CN215386638U - Portable non-heating is from electrified source atomization plant - Google Patents

Abstract

The utility model discloses portable non-heating atomization equipment with a power supply, which comprises a shell, an air pump, a container device, a control panel and an atomization device, wherein a groove for containing the container device is formed in the side face of the shell, the container device is arranged in the groove and is connected with the shell in a buckling mode, the air pump, the control panel and the atomization device are arranged inside the shell, the air pump is electrically connected with the control panel, a lithium battery is further arranged inside the shell and is electrically connected with the control panel, the air pump is communicated with the atomization device, the atomization device is communicated with the container device, a mist outlet cover is arranged above the shell and is communicated with the atomization device, and a mist outlet is formed in the surface of the mist outlet cover. The utility model provides a portable non-heating atomization device with a power supply, which is convenient for people and people to carry out internal disinfection treatment on small-space environments such as small houses, ambulances, disinfection boxes and the like.

Description

Portable non-heating is from electrified source atomization plant

Technical Field

The utility model relates to the technical field of atomization equipment, in particular to portable non-heating atomization equipment with a power supply.

Background

Atomization refers to the operation of dispersing a liquid into tiny droplets through a nozzle or with a high velocity gas stream. An atomizer is an electronic product that disperses liquid into tiny droplets or particles, and air humidifiers, medical atomizers, and the like are common atomizers. The air humidifier is mainly used for atomizing purified water so as to increase the humidity of ambient air, and is used more in a dry environment; the medical atomizer is a medical treatment instrument, and is characterized in that medicinal materials such as liquid medicine are placed in the atomizer, the liquid medicine is atomized into liquid medicine steam through the atomizer for patients to use, the liquid medicine steam is often used for treating respiratory diseases such as rhinitis, bronchitis and asthma, and disinfectant can be atomized to disinfect the environment within a certain space range.

The existing atomization equipment is large in size, needs an external power supply, can only be suitable for sterilization atomization in a large space when sterilizing liquid is atomized, and is inconvenient for people to use when used for sterilization inside some boxes.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide portable non-heating atomization equipment with a power supply, which is convenient for people to carry out internal disinfection treatment on small-space environments such as small houses, ambulances, disinfection boxes and the like.

The utility model discloses a portable non-heating atomization device with a power supply, which adopts the technical scheme that:

the utility model provides a portable non-heating is from taking power atomization plant, includes shell, air pump, containment device, control panel and atomizing device, the recess that is used for holding the containment device is seted up to the shell side, the containment device sets up in the recess, just the containment device is connected with the shell buckle, air pump, control panel and atomizing device all set up inside the shell, air pump and control panel electric connection, just the inside lithium cell that still is equipped with of shell, lithium cell and control panel electric connection, air pump and atomizing device intercommunication, atomizing device and containment device intercommunication, the shell top is equipped with out the fog cover, go out fog cover and atomizing device intercommunication, go out the fog mouth and seted up on fog cover surface.

Preferably, the surface of the shell is also provided with a touch screen, and the touch screen is electrically connected with the control panel.

As a preferred scheme, four support columns are arranged below the shell and are respectively positioned at four corners of the shell.

As a preferred scheme, the bottom surface of the shell is provided with an air inlet which is communicated with an air pump.

According to the preferable scheme, the container device comprises a container body and a fixing part, the container body is arranged below the fixing part, the container body and the fixing part are detachably connected, the fixing part comprises a shell, two clamping hooks and a liquid suction pipe, the liquid suction pipe is arranged inside the shell, one end of the liquid suction pipe extends out of the shell, the other end of the liquid suction pipe is communicated with the atomizing device, the two clamping hooks are oppositely arranged inside the shell, the middle parts of the clamping hooks are rotatably connected with the shell, one ends of the clamping hooks extend out of one side of the shell, the clamping hooks are connected with grooves of the shell in a buckling mode, elastic pieces are arranged between the two clamping hooks and located at one ends of the clamping hooks, elastic piece structures are arranged on two sides of the shell, and the elastic pieces correspond to the other ends of the clamping hooks.

