CN104566648A - Air purifying device - Google Patents

Abstract

The invention provides an air purifying device. The air purifying device comprises a dissolving-purifying unit, a boosting-sterilizing unit, a purifying-ventilating unit and an illuminating-displaying unit, wherein the dissolving-purifying unit is connected to the boosting-sterilizing unit; the boosting-sterilizing unit is connected to the purifying-ventilating unit; the illuminating-displaying unit is arranged on the purifying-ventilating unit. According to the air purifying device, a spraying atomizer capable of spraying purified water into high-concentration water mist is arranged in the dissolving-purifying unit for the first time, so that the dissolving degree of contaminated air in water mist is increased greatly, and the purifying effect is ensured; meanwhile, a turbine boosting structure and a ventilation unit are designed innovatively, so that the purification ventilation strength is enhanced, and sufficient air volume and air pressure are ensured; moreover, the functions of water mist purification, filtering-dust removing, ultraviolet sterilization, ozone disinfection, illumination and the like are integrated innovatively, so that the overall performance of the air purifying device is enhanced greatly, and the air purifying device has greater market competitiveness.

Description

A kind of air cleaning unit

Technical field

The present invention relates to technical field of air purification, relate to a kind of air cleaning unit more specifically.

Background technology

Along with improving constantly of living standards of the people, people's quality of life and healthyly more and more to pay attention to, thus the air quality requirements relying living environment necessary to people is also more and more higher, in addition municipal pollution is more and more serious at present, haze weather gets more and more, industrial waste gas and vehicle exhaust, and domestic pollution is more and more serious, the air quality stem reality worse and worse of life, various air purifier is successively occurred, but existing air purifier ubiquity following defect: (1) dissolves purification with regard to water smoke, abundant the sending out that existing air purifier nearly all cannot realize purifying waste water is spilt, the water smoke meeting high strength purification and require cannot be formed, and then the abundant contact lysis of foul atmosphere and water smoke cannot be reached, make the clean-up effect of foul atmosphere general, even cannot the comparatively serious air of purifying contaminated.(2) most air purifier purification function is single, single first effect web is nearly all adopted to filter or activated carbon filtration, do not dissolve in conjunction with water smoke simultaneously, filter absorption and ultraviolet-sterilization, single purification function seriously limits the purification efficiency of existing clarifier.(3) about purification air-out, existing all air purifiers are not all considered, to the supercharging air-out of purified gas, to limit purification of air intensity.A kind of high strength air cleaning unit of the air comparatively serious for existing pollution is not yet there is in prior art.

Summary of the invention

The present invention is based on above-mentioned prior art problem, a kind of air cleaning unit of proposition of innovation, clean unit is dissolved by innovative design in air cleaning unit, supercharging sterili-sation unit and purification wind unit, the purifying property of air cleaning unit is promoted a step, especially wherein pioneering invention fully can to send out purifying waste water spill into high concentration water smoke fly spill atomizer, significantly improve the dissolution degree of foul atmosphere in water smoke, ensure that clean-up effect, simultaneously by turbocharging structure and wind unit innovative design, improve and purify monsoon intensity, ensure that enough airflow pressures, innovate mist purification in addition, dust removal by filtration, ultraviolet-sterilization, ozonization, integrating of the functions such as illumination, substantially increase the overall performance of air cleaning unit, make it have the more powerful market competitiveness.

It is as follows that the present invention solves the problems of the technologies described above taked technical scheme:

A kind of air cleaning unit, comprise and dissolve clean unit 1, supercharging sterili-sation unit 2, purification wind unit 3 and illuminated display unit 4, described dissolving clean unit 1 is connected to supercharging sterili-sation unit 2, described supercharging sterili-sation unit 2 is connected to purification wind unit 3, and described illuminated display unit 4 is arranged on described purification wind unit 3.

