CN216845046U - Atomization disinfection and air purification all-in-one machine - Google Patents

Abstract

The utility model discloses an atomization disinfection and air purification integrated machine, which comprises a machine body frame, wherein the machine body frame is erected on the ground, and the atomization component, the air purification component and the air inlet component are also arranged, the atomization component is arranged at the upper part of the machine body frame, the air purification component is arranged at the lower part of the machine body frame, the upper part of the air purification component is arranged adjacent to the upper part of the atomization component, and the air inlet component is arranged at the middle part of the air purification component, the utility model has the advantages that the structure is simple, the atomization component is matched with the air purification component, the air purification function and the atomization killing function are integrated into a whole, the purpose of one machine with multiple purposes is realized, the use cost is reduced while the air killing efficiency is improved, the diffusion speed of the killing spray can be improved by a fan in the air purification component, the atomization killing efficiency is improved, and the air inlet component is arranged, the air inlet mode can be adjusted in real time according to actual demands, and the practicability is high.

Description

Atomizing disinfection and air purification all-in-one

Technical Field

The utility model belongs to the technical field of the air purification technique and specifically relates to an atomizing disinfection and air purification all-in-one is related to.

Background

In the prior art, if the indoor air is not ventilated for a long time, harmful gases such as formaldehyde and the like and haze indexes are even higher than those of the outdoor air. The problem of disinfecting and purifying indoor air, particularly public spaces where people are more introduced, such as shopping malls, restaurants, hospital outpatient rooms and the like, has become an increasingly concerned problem in public health nowadays, and is one of important measures for preventing and controlling infection sources and preventing cross infection. Aiming at indoor environment, the chemical disinfectant disinfection method has better disinfection effect, is widely applied to the public places fields of schools, medical treatment, traffic, catering, commerce and the like and the livestock breeding field, and the chemical disinfectant atomization disinfection is mainly carried out in the modes of manual spraying and indoor special pipeline spraying at present. However, adopt the manual work to spray mode intensity of labour big, the cost of labor is high, and spraying the in-process in addition, the pollution degree that the naked eye that relies on the personnel of spraying can't judge the air sprays the precision and hangs down, can't control effectively and spray the volume for some places are probably sprayed excessively, and some places then spray less, and final disinfection effect is uneven. And special pipeline sprays then need reform transform indoor environment, and it is with high costs to reform transform, receives the piping erection overall arrangement influence moreover, and the disinfection effect is also uneven. When the existing air purification equipment purifies or atomizes and kills air, the speed of the spray at the spray outlet is also limited because the speed of the spray is influenced by the wind speed of the fan of the atomizing assembly, the spray sprayed into the air is difficult to spread, and the speed of the atomization and killing is seriously influenced.

The application numbers are: 202010479915.0 discloses an autonomous mobile indoor air purification device, which comprises an atomization device, a walking device, a dynamic environment monitoring device and a central processing control unit. The atomization device and the dynamic environment monitoring device are respectively arranged at the top of the walking device, and the central processing control unit is arranged in the walking device and is respectively in communication connection with the walking device, the dynamic environment monitoring device and the atomization device. The central processing control unit is used for controlling the walking device to move along a preset track, controlling the dynamic environment monitoring device to collect environment data and controlling the atomizing device to purify indoor air according to the environment data. However, this kind of independently portable indoor air purification equipment can only purify the air, and can't atomize to the air and disappear and kill to even add the atomizing on this equipment and disappear and kill the subassembly, it atomizes to the air and disappears and kills when, the air purification fan on the device also can not open simultaneously, because the atomizing spray of killing that disappears can be absorbed by air purifier's filter core, thereby reduce filter core life, influence air purification effect, thereby produced the atomizing and disappear when the slow problem of spraying diffusion.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an atomizing disinfection and air purification all-in-one.

In order to achieve the above object, the present invention provides a technical solution:

the utility model provides an atomizing disinfection and air purification all-in-one, includes body frame, body frame erects subaerial, still includes atomization component, air purification subassembly and air inlet subassembly, and atomization component is located body frame's upper portion, air purification subassembly are located body frame's lower part, and the upper portion of air purification subassembly and atomization component's upper portion adjacent setting, air inlet subassembly are located the middle part of air purification subassembly.

Atomization component includes ultrasonic atomization ware and goes out the fog pipeline, ultrasonic atomization ware sets up organism frame's upper portion and with organism frame fixed connection, it sets up to go out the fog pipeline the upper end of ultrasonic atomization ware and with ultrasonic atomization ware intercommunication, it is equipped with out the fog mouth to go out fog pipeline upper end, it sets up to go out the slope of fog mouth.