According to the preferable scheme, a communicating cover is arranged above the shell, a liquid suction port is arranged on one side of the communicating cover, one end of the liquid suction pipe is communicated with the liquid suction port, a liquid suction socket is arranged on the inner wall of the groove of the shell and is communicated with the atomizing device, and the liquid suction port and the liquid suction socket are communicated in a mutual contact mode.

As a preferred scheme, a liquid return interface is further arranged on one side of the communicating cover, a liquid return pipe is further arranged inside the shell, one end of the liquid return pipe is communicated with the inside of the container body, and the other end of the liquid return pipe is communicated with the liquid return interface.

As a preferred scheme, the atomization device comprises an atomization cup body and an air inlet joint, wherein an atomization cover body protruding inwards is arranged at the bottom of the atomization cup body, the air inlet joint is arranged below the atomization cup body and inserted into the atomization cover body, an air pump is communicated with the air inlet joint, a diversion trench is arranged on the surface of the air inlet joint and forms a liquid flow channel for liquid circulation with the inner wall of the atomization cover body, an atomization hole is formed in the top of the atomization cover body, the liquid flow channel is communicated with the atomization hole, a liquid inlet pipe is arranged below the atomization cup body, one end of the liquid inlet pipe is communicated with a liquid suction socket, the other end of the liquid inlet pipe is communicated with the liquid flow channel, an impact assembly is arranged inside the atomization cup body and is arranged above the atomization hole, a gap is formed between the impact assembly and the atomization hole, and a mist outlet hole is formed in the side surface of the atomization cup body, the mist outlet hole is communicated with the atomizing cup body and the mist outlet.

As the preferred scheme, the recess inner wall of shell still is equipped with back liquid socket, return liquid socket and return liquid interface contact intercommunication, atomizing cup below still is equipped with the back flow, back flow one end and atomizing cup intercommunication, the back flow other end and return liquid socket intercommunication.

As preferred scheme, striking subassembly includes fixing base, shelves strip and solid fixed ring, the shelves strip sets up in the fixed ring, gu fixed ring sets up in the fixing base below, the fixing base passes through fastener and atomizing cup top fixed connection, the shelves strip is located atomizing hole top.

The utility model discloses a portable non-heating atomization device with a power supply, which has the beneficial effects that: the container device is communicated with the atomizing device through the container device, the air pump is communicated with the atomizing device and is electrically connected with the control panel, compressed air generated by the air pump is introduced into the atomizing device to suck out liquid in the container device through the effect of negative pressure, so that the liquid and the compressed air are mixed and sprayed out from the atomizing device to form atomized particles, and then the atomized particles are discharged from a mist outlet of the mist cover above the shell, thereby carrying out atomization and disinfection treatment on a certain space range, and the lithium battery is arranged in the shell and is electrically connected with the control panel, thereby being capable of providing electric energy for the air pump through the lithium battery, thereby not needing an external power supply, being more convenient for people to use, and centralizing a plurality of components in the shell, directly placing the atomizing equipment in the box body, closing the box body, and enabling the box body to be in a sealed state, thereby carrying out atomization and disinfection on the box body and articles in the box body, so that people can better perform disinfection treatment under some special conditions.

Drawings

Fig. 1 is a schematic structural diagram of a portable non-heating atomizer with power supply.

Fig. 2 is another schematic structural view of the portable non-heating atomizer with power supply according to the present invention.

Fig. 3 is a schematic diagram of the internal structure of a portable non-heated self-powered atomizing device of the present invention.

Fig. 4 is a schematic structural diagram of a portable non-heating container device with a power supply atomizing device.

Fig. 5 is an exploded view of a portable unheated self-powered atomizing device in accordance with the present invention.

Fig. 6 is a schematic structural diagram of an atomizing device of a portable non-heating atomizing apparatus with a power supply.

Fig. 7 is a cross-sectional view of an atomizing device of a portable unheated self-powered atomizing apparatus of the present invention.

Fig. 8 is an exploded view of an atomizer of a portable unheated self-powered atomizer apparatus of the present invention.