Further according to air cleaning unit of the present invention, wherein said dissolving clean unit 1 comprises tubular shell 101, bucket 103, air intake cover 104, inner core 105, flies to spill atomizer 107, centrifugal aspirator 108 and motor 109, bottom end closure, the top end opening of described tubular shell 101, described bucket 103, air intake cover 104, inner core 105, fly to spill atomizer 107, centrifugal aspirator 108 and motor 109 and be all arranged in described tubular shell 101, the sidewall of described tubular shell 101 offers air intake entrance 102, described bucket 103 is arranged at the bottom of described tubular shell 101, described air intake cover 104 has double-layer sleeve structure, inner layer sleeve is nested in outer layer sleeve, the open top edge conjunction of described bucket 103 is in the bottom margin of the outer layer sleeve of described air intake cover 104, the sidewall of described outer layer sleeve offers the air intake gate hole just right with described air intake entrance 102, described inner core 105 is arranged in described bucket 103, and the open top of described inner core 105 is connected to the bottom opening of the inner layer sleeve of described air intake cover 104, the sidewall of described inner core 105 is formed with some air inlet gill grooves 106, describedly fly to spill atomizer 107 and be arranged in described inner core 105, and comprise rotating shaft 113, send out and spill flying disc 114, send out and spill urceolus 115, helical disk 116 spills blade 117 with sending out, described is spilt flying disc 114 and is fixedly connected in described rotating shaft 113, described rotating shaft 113 is formed with described helical disk 116, and described helical disk 116 is in the below that described is spilt flying disc 114, the outside of described helical disk 116 is fixedly connected on the madial wall that described is spilt urceolus 115, and described top of spilling urceolus 115 is fixedly connected on described sending out spills flying disc 114, described the lateral wall spilling urceolus 115 is fixedly connected with described sending out and spills blade 117, described is spilt the spilling water passage 118 flying disc 114 offering and sends out described in connection and spill urceolus 115, and described is spilt flying disc 114 and sends out to spill blade 117 is provided with and send out a watering groove 119, the bottom surface of described watering groove 119 and/or lateral surface offer some and spill aperture 120, described the sidewall spilling urceolus 115 offers some and spills aperture 120, described centrifugal aspirator 108 comprises turbocharging air duct drum 110 and centrifugation blade 111, the bottom air inlet mouth of described turbocharging air duct drum 110 is connected to the open top of the inner layer sleeve of described air intake cover 104, described centrifugation blade 111 is arranged at the inside of described turbocharging air duct drum 110, described turbocharging air duct drum 110 forms spiral duct structure in the periphery of centrifugation blade 111, described motor 109 is arranged on the end face of described turbocharging air duct drum 110, described centrifugation blade 111 is fixedly connected on the motor output shaft 122 of described motor 109, describedly fly the rotating shaft 113 of spilling in atomizer 107 and be connected to described motor output shaft 122 by flexibly connecting axle 123, described supercharging sterili-sation unit 2 comprises conical shell 201, filtering collector 202, ultraviolet germicidal 203 and force(d) (draft) fan 204, described filtering collector 202, ultraviolet germicidal 203 and force(d) (draft) fan 204 are arranged in described conical shell 201, the bottom opening of described conical shell 201 is integrally connected to the top end opening of tubular shell 101 in described dissolving clean unit 1, described filtering collector 202 is positioned at above the spiral air outlet of described turbocharging air duct drum 110, described ultraviolet germicidal 203 is arranged at the top of described filtering collector 202, described force(d) (draft) fan 204 is arranged at the top of described ultraviolet germicidal 203, described purification wind unit 3 comprises inner ring 301 and outer shroud 302, described inner ring 301 is nested within described outer shroud 302, and annular air-out gap is formed between described inner ring 301 and outer shroud 302, the bottom of described outer shroud 302 offers the air inlet being communicated with described annular air-out gap, and in described supercharging sterili-sation unit 2, the open top of conical shell 201 is connected to the air inlet of described outer shroud 302, described illuminated display unit 4 is arranged at the top of described purification wind unit 3 outer-loop 302.

Further according to air cleaning unit of the present invention, wherein said is spilt flying disc 114 and has disc-shaped structure, described central authorities of spilling flying disc 114 are provided with the connecting through hole of described rotating shaft 113, described is spilt flying disc and corresponds in the periphery of described connecting through hole and send out the installed position spilling urceolus 115 and offer some connections and send out the described spilling water passage 118 spilling urceolus 115, described spill flying disc 114 the periphery of described spilling water passage 118 formed some circumferentially arrange in the same way described in send out watering groove 119, each the spontaneous flying disc upper surface that spills of watering groove 119 settles into channel-shaped structure downwards, and on each the watering bottom surface of groove 119 and lateral surface, offer some described sending out spill aperture 120, described the lower surface spilling flying disc 114 is formed with some dividing plates 121 between every two watering grooves 119, described divider upright is arranged in sending out the radial direction of spilling flying disc 114, described the diameter spilling aperture is at 0.5-2mm.

Further according to air cleaning unit of the present invention, wherein said is spilt blade 117 and form distributed multiplayer architecture on the lateral wall that described is spilt urceolus 115, every layer include along send out spill urceolus 115 circumference equally distributed some spill blade 117, progressively successively decrease downwards in described the spontaneous top of spilling urceolus 115 of size of spilling blade 117, it is consistent that the sending out of same layer spills blade dimensions, described is spilt blade 117 and is fixed on described sending out by clamping rings and spills in the outer peripheral sidewall of urceolus 115, each the downward sedimentation of upper surface of spilling blade 117 forms a watering groove 119, the lateral wall of described watering groove is formed described sending out and spill aperture 120.

Further according to air cleaning unit of the present invention, wherein said is spilt sending out on urceolus 115 sidewall and spills aperture 120 and spill the corresponding spiral structure of helical disk in urceolus 115 along sending out the side wall array Cheng Yufa spilling urceolus 115, at least forms a circle and send out and spill aperture 120 between two adjoining spiral faces of helical disk 116.

Further according to air cleaning unit of the present invention, the outer layer sleeve of wherein said air intake cover 104 has round table-like structure, the open-bottom edge conjunction of outer layer sleeve is in the open top edge of described bucket 103, through hole is offered in the middle part of the upper bottom surface of outer layer sleeve, the inner layer sleeve of described air intake cover 104 has penetrating cylinder-like structure, and inner layer sleeve is integrally formed in the through hole in the middle part of outer layer sleeve upper bottom surface, the top of inner layer sleeve is positioned on the upper bottom surface of outer layer sleeve, and the bottom of inner layer sleeve is positioned under the upper bottom surface of outer layer sleeve.

