CN209991555U - Microclimate all-in-one machine - Google Patents

Abstract

The utility model provides a microclimate all-in-one, including the casing subassembly and install in purification subassembly, air supply subassembly, humidification subassembly, dry subassembly and the control assembly in the casing subassembly, the control assembly pass through the circuit respectively with purification subassembly, air supply subassembly, humidification subassembly and dry subassembly link to each other, humidification subassembly and dry subassembly install respectively in the relative both sides of air supply subassembly, purification subassembly, air supply subassembly and humidification subassembly are used for purifying the air and the humidification, dry subassembly includes heat exchanger and compressor, the compressor pass through the pipeline with heat exchanger connects to dry the air. The purification assembly comprises a filtering assembly and an anion assembly. The microclimate all-in-one machine has multiple functions of degerming, static electricity removal, PM2.5 removal, formaldehyde removal, drying, purification, peculiar smell removal, humidification and the like.

Description

Microclimate all-in-one machine

Technical Field

The utility model relates to an electrical equipment field especially relates to a microclimate all-in-one.

Background

With the development of modern industry, air is polluted and air quality is obviously reduced. In spring, the air contains more pollen and dust, and the human body is easily allergic and uncomfortable. In autumn and winter, haze weather and moisture are obviously increased, and PM2.5 index exceeds standard. The outdoor environment seriously affects the indoor air quality, and the quality of the indoor air quality has important influence on the human health. In order to provide a clean indoor environment, air purifiers have come into use. The existing air purifier has no functions of humidification, drying, sterilization and the like, and has a single function, so that the design of a multifunctional air purifying device is necessary.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a micro-climate all-in-one machine with multiple functions of purification, humidification and drying.

The utility model provides a microclimate all-in-one machine, which comprises a shell component, and a purification component, an air supply component, a humidification component, a drying component and a control component which are arranged in the shell component, wherein the control component is respectively connected with the purification component, the air supply component, the humidification component and the drying component through circuits, the humidification component and the drying component are respectively arranged at two opposite sides of the air supply component, the purification component, the air supply component and the humidification component are used for purifying and humidifying air, the drying component comprises a heat exchanger and a compressor, the compressor is connected with the heat exchanger through pipelines so as to dry air, when the microclimate all-in-one machine is in a purification mode, the purification component runs, the humidification component and the drying component do not run, when the microclimate all-in-one machine is in a humidification mode, the purification component and the humidification component operate, the drying component does not operate, when the microclimate all-in-one machine is in a drying mode, the purification component and the drying component operate, and the humidification component does not operate.

Furthermore, the humidifying component comprises a humidifying membrane, a water tank and a first water tank, the humidifying membrane is installed between the purifying component and the air supply component, one end of the first water tank is connected to the water tank, and part of the humidifying membrane is immersed in the water tank.

Further, the humidifying assembly further comprises a second motor, and the second motor is installed on one side of the humidifying membrane to drive the humidifying membrane to rotate.

Furthermore, the drying assembly further comprises a second water tank and a water guide plate, one end of the second water tank is close to the heat exchanger, and the water guide plate is installed between the heat exchanger and the second water tank.

Further, the shell assembly comprises a bottom plate and a top plate which are arranged oppositely, and a plurality of side plates which are connected between the bottom plate and the top plate, the shell assembly further comprises an air inlet and a plurality of air outlets, the air inlet is arranged on one of the side plates, and the air outlets are arranged on the top plate or the side plates which are close to the top plate.

Furthermore, the air supply assembly is arranged at the central position in the shell assembly, and one end of the air supply assembly is close to the two air outlets and forms an air supply chamber with the top plate.

Furthermore, the plane where the air inlet is located is taken as a first plane, the plane perpendicular to the bottom plate is taken as a second plane, and the included angle between the first plane and the second plane ranges from 1 degree to 30 degrees.

Furthermore, the purification assembly comprises a filter assembly, the size of the filter assembly is matched with that of the air inlet, and the filter assembly is installed on the air inlet.

Further, the purification assembly also comprises an anion assembly, wherein the anion assembly is close to one end of the air supply assembly and purifies air in the process of discharging the air.