The air purification subassembly includes air inlet subassembly, fan subassembly and air-out pipeline, and the air inlet subassembly sets up organism frame's lower part, fan subassembly set up in the upper end of air inlet subassembly and with air inlet subassembly intercommunication, the fan subassembly is located organism frame's middle part, air-out pipeline set up in the upper end of fan subassembly and with fan subassembly intercommunication, air-out pipeline upper end is equipped with the air outlet, the air outlet corresponds the slope of fog outlet sets up.

The air inlet subassembly includes that intake stack, driving motor and pipeline rotate page or leaf, the inside hollow structure that is of intake stack, bottom one side of intake stack is equipped with filters the opening, the intake stack is kept away from be equipped with the air inlet opening on filtering the open-ended lateral wall, driving motor sets up intake stack's bottom center department and with intake stack fixed connection, driving motor's output sets up downwards, the rotatory page or leaf setting of pipeline is in the intake stack is inside and with driving motor's output fixed connection, the shape that the rotatory page or leaf of pipeline corresponds filter the opening and the air inlet opening sets up.

The fan subassembly includes fan holding pipe, purification fan and holding apron, the setting of fan holding pipe is in the upper end of intake stack and its bottom with the intake stack intercommunication, the inside hollow structure that is of fan holding pipe, purification fan sets up the fan holding pipe is inside and with fan holding pipe fixed connection, the setting is lapped and is set up the upper end of fan holding pipe and with fan holding pipe fixed connection, the air-out pipeline with the inside intercommunication of fan holding pipe.

Still include the air purification filter core, the air purification filter core sets up organism frame's lower part and with the connection can be dismantled to organism frame, the air purification filter core is located organism frame with between the intake stack, the air purification filter core passes through filter the opening with the intake stack intercommunication.

The upper parts of the mist outlet pipeline and the air outlet pipeline are arranged adjacently, and the mist outlet and the air outlet are arranged adjacently and face upwards.

And the fog outlet and the air outlet are respectively provided with a grating sheet for guiding the air to flow.

The air outlet pipeline corresponds the ultrasonic atomizer sets up to binary channels structure just two passageways of air outlet pipeline are located respectively ultrasonic atomizer's both sides.

The air inlet assembly, the fan assembly, the air outlet pipeline and the air purification filter element jointly form the air purification assembly with a double air inlet mode.

The utility model has the advantages that:

simple structure, be equipped with atomization component and air purification subassembly cooperation, it is integrated as an organic whole with air purification function and atomizing function of killing, a multi-purpose has been realized, use cost has been reduced when having improved the air efficiency of killing, and the fan in the air purification subassembly can promote the diffusion velocity of the spraying of killing, promote the efficiency that the atomizing was killed, atomization component and air purification subassembly all can independent control, the user mode of device has been richened, be equipped with the air inlet subassembly, can adjust the air inlet mode according to actual demand in real time, thereby satisfy the amount of wind that gets into the air purification subassembly and whether pass through the user demand of filter core, therefore, the clothes hanger is strong in practicability.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the atomizing assembly of the present invention;

FIG. 3 is a schematic structural view of the air purification assembly of the present invention;

FIG. 4 is an exploded view of the intake assembly of the present invention;

fig. 5 is a schematic view of the blower accommodating tube and the purification blower of the present invention.

In the figure: 1. a machine body frame; 2. an ultrasonic atomizer; 3. a mist outlet pipeline; 4. a mist outlet; 5. an air outlet pipeline; 6. an air outlet; 7. an air inlet pipeline; 8. a drive motor; 9. the pipeline rotating page; 10. a filtration opening; 11. an air inlet opening; 12. a fan accommodating pipe; 13. a purifying fan; 14. a cover plate is accommodated; 15. an air purification filter element.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings,

the utility model provides an atomizing disinfection and air purification all-in-one, includes organism frame 1, and organism frame 1 erects subaerial, still includes atomization component, air purification subassembly and air inlet subassembly, and atomization component is located organism frame 1's upper portion, and air purification subassembly is located organism frame 1's lower part, and the upper portion of air purification subassembly and the adjacent setting in atomization component's upper portion, and the air inlet subassembly is located the middle part of air purification subassembly, the utility model discloses the overall structure schematic diagram is shown in FIG. 1.

