CN209791807U - atomization device - Google Patents

Abstract

An atomizing device comprises a bottle body, an atomizing unit and a liquid guide pipe, wherein the bottle body is provided with an opening and an accommodating space, the opening is communicated with the accommodating space, liquid is accommodated in the accommodating space, the atomizing unit is correspondingly arranged at the opening, the atomizing unit is provided with a first side and a second side, a cavity is defined by the first side and the second side, an air inlet and a nozzle are formed in the first side, the air inlet is communicated with the cavity, the nozzle is communicated with the accommodating space, a connecting port, a through hole and a guide hole are formed in the second side, the through hole and the guide hole are communicated with the accommodating space, the guide hole is correspondingly and oppositely connected with the nozzle, and the liquid guide pipe is correspondingly connected with the connecting port and assembled.

Description

Atomization device

Technical Field

The utility model relates to an atomizing device indicates especially one kind and can avoid current atomizing unit to block up the problem and change more convenient atomizing device.

Background

Atomizing devices are widely used in various fields, such as cooling, humidifying, disinfecting, dust suppression, and medicine.

Currently, the atomization devices available on the market utilize, for example: the piezoelectric ring sheet made of piezoelectric material such as lead zirconate titanate material can make the body and the attached metal back plate generate the expansion deformation phenomenon after the input voltage, and the liquid close to the spray hole of a spray hole sheet positioned at one side of the piezoelectric material is atomized into tiny molecules and then sprayed out by utilizing the vibration energy transmitted in the wave form. The atomizing device mainly comprises an atomizing module and a liquid storage cavity, wherein the atomizing module is formed by sequentially stacking a structural sheet, a spray hole sheet and a piezoelectric ring sheet, the spray hole sheet is in a disc shape and provided with a plurality of spray holes, and the spray hole sheet is clamped between the piezoelectric ring and the structural sheet.

However, when the vibration energy is transmitted in the conventional atomizing module, the transmission direction is transmitted from the outer periphery of the nozzle plate to the center, so the stress generated by the vibration energy is excessively concentrated at the center to cause the nozzle plate to break, thereby shortening the service life, and the piezoelectric ring plate is easy to deposit scale thereon after being used for a long time.

In addition, since the spray region is excessively concentrated in the central region, the density of the atomized liquid molecules is excessively concentrated, and the droplets are likely to collide with each other and combine into droplets having a large particle size, resulting in a decrease in atomization efficiency.

Therefore, there is a need in the art for a new solution to the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an atomizing device, the atomizing unit who solves the atomizing device existence among the prior art easily blocks up and changes inconvenient technical problem.

The technical scheme of the utility model is that: an atomization device comprises a bottle body, a first liquid container and a second liquid container, wherein the bottle body is provided with an opening and an accommodating space, the opening is communicated with the accommodating space, and the accommodating space is used for accommodating a liquid;

The atomizing unit is correspondingly arranged at the opening and is provided with a first side and a second side, the first side and the second side jointly define a cavity, the first side is provided with an air inlet and a nozzle, the air inlet is communicated with the cavity, the nozzle is communicated with the accommodating space, the second side is provided with a connecting port, a through hole and a guide hole, the through hole and the guide hole are communicated with the accommodating space, and the guide hole is correspondingly butted with the nozzle;

and a catheter which is correspondingly connected and assembled with the connecting port.

Further, the atomization unit is integrally formed or non-integrally formed.

Furthermore, the atomization unit further comprises a first atomization piece and a second atomization piece, the first atomization piece is correspondingly arranged at the first side, the second atomization piece is correspondingly arranged at the second side, and the first atomization piece and the second atomization piece are correspondingly assembled to form the chamber.

furthermore, a sealing element is annularly arranged on the outer peripheral sides of the first atomizing element and the second atomizing element.

Furthermore, the atomizing unit is provided with a gasket corresponding to the opening of the bottle body.

Furthermore, a channel is formed inside the liquid guide pipe, the channel is communicated with the cavity, and the liquid flows into the cavity through the channel.

furthermore, the catheter has a first end and a second end, the first end is correspondingly immersed in the liquid, and the second end is correspondingly connected with the connecting port.

Furthermore, the atomization unit is correspondingly connected with a communicating pipe, one end of the communicating pipe is in butt joint with the air inlet, the other end of the communicating pipe is further connected with a pipe body connected with a pump, and the pump is used for providing gas and transmitting the gas into the chamber through the pipe body.

Furthermore, the atomization unit is correspondingly connected with an atomization pipe, and the atomization pipe is correspondingly arranged at the spray opening and communicated with the accommodating space.

furthermore, the device further comprises a housing, the housing forms a containing space corresponding to the atomizing device and at least one power supply module, and the power supply module is used for providing power to enable the pump to operate.

adopt above-mentioned technical scheme the utility model discloses can bring following beneficial technological effect:

1. The problem of blockage of the existing atomization unit is solved;

2. The replacement is more convenient.

Drawings

Fig. 1 is an exploded perspective view of a first embodiment of an atomizing device according to the present invention;

Fig. 2 is a perspective combination view of a first embodiment of the atomizing device of the present invention;

Fig. 3 is a cross-sectional view of a first embodiment of the atomizing device of the present invention;

Fig. 4 is a cross-sectional view of a second embodiment of the atomizing device of the present invention;

fig. 5 is a schematic view of an embodiment of the atomization device of the present invention;

Fig. 6 is a schematic view of the flow direction of the fluid in the atomizing device of the present invention;

fig. 7 is a schematic view of the atomization device of the present invention when the bottle body is replaced.

