CN204115138U - Wall-hanging air conditioner and ultrasonic wave nanometer water ion damping device thereof - Google Patents

Abstract

The utility model provides a kind of ultrasonic wave nanometer water ion damping device, it comprises storage tank, ultrasonic humidifier and nanometer water ion unit, storage tank has tank wall, ultrasonic humidifier comprises piezoelectric ceramic ring and is connected to the mesh plate of piezoelectric ceramic ring, mesh plate forms a part for tank wall, nanometer water ion unit comprise needle electrode and with needle electrode partner sparking electrode to pole plate, needle electrode and add wet channel to forming son between pole plate, son is added wet channel and is connected with storage tank by mesh plate, produce mechanical shock and the water be attached on mesh plate shaken into water smoke during mesh plate energising, water smoke is ionized to water ion when nanometer water ion unit is energized, the outlet that water ion adds wet channel by son is discharged.The utility model also provides a kind of wall-hanging air conditioner applying above-mentioned damping device, and it comprises shell, the gas channel being communicated with air inlet and air outlet and heat exchanger and wind wheel, and damping device is formed and adds wet channel, and runs through shell.

Description

Wall-hanging air conditioner and ultrasonic wave nanometer water ion damping device thereof

Technical field

The utility model belongs to humidification field, particularly relates to a kind of wall-hanging air conditioner and ultrasonic wave nanometer water ion damping device thereof.

Background technology

Along with warming of global climate, the dependence of people to air-conditioning is more and more obvious, when using air-condition, people can feel air oxygen detrition, have hot coppers, hair dries up, the bad reactions such as pachylosis, its reason is that existing air-conditioning is all devoted to the refrigeration of air-conditioning and heats, not to feeling after use that dry work is too much considered, along with the increasing concern of air humidity when people use air-conditioning, industry has been done some to air-conditioning and has been improved, it improves and is condensate water circulatory to utilize in room, to increase the air humidity in room, make the humid control in room in suitable scope.But during winter, atmospheric water content is inherently little, and condensed water is also few, is difficult to the humidity of accomplishing in holding chamber.

Utility model content

The purpose of this utility model is to provide a kind of ultrasonic wave nanometer water ion damping device, is intended to the problem solving humidification in air.

The utility model realizes like this, a kind of ultrasonic wave nanometer water ion damping device, it comprises storage tank, the nanometer water ion unit of water ion is ionized in order to the water in described storage tank to be changed into the ultrasonic humidifier of water smoke and the water smoke in order to be produced by described ultrasonic humidifier, described storage tank has tank wall, described ultrasonic humidifier comprises piezoelectric ceramic ring and is connected to the inner edge of described piezoelectric ceramic ring and the mesh plate in the middle of the ring covering whole described piezoelectric ceramic ring, described mesh plate forms a part for the described tank wall of described storage tank, described nanometer water ion unit comprise needle electrode and with described needle electrode partner sparking electrode to pole plate, described needle electrode and describedly add wet channel to forming son between pole plate, described son is added wet channel and is connected with described storage tank by described mesh plate, described mesh plate produces mechanical shock and the water be attached on this mesh plate is shaken into water smoke when described piezoelectric ceramic ring energising, described water smoke is ionized to water ion when described nanometer water ion unit energising, the outlet that described water ion adds wet channel by described son is discharged.

Further, described storage tank is connected with watered cup and overflow pipe, the height and position of described overflow pipe on described storage tank is higher than the height of described mesh plate, and the height and position of described watered cup on described storage tank is higher than the height and position of described overflow pipe on described storage tank.

Another object of the present utility model is to provide a kind of wall-hanging air conditioner, and be intended to solve the air-conditioning existed in existing air-conditioning and use the problem that rear air humidity is inadequate, this wall-hanging air conditioner applies above-mentioned ultrasonic wave nanometer water ion damping device.

The utility model is achieved in that a kind of wall-hanging air conditioner, it comprises shell, be opened in the air inlet on described shell and air outlet, be communicated with the gas channel of described air inlet and described air outlet and the heat exchanger be set in turn on the airflow direction of described gas channel and wind wheel, described wall-hanging air conditioner also comprises above-mentioned ultrasonic wave nanometer water ion damping device, described ultrasonic wave nanometer water ion damping device is positioned at described shell, described storage tank, described ultrasonic humidifier and described nanometer water ion unit are formed and add wet channel, described add wet channel run through described shell and and ft connection, the described wet channel that adds comprises described son and adds wet channel.

Further, the outlet adding the outlet of wet channel and described gas channel described in is side by side and near arranging.

Further, described wall-hanging air conditioner also comprises the drip tray accepting the condensed water that described heat exchanger produces, described heat exchanger has the portion of dripping, the described portion of dripping stretches in described drip tray, described ultrasonic wave nanometer water ion damping device to be arranged in described drip tray and to be positioned at the below in the portion of dripping of described heat exchanger, described in add wet channel and run through described drip tray.

Further, described storage tank, described ultrasonic humidifier and described nanometer water ion unit are laterally placed in described drip tray.

Further, drip described in described heat exchanger the screen pack be provided with between portion and described storage tank in order to filter freezing water.

Further, described wall-hanging air conditioner also comprises the wind deflector being rotationally connected with described air outlet downside, described wind deflector adds between the outlet of wet channel and the outlet of described gas channel described, and/or described wall-hanging air conditioner also comprises another wind deflector be rotationally connected with on the upside of described air outlet.