Atomization component includes ultrasonic nebulizer 2 and goes out fog pipeline 3, ultrasonic nebulizer 2 set up on frame 1 upper portion and with frame 1 fixed connection, go out fog pipeline 3 set up in ultrasonic nebulizer 2 upper end and communicate with ultrasonic nebulizer 2, it is equipped with out fog mouth 4 to go out fog pipeline 3 upper end, go out the slope of fog mouth 4 and set up, atomization component passes through ultrasonic nebulizer 2 and goes out the cooperation of fog pipeline 3, atomization module as equipment is used for realizing the atomizing disinfection function of equipment, wherein, ultrasonic nebulizer 2 is used for through ultrasonic vibration effect, make the antiseptic solution convert the atomizing form of micromolecule granule by liquid, float in the air, realize bactericidal action, it is used for in the leading-in air of the spraying that ultrasonic nebulizer 2 produced to go out the fog passageway, the utility model discloses atomization component structure schematic diagram is shown in fig. 2.

The air purification subassembly includes the air inlet subassembly, fan subassembly and air-out pipeline 5, the air inlet subassembly sets up the lower part at organism frame 1, the fan subassembly sets up the upper end at the air inlet subassembly and communicates with the air inlet subassembly, the fan subassembly is located organism frame 1's middle part, air-out pipeline 5 sets up the upper end at the fan subassembly and communicates with the fan subassembly, air-out pipeline 5 upper end is equipped with air outlet 6, air outlet 6 corresponds the slope of fog mouth 4 and sets up, the air purification subassembly passes through the air inlet subassembly, fan subassembly and the cooperation of air-out pipeline 5, be used for realizing the air purification function of equipment as purification module, wherein, the air inlet subassembly is used for realizing two kinds of different air inlet modes through changing its self channel structure, be used for satisfying the different user demands of equipment, the fan subassembly is arranged in as the fan module in the air purification subassembly, adjust the amount of wind, air-out pipeline 5 is used for discharging the air after purifying or accelerating the spraying diffusion speed in atomization component exit Degree to accelerate the speed of atomizing and killing, the utility model discloses air purification subassembly structure schematic diagram is shown in fig. 3.

The air inlet component comprises an air inlet pipeline 7, a driving motor 8 and a pipeline rotating blade 9, the interior of the air inlet pipeline 7 is of a hollow structure, one side of the bottom of the air inlet pipeline 7 is provided with a filtering opening 10, the side wall, far away from the filtering opening 10, of the air inlet pipeline 7 is provided with an air inlet opening 11, the driving motor 8 is arranged at the center of the bottom of the air inlet pipeline 7 and is fixedly connected with the air inlet pipeline 7, the output end of the driving motor 8 faces downwards, the pipeline rotating blade 9 is arranged inside the air inlet pipeline 7 and is fixedly connected with the output end of the driving motor 8, the shape of the pipeline rotating blade 9 corresponds to the filtering opening 10 and the air inlet opening 11, the air inlet component is matched with the driving motor 8 and the pipeline rotating blade 9 through the air inlet pipeline 7, has two air inlet modes, and can adjust the air inlet modes in real time according to use requirements, wherein the air inlet pipeline 7 is used for providing an air inlet space and providing mounting support for the driving motor 8 and the pipeline rotating blade 9, the driving motor 8 is used for driving the pipeline rotating blade 9 to rotate, the pipeline rotating blade 9 is used for rotating under the action of the driving motor 8, so that the filtering opening 10 or the air inlet opening 11 is blocked, different air inlet modes are realized, namely whether the air volume entering the fan assembly is regulated by the filter element or not is realized, when the air purification assembly needs to be independently started to purify air, the driving motor 8 is only controlled to rotate the pipeline rotating blade 9 to the air inlet opening 11, so that the air inlet opening 11 is in a closed state, and the filtering opening 10 is in an open state, at the moment, air can pass through the air purification filter element 15, enters the fan assembly from the air vent at the bottom of the air inlet pipeline 7 and is further discharged, and the air is filtered; when the atomizing is opened to needs, atomization component normally works, the spraying of tiny granule is spouted, at this moment, control driving motor 8 is rotatory to filtering opening 10 department with the pipeline rotation page or leaf 9 in the air inlet subassembly, make filtering opening 10 be in the closed condition, air inlet opening 11 is in the open mode, make external air not pass through air purification filter core 15, directly flow in the fan subassembly, and flow out from air outlet 6, because atomization component goes out fog mouth 4 and air purification subassembly air outlet 6 distance is nearer, the wind that air purification subassembly air outlet 6 came out at this moment can accelerate the diffusion velocity that atomization component goes out the spraying of fog mouth 4 department, thereby can accelerate the speed of atomizing and killing, the utility model discloses air inlet subassembly explosion schematic diagram is shown in fig. 4.