Detailed Description

The utility model will be further elucidated and described with reference to the embodiments and drawings of the specification:

referring to fig. 1, 2 and 3, a portable non-heating atomizer with power supply includes a housing 10, an air pump 11, a container 20, a control panel 12 and an atomizer 30. The housing 10 is opened at a side thereof with a groove 101 for receiving the container device 20, the container device 20 is disposed in the groove 101, and the container device 20 is snap-coupled to the housing 10.

Air pump 11, control panel 12 and atomizing device 30 all set up inside shell 10, and air pump 11 and control panel 12 electric connection, and the inside lithium cell 13 that still is equipped with of shell 10, lithium cell 13 and control panel 12 electric connection. The air pump 11 is communicated with the atomizing device 30, the atomizing device 30 is communicated with the container device 20, the mist outlet cover 14 is arranged above the shell 10, the mist outlet cover 14 is communicated with the atomizing device 30, and the surface of the mist outlet cover 14 is provided with a mist outlet 141.

Through container means 20 and atomizing device 30 intercommunication, and air pump 11 and control panel 12 electric connection, produce compressed gas through air pump 11 and let in atomizing device 30, the effect that forms the negative pressure sucks the liquid in container means 20, makes liquid and compressed gas mix and spout from atomizing device 30, forms the atomizing granule, and the export fog mouth 141 of play fog cover 14 above shell 10 discharges again to can atomize disinfection to certain space range.

And be equipped with lithium cell 13 in shell 10 inside, lithium cell 13 and control panel 12 electric connection can provide the electric energy for air pump 11 through lithium cell 13 to do not need external power supply, make things convenient for people to use more. Concentrate a plurality of parts and set up in shell 10, can directly place atomizing equipment in the box to close the box, make the box be in encapsulated situation, thereby carry out the atomizing disinfection to the article in box and the box, make people under some special circumstances, like medical instrument disinfection etc. thereby can disinfect better.

In the above scheme, the surface of the shell 10 is also provided with the touch screen 15, the touch screen 15 is electrically connected with the control panel 12, different working modes of the atomization device can be set through the touch screen 15, and different atomization disinfection requirements are met.

Four supporting columns 16 are arranged below the casing 10, the supporting columns 16 are respectively located at four corners of the casing 10, an air inlet 102 is formed in the bottom surface of the casing 10, the air inlet 102 is communicated with the air pump 11, a gap is kept between the bottom surface of the casing 10 and a placing surface through the supporting columns 16, so that external air can enter the air pump 11 through the air inlet 102, and the air pump 11 is compressed to form compressed air.

Referring to fig. 4 and 5, the container device 20 includes a container body 21 and a fixing member 22, the container body 21 is disposed below the fixing member 22, and the container body 21 and the fixing member 22 are detachably connected. The fixing member 22 includes a casing 221, two hooks 222 and a liquid suction pipe 223, the liquid suction pipe 223 is disposed inside the casing 221, one end of the liquid suction pipe 223 extends out of the casing 221, the other end of the liquid suction pipe 223 is communicated with the atomization device 30, the two hooks 222 are disposed inside the casing 221 relatively, the middle portion of the hook 222 is rotatably connected with the casing 221, one end of the hook 222 extends out of one side of the casing 221, and the hook 222 is connected with the groove 101 of the housing 10 in a buckling manner. An elastic member 23 is disposed between the two hooks 222, the elastic member 23 is located at one end of the hook 222 extending out of the casing 221, the two sides of the casing 221 are provided with elastic pieces 224, and the elastic pieces 224 correspond to the other ends of the hooks 222.

The container body 21 is disposed below the fixing member 22, and one end of the pipette 223 of the fixing member 22 is inserted into the container body 21, since the container body 21 and the fixing member 22 are detachably connected, people can optionally detach the container body 21 from the lower side of the fixing member 22 for replacement or addition, so that the fixing member 22 functions as a cover of the container body 21.

