CN106016480A - Efficient energy-saving humidification air purifier - Google Patents

Abstract

The invention relates to the technical field of air purifying, in particular to an efficient energy-saving humidification air purifier. The efficient energy-saving humidification air purifier comprises a lower shell body and an upper shell body; four electric heating bars are annularly arranged on the bottom surface of an inner cavity of the lower shell body; the side wall of the lower shell body is axially provided with a plurality of air inlet sets; the inner cavity of the lower shell body is fixedly provided with an axial flow fan through a fixed framework, and air inlets are located below the axial flow fan; and a filter is fixedly arranged on the wall of an inner cavity of the upper shell body, and a top cover of the upper shell body is radially provided with seven rows of air outlet hole sets. The efficient energy-saving humidification air purifier has the beneficial effects that the air inlet amount and the air outlet amount are increased by optimizing the structure of the air inlets and the structure of air outlet holes, and the power of the fan is greatly reduced, so that the electricity energy is saved, and noise is lowered; humidification air is filtered through a filtering element, and not only can various harmful substances and heavy metal be adsorbed, but also deodorization and sterilization effects are achieved; and accordingly the quality of the humidification air is ensured. The efficient energy-saving humidification air purifier has the advantages of being simple in structure, reasonable in arrangement, low in manufacturing cost and the like.

Description

A kind of energy-efficient humidifying air depurator

Technical field

The present invention relates to technical field of air purification, particularly to a kind of energy-efficient humidifying air depurator.

Background technology

Air purifier is to allow extraneous air flow through filter, removes the dust in air or polluter Device, in order to allow extraneous air discharge after flowing through filter, utilizes fan to suck by force and discharges outside empty Gas, crosses air filtering with this.Humidifying air depurator cording has the air purifier of humidification function.I.e. only Change air functionally, also added damping device, it is achieved the effect of " purifying+humidification ".

Along with being showing improvement or progress day by day of society, social development serves degeneration to the destruction of environment instantly Effect, environmental problem constantly induces.Air pollution, be dried, muddy, caused by indoor air environment Disease also get more and more, then humidifying air depurator arises at the historic moment.

But existing humidifying air depurator there are the defect of following several respects: 1, air output is little, The air after processing cannot be allowed to arrive each corner of indoor, for solving this problem, existing business equably Family more of uses high power fan, therefore there is power consumption big, the problem that noise is big；2, due to water tank Flywheel or pull out water device and there is not disinfecting and sterilizing functions, the aquiform stool in water tank is easily contaminated, and then Affect the quality of humidifying air.Therefore be necessary existing humidifying air depurator carries out technology leather further Newly.

Summary of the invention

Present invention aims to defect and the deficiency of prior art, it is provided that a kind of simple in construction, if Count energy-efficient humidifying air depurator reasonable, easy to use.

For achieving the above object, the technical solution used in the present invention is:

One of the present invention energy-efficient humidifying air depurator, including lower house and upper shell, under Housing and the mutual clamping of upper shell；The inner chamber bottom surface annular of described lower house is provided with four electrical bars；Institute State that the sidewall of lower house is axially disposed several air inlet groups, described air inlet group by several along ring The air inlet composition that shape is arranged；The air intake angle of described air inlet is 52～60 degree；The inner chamber of described lower house Being fixedly installed aerofoil fan by fixed frame, air inlet is positioned at the lower section of aerofoil fan；Described upper casing The inner chamber of body is provided with filter, and the top cover of described upper shell has been disposed radially seven discharge pore groups, the The first venthole that one venthole group is distributed ringwise by several is constituted, and the first of the first venthole is given vent to anger Angle is 12 degree；The second venthole that second venthole group is distributed ringwise by several is constituted, and second gives vent to anger Second efflux angles in hole is 60 degree；The 3rd venthole structure that 3rd venthole group is distributed ringwise by several Becoming, the 3rd efflux angles of the 3rd venthole is 72 degree；4th venthole group is distributed ringwise by several 4th venthole is constituted, and the 4th efflux angles of the 4th venthole is 78 degree；5th venthole group is by several The 5th venthole being distributed ringwise is constituted, and the 5th efflux angles of the 5th venthole is 82 degree；6th gives vent to anger The 6th venthole that hole group is distributed ringwise by several is constituted, and the 6th efflux angles of the 6th venthole is 85 Degree；The 7th venthole that 7th venthole group is distributed ringwise by several is constituted, the of the 7th venthole Seven efflux angles are 90 degree；Described filter is made up of fixed metal frame and filtration core, and filtration core is fixedly installed In fixed metal frame, the surface of filtration core is provided with several filtering holes；The inner chamber of described upper shell Wall is fixedly installed annular magnet, and fixed metal frame adsorbs on the lower surface of Magnet；Described filtration core by Following weight percent component composition: water 10～15%, epoxy resin 5～8%, anion powder 10～ 20%, activated carbon powder 40～50%, far-infrared powder 20～30%；The preparation technology of described filtration core include as Lower step: a, the water of predetermined weight put in agitator tank, put into epoxy resin successively, bear in water Ion powder, activated carbon powder and far-infrared powder, make epoxy resin, anion powder, activated carbon powder and far infrared Powder is evenly distributed in water, and speed of agitator is 500～800 revs/min, and mixing time is 5～8 minutes, Now obtain powder ball；B, the powder ball of a step is put in predetermined mold, then struck out by stamping machine Type；C, the punch forming block of b step is put into drying baker being dried, baking temperature is 100～120 Degree, drying time is 25～30 minutes, obtains filtration core.

Further, the top edge of described lower house is provided with several lower card articles, under described upper shell Edge is provided with several upper grooves matched mutually with lower card article, if the lower limb of described upper shell is provided with Dry upper card article, the top edge of described lower house is provided with several low grooves matched mutually with upper card article； Lower card article and lower card article are symmetrical set.

Further, the cross section of described lower housing cavity bottom surface is inverted cone shape；The bottom of lower house is arranged Having bottom outlet, bottom outlet is threaded primer plug.

Further, described lower house is additionally provided with observation window, and this observation window is fixedly connected with transparent PVC Plate.

After using said structure, present invention have the beneficial effect that by optimizing air inlet and the structure of venthole Improve intake and gas output, significantly reduce the power of fan, and then saved electric energy and reduction Noise；Filter humidifying air by filtration core, be possible not only to adsorb various nuisance and heavy metal, and And there is effect of deodorizing sterilizing；And then ensure the quality of humidifying air.The present invention has simple in construction, Arrange rationally, the advantages such as cost of manufacture is low.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the sectional view of the present invention；

Fig. 3 is part A enlarged drawing in Fig. 2；

Fig. 4 is the top view of filter；

Description of reference numerals:

1, lower house；1-1, bottom outlet；1-2, air inlet；1-3, lower card article；2, primer plug；

3, electrical bar；4, transparent PVC plate；5, fixed frame；6, upper shell；6-1, upper card article；

61, the first venthole；62, the second venthole；63, the 3rd venthole；64, the 4th venthole；

65, the 5th venthole；66, the 6th venthole；67, the 7th venthole；7, filter；

7-1, fixed metal frame；7-2, filtration core；7-2a, filtering holes；8, Magnet；

9, aerofoil fan；α, air intake angle；β, the first efflux angles；γ, the second efflux angles；

δ, the 3rd efflux angles；ε, the 4th efflux angles；ζ, the 5th efflux angles；η, the 6th efflux angles；

θ, the 7th efflux angles.

Detailed description of the invention

The present invention is further illustrated below in conjunction with the accompanying drawings.

As Figure 1-4, one of the present invention energy-efficient humidifying air depurator, including lower casing Body 1 and upper shell 6, the inner chamber of lower house 1 is tank chamber；Lower house 1 and the mutual clamping of upper shell 6； The inner chamber bottom surface annular of described lower house 1 is provided with four electrical bars 3, and electrical bar 3 is for heating water tank chamber In water so that it is produce steam；The sidewall of described lower house 1 is axially disposed several air inlets Group, the air inlet 1-2 that described air inlet group is annularly arranged by several forms；Described air inlet 1-2 Air intake angle α be 52～60 degree, and then improve intake；Air intake angle α is the central shaft of air inlet 1-2 Angle between line and horizontal line.Four electrical bars 3 are connected with power supply, electric control gear with aerofoil fan 9 Connecing, this interconnection technique and prior art are without essential distinction.

The inner chamber of described lower house 1 is fixedly installed aerofoil fan 9, aerofoil fan 9 by fixed frame 5 Wind be that the inner chamber from housing flows outward.Air inlet 1-2 is positioned at the lower section of aerofoil fan 9, tank chamber It is positioned at the lower section of air inlet 1-2.The inner chamber of described upper shell 6 is provided with filter 7, described upper shell 6 Top cover be disposed radially seven discharge pore groups, the first venthole group be distributed ringwise by several One venthole 61 is constituted, and the first of the first venthole 61 angle beta of giving vent to anger is 12 degree；Second venthole group by Several second ventholes 62 being distributed ringwise are constituted, and the second efflux angles γ of the second venthole 62 is 60 degree；The 3rd venthole 63 that 3rd venthole group is distributed ringwise by several is constituted, the 3rd venthole The 3rd efflux angles δ of 63 is 72 degree；The 4th venthole that 4th venthole group is distributed ringwise by several 64 are constituted, and the 4th efflux angles ε of the 4th venthole 64 is 78 degree；5th venthole group by several in 5th venthole 65 of annular spread is constituted, and the 5th efflux angles ζ of the 5th venthole 65 is 82 degree；The The 6th venthole 66 that six venthole groups are distributed ringwise by several is constituted, the of the 6th venthole 66 Six efflux angles η are 85 degree；The 7th venthole 67 structure that 7th venthole group is distributed ringwise by several Becoming, the 7th efflux angles θ of the 7th venthole 67 is 90 degree.First give vent to anger angle beta, the second efflux angles γ, 3rd efflux angles δ, the 4th efflux angles ε, the 5th efflux angles ζ, the 6th efflux angles η, the 7th efflux angles θ is all the angle between the central axis by venthole and horizontal line.

Described filter 7 is made up of fixed metal frame 7-1 and filtration core 7-2, and filtration core 7-2 is fixing to be set Put in fixed metal frame 7-1, the surface of filtration core 7-2 is provided with several filtering holes 7-2a；Institute The internal chamber wall stating upper shell 6 is fixedly installed annular magnet 8, and fixed metal frame 7-1 adsorbs at Magnet 8 On lower surface.

Further, the top edge of described lower house 1 is provided with several lower card article 1-3, described upper shell The lower limb of 6 is provided with several upper grooves matched with lower card article 1-3 phase, described upper shell 6 following Edge is provided with card article 6-1 on several, and the top edge of described lower house 1 is provided with several and upper card article The low groove that 6-1 phase matches；Lower card article 1-3 and lower card article 1-3 is symmetrical set.

Further, the cross section of described lower house 1 inner chamber bottom surface is inverted cone shape, it is simple to by lower house 1 Outside the water of inner chamber flows out；The bottom of lower house 1 is provided with bottom outlet 1-1, and bottom outlet 1-1 is threaded the end Plug 2.

Further, described lower house 1 is additionally provided with observation window, and this observation window is fixedly connected with transparent PVC Plate 4, it is simple to user observes the water level in tank chamber.

It addition, in conjunction with specific embodiments the filtration core of the present invention is described in detail, following embodiment and Illustrate only to be used for explaining the present invention, but not as a limitation of the invention.

Example 1:

Being equipped with the filtration core of the 100kg present invention, the component by following weight is formulated: the water of 13kg, The epoxy resin of 8kg, the anion powder of 16kg, the activated carbon powder of 42kg, the far-infrared powder of 21kg；Institute The preparation technology stating filtration core 7-2 comprises the steps: that the water of a, 13kg puts in agitator tank, The epoxy resin of 8kg, the anion powder of 16kg, the activated carbon powder of 42kg and 21kg is put into successively in water Far-infrared powder, make epoxy resin, anion powder, activated carbon powder and far-infrared powder be evenly distributed in water, Speed of agitator is 700 revs/min, and mixing time is 5 minutes, now obtains powder ball；B, by a step Powder ball put in predetermined mold, then by stamping machine punch forming；C, by the punch forming of b step Block is put into drying baker and is dried, and baking temperature is 100 degree, and drying time is 30 minutes, obtains filtration Core 7-2.

Example 2:

Being equipped with the filtration core of the 100kg present invention, the component by following weight is formulated: the water of 15kg, The epoxy resin of 5kg, the anion powder of 20kg, the activated carbon powder of 40kg, the far-infrared powder of 20kg；Institute The preparation technology stating filtration core 7-2 comprises the steps: that the water of a, 15kg puts in agitator tank, The epoxy resin of 5kg, the anion powder of 20kg, the activated carbon powder of 40kg and 20kg is put into successively in water Far-infrared powder, make epoxy resin, anion powder, activated carbon powder and far-infrared powder be evenly distributed in water, Speed of agitator is 800 revs/min, and mixing time is 6 minutes, now obtains powder ball；B, by a step Powder ball put in predetermined mold, then by stamping machine punch forming；C, by the punch forming of b step Block is put into drying baker and is dried, and baking temperature is 120 degree, and drying time is 25 minutes, obtains filtration Core 7-2.

Example 3:

Being equipped with the filtration core of the 100kg present invention, the component by following weight is formulated: the water of 10kg, The epoxy resin of 7kg, the anion powder of 10kg, the activated carbon powder of 49kg, the far-infrared powder of 24kg；Institute The preparation technology stating filtration core 7-2 comprises the steps: that the water of a, 10kg puts in agitator tank, The epoxy resin of 7kg, the anion powder of 10kg, the activated carbon powder of 49kg and 24kg is put into successively in water Far-infrared powder, make epoxy resin, anion powder, activated carbon powder and far-infrared powder be evenly distributed in water, Speed of agitator is 650 revs/min, and mixing time is 7 minutes, now obtains powder ball；B, by a step Powder ball put in predetermined mold, then by stamping machine punch forming；C, by the punch forming of b step Block is put into drying baker and is dried, and baking temperature is 120 degree, and drying time is 26 minutes, obtains filtration Core 7-2.

Present invention have the beneficial effect that and improve intake by the structure optimizing air inlet and venthole and go out Tolerance, significantly reduces the power of fan, and then has saved electric energy and reduced noise；By filtering Core filters humidifying air, is possible not only to adsorb various nuisance and heavy metal, and has deodorizing sterilizing Effect；And then ensure the quality of humidifying air.It addition, this simple in construction, reasonable in design, manufacturing cost Low.

The above is only the better embodiment of the present invention, therefore all according to described in present patent application scope Structure, feature and principle done equivalence change or modify, be all included in present patent application scope In.

Claims (4)

1. an energy-efficient humidifying air depurator, including lower house (1) and upper shell (6), lower casing Body (1) and upper shell (6) mutually clamping；It is characterized in that: the inner chamber bottom surface of described lower house (1) Annular is provided with four electrical bars (3)；The sidewall of described lower house (1) is axially disposed has several to enter Air port group, the air inlet (1-2) that described air inlet group is annularly arranged by several forms；Described air intake The air intake angle (α) of mouth (1-2) is 52～60 degree；

The inner chamber of described lower house (1) is fixedly installed aerofoil fan (9) by fixed frame (5), Air inlet (1-2) is positioned at the lower section of aerofoil fan (9)；

The inner chamber of described upper shell (6) is provided with filter (7), the top cover edge of described upper shell (6) Seven discharge pore groups, the first venthole that the first venthole group is distributed ringwise are radially arranged it by several (61) constituting, first efflux angles (β) of the first venthole (61) is 12 degree；Second venthole group The second venthole (62) being distributed ringwise by several is constituted, and the second of the second venthole (62) goes out Air horn (γ) is 60 degree；The 3rd venthole (63) that 3rd venthole group is distributed ringwise by several Constituting, the 3rd efflux angles (δ) of the 3rd venthole (63) is 72 degree；4th venthole group is by some Individual the 4th venthole (64) being distributed ringwise is constituted, the 4th efflux angles (ε) of the 4th venthole (64) It it is 78 degree；The 5th venthole (65) that 5th venthole group is distributed ringwise by several is constituted, and the 5th 5th efflux angles (ζ) of venthole (65) is 82 degree；6th venthole group is divided ringwise by several 6th venthole (66) of cloth is constituted, and the 6th efflux angles (η) of the 6th venthole (66) is 85 degree； The 7th venthole (67) that 7th venthole group is distributed ringwise by several is constituted, the 7th venthole (67) The 7th efflux angles (θ) be 90 degree；Described filter (7) is by fixed metal frame (7-1) and filters Core (7-2) forms, and filtration core (7-2) is fixedly installed in fixed metal frame (7-1), filtration core (7-2) Surface on be provided with several filtering holes (7-2a)；The internal chamber wall of described upper shell (6) is fixedly installed Having annular magnet (8), fixed metal frame (7-1) adsorbs on the lower surface of Magnet (8)；Described mistake Filter element (7-2) is made up of the component of following weight percent: water 10～15%, epoxy resin 5～8%, Anion powder 10～20%, activated carbon powder 40～50%, far-infrared powder 20～30%；Described filtration core (7-2) Preparation technology comprise the steps: a, the water of predetermined weight puts in agitator tank, in water successively Put into epoxy resin, anion powder, activated carbon powder and far-infrared powder, make epoxy resin, anion powder, Activated carbon powder and far-infrared powder are evenly distributed in water, and speed of agitator is 500～800 revs/min, stirring Time is 5～8 minutes, now obtains powder ball；B, the powder ball of a step is put in predetermined mold, so Afterwards by stamping machine punch forming；C, the punch forming block of b step is put into drying baker it is dried, dry Dry temperature is 100～120 degree, and drying time is 25～30 minutes, obtains filtration core (7-2).

One the most according to claim 1 energy-efficient humidifying air depurator, it is characterised in that: The top edge of described lower house (1) is provided with several lower card articles (1-3), described upper shell (6) Lower limb is provided with several upper grooves matched mutually with lower card article (1-3), described upper shell (6) Lower limb is provided with card article on several (6-1), and the top edge of described lower house (1) is provided with several The low groove matched mutually with upper card article (6-1)；Lower card article (1-3) and lower card article (1-3) symmetrically set Put.

One the most according to claim 1 energy-efficient humidifying air depurator, it is characterised in that: The cross section of described lower house (1) inner chamber bottom surface is inverted cone shape；The bottom of lower house (1) is provided with the end Hole (1-1), bottom outlet (1-1) is threaded primer plug (2).

One the most according to claim 1 energy-efficient humidifying air depurator, it is characterised in that: Described lower house (1) is additionally provided with observation window, and this observation window is fixedly connected with transparent PVC plate (4).