The fan assembly comprises a fan accommodating pipe 12, a purification fan 13 and an accommodating cover plate 14, the fan accommodating pipe 12 is arranged at the upper end of the air inlet pipeline 7, the bottom of the fan accommodating pipe 12 is communicated with the air inlet pipeline 7, the interior of the fan accommodating pipe 12 is of a hollow structure, the purification fan 13 is arranged inside the fan accommodating pipe 12 and is fixedly connected with the fan accommodating pipe 12, the accommodating cover plate 14 is arranged at the upper end of the fan accommodating pipe 12 and is fixedly connected with the fan accommodating pipe 12, the air outlet pipeline 5 is communicated with the interior of the fan accommodating pipe 12, the fan assembly is matched with the fan accommodating pipe 12, the purification fan 13 and the accommodating cover plate 14 to form a fan part in the air purification assembly, wherein the fan accommodating pipe 12 is used for providing mounting support for the purification fan 13 and the accommodating cover plate 14, the purification fan 13 is used for driving the air purification assembly, and the accommodating cover plate 14 is used for separating the interior from the exterior of the fan accommodating pipe 12, form the holding chamber of the holding amount of wind, the utility model discloses fan holding pipe and purification fan cooperation schematic diagram are shown in fig. 5.

Still include air purification filter core 15, air purification filter core 15 sets up in the lower part of organism frame 1 and can dismantle with organism frame 1 and be connected, air purification filter core 15 is located between organism frame 1 and the intake stack 7, air purification filter core 15 is through filtering opening 10 and intake stack 7 intercommunication, the air inlet subassembly, the fan subassembly, air-out pipeline 5 and air purification filter core 15 constitute the air purification subassembly that has two air inlet modes jointly, wherein, air purification filter core 15 is arranged in as the purification filtration module in the air purification subassembly, realize the air purification function.

The upper parts of the mist outlet pipeline 3 and the air outlet pipeline 5 are adjacently arranged, the mist outlet 4 and the air outlet 6 are adjacently arranged and face upward, the mist outlet 4 and the air outlet 6 are respectively provided with a grating piece for guiding the gas flow direction, and the gas flow direction can be adjusted by changing the direction of the grating piece.

Air-out pipeline 5 corresponds ultrasonic nebulizer 2 and sets up two passageways that set up to binary channels structure and air-out pipeline 5 and lie in ultrasonic nebulizer 2's both sides respectively, and wherein, air-out pipeline 5 adopts the binary channels structure can promote the whole integrated level of device when guaranteeing the air-out effect.

Wherein, atomizing subassembly and air purification subassembly all can be controlled alone.

The working principle is as follows:

the equipment has two working modes, namely an air purification mode and an atomization disinfection mode, when the air purification mode is carried out, an air purification assembly is started, a driving motor 8 is controlled to rotate a pipeline rotating blade 9 to an air inlet opening 11, so that the air inlet opening 11 is in a closed state, a filtering opening 10 is in an open state, a purification fan 13 works, air enters the fan assembly from a vent at the bottom of an air inlet pipeline 7 through an air purification filter element 15 and is further discharged, the air filtration is realized, when the atomization disinfection mode is carried out, the atomization assembly is started, an ultrasonic atomizer 2 converts disinfectant into an atomized state of small molecular particles from liquid and discharges the atomized state through a fog outlet pipeline 3, and simultaneously the driving motor 8 is controlled to rotate the pipeline rotating blade 9 in the air inlet assembly to the filtering opening 10, so that the filtering opening 10 is in a closed state, and the air inlet opening 11 is in an open state, make external air not pass through air purification filter core 15, directly flow in the fan subassembly, and flow from 6 departments of air outlet, avoid atomizing disinfection granule to cause the damage to air purification filter core 15, and because atomizing component goes out fog mouth 4 and air purification subassembly air outlet 6 distance is near, the wind that air purification subassembly air outlet 6 came out at this moment can accelerate the diffusion velocity that atomizing component goes out the fog mouth 4 department spraying, thereby can accelerate the speed of atomizing and killing, wherein, the air inlet mode can be adjusted according to the in-service use demand.

The beneficial effects of the utility model are that simple structure, be equipped with atomization component and air purification subassembly cooperation, it is integrated as an organic whole with air purification function and atomizing function of killing, a multipurpose purpose has been realized, use cost has been reduced when having improved air efficiency of killing, and fan in the air purification subassembly can promote the diffusion velocity of the spraying of killing, promote the efficiency that the atomizing was killed, atomization component and air purification subassembly all can independent control, the user mode of device has been richened, be equipped with air inlet subassembly, can adjust air inlet mode in real time according to actual demand, thereby satisfy the amount of wind that gets into the air purification subassembly and whether pass through the user demand of filter core, therefore, the clothes hanger is strong in practicability.