Further, the control assembly comprises a sensor assembly, and the sensor assembly comprises a temperature sensor, a humidity sensor, a light sensor and a particle sensor, which are respectively used for detecting the temperature, the humidity, the light intensity and the particles in the air.

In the microclimate all-in-one machine, the purification assembly filters the air to achieve the effect of purification and sterilization. The humidifying component generates water mist to be mixed with the purified air so as to achieve the humidifying effect. The drying component condenses water vapor in the air to achieve a drying effect. The anion component eliminates static electricity and inhibits the generation of peculiar smell.

Drawings

Fig. 1 is a left sectional view of the microclimate all-in-one machine according to an embodiment of the present invention.

Fig. 2 is a right sectional view of the microclimate all-in-one machine according to an embodiment of the present invention.

Fig. 3 is a front view of the housing assembly according to an embodiment of the present invention.

Fig. 4 is a rear view of the housing assembly according to an embodiment of the present invention.

Fig. 5 is a top view of the housing assembly according to an embodiment of the present invention.

Fig. 6 is a left side view of the housing assembly according to an embodiment of the present invention.

Fig. 7 is a second state diagram of the microclimate all-in-one machine according to an embodiment of the present invention.

Fig. 8 is a third state diagram of the microclimate all-in-one machine according to an embodiment of the present invention.

Description of the main elements

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

In order to make the aforementioned objects, features and advantages of the embodiments of the present invention more clearly understood, the present invention will be described in detail with reference to the accompanying drawings and detailed description. In addition, the features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth to provide a thorough understanding of embodiments of the invention, which are described as part of the invention, rather than as a whole. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the scope protected by the embodiments of the present invention.

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 embodiments of the present invention belong. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of embodiments of the invention.

Referring to fig. 1 and 2, the all-in-one microclimate machine 100 includes a housing assembly 10, and a purification assembly 20, an air supply assembly 30, a humidification assembly 40, a drying assembly 50 and a control assembly 60 installed in the housing assembly 10. The cleaning assembly 20 is used to clean the intake air. The blowing assembly 30 serves to suck and discharge air. The humidifying assembly 40 and the drying assembly 50 are respectively installed at opposite sides of the air supply assembly 30 to respectively humidify and dry air. The control component 60 is respectively connected to the purification component 20, the air supply component 30, the humidification component 40 and the drying component 50 through circuits so as to control the microclimate all-in-one machine 100.

Referring to fig. 3, 4, 5 and 6, the housing assembly 10 includes a bottom plate 11 and a top plate 12 disposed opposite to each other, and a plurality of side plates 13 connected between the bottom plate 11 and the top plate 12. The housing assembly 10 is used to mount other components. The housing assembly 10 further includes an air inlet 14 and a plurality of air outlets 15. The air inlet 14 is arranged on one of the side plates 13, a plane where the air inlet 14 is located is taken as a first plane, a plane perpendicular to the bottom plate 11 is taken as a second plane, and an included angle between the first plane and the second plane ranges from 1 degree to 30 degrees, so that the area of air to be purified sucked by the air inlet is increased. In one embodiment, the first plane is at an angle of 15 ° to the second plane. In one embodiment, the number of the air outlets 15 is 2, wherein one air outlet 15 is disposed on the top plate 12, and the other air outlet 15 is disposed on one side plate 13 opposite to the side plate where the air inlet 14 is located and adjacent to the top plate 12. The air outlet 15 is used for discharging purified air. Each air outlet 15 includes an adjusting blade 151, and the adjusting blade 151 is disposed on the air outlet 15 and is used for adjusting the air outlet direction. The housing assembly 10 further includes a plurality of casters (not shown) disposed on the bottom plate 11, and in one embodiment, the number of the casters is 4, and the casters are respectively installed around the bottom plate 11 and are used for moving the microclimate all-in-one machine 100 in all directions. Each of the casters includes a brake (not shown) to fix the position of the microclimate all-in-one machine 100. The housing assembly 10 also includes oppositely disposed, in-line handles 17 to facilitate pulling and pushing the microclimate all-in-one machine 100.