In the figure, 1-atomization device, 10-bottle body, 100-opening, 101-containing space, 11-atomization unit, 110-first atomization piece, 111-second atomization piece, 112-first side, 113-air inlet, 114-nozzle, 115-second side, 116-connecting port, 117-through hole, 118-guide hole, 119-chamber, 2-gas, 3-liquid guide pipe, 30-first end, 31-second end, 310-channel, 40-communicating pipe, 41-atomization pipe, 50-pipe body, 51-pump, 60-liquid, 61-atomized liquid, 7-shell, 70-containing space and 8-power supply module.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings and the detailed description;

Referring to fig. 1, fig. 2 and fig. 3, which are respectively a three-dimensional exploded view, a three-dimensional assembled view and a cross-sectional view of the atomizing device of the present invention, as shown in the figures, an atomizing device 1 includes a bottle 10, an atomizing unit 11 and a liquid guiding tube 3, the bottle 10 is provided with an opening 100 and has a receiving space 101, the opening 100 and the receiving space 101 are mutually communicated, and a liquid 60 is contained in the receiving space 101 of the bottle 10.

The atomizing unit 11 is correspondingly installed at the position of the opening 100 of the bottle 10, and the atomizing unit 11 is illustrated as an integrally formed structure in this embodiment, so that a first side 112 and a second side 115 are respectively formed at two sides of the atomizing unit 11, the first side 112 and the second side 115 define together to form a chamber 119, an air inlet 113 and a nozzle 114 are formed at the first side 112, the air inlet 113 is communicated with the chamber 119, the nozzle 114 is communicated with the accommodating space 101, a connecting port 116, a through hole 117 and a guide hole 118 are formed at the second side 115, the through hole 117 and the guide hole 118 are communicated with the accommodating space 101, and the guide hole 118 is correspondingly connected with the nozzle 114.

The liquid guiding tube 3 has a first end 30 and a second end 31, the first end 30 is correspondingly inserted into the accommodating space 101 of the bottle 10 to make the first end 30 immersed in the liquid 60, and the second end 31 is correspondingly connected and assembled with the connecting port 116 of the atomizing unit 11, in addition, a channel 310 is formed inside the liquid guiding tube 3 to be communicated with the chamber 119, so that the liquid 60 can flow into the chamber 119 through the channel 310.

referring to fig. 4 and fig. 1 to 3 together, fig. 4 is a cross-sectional view of a second embodiment of the atomizing device of the present invention, and the corresponding relationship between some components of the atomizing device 1 is the same as the atomizing device, so it is not described herein again, except that the atomizing unit 11 can be made into a non-integrated structure according to the requirement of the user, that is, the atomizing unit 11 is composed of a first atomizing element 110 and a second atomizing element 111 tightly combined together, the first atomizing element 110 is correspondingly disposed at the first side 112, the second atomizing element 111 is correspondingly disposed at the second side 115, and the first atomizing element 110 and the second atomizing element 111 are correspondingly combined to form the chamber 119, and a sealing element (not shown) can be further correspondingly disposed around the outer peripheries of the first atomizing element 110 and the second atomizing element 111, in addition, a gasket (not shown) may be further disposed at the position of the atomizing unit 11 and the opening 100 of the bottle 10, and the gasket has a sealing function to prevent the liquid 60 in the bottle 10 from flowing out.

referring to fig. 5 and fig. 6 together with fig. 3, fig. 5 and fig. 6 are respectively an implementation schematic diagram and a fluid flow schematic diagram of the atomizing device of the present invention, the atomizing unit 11 is further provided with a communicating tube 40 and an atomizing tube 41, one end of the communicating tube 40 is connected to the air inlet 113, the other end of the communicating tube 40 is further connected to a tube 50 and connected to a pump 51, the pump 51 is used for providing a gas 2 and transferring the gas 2 from the tube 50 to the chamber 119, the atomizing tube 41 is correspondingly installed at the nozzle 114 and is communicated with the accommodating space 101 of the bottle 10, in addition, when the present embodiment is actually implemented, the atomizing device 1 is correspondingly installed in an accommodating space 70 in a housing 7, the accommodating space 70 is further provided with at least one power supply module 8 and a speaker and a control module, the power supply module 8 is used for providing power to enable the pump 51 and the speaker and the control module to operate, thus, the integral device components combine to form a music fragrance machine similar to a music player that can produce music and mist.