While one embodiment of the present invention has been described in detail, the present invention is only a preferred embodiment of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides an atomizing disinfection and air purification all-in-one, includes organism frame (1), organism frame (1) erects subaerial, its characterized in that still includes atomization component, air purification subassembly and air inlet subassembly, and atomization component is located the upper portion of organism frame (1), the air purification subassembly is located the lower part of organism frame (1), and the upper portion of air purification subassembly and the adjacent setting in upper portion of atomization component, the air inlet subassembly is located the middle part of air purification subassembly.

2. The integrated atomizing, disinfecting and air purifying machine according to claim 1, wherein the atomizing assembly comprises an ultrasonic atomizer (2) and a mist outlet pipe (3), the ultrasonic atomizer (2) is disposed on the upper portion of the machine frame (1) and is fixedly connected with the machine frame (1), the mist outlet pipe (3) is disposed at the upper end of the ultrasonic atomizer (2) and is communicated with the ultrasonic atomizer (2), a mist outlet (4) is disposed at the upper end of the mist outlet pipe (3), and the mist outlet (4) is obliquely disposed.

3. The integrated atomizing, disinfecting and air purifying machine according to claim 2, wherein the air purifying assembly comprises an air inlet assembly, a fan assembly and an air outlet pipeline (5), the air inlet assembly is arranged at the lower part of the machine frame (1), the fan assembly is arranged at the upper end of the air inlet assembly and communicated with the air inlet assembly, the fan assembly is located at the middle part of the machine frame (1), the air outlet pipeline (5) is arranged at the upper end of the fan assembly and communicated with the fan assembly, an air outlet (6) is arranged at the upper end of the air outlet pipeline (5), and the air outlet (6) is obliquely arranged corresponding to the mist outlet (4).

4. An integrated machine of atomization, disinfection and air purification as claimed in claim 3, characterized in that the air intake assembly comprises an air intake duct (7), a driving motor (8) and a duct rotary vane (9), the interior of the air inlet pipeline (7) is of a hollow structure, one side of the bottom of the air inlet pipeline (7) is provided with a filtering opening (10), an air inlet opening (11) is arranged on the side wall of the air inlet pipeline (7) far away from the filtering opening (10), the driving motor (8) is arranged at the center of the bottom of the air inlet pipeline (7) and is fixedly connected with the air inlet pipeline (7), the output end of the driving motor (8) is arranged downwards, the pipeline rotating blade (9) is arranged in the air inlet pipeline (7) and is fixedly connected with the output end of the driving motor (8), the shape of the pipeline rotating leaf (9) is arranged corresponding to the filtering opening (10) and the air inlet opening (11).

5. The integrated atomizing, disinfecting and air purifying machine according to claim 4, wherein the fan assembly comprises a fan accommodating tube (12), a purifying fan (13) and an accommodating cover plate (14), the fan accommodating tube (12) is disposed at the upper end of the air inlet duct (7) and the bottom of the fan accommodating tube is communicated with the air inlet duct (7), the inside of the fan accommodating tube (12) is a hollow structure, the purifying fan (13) is disposed inside the fan accommodating tube (12) and is fixedly connected with the fan accommodating tube (12), the accommodating cover plate (14) is disposed at the upper end of the fan accommodating tube (12) and is fixedly connected with the fan accommodating tube (12), and the air outlet duct (5) is communicated with the inside of the fan accommodating tube (12).

6. The integrated atomizing, disinfecting and air purifying machine according to claim 4, further comprising an air purifying filter element (15), wherein the air purifying filter element (15) is disposed at a lower portion of the machine frame (1) and detachably connected to the machine frame (1), the air purifying filter element (15) is disposed between the machine frame (1) and the air inlet duct (7), and the air purifying filter element (15) is communicated with the air inlet duct (7) through the filtering opening (10).

7. The integrated machine for atomization, disinfection and air purification as claimed in claim 3, wherein the upper portions of the mist outlet duct (3) and the air outlet duct (5) are adjacently arranged, and the mist outlet (4) and the air outlet (6) are adjacently arranged and face upward.

8. The integrated machine of claim 7, wherein the mist outlet (4) and the air outlet (6) are provided with grid pieces for guiding air flow.

9. The integrated machine for atomization, disinfection and air purification of claim 3, wherein the air outlet pipe (5) is arranged in a double-channel structure corresponding to the ultrasonic atomizer (2) and two channels of the air outlet pipe (5) are respectively located at two sides of the ultrasonic atomizer (2).

10. The integrated machine of claim 6, wherein the air intake assembly, the fan assembly, the air outlet duct (5) and the air purifying filter element (15) together form an air purifying assembly with a double air intake mode.

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