Referring to fig. 2, the purification assembly 20 includes a filter assembly 21 and an anion assembly 22. The filter assembly 21 is installed at a position of the intake vent 14 to filter the external air. Specifically, the size of the filter assembly 21 is matched with that of the air inlet 14, and the filter assembly 21 is mounted on the air inlet 14 through a buckle, so as to be convenient to detach and clean. The filter assembly 21 includes a first filter 211, a second filter 212, and a third filter 213 connected in sequence. The first filter screen 211 is a large particle filter screen to filter general large particle dust. The second filter 212 is an electrostatic HEPA filter to filter particles above 0.3 μm and eliminate static electricity. The third filter screen 213 is an activated carbon odor elimination filter screen to remove odor, formaldehyde, PM2.5, and the like. The air passes through the first filter screen 211, the second filter screen 212 and the third filter screen 213 in sequence to filter harmful substances such as PM2.5, formaldehyde and the like, and the purifying effect is achieved.

The negative ion module 22 is mounted on the side plate 13 where the air inlet 14 is located and adjacent to the top plate 12 to purify air by negative ion technology. Specifically, the negative ion module 22 uses a clean ion cluster technique, and positive ions and negative ions of the clean ion cluster can neutralize charges of electrostatic effect, thereby inhibiting fine particles from attaching to a wall and inhibiting odor generated by incomplete drying.

Referring to fig. 2, the air supply assembly 30 is generally centrally mounted within the housing assembly 10 to generate suction to draw air from the air inlet 14 into the microclimate all-in-one machine 100. One end of the air supply assembly 30 is close to the two air outlets 15, and forms an air supply chamber 33 with the top plate 12 to discharge purified air. The air supply assembly 30 includes a centrifugal fan 31 and a first motor 32, specifically, the centrifugal fan 31 is installed at a central position in the housing assembly 10, and the first motor 32 is installed at one side of the centrifugal fan 31. The centrifugal fan 31 is connected with the first motor 32, and the first motor 32 drives the centrifugal fan 31 to operate. In one embodiment, the first motor 32 is a brushless dc motor to reduce noise.

When the microclimate all-in-one machine 100 is in a purification mode, the first motor 32 drives the centrifugal fan 31 to operate, and air is sucked from the filter assembly 21 and sequentially passes through the first filter screen 211, the second filter screen 212 and the third filter screen 213. The centrifugal fan 31 blows the filtered air to the air supply chamber 33, the negative ion component 22 operates to ionize and further purify the air, and the two air outlets 15 send out the purified air.

Referring to fig. 2 and 6, the humidifying unit 40 is installed between the filter unit 21 and the centrifugal fan 31 to discharge humidified air. The humidifying assembly 40 includes a humidifying membrane 41, a second motor 42, a water tank 43, and a first water tank 44. The humidifying membrane 41 is substantially circular, and a rotation shaft (not shown) is provided at the center. The humidifying membrane 41 is installed between the filter assembly 21 and the centrifugal fan 31. The periphery of the humidifying membrane 41 is provided with a driving part 412, the second motor 42 is installed at one side of the humidifying membrane 41, and one end of the second motor 42 is provided with a gear which is engaged with the driving part 412 to drive the humidifying membrane 41 to rotate. In one embodiment, the second electric machine 42 is a claw-pole permanent magnet synchronous motor. The water tank 43 is installed at one end of the humidifying membrane 41 close to the bottom plate 11 to accommodate a part of the humidifying membrane 41. Support brackets (not shown) extend from opposite sides of the water tank 43 to mount the rotating shaft. The first water tank 44 is installed on one of the side panels 13, and the first water tank 44 includes a first opening (not shown) connected to the water tank 43 to supply water to the water tank 43, a first handle 442, and a light energy generating device (not shown). The first opening is generally circular and has a diameter in the range of 70mm to 100mm to facilitate insertion of a hand into the first tank 44 for cleaning. In one embodiment, the first opening has a diameter of 100 mm. The first handle 442 is installed at one side of the first water tank 44 to facilitate loading and unloading. The light energy generating means is installed in the first water tank 44 to absorb the victim materials and decompose.

