installed in the housing 11, the fixed support 12 is provided with a pneumatic induction bin 13, a pneumatic inductor 14 is installed in the pneumatic induction bin 13, the pneumatic induction bin 13 is provided with an air column 131, and the air column 131 is used for ventilating the pneumatic induction bin 13; the atomizer 2 includes upper housing 21, install atomization component 22 in the upper housing 21, upper housing 21 is equipped with air flue 23, air flue 23 is used for the atomizing aerial fog direction of atomization component 22, atomization component 22's downside is equipped with air guide bin 221, air guide bin 221's one end is connected in gas post 131, pneumatic response storehouse 13 is through gas post 131 and air guide bin 221 and atomization component 22 intercommunication.

The fixed bolster 12 is installed electrical control element, electrical control element is used for controlling atomization component 22 and atomizes liquid, and the further improvement is that, electrical control element is including installing power 121 at fixed bolster 12, installing at fixed bolster 12 and being located the control panel 122 of power 121 downside and installing electrode 123 on fixed bolster 12 top, electrode 123 is connected with atomization component 22 electricity, control panel 122 is connected with air flue 23 inductor electricity, gives control panel 122 and atomization component 22 power supply through power 121, and control panel 122 is used for controlling atomization component 22 heating and accepts the sensing signal of pneumatic inductor 14.

The atomization assembly 22 is composed of oil-guiding cotton, a heating wire and the like, and is used for heating the heating wire through the electric conduction of the electrode 123 to heat and atomize liquid.

In this embodiment, the pneumatic sensor 14 is used for sensing the negative pressure brought by the air passage 23 and transmitting the sensing information to the control board 122, the control board 122 is provided with a control chip, and the control chip controls the atomizing assembly 22 to heat and atomize the liquid under the action of the electrode 123.

One side of the fixed bracket 12 is provided with an air guide channel 124, the air guide channel 124 is used for air inlet of the pneumatic induction bin 13, and the air guide channel 124 is used for liquid guide so as to facilitate air inlet of the pneumatic induction bin 13 and realize induction of the pneumatic inductor 14.

A bottom cover 111 is connected to the bottom of the housing 11, a fixing groove 112 is formed in the bottom cover 111, an interface is arranged on the control board 122, and one end of the interface is connected to the fixing groove 112; the bottom cover 111 is provided with a fixing groove 112, and the further improvement is that an air inlet gap 112a is arranged between the interface and the fixing groove 112, the air inlet gap 112a is communicated with the air guide channel 124 and used for air inlet of the air guide channel 124, the interface is matched with the control board 122 and used for charging the battery, and the air inlet gap 112a is used for air inlet of the air guide channel 124.

Go up the top of casing 21 and be equipped with oiling connecting portion 211, air cock 212 is installed to oiling connecting portion 211, air cock 212 with air flue 23 intercommunication, the further improvement does, oiling connecting portion 211 is equipped with oiling groove 213, oiling hole 214 has been seted up to oiling groove 213, oiling hole 214 demountable installation has sealing plug 215, air cock 212 is convenient annotate the liquid storage tank through demountable installation at oiling connecting portion 211, through oiling hole 214 and sealing plug 215's effect, and air cock 212 can be dismantled and to annotate liquid to inside.

The utility model discloses pneumatic response storehouse 13 has been installed in the fixed bolster 12 of host computer 1, pneumatic sensor 14 is installed in pneumatic response storehouse 13, interior gas column 131 through pneumatic response storehouse 13 is used for the gas flow response with air flue 23 and atomization component 22 cooperation, it is used for pneumatic response storehouse 13 to admit air to have inlet structure on the shell 11 of host computer 1, the user inhales on air flue 23 when producing the negative pressure, will form the gas flow, and then touch pneumatic sensor 14 in the pneumatic response storehouse 13, the gas flow is stable, touch induction efficiency high, it is unstable to have solved current at pneumatic sensor structure, the problem that flows unsmoothly. Specifically, a host 1 and an atomizer 2 are provided, the host 1 comprises a shell 11 and a fixed support 12 installed in the shell 11, the fixed support 12 is provided with a pneumatic induction bin 13, a pneumatic inductor 14 is installed in the pneumatic induction bin 13, the pneumatic induction bin 13 is provided with an air column 131, and the air column 131 is used for ventilating the pneumatic induction bin 13; atomizer 2 includes last casing 21, install atomization component 22 in the last casing 21, it is equipped with air flue 23 to go up casing 21, air flue 23 is used for the atomizing aerial fog direction that atomization component 22 is atomizing, atomization component 22's downside is equipped with air guide bin 221, air guide bin 221's one end is connected in gas post 131, pneumatic response storehouse 13 is through gas post 131 and air guide bin 221 and atomization component 22 intercommunication. The air guide bin 221 is used as a medium for communicating the air column 131 with the atomization assembly 22, so that the air guide can be stabilized by the air guide bin and the air column, and the atomized aerial fog is guided out and sucked by matching with the air passage 23.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides an atomizing pneumatics response structure which characterized in that: comprises that

The main machine comprises a shell and a fixed support arranged in the shell, the fixed support is provided with a pneumatic induction bin, a pneumatic inductor is arranged in the pneumatic induction bin, the pneumatic induction bin is provided with an air column, and the air column is used for ventilating the pneumatic induction bin;

the atomizer, the atomizer includes the casing, install atomizing component in the upper casing, the upper casing is equipped with the air flue, the air flue is used for the atomizing aerial fog direction of atomizing component, atomizing component's downside is equipped with the air guide storehouse, the one end in air guide storehouse is connected in the gas post, pneumatic response storehouse passes through gas post and air guide storehouse and atomizing component intercommunication.

2. The atomizing pneumatic induction structure of claim 1, wherein: the fixed bolster is installed electric control element, electric control element is used for controlling atomization component and atomizes liquid.

3. The structure of claim 2, wherein: the electric control element comprises a power supply arranged on the fixing support, a control panel arranged on the fixing support and positioned on the lower side of the power supply, and an electrode arranged at the top end of the fixing support, the electrode is electrically connected with the atomizing assembly, and the control panel is electrically connected with the airway sensor.

4. The atomizing pneumatic sensing structure of claim 3, wherein: the pneumatic sensor is used for sensing negative pressure brought by the air flue and transmitting sensing information to the control panel, the control panel is provided with a control chip, and the control chip controls the atomizing assembly to heat and atomize liquid under the action of the electrodes.

5. The atomizing pneumatic induction structure of claim 4, characterized in that: and one side of the fixed support is provided with an air guide channel, and the air guide channel is used for air inlet of the pneumatic induction bin.

6. The atomizing pneumatic induction structure of claim 5, characterized in that: the bottom of shell is connected with the bottom, the fixed slot has been seted up to the bottom, the control panel is equipped with the interface, the one end of interface is connected in the fixed slot.

7. The atomizing pneumatic induction structure of claim 6, wherein: and an air inlet gap is arranged between the connector and the fixing groove, and the air inlet gap is communicated with the air guide channel and used for air inlet of the air guide channel.

8. The atomizing pneumatic induction structure of claim 1, wherein: go up the top of casing and be equipped with oiling connecting portion, the air cock is installed to oiling connecting portion, the air cock with the air flue intercommunication.

9. The atomizing pneumatic induction structure of claim 8, wherein: the oiling connecting portion are equipped with the oiling groove, the oil filler point has been seted up in the oiling groove, oil filler point demountable installation has the sealing plug, the air cock is through demountable installation at oiling connecting portion.

10. An atomizing device, characterized in that: comprising an atomizing pneumatic induction structure according to any one of claims 1 to 9.

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