Two hooks 222 are arranged inside the shell 221 of the fixing member 22, and the middle of the hook 222 is rotatably connected with the shell 221, so that the hook 222 and the shell 221 form a lever structure, one end of the hook 222 extends out of the shell 221, an elastic member 23 is arranged between the two hooks 222, the two hooks 222 extend out of one end of the shell 221 through the elastic member 23 to be close to each other, so that the two hooks 222 can be fastened and fixed with the groove 101 of the shell 10, the container body 21 can be directly arranged on the side surface of the shell 10, the atomizing equipment is prevented from being lifted or moved when the container body 21 is replaced, and the liquid leakage is prevented because the container body 21 is arranged below the fixing member 22.

When people need to take out the container body 21, the elastic sheets 224 on the two sides of the shell 221 are pressed to extrude the other ends of the two hooks 222 mutually, so that the ends, extending out of the shell 221, of the hooks 222 are separated from each other, the hooks 222 are separated from the grooves 101, people can take the fixing piece 22 together with the container body 21 down from the grooves 101, and people can conveniently and quickly install and replace the container body 21 filled with atomized liquid.

The connecting seat 324 is arranged inside the shell 221, the thread groove is arranged inside the connecting seat 24, the container body 21 is in threaded connection with the thread groove, the container body 21 can be detached and fixed with the shell 221 in a rotating mode, people can use the container more conveniently, and meanwhile the firmness of connection between the container body 21 and the shell 221 is ensured.

The upper part of the shell 221 is provided with a communicating cover 27, one side of the communicating cover 27 is provided with a liquid suction port 25, one end of a liquid suction pipe 223 is communicated with the liquid suction port 25, the inner wall of the groove 101 of the shell 10 is provided with a liquid suction socket 17, the liquid suction socket 17 is communicated with the atomizing device 30, and the liquid suction port 25 is communicated with the liquid suction socket 17 in a mutual contact manner.

One side of the communicating cover 27 is further provided with a liquid return interface 251, the inside of the shell 221 is further provided with a liquid return pipe 26, one end of the liquid return pipe 26 is communicated with the inside of the container body 21, and the other end of the liquid return pipe 26 is communicated with the liquid return interface 251.

Referring to fig. 6, 7 and 8, the atomizing device 30 includes an atomizing cup 31 and an air inlet connector 32, an atomizing cover 33 protruding inward is disposed at the bottom of the atomizing cup 31, the air inlet connector 32 is disposed below the atomizing cup 31, the air inlet connector 32 is inserted into the atomizing cover 33, and the air pump 11 is communicated with the air inlet connector 32.

The surface of the air inlet connector 32 is provided with a flow guide groove 321, the flow guide groove 321 and the inner wall of the atomizing cover body 33 form a liquid flow channel 34 for liquid circulation, the top of the atomizing cover body 33 is provided with an atomizing hole 311, the liquid flow channel 34 is communicated with the atomizing hole 311, a liquid inlet pipe 35 is arranged below the atomizing cup body 31, one end of the liquid inlet pipe 35 is communicated with the liquid suction socket 17, and the other end of the liquid inlet pipe 35 is communicated with the liquid flow channel 34.

The atomizing cup body 31 is internally provided with an impact assembly 36, the impact assembly 36 is arranged above the atomizing holes 311, a gap exists between the impact assembly 36 and the atomizing holes 311, the side surface of the atomizing cup body 31 is provided with a mist outlet hole 312, and the mist outlet hole 312 is communicated with the atomizing cup body 31 and the mist outlet 141.

The air inlet joint 32 is inserted and fixed in the atomizing cover body 33, high-pressure air is introduced into the air inlet joint 32, and the high-pressure air enters the atomizing cover body 33 through the air inlet joint 32 and is discharged from the atomizing hole 311 at the top of the atomizing cover body 33.

In the process, negative pressure is formed in the atomizing cover body 33, so that liquid in the liquid inlet pipe 35 is sucked into the liquid flow channel 34 between the air inlet connector 32 and the atomizing cover body 33, the liquid entering the atomizing cover body 33 is limited through the liquid flow channel 34, the problem that the subsequent atomization effect mixed with high-pressure gas is poor due to overlarge liquid flow is avoided, and large atomized particles are generated.

The liquid entering the liquid channel 34 flows to the mist outlet holes 312 along the flow guide grooves 321 on the surface of the air inlet connector 32, and then is mixed with the high-pressure gas to be sprayed out from the mist outlet holes 311 to form atomization of the liquid, and the flow of the liquid is controlled through the liquid channel 34, so that a better atomization effect is achieved, and the generation of larger atomized particles is reduced.

And the impact component 36 is arranged above the atomizing holes 311, and a gap is formed between the impact component 36 and the atomizing holes 311, so that the atomizing gas sprayed from the atomizing holes 311 collides with the impact component 36, is atomized and crushed again to form smaller atomized particles, and is discharged from the mist outlet holes 312 on the side surface of the atomizing cup body 31.

Through the arrangement of the multistage structure, a better atomization effect is generated, and the condition that atomizing gas is responsible for the occurrence of fogging on the surface of an object is avoided.

The inner wall of the groove 101 of the shell 10 is further provided with a liquid return socket 18, the liquid return socket 18 is communicated with a liquid return interface 251 in a contact manner, a return pipe 37 is further arranged below the atomizing cup body 31, one end of the return pipe 37 is communicated with the atomizing cup body 31, and the other end of the return pipe 37 is communicated with the liquid return socket 251.

The liquid suction port 25 and the liquid return port 251 of the container device 20 are communicated with the liquid suction socket 17 and the liquid return socket 18 on the housing 10, so that the container device 20 can be better communicated with the atomizing device 30, the liquid suction and the liquid return in the atomizing device 30 can be smoothly carried out, and the container device 20 can be detached at any time without affecting the atomizing device 30.

After atomizing hole 311 spun atomizing gas received the striking, tiny atomizing particle could be followed fog outlet 312 and discharged, the great meeting of some atomizing particle is attached to striking subassembly 36 surface and atomizing cup inside wall etc. condense into liquid again, flow back in atomizing cup 31, and atomizing cup 31 inner wall also can have great atomizing particle to attach to the surface, condense and form liquid, thereby usable back flow 37 carries out the backward flow with the liquid in the atomizing cup 31 and collects, reuse, reduce the waste of liquid, also avoid liquid to collect in atomizing cup 31, influence atomization effect, and the pollution of seepage liquid to the environment has been avoided.

The striking assembly 36 includes a fixing seat 361, a stopper 362 and a fixing ring 363, the stopper 362 is disposed in the fixing ring 363, the fixing ring 363 is disposed below the fixing seat 361, the fixing seat 361 is fixedly connected to the atomizing cup 31 by a fastening member, and the stopper 362 is disposed above the atomizing hole 311.

The stopping strips 362 are fixedly arranged above the atomizing holes 311 through the fixing seats 361, and the distance between the stopping strips 362 and the atomizing holes 311 can be adjusted by adjusting the height of the fixing seats 361, so that the atomizing gas sprayed from the atomizing holes 311 and the stopping strips 362 with different distances can generate different atomizing effects, and the optimal state can be adjusted in practical use.

The utility model provides a portable non-heating atomization device with a power supply, which is communicated with an atomization device through a container device, an air pump is communicated with the atomization device, the air pump is electrically connected with a control panel, compressed gas generated by the air pump is introduced into the atomization device to suck out liquid in the container device by the effect of negative pressure, so that the liquid and the compressed gas are mixed and sprayed out from the atomization device to form atomized particles, and then the atomized particles are discharged from a fog outlet of a fog cover above a shell, thereby carrying out atomization and disinfection treatment on a certain space range, and a lithium battery is arranged in the shell and electrically connected with the control panel, and can provide electric energy for the air pump through the lithium battery, thereby needing no external power supply and being more convenient for people to use, and a plurality of components are intensively arranged in the shell, the atomization device can be directly placed in a box body and the box body is closed, make the box be in encapsulated situation to carry out the atomizing disinfection to box and the article in the box, make people under some special circumstances, can disinfect better.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. The utility model provides a portable non-heating is from electrified source atomization plant, its characterized in that, including shell, air pump, containment device, control panel and atomizing device, the recess that is used for holding the containment device is offered to the shell side, the containment device sets up in the recess, just the containment device is connected with the shell buckle, air pump, control panel and atomizing device all set up inside the shell, air pump and control panel electric connection, just the inside lithium cell that still is equipped with of shell, lithium cell and control panel electric connection, air pump and atomizing device intercommunication, atomizing device and containment device intercommunication, the shell top is equipped with out the fog cover, go out fog cover and atomizing device intercommunication, it has seted up out the fog mouth to go out fog cover surface.

2. The portable unheated, self-powered atomizing device according to claim 1, wherein a touch screen is further disposed on a surface of said housing, said touch screen being electrically connected to said control board.

3. The portable unheated, self-powered atomizing device according to claim 2, wherein four support posts are provided below said housing, said support posts being located at four corners of said housing.

4. The portable non-heated atomizing device with power supply of claim 3, wherein an air inlet is formed in the bottom surface of the housing, and the air inlet is communicated with the air pump.

5. The portable unheated, self-powered atomizing apparatus according to claim 1, the container device comprises a container body and a fixing piece, the container body is arranged below the fixing piece, and the container body is detachably connected with the fixed part, the fixed part comprises a shell, two clamping hooks and a pipette, the pipette is arranged in the shell, one end of the pipette extends out of the shell, the other end of the pipette is communicated with the atomizing device, the two clamping hooks are oppositely arranged in the shell, the middle parts of the clamping hooks are rotatably connected with the shell, one ends of the clamping hooks extend out of one side of the shell, the clamping hooks are connected with the grooves of the shell in a buckling mode, an elastic piece is arranged between the two clamping hooks and located at one end, extending out of the shell, of each clamping hook, elastic piece structures are arranged on two sides of the shell, and the elastic pieces correspond to the other ends of the clamping hooks.

6. The portable non-heated self-powered atomizing apparatus according to claim 5, wherein a communication hood is provided above the housing, a liquid suction port is provided on one side of the communication hood, one end of the liquid suction pipe is communicated with the liquid suction port, a liquid suction socket is provided on an inner wall of the recess of the housing, the liquid suction socket is communicated with the atomizing device, and the liquid suction port and the liquid suction socket are in contact communication with each other.

7. The portable non-heated self-powered atomizing device as claimed in claim 6, wherein a liquid return port is further disposed on one side of the communicating cover, a liquid return tube is further disposed inside the housing, one end of the liquid return tube is communicated with the inside of the container body, and the other end of the liquid return tube is communicated with the liquid return port.

8. The portable non-heated atomizing apparatus with power supply of claim 7, wherein the atomizing device comprises an atomizing cup and an air inlet connector, the atomizing cup is provided with an atomizing cover protruding inward at the bottom, the air inlet connector is disposed below the atomizing cup and inserted into the atomizing cover, the air pump is communicated with the air inlet connector, the air inlet connector is provided with a guiding groove on the surface, the guiding groove and the inner wall of the atomizing cover form a liquid flow channel for liquid flowing, the atomizing cover is provided with an atomizing hole at the top, the liquid flow channel is communicated with the atomizing hole, a liquid inlet pipe is disposed below the atomizing cup, one end of the liquid inlet pipe is communicated with a liquid suction socket, the other end of the liquid inlet pipe is communicated with the liquid flow channel, an impact component is disposed inside the atomizing cup and above the atomizing hole, and a gap is formed between the impact component and the atomizing hole, and a mist outlet is formed in the side surface of the atomizing cup body and communicated with the atomizing cup body and the mist outlet.

9. The portable non-heated atomizing device with power supply as claimed in claim 8, wherein the inner wall of the groove of the housing is further provided with a liquid return socket, the liquid return socket is in contact communication with the liquid return interface, a return pipe is further provided below the atomizing cup body, one end of the return pipe is communicated with the atomizing cup body, and the other end of the return pipe is communicated with the liquid return socket.

10. The portable non-heated atomizing device with power supply of claim 8, wherein said impact assembly comprises a fixing base, a stop strip and a fixing ring, said stop strip is disposed in the fixing ring, said fixing ring is disposed under the fixing base, said fixing base is fixedly connected with the upper portion of the atomizing cup body through a fastening member, and said stop strip is located above the atomizing hole.

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