Referring to fig. 7, when the microclimate all-in-one machine 100 is in a humidifying mode, the centrifugal fan 31 sucks air, and the air is filtered and purified by the filter assembly 21. The first water tank 44 supplies water to the water tank 43 to stabilize the amount of water in the water tank 43. Part of the humidifying membrane 41 is immersed in the water tank 43, and the second motor 42 drives the humidifying membrane 41 to rotate to shake the water in the water tank 43 to form a water mist. At the same time, the streamer energy generation device 413 absorbs harmful substances and decomposes. The purified air is mixed with the water mist, the air humidified by the centrifugal fan 31 is blown to the air supply chamber 33, the anion component 22 is ionized to further purify the air, and the humidified air is sent out by the two air outlets 15, so that the humidifying function is achieved.

Referring to fig. 1 and 2, the drying assembly 50 is installed at a side of the centrifugal fan 31 away from the humidifying membrane 41 to dry air. The drying assembly 50 includes a heat exchanger 51, a compressor 52, a second water tank 53, and a water guide plate 54. The heat exchanger 51 is installed on the side of the centrifugal fan 31 away from the humidifying membrane 41. The compressor 52 is installed on the base plate 11 and connected to the heat exchanger 51 through a pipe to cool the heat exchanger 51. Specifically, the heat exchanger 51 includes an evaporator (not numbered) and a condenser (not shown), and the compressor 52 compresses the refrigerant into a high-temperature and high-pressure gaseous refrigerant, and then the gaseous refrigerant is throttled and depressurized and then changed into a liquid refrigerant by the condenser, and the liquid refrigerant is evaporated and absorbs heat by the evaporator 511 to achieve a refrigeration effect.

The second tank 53 is installed on the bottom plate 11, and the second tank 53 includes a second opening 531 and a second handle 532, and the second opening 531 is adjacent to the heat exchanger 51 to collect the sewage condensed on the heat exchanger 51. The second opening 531 is substantially circular, and the diameter of the second opening 531 ranges from 70mm to 100mm, so that hands can be easily put into the second water tank 53 for washing. In one embodiment, the second opening 531 is 100mm in diameter. The second handle 532 is installed at one side of the second tank 53 so as to be easily detached. The water guide plate 54 is installed between the heat exchanger 51 and the second water tank 53, and specifically, one end of the water guide plate 54 is fixed inside the side plate 13, and the other end of the water guide plate is directed to the second opening 531, so as to guide the sewage condensed on the heat exchanger 51 into the second water tank 53.

Referring to fig. 8, when the micro-climate all-in-one machine 100 is in the drying mode, the centrifugal fan 31 sucks air, and the air is filtered and purified by the filter assembly 21. The compressor 52 cools the heat exchanger 51, and condenses and attaches moisture in the air to the heat exchanger 51. The water guide plate 54 guides the contaminated water condensed on the heat exchanger 51 into the second tank 53. The centrifugal fan 31 blows the dried air to the air supply chamber 33, the negative ion component 22 operates to ionize and further purify the air, and the two air outlets 15 send the purified air out to achieve the drying function.

Referring to fig. 2, 3 and 5, the control assembly 60 is respectively connected to the purification assembly 20, the blowing assembly 30, the humidifying assembly 40 and the drying assembly 50 through circuits to control the microclimate integrated machine 100 to achieve the functions of purification, humidification, drying and sterilization. The control assembly 60 includes a display screen 61, a control main board (not shown), a button panel 63, a sensor assembly 64, a communication assembly (not shown), and a power supply (not shown). The control main board is respectively connected with the display screen 61, the button panel 63, the sensor assembly 64, the communication assembly and the power supply through circuits so as to control the microclimate all-in-one machine 100. The display screen 61 is installed on the side plate 13, and the display screen 61 visually displays indoor air quality index, human health index, granularity index, temperature, humidity, air freshness, light brightness, PM2.5 index and the like. The sensor assembly 64 includes a temperature sensor, a humidity sensor, a light sensor, and a particle sensor, which are respectively used to detect the temperature, humidity, light intensity, and particles in the air. The button panel 63 is used to manually operate the microclimate all-in-one machine 100. The communication assembly comprises a wireless module system and an infrared module system and is controlled through a mobile phone APP network or a mobile phone APP infrared generator respectively.