Further according to air cleaning unit of the present invention, inner core 105 in wherein said dissolving clean unit 1 has penetrating cylindrical tube structure, air intake gap is formed between described inner core 105 and bucket 103, described fly to spill in atomizer 107 to send out spill the top that flying disc 114 is positioned at the air inlet gill groove of inner core 105, described in fly to spill in atomizer 107 and send out the below that the bottom of spilling urceolus 115 and helical disk 116 is positioned at inner core 105; Centrifugation blade 111 in described centrifugal aspirator 108 is arranged in cylinder fan blade cylinder by some strip blades bending to same direction; Flexibly connect one end of axle 123 described in the described top flying the rotating shaft 113 of spilling in atomizer 107 is fixedly connected on, described in flexibly connect axle 123 the other end be fixedly connected on the bottom of described motor output shaft 122.

Further according to air cleaning unit of the present invention, the filtering collector 202 in wherein said supercharging sterili-sation unit 2 is by HEPA filter screen, active carbon and silver ion sponge is stacked forms; Described illuminated display unit 4 comprises cylindrical shell 401, illuminating lamp 402 and display screen 403, described cylindrical shell 401 is integrally connected to the end face of described purification wind unit 3 outer-loop 302, and described illuminating lamp 402 and display screen 403 are installed on described cylindrical shell 401.

Further according to air cleaning unit of the present invention, inner ring 301 in wherein said purification wind unit 3 and outer shroud 302 have similar O type structure, and the inside of described inner ring 301 forms permeable structures, between described inner ring 301 and outer shroud 302, the end face in annular air-out gap is provided with air-out notch 303.

Further according to air cleaning unit of the present invention, wherein also include ozone sterilization unit, described ozone sterilization unit comprises ozone generator, ozonizer and ozone nozzle 112, one end of described ozonizer is connected to described ozone generator, and the other end of described ozonizer is through being connected to the ozone nozzle 112 be arranged on bucket 103 bottom surface behind the air intake gap described inner core 105 and bucket 103.

At least following technique effect can be reached by technical scheme of the present invention:

1), air cleaning unit of the present invention by pioneer invention fully can send out purifying waste water spill into high concentration water smoke fly spill atomizer, achieve and stir the enough abundant mixing and multi-touch that flying sprinkles water drips and follow air, significantly improve the dissolution degree of foul atmosphere in water smoke, purifying property is risen to a new step, reformed conventional air purification techniques;

2) what, air cleaning unit of the present invention was innovated is integrated in one several functions such as mist purification washing, HEPA filter screen+active carbon multi-filtering absorption, ultraviolet lamp sterilization and anion oxygen bars, while realizing mist purification air, dust granule in air, soft flocks germ, vaporific pollutant etc. are together carried out adsorption cleaning, reaches better air filtration clean-up effect;

3), purification wind unit innovated by air cleaning unit of the present invention, employing inner and outer ring is nested, the structure of intermediate space air-out, in supercharging sterili-sation unit, adopt conical shell wind-guiding and coordinate force(d) (draft) fan air-out simultaneously, improve and purify monsoon intensity, ensure that enough airflow pressures, in addition in motor driving structure innovation introduce flexibly connect axle reduce electric motor rotating shaft drive fly to spill the bias in atomizer rotating shaft rotary motion or vibrations, improve operation stability and the service life of clarifier.

Accompanying drawing explanation

Accompanying drawing 1 is the contour structures schematic diagram of air cleaning unit of the present invention;

Accompanying drawing 2 is the cross-sectional view of air cleaning unit of the present invention;

Accompanying drawing 3 is the inner-tube structure schematic diagram dissolving clean unit in air cleaning unit of the present invention;

Accompanying drawing 4 is the perspective structure schematic diagram of inner bag shown in accompanying drawing 3;

Accompanying drawing 5 is dissolve the perspective view flying to spill atomizer in clean unit;

Accompanying drawing 6 flies the cross-sectional view of spilling atomizer for shown in accompanying drawing 5;

Accompanying drawing 7 is dissolve centrifugal aspirator and the syndeton schematic diagram flying to spill atomizer in clean unit;

Accompanying drawing 8 is for dissolving motor-driven syndeton schematic diagram in clean unit;

In figure, the implication of each Reference numeral is as follows:

1-dissolves clean unit, 2-supercharging sterili-sation unit, and 3-purifies wind unit, 4-illuminated display unit;

101-tubular shell, 102-air inlet, 103-bucket, 104-air intake cover, 105-inner core, 106-air inlet gill groove, 107-flies to spill atomizer, the centrifugal aspirator of 108-, 109-motor, 110-turbocharging air duct drum, 111-centrifugation blade, 112-ozone nozzle, 113-rotating shaft, 114-sends out and spills flying disc, and 115-sends out and spills urceolus, 116-helical disk, 117-sends out and spills blade, 118-spilling water passage, and 119-sends out watering groove, and 120-sends out and spills aperture, 121-dividing plate, 122-motor output shaft, 123-flexibly connects axle;

201-conical shell, 202-filtering collector, 203-ultraviolet germicidal, 204-force(d) (draft) fan;

301-inner ring, 302-outer shroud, 303-air-out notch;

401-cylindrical shell, 402-illuminating lamp, 403-display screen.

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in detail, to enable those skilled in the art understanding the present invention clearly, but does not therefore limit the scope of the invention.

As shown in Figures 1 and 2, air cleaning unit entirety of the present invention comprises four major parts and namely dissolves clean unit 1, supercharging sterili-sation unit 2, purification wind unit 3 and illuminated display unit 4, this four parts one connects, first foul atmosphere enters dissolving clean unit 1 and carries out water smoke dissolving purification, the clean air outlet of described dissolving clean unit 1 connects supercharging sterili-sation unit 2, after air-out supercharging and sterilization udst separation, to be purified air by supercharging sterili-sation unit 2 and export purification wind unit 3 to, discharged by purification wind unit 3 and purify air, the top of described purification wind unit 3 is connected with illuminated display unit 4.

Concrete as shown in accompanying drawing 2 to accompanying drawing 4, described dissolving clean unit 1 comprises tubular shell 101, bucket 103, air intake cover 104, inner core 105, flies to spill atomizer 107, centrifugal aspirator 108, motor 109 and ozone nozzle 112.Described tubular shell 101 is as external shell, other each parts dissolved in clean unit 1 are all arranged in described tubular shell 101, the bottom end closure of described tubular shell 101, the sidewall of described tubular shell offers air intake entrance 102, the top of described tubular shell has opening and edge of opening is integrally connected to the conical shell 201 in supercharging sterili-sation unit 2, thus dissolving clean unit 1 is connected with supercharging sterili-sation unit 2 inside.Described bucket 103 is positioned over the bottom of described tubular shell 101, and described bucket 103 is built with purifying waste water, and described bucket 103 has the cylinder-like structure of bottom end closure, top end opening.The top end opening of described bucket 103 is connected to the feather edge of air intake cover 104, described air intake cover 104 has double-layer sleeve structure, the outer layer sleeve of air intake cover 104 has penetrating round table-like structure, and the open-bottom edge of outer layer sleeve is fixedly connected on the top end opening edge of bucket 103, the side waist of outer barrel is formed with some air intake gate hole, and described air intake gate hole is just to the air intake entrance 102 on tubular shell 101.Offer through hole in the middle part of the upper bottom surface of outer layer sleeve, the inner layer sleeve of air intake cover is integrally connected to the middle through-hole edge of outer layer sleeve upper bottom surface, and described inner layer sleeve has penetrating cylinder-like structure, and inner layer sleeve is nested in outer layer sleeve.The open top end of inner core 105 is connected to bottom the inner layer sleeve of described air intake cover, thus it is inner described inner core 105 to be arranged in described bucket 103, and be formed with gap between the sidewalls, described inner core 105 entirety has penetrating cylindrical structure, the cylinder side wall of inner core 105 is circumferentially formed some air inlet gill grooves 106, extraneous foul atmosphere enters the gap between inner core 105 and bucket 103 by the air intake gate hole of air intake cover 104, and the air inlet gill groove 106 then on inner core 105 enters into the inner chamber of inner core 105.Also ozonizer is provided with in gap between inner core 105 and bucket 103, one end of ozonizer stretches out in outside purifier by the air intake gate hole on air intake cover 104, and be connected to ozone generator, the other end of ozonizer extend out to the bottom of bucket 103, and be fixedly connected with ozone nozzle 112 at this other end, thus purifying waste water in bucket 103 is converted to the ozone water body with oxidation disinfection function.The inner layer sleeve top of described air intake cover 104 is connected to the bottom opening of the turbocharging air duct drum 110 of centrifugal aspirator 108, thus the described inner chamber of centrifugal aspirator 108 is communicated with by the inner layer sleeve of air intake cover 104 with the inner chamber of inner core 105.Described centrifugal aspirator 108 includes turbocharging air duct drum 110 and centrifugation blade 111, air inlet is formed on the bottom of described turbocharging air duct drum 110, and be connected to the inner layer sleeve open top of described air intake cover 104, described turbocharging air duct drum 110 forms the air channel structure on screw, and centrifugation blade 111 is set in the middle part of the cavity of turbocharging air duct drum, the top spiral air outlet of described turbocharging air duct drum 110 is positioned at the sidewall locations of turbocharging air duct drum and projects upwards in end face, the end face of described turbocharging air duct drum 110 is installed with motor 109, described centrifugation blade 111 is fixedly connected on the output shaft of motor, and described centrifugation blade 111 is arranged in cylindrical structure by some strip blades, all strip blades have unidirectional crooked radian, form centrifugal exhaust structure, when machine operation, centrifugation blade 111 High Rotation Speed is driven by output revolving shaft, thus purifying air in inner core 105 below described turbocharging air duct drum 110 is upwards pumped, and will purify air form spiralling high strength purifying gas flow along spiral duct in turbocharging air duct drum 110, the conical shell inner chamber of supercharging sterili-sation unit 2 is sent into by top exit.

Further be provided with in described inner core 105 and fly to spill atomizer 107, 5 to accompanying drawing 7 by reference to the accompanying drawings, describedly fly to spill atomizer 107 and comprise rotating shaft 113, send out and spill flying disc 114, send out and spill urceolus 115, helical disk 117 spills blade 117 with sending out, the top of described rotating shaft 113 is connected on the output shaft of motor, described is spilt flying disc 114 and is fixedly connected in described rotating shaft 113, be on rotating shaft 113 lateral wall sending out and spill below flying disc 114 and be formed with helical disk 116, described helical disk has spiral structure along rotating shaft, be connected with outside described helical disk 116 to send out and spill urceolus 115, and send out the top of spilling urceolus 115 and be fixedly connected on to send out and spill flying disc 114, described is spilt urceolus 115 and has penetrating cylinder-like structure, rotating shaft and helical disk are positioned at cylinder interior.The lateral wall that described is spilt urceolus 115 is fixedly connected with send out and spills blade 117, thus described is spilt flying disc 114, sends out and spill urceolus 115, helical disk 116, send out and spill blade 117 and rotating shaft 114 is fixed together, can drive to send out by driven by motor axis of rotation simultaneously and spill flying disc 114, send out to spill urceolus 115, helical disk 116 and send out and spill blade 117 and rotate.Described sending out is spilt flying disc 114 and is had disc-shaped structure more specifically, central authorities offer rotating shaft connecting through hole, sent out by this through hole and spill flying disc and be fixedly connected on rotating shaft 113, described is spilt flying disc and offers some spilling water passages 118 at the outer shaft of rotating shaft connecting through hole, described spilling water passage 118 is communicated in sending out of helical disk 116 top and spills urceolus 115 inner chamber, that is spill flying disc and correspond to and send out a middle part of spilling urceolus 115 and offer some connections and send out the spilling water passage 118 spilling urceolus 115 sending out, described is spilt flying disc 114 on the upper surface of spilling water passage 118 periphery, is circumferentially formed with some watering grooves 119, described watering groove 119 is arranged along clockwise direction sending out the surface of spilling flying disc 114, each watering groove 119 spills the sedimentation downwards of flying disc surface and forms channel-shaped structure sending out, be formed with some in the bottom surface of each watering groove 119 and lateral surface and spill aperture 120, described is spilt hole diameter at 0.5-2mm, preferred 0.8-1.5mm.On the lower surface that described is spilt flying disc 114, be formed with some dividing plates 121 between every two watering grooves, described dividing plate is basically perpendicular to the radial direction setting sent out and spill flying disc 114.Spill at described and urceolus 115 outer peripheral sidewall is provided with some spills blade 117, preferred described sending out spills blade 117 as shown in accompanying drawing 5-7, edge is spilt urceolus 115 outer peripheral sidewall and is provided with some circles, often circle include along send out spill urceolus circumference arrange some spill blade 117, and spontaneous top of spilling urceolus 115 is downward, each circle is sent out the size of spilling blade 117 and is progressively reduced, what be in same circle sends out that to spill blade construction size the same, concrete described is spilt blade 117 and is fixed on to send out by clamping rings and spills in urceolus 115 outer peripheral sidewall, namely the lateral wall of clamping rings is circumferentially evenly fixed with some and spills blade 117, the madial wall of clamping rings is fixedly connected on the outer peripheral sidewall sent out and spill urceolus 115.The upper surface sedimentation all downwards of spilling blade 117 at each is formed with a watering groove 119, and the lateral wall of each watering groove is formed to send out and spills aperture 120.Spill at described and urceolus 115 sidewall offers some spill aperture 120, described is spilt aperture 120 sending out and spills formation spiral arrangement corresponding with helical disk on the sidewall of urceolus 115, between two adjoining spiral faces of helical disk, namely at least form a circle send out and spill aperture 120.Describedly fly to spill atomizer 107 when being installed in inner core 105, it spills flying disc and is positioned at above the air inlet gill groove of inner core 105, and its bottom of spilling urceolus is in below inner core 105.

Accompanying drawing 8 provides and flies to spill the connected mode between atomizer 107 and motor.In order to overcome motor output shaft drive fly to spill atomizer 107 rotating shaft rotate time, may cause flying to spill atomizer and occur eccentric or vibration problems, the present invention innovates connection between the two, namely as shown in Figure 8, the top flying the rotating shaft 113 of spilling atomizer 107 flexibly connects by one the motor output shaft 122 that axle 123 is connected to motor, namely the top inlay card of rotating shaft 113 is fixed on the bottom flexibly connecting axle 123, the top flexibly connecting axle 123 is fixedly connected on the bottom of motor output shaft 122, described flexibly connects axle 123 preferably flexible steel wire power transmission shaft, like this when motor rotation, when its output shaft drives the rotating shaft 113 flying to spill atomizer 107 to rotate, swing by the flexibility flexibly connecting axle 123 deflection balancing rotating shaft 113 to shake, avoid and reduce disalignment being rotationally connected the eccentric shaking problem caused.

The tubular shell 101 of described dissolving clean unit 1 is connected with conical shell 201 one of supercharging sterili-sation unit 2, described supercharging sterili-sation unit 2 comprises conical shell 201, filtering collector 202, ultraviolet germicidal 203 and force(d) (draft) fan 204, described conical shell 201 has penetrating frustum cone structure, the open-bottom edge of conical shell 201 is integrally connected to the open top edge of tubular shell 101, filtering collector 202 is disposed with from bottom to top in described conical shell 201, ultraviolet germicidal 203 and force(d) (draft) fan 204, described filtering collector 202 is in above the spiral duct air outlet of turbocharging air duct drum in dissolving clean unit 1, described filtering collector 202 is by HEPA filter screen, active carbon and the stacked composition of silver ion sponge, for the grit in adsorption cleaning air, described ultraviolet germicidal 203 is positioned at above filtering collector 202, be made up of UV ultraviolet lamp, for kill bacteria, described force(d) (draft) fan 204 is arranged at above ultraviolet germicidal 203, for being the output supercharging that purifies air, described filtering collector 202, ultraviolet germicidal 203 and force(d) (draft) fan 204 are arranged in conical shell 201 jointly, the upper base edge of opening of described conical shell 201 is integrally connected to purification wind unit 3.Described purification wind unit 3 comprises inner ring 301 and outer shroud 302, described inner ring 301 is nested within described outer shroud 302, described inner ring and outer shroud have similar O type structure, the inside of described inner ring 301 forms permeable structures, the bottom of described outer shroud offers air inlet, air-out gap is formed between described inner ring 301 and outer shroud 302, the upper base edge of opening of the conical shell 201 of described supercharging sterili-sation unit 2 is integrally connected to the air inlet bottom described outer shroud, thus the air-out gap of the inner space of the conical shell 201 of described supercharging sterili-sation unit 2 between described inner ring 301 and outer shroud 302.Air-out gap end face further between described inner ring 301 and outer shroud 302 is provided with air-out notch 303, purifies air to discharge through described air-out notch 303.Utilize the air-out gap between inner ring 301 and outer shroud 302 export purify air, not only can strengthen the output gas flow that purifies air, and can effectively utilize the interior bone of inner ring 301 be more convenient to whole air cleaning unit by holding.Described purification wind unit 3 is provided with illuminated display unit 4, described illuminated display unit 4 comprises cylindrical shell 401, illuminating lamp 402 and display screen 403, described cylindrical shell 401 is integrally connected to the end face of described purification wind unit 3 outer-loop 302, described illuminating lamp 402 and display screen 403 are installed on described cylindrical shell 401, and on the sidewall of described cylindrical shell 401, offer illuminating lamp 402 and display screen 403 arranges window, by illuminating lamp 402 for air cleaning unit provides illumination, the humidity that purifies air can be shown in real time by display screen, the information such as temperature.

The course of work of air cleaning unit of the present invention is described on the basis of above-mentioned air cleaning unit structure: during air cleaning unit work below, motor 109 operates, drive flies to spill atomizer and rotates in inner core 105, and drive centrifugation blade 111 to rotate, fill in described bucket 103 and purify waste water, purifying waste water simultaneously in bucket 103 and did not fly to spill to spill bottom urceolus but underfill inner core 105 in atomizer, under the centrifugal draft effect that centrifugation blade 111 rotates, extraneous foul atmosphere enters the gap between inner core 105 and bucket 103 from the air intake gate hole of air intake cover 104, and the air inlet gill groove 106 on inner core 105 enters into the inner chamber of inner core 105, simultaneously in the inner chamber of inner core 105, fly to spill atomizer High Rotation Speed under driven by motor, send out spill the turning effort of urceolus and helical disk under, by the spontaneous bottom opening upwards auto spiral lifting of spilling urceolus of purifying waste water in bucket, and along helical disk always screw lifting to send out spill flying disc 114 position, then upwards promoted by a spilling water passage 118 spilt on flying disc 114 in the watering groove 119 being spilled over to and sending out and spill on flying disc 114, and utilize centrifugal force that water droplet is spilt aperture 120 fly to spill ejection from sending out sending out watering groove 119 sending out to spill in the rotary course of flying disc, and under passing through, drop on axial direction formation water smoke, send out simultaneously and spill purifying waste water of its inside when urceolus rotates and also spill sending out outer tube side wall and spill aperture 120 from sending out and fly to spill ejection, form water smoke in radial directions, and come spontaneous spill flying disc and send out the water droplet spilling urceolus fall into send out spill urceolus periphery send out when spilling on blade 117, fly to spill ejection is further formed axially and the water smoke of radial direction by sending out the High Rotation Speed spilling blade, like this when motor driving flies to spill atomizer rotation, in inner core 105, formation axis and the equally distributed high concentration of radial direction fly mist of sprinkling water, when extraneous foul atmosphere enters in inner core 105, just the abundant contact lysis of maximum area is carried out with the water smoke in inner core, improve to greatest extent and fly watering gas mixed effect, thus reach best water-soluble solution purification foul atmosphere effect.In inner core by water-soluble separate purification after the centrifugal draft effect that rotates at centrifugation blade 111 of air under upwards to be reached the turbocharging air duct drum inner chamber of centrifugal aspirator by the inner layer sleeve of air intake cover from inner core open top, and under the guiding of turbocharging air duct drum 110 inside-spin air-duct, form spiralling high speed purifying air-flow, the conical shell inner chamber of direct arrival supercharging sterili-sation unit 2, higher the purifying air of purity is obtained after the further dedusting absorption and ultraviolet-sterilization of filtering collector and ultraviolet germicidal, then the discharge pressure of fan that purifies air is improved further by force(d) (draft) fan 204, make to purify air the air-out gap entered rapidly in purification wind unit 3 between inner ring and outer shroud, and the pure and fresh purifying gas flow of the annular forming high strength under the restriction in narrow air-out gap exports.For improving air purification efficiency further, provide ozone to export by ozone generator to the ozone nozzle 112 in bucket, like this by ozone dissolved in purifying waste water, the purification water smoke of formation is ozone purification water smoke, can reach better bactericidal effect.Use illumination and correlation performance parameters display can be carried out by illuminated display unit 4 simultaneously.

Air cleaning unit of the present invention adopts dry pump mechanism design, utilize the work of Archimedian screw dish automatic lifting water principle, eliminate traditional pump motor setting-out, pumping equipment, simultaneously utilize helical disk with send out spill ozone water body in urceolus High Rotation Speed automatic lifting bucket time, utilize the centrifugal force in rotary course simultaneously, spill sending out on flying disc and blade and spill aperture by sending out and fly to spill ejection water droplet and form existing purifier and to be beyond one's reach high concentration water smoke, and can reach axially and radial direction is maximum flies a watering mixed dissolution effect when helical disk High Rotation Speed simultaneously, to greatest extent purification is dissolved to foul atmosphere, solve the limited surface area contact of air partial water in traditional single water purifying machine, purify air inefficient problem.The innovation of the present invention simultaneously the discharge air channel that purifies air is designed, in centrifugal aspirator, spiral duct is set, force(d) (draft) fan is set at taper wind guide chamber top simultaneously, and utilize the gap of inner and outer ring to export purifying fresh air, ensure that purification blast, and be combined with the Flexible Transmission flying to spill rotating shaft having innovated motor, ensure that motor can run on peak power, guarantee to suck enough airflow pressures and spill water fog cycle bump contact with sending out, improve purification of air intensity.And air water dissolved purification, ozone sterilization, grit absorption, ultraviolet-sterilization and the illumination of the present invention's innovation are integrated in same air cleaning unit, while ensureing purification of air quality to greatest extent, more enrich the function of air cleaning unit, there is wide market practical prospect.

Below be only that the preferred embodiment of the present invention is described; technical scheme of the present invention is not limited to this; the any known distortion that those skilled in the art do on the basis that major technique of the present invention is conceived all belongs to the claimed technology category of the present invention, and the concrete protection domain of the present invention is as the criterion with the record of claims.

Claims (10)

1. an air cleaning unit, it is characterized in that, comprise and dissolve clean unit (1), supercharging sterili-sation unit (2), purification wind unit (3) and illuminated display unit (4), described dissolving clean unit (1) is connected to supercharging sterili-sation unit (2), described supercharging sterili-sation unit (2) is connected to purification wind unit (3), and described illuminated display unit (4) is arranged on described purification wind unit (3).

2. air cleaning unit according to claim 1, it is characterized in that, described dissolving clean unit (1) comprises tubular shell (101), bucket (103), air intake cover (104), inner core (105), fly to spill atomizer (107), centrifugal aspirator (108) and motor (109), the bottom end closure of described tubular shell (101), top end opening, described bucket (103), air intake cover (104), inner core (105), fly to spill atomizer (107), centrifugal aspirator (108) and motor (109) are all arranged in described tubular shell (101), the sidewall of described tubular shell (101) offers air intake entrance (102), described bucket (103) is arranged at the bottom of described tubular shell (101), described air intake cover (104) has double-layer sleeve structure, inner layer sleeve is nested in outer layer sleeve, the open top edge conjunction of described bucket (103) is in the bottom margin of the outer layer sleeve of described air intake cover (104), the sidewall of described outer layer sleeve offers the air intake gate hole just right with described air intake entrance (102), described inner core (105) is arranged in described bucket (103), and the open top of described inner core (105) is connected to the bottom opening of the inner layer sleeve of described air intake cover (104), the sidewall of described inner core (105) is formed with some air inlet gill grooves (106), describedly fly to spill atomizer (107) and be arranged in described inner core (105), and comprise rotating shaft (113), send out and spill flying disc (114), send out and spill urceolus (115), helical disk (116) and send out spill blade (117), described is spilt flying disc (114) and is fixedly connected in described rotating shaft (113), described rotating shaft (113) is formed with described helical disk (116), and described helical disk (116) is in the below that described is spilt flying disc (114), the outside of described helical disk (116) is fixedly connected on the madial wall that described is spilt urceolus (115), and described top of spilling urceolus (115) is fixedly connected on described sending out spills flying disc (114), described the lateral wall spilling urceolus (115) is fixedly connected with described sending out and spills blade (117), described is spilt the spilling water passage (118) flying disc (114) offering and sends out described in connection and spill urceolus (115), and described is spilt flying disc (114) and sends out to spill blade (117) is provided with and send out watering groove (119), the bottom surface of described watering groove (119) and/or lateral surface offer some and spill aperture (120), described the sidewall spilling urceolus (115) offers some and spills aperture (120), described centrifugal aspirator (108) comprises turbocharging air duct drum (110) and centrifugation blade (111), the bottom air inlet mouth of described turbocharging air duct drum (110) is connected to the open top of the inner layer sleeve of described air intake cover (104), described centrifugation blade (111) is arranged at the inside of described turbocharging air duct drum (110), described turbocharging air duct drum (110) forms spiral duct structure in the periphery of centrifugation blade (111), described motor (109) is arranged on the end face of described turbocharging air duct drum (110), described centrifugation blade (111) is fixedly connected on the motor output shaft (122) of described motor (109), describedly fly the rotating shaft (113) of spilling in atomizer (107) and be connected to described motor output shaft (122) by flexibly connecting axle (123), described supercharging sterili-sation unit (2) comprises conical shell (201), filtering collector (202), ultraviolet germicidal (203) and force(d) (draft) fan (204), described filtering collector (202), ultraviolet germicidal (203) and force(d) (draft) fan (204) are arranged in described conical shell (201), the bottom opening of described conical shell (201) is integrally connected to the top end opening of tubular shell (101) in described dissolving clean unit (1), described filtering collector (202) is positioned at above the spiral air outlet of described turbocharging air duct drum (110), described ultraviolet germicidal (203) is arranged at the top of described filtering collector (202), described force(d) (draft) fan (204) is arranged at the top of described ultraviolet germicidal (203), described purification wind unit (3) comprises inner ring (301) and outer shroud (302), described inner ring (301) is nested within described outer shroud (302), and annular air-out gap is formed between described inner ring (301) and outer shroud (302), the bottom of described outer shroud (302) offers the air inlet being communicated with described annular air-out gap, and in described supercharging sterili-sation unit (2), the open top of conical shell (201) is connected to the air inlet of described outer shroud (302), described illuminated display unit (4) is arranged at the top of described purification wind unit (3) outer-loop (302).

3. air cleaning unit according to claim 2, it is characterized in that, described is spilt flying disc (114) and has disc-shaped structure, described central authorities of spilling flying disc (114) are provided with the connecting through hole of described rotating shaft (113), described is spilt flying disc and corresponds in the periphery of described connecting through hole and send out the installed position spilling urceolus (115) and offer some connections and send out the described spilling water passage (118) of spilling urceolus (115), described is spilt flying disc (114) and forms some described waterings groove (119) circumferentially arranged in the same way in the periphery of described spilling water passage (118), each watering groove (119) the spontaneous flying disc upper surface that spills settles into channel-shaped structure downwards, and on the bottom surface and lateral surface of each watering groove (119), offer some described sending out spill aperture (120), described the lower surface spilling flying disc (114) is formed with some dividing plates (121) between every two waterings groove (119), described divider upright is arranged in sending out the radial direction of spilling flying disc (114), described the diameter spilling aperture is at 0.5-2mm.

4. air cleaning unit according to claim 3, it is characterized in that, described is spilt blade (117) and form distributed multiplayer architecture on the lateral wall that described is spilt urceolus (115), every layer include along send out spill urceolus (115) circumference equally distributed some spill blade (117), progressively successively decrease downwards in described the spontaneous top of spilling urceolus (115) of size of spilling blade (117), it is consistent that the sending out of same layer spills blade dimensions, described is spilt blade (117) and is fixed on described sending out by clamping rings and spills in the outer peripheral sidewall of urceolus (115), each the downward sedimentation of upper surface of spilling blade (117) forms watering groove (119), the lateral wall of described watering groove is formed described sending out and spill aperture (120).

5. the air cleaning unit according to any one of claim 2-4, it is characterized in that, described is spilt sending out on urceolus (115) sidewall and spills aperture (120) and spill the corresponding spiral structure of helical disk in urceolus (115) along sending out the side wall array Cheng Yufa spilling urceolus (115), at least forms a circle and send out and spill aperture (120) between two adjoining spiral faces of helical disk (116).

6. the air cleaning unit according to any one of claim 2-5, it is characterized in that, the outer layer sleeve of described air intake cover (104) has round table-like structure, the open-bottom edge conjunction of outer layer sleeve is in the open top edge of described bucket (103), through hole is offered in the middle part of the upper bottom surface of outer layer sleeve, the inner layer sleeve of described air intake cover (104) has penetrating cylinder-like structure, and inner layer sleeve is integrally formed in the through hole in the middle part of outer layer sleeve upper bottom surface, the top of inner layer sleeve is positioned on the upper bottom surface of outer layer sleeve, the bottom of inner layer sleeve is positioned under the upper bottom surface of outer layer sleeve.

7. the air cleaning unit according to any one of claim 2-6, it is characterized in that, inner core (105) in described dissolving clean unit (1) has penetrating cylindrical tube structure, air intake gap is formed between described inner core (105) and bucket (103), described fly to spill in atomizer (107) to send out spill the top that flying disc (114) is positioned at the air inlet gill groove of inner core (105), described in fly to spill in atomizer (107) and send out the below that the bottom of spilling urceolus (115) and helical disk (116) is positioned at inner core (105); Centrifugation blade (111) in described centrifugal aspirator (108) is arranged in cylinder fan blade cylinder by some strip blades bending to same direction; Flexibly connect one end of axle (123) described in the described top flying the rotating shaft (113) of spilling in atomizer (107) is fixedly connected on, described in flexibly connect axle (123) the other end be fixedly connected on the bottom of described motor output shaft (122).

8. the air cleaning unit according to any one of claim 2-7, is characterized in that, the filtering collector (202) in described supercharging sterili-sation unit (2) is by HEPA filter screen, active carbon and silver ion sponge is stacked forms; Described illuminated display unit (4) comprises cylindrical shell (401), illuminating lamp (402) and display screen (403), described cylindrical shell (401) is integrally connected to the end face of described purification wind unit (3) outer-loop (302), and described illuminating lamp (402) and display screen (403) are installed on described cylindrical shell (401).

9. the air cleaning unit according to any one of claim 2-8, it is characterized in that, inner ring (301) in described purification wind unit (3) and outer shroud (302) have similar O type structure, and the inside of described inner ring (301) forms permeable structures, between described inner ring (301) and outer shroud (302), the end face in annular air-out gap is provided with air-out notch (303).

10. the air cleaning unit according to any one of claim 2-9, it is characterized in that, also include ozone sterilization unit, described ozone sterilization unit comprises ozone generator, ozonizer and ozone nozzle (112), one end of described ozonizer is connected to described ozone generator, and the other end of described ozonizer is through being connected to the ozone nozzle (112) be arranged on bucket (103) bottom surface behind the air intake gap described inner core (105) and bucket (103).