Therefore, when the pump 51 starts to operate by the power supply module 8, firstly the gas 2 flows through the tube 50 to the communication tube 40 and then flows to the gas inlet 113 to enter the chamber 119, at this time, the gas in the chamber 119 generates a maximum pressure, so that the liquid 60 contained in the bottle body 10 is sucked up from the channel 310 of the liquid guide tube 3 through the first end 30 to the second end 31 and then enters the chamber 119 (see fig. 3), and the liquid 60 enters the chamber 119 and is ejected out of the accommodating space 101 of the bottle body 10 again through the through hole 117 due to the internal pressure of the chamber 119, and since the aperture of the through hole 117 is very small, the liquid 60 sucked into the chamber 119 is pressed through the hole to become the atomized liquid 61, and finally, a part of the atomized liquid 61 passes through the guide hole 118, passes through the nozzle 114 and is ejected out of the spray tube 41 to the bottle body 10 to be emitted into the air, and a part of the liquid 60 which is not atomized drops into the accommodating space 101 of the bottle body 10 for the next circulation, so that the circulation is continued to form a device with an atomizing function, and thus, the problem that the existing atomizing device has to have a vibration sheet to generate scale deposition thereon so as to avoid the blockage problem of the atomizing unit can be avoided.

In addition, referring to fig. 7, since the atomizing unit 11 and the bottle 10 can be integrally formed according to the requirement of the user when the atomizing device 1 is actually implemented (the atomizing device 1 of the present embodiment is described as an integral forming, but not limited thereto, and certainly, the atomizing device can also be non-integrally formed to achieve the same effect of the present invention, as will be described in the foregoing), when the atomizing device 1 is used, the user only needs to directly take down the housing 7 to replace the bottle 10, so that the use is more convenient.

Furthermore, because the utility model is a bottle-type integrated atomization device 1, the atomization device 1 is more difficult to be blocked than the prior atomization device, because the existing atomization device needs to add liquid such as water or essential oil, perfume, cleaning agent, disinfectant and the like, the atomization device is easy to be blocked, and the bottle body 10 is replaced before the atomizing device 1 is not blocked, so that the user can not have the problems of blockage or damage of the atomizing device 1 and the complicated procedure of repeatedly adding water, therefore, the utility model can be used simply without cleaning the atomizing unit 11 or the spray head of the atomizing device 1 or a high-depth technical user, therefore, the problem of blockage of the conventional atomizing device sold on the market is solved, the using time of an operator can be prolonged, and the using habit of the user on the atomizing device sold on the market is greatly changed.

The above, it is only the preferred embodiment of the present invention, not right the utility model discloses a restriction, any technical personnel in the field are not departing from the utility model discloses an in the protection scope, the equivalent replacement that makes and decorate all fall into the protection scope of the utility model.

Claims (10)

1. An atomizing device characterized by: comprises a bottle body, a liquid storage container and a liquid outlet, wherein the bottle body is provided with an opening and an accommodating space, the opening is communicated with the accommodating space, and the accommodating space is used for accommodating a liquid;

The atomizing unit is correspondingly arranged at the opening and is provided with a first side and a second side, the first side and the second side jointly define a cavity, the first side is provided with an air inlet and a nozzle, the air inlet is communicated with the cavity, the nozzle is communicated with the accommodating space, the second side is provided with a connecting port, a through hole and a guide hole, the through hole and the guide hole are communicated with the accommodating space, and the guide hole is correspondingly butted with the nozzle;

and a catheter which is correspondingly connected and assembled with the connecting port.

2. The atomizing device of claim 1, wherein: the atomization unit is integrally formed or non-integrally formed.

3. The atomizing device of claim 1, wherein: the atomization unit further comprises a first atomization piece and a second atomization piece, the first atomization piece is correspondingly arranged at the first side, the second atomization piece is correspondingly arranged at the second side, and the first atomization piece and the second atomization piece are correspondingly assembled to form the chamber.

4. The atomizing device of claim 3, wherein: a sealing element is further annularly arranged on the outer peripheral sides of the first atomizing element and the second atomizing element.

5. The atomizing device of claim 1, wherein: the atomizing unit is provided with a gasket corresponding to the opening of the bottle body.

6. The atomizing device of claim 1, wherein: the liquid guide pipe is internally provided with a channel which is communicated with the cavity, and the liquid flows into the cavity through the channel.

7. The atomizing device of claim 1, wherein: the catheter is further provided with a first end and a second end, the first end is correspondingly immersed in the liquid, and the second end is correspondingly connected with the connecting port and assembled.

8. the atomizing device of claim 1, wherein: the atomization unit is further correspondingly connected with a communicating pipe, one end of the communicating pipe is in butt joint with the air inlet, the other end of the communicating pipe is further connected with a pipe body connected with a pump, and the pump is used for providing gas and conveying the gas into the chamber through the pipe body.

9. The atomizing device of claim 1, wherein: the atomization unit is correspondingly connected with an atomization pipe which is correspondingly arranged at the nozzle and communicated with the containing space.

10. The atomizing device of claim 8, wherein: the housing forms a containing space corresponding to the atomization device and at least one power supply module, and the power supply module is used for providing power to enable the pump to operate.