When the microclimate all-in-one machine 100 is used, an intelligent mode is used, the microclimate all-in-one machine 100 can detect and analyze the humidity, the temperature, the peculiar smell, the dust content and the like of indoor air, and automatically carries out drying, humidifying and air purifying operations so as to keep the indoor air environment clean and comfortable. With the manual mode, a user can manually judge and operate the microclimate all-in-one machine 100 to perform drying, humidification and air purification according to the indoor environment condition. In the microclimate all-in-one machine 100, the purification component 20 filters the air so as to achieve the effect of purification and sterilization. The humidifying assembly 40 generates water mist to be mixed with the purified air so as to achieve a humidifying effect. The drying assembly 50 condenses moisture in the air to achieve a drying effect. The negative ion assembly 22 eliminates static electricity and suppresses generation of an offensive odor.

The above embodiments are only used to illustrate the technical solutions of the embodiments of the present invention and are not limited, and although the embodiments of the present invention have been described in detail with reference to the above preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions to the technical solutions of the embodiments of the present invention may be made without departing from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A microclimate all-in-one machine is characterized by comprising a shell assembly, a purification assembly, an air supply assembly, a humidification assembly, a drying assembly and a control assembly, wherein the purification assembly, the air supply assembly, the humidification assembly, the drying assembly and the control assembly are arranged in the shell assembly, the control assembly is respectively connected with the purification assembly, the air supply assembly, the humidification assembly and the drying assembly through circuits, the humidification assembly and the drying assembly are respectively arranged on two opposite sides of the air supply assembly, the purification assembly, the air supply assembly and the humidification assembly are used for purifying and humidifying air, the drying assembly comprises a heat exchanger and a compressor, the compressor is connected with the heat exchanger through a pipeline so as to dry the air, when the microclimate all-in-one machine is in a purification mode, the purification assembly is operated, the humidification assembly and the drying assembly are not operated, the purification component and the humidification component operate, the drying component does not operate, when the microclimate all-in-one machine is in a drying mode, the purification component and the drying component operate, and the humidification component does not operate.

2. The microclimate all-in-one machine according to claim 1, characterized in that: the humidifying component comprises a humidifying membrane, a water tank and a first water tank, the humidifying membrane is installed between the purifying component and the air supply component, one end of the first water tank is connected to the water tank, and part of the humidifying membrane is immersed in the water tank.

3. The microclimate all-in-one machine according to claim 2, characterized in that: the humidifying assembly further comprises a second motor, and the second motor is installed on one side of the humidifying membrane to drive the humidifying membrane to rotate.

4. The microclimate all-in-one machine according to claim 1, characterized in that: the drying assembly further comprises a second water tank and a water guide plate, one end of the second water tank is close to the heat exchanger, and the water guide plate is installed between the heat exchanger and the second water tank.

5. The microclimate all-in-one machine according to claim 1, characterized in that: the shell assembly comprises a bottom plate, a top plate and a plurality of side plates, wherein the bottom plate and the top plate are arranged oppositely, the side plates are connected between the bottom plate and the top plate, the shell assembly further comprises an air inlet and a plurality of air outlets, the air inlet is formed in one of the side plates, and the air outlets are formed in the top plate or close to the side plates of the top plate.

6. The microclimate all-in-one machine according to claim 5, characterized in that: the air supply assembly is arranged at the central position in the shell assembly, one end of the air supply assembly is close to the two air outlets, and the air supply assembly and the top plate form an air supply chamber.

7. The microclimate all-in-one machine according to claim 5, characterized in that: the plane where the air inlet is located is taken as a first plane, the plane perpendicular to the bottom plate is taken as a second plane, and the included angle range between the first plane and the second plane is 1-30 degrees.

8. The microclimate all-in-one machine according to claim 5, characterized in that: the purification assembly comprises a filter assembly, the size of the filter assembly is matched with that of the air inlet, and the filter assembly is installed on the air inlet.

9. The microclimate all-in-one machine according to claim 1, characterized in that the purification assembly further comprises an anion assembly which is close to one end of the air supply assembly and purifies air in the process of discharging air.

10. The microclimate all-in-one machine according to claim 1, characterized in that, the control subassembly includes a sensor subassembly, the sensor subassembly includes temperature sensor, humidity sensor, light sensor and particle sensor, is used for detecting temperature, humidity, light intensity and particulate matter in the air respectively.

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