The utility model relative to the technique effect of prior art is: after the piezoelectric ceramic ring energising of ultrasonic humidifier, piezoelectric ceramic ring produces mechanical shock, then the water be attached on this mesh plate is shaken into water smoke, water smoke directly enters son and adds in wet channel, and at least most of water smoke is bonded on sparking electrode, when nanometer water ion unit is energized, by applying high-pressure electrostatic to the small water droplet (water smoke) adhered on electrode, make water power from being water ion.The electrode producing nanometer water ion is very accurate, by needle electrode and the sparking electrode that partners to pole plate, the water smoke on needle-like negative electrode is sprayed onto by ultrasonic humidifier, under the effect of electrion, these water smokes are divided again, the electronegative water particulate of final formation nano-scale, diameter is greatly between 5-20nm, Here it is nanometer water ion, these nanometer water ions are more easily floated to each corner in room because volume is little, be more evenly distributed, and water ion produces better moistening effect to skin and hair etc.

Accompanying drawing explanation

Fig. 1 is the structural representation of the ultrasonic wave nanometer water ion damping device that the utility model embodiment provides.

Fig. 2 is the storage tank of ultrasonic wave nanometer water ion damping device and the structural representation of ultrasonic humidifier of Fig. 1.

Fig. 3 be the ultrasonic humidifier of Fig. 2 face structural representation.

Fig. 4 is the structural representation of the nanometer water ion unit of the ultrasonic wave nanometer water ion damping device of Fig. 1.

Fig. 5 shows the additional watered cup of ultrasonic wave nanometer water ion damping device of Fig. 1 and the structural representation of overflow pipe.

Fig. 6 is the perspective view of the wall-hanging air conditioner that the utility model embodiment provides.

Fig. 7 is the planar structure schematic diagram of the wall-hanging air conditioner of Fig. 6.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1, the ultrasonic wave nanometer water ion damping device that the utility model embodiment provides comprises storage tank 10, is ionized into the nanometer water ion unit 30 of water ion in order to the water in described storage tank 10 to be changed into the ultrasonic humidifier 20 of water smoke and the water smoke in order to be produced by described ultrasonic humidifier 20.

Please refer to Fig. 2 and Fig. 3, described storage tank 10 has tank wall 11.Described ultrasonic humidifier 20 comprises piezoelectric ceramic ring 21 and is connected to the inner edge of described piezoelectric ceramic ring 21 and the mesh plate 22 in the middle of the ring covering whole described piezoelectric ceramic ring 21.Described mesh plate 22 forms a part for the described tank wall 11 of described storage tank 10.

Please refer to Fig. 4, described nanometer water ion unit 30 comprise needle electrode 31 and with described needle electrode 31 partner sparking electrode to pole plate 32.Described needle electrode 31 and describedly add wet channel 33 to forming son between pole plate 32.Described son is added wet channel 33 and is connected with described storage tank 10 by described mesh plate 22.Described mesh plate 22 produces mechanical shock and the water be attached on this mesh plate 22 is shaken into water smoke when described piezoelectric ceramic ring 21 is energized, described water smoke is ionized to water ion when described nanometer water ion unit 30 is energized, and the outlet that described water ion adds wet channel 33 by described son is discharged.

After the piezoelectric ceramic ring 21 of ultrasonic humidifier 20 is energized, piezoelectric ceramic ring 21 produces mechanical shock, then the water be attached on this mesh plate 22 is shaken into water smoke, water smoke directly enters son and adds in wet channel 33, and at least most of water smoke is bonded on sparking electrode, when nanometer water ion unit 30 is energized, by applying high-pressure electrostatic to the small water droplet (water smoke) adhered on electrode 31, make water power from being water ion.The sparking electrode producing nanometer water ion is very accurate, by needle electrode 31 and the sparking electrode that partners to pole plate 32, the water smoke on needle-like negative electrode 31 is sprayed onto by ultrasonic humidifier 20, under the effect of electrion, these water smokes are divided again, the electronegative water particulate of final formation nano-scale, diameter is greatly between 5-20nm, Here it is nanometer water ion, these nanometer water ions are more easily floated to each corner in room because volume is little, be more evenly distributed, and water ion produces better moistening effect to skin and hair etc.

The effect of ultrasonic humidifier 20 is supplied water for nanometer water ion unit 30 exactly, and the outlet of the water smoke that ultrasonic humidifier 20 produces is exactly the sparking electrode position of nanometer water ion unit 30.Water smoke swims in the cavity 34 of nanometer water ion unit 30, constantly adheres on electrode 31, then ionization, flies away each corner to room with the wind.

Ultrasonic wave nanometer water ion damping device of the present utility model is that the combination of ultrasonic humidifier 20 and nanometer water ion unit 30 is to realize the humidity that water ion improves room, distinguish with simple use ultrasonic humidifier 20 and be: what humidifier produced is water smoke is main, water smoke atomizing particle directly at 5 microns, neutral; Ultrasonic wave nanometer water ion damping device produce be based on nanometer water ion, nanometer water ionic diameter greatly between 5-20nm, with electric charge.

As everyone knows, the volume of the particle in air is less, and floating capacity is stronger; Particle is larger, easier sedimentation.The water smoke that ultrasonic humidifying produces, although also can waft to each corner with airflow circulating wind, due to particle diameter, distribution is uneven, and in water-mist outlet, place is more, and less at a distance.But the volume of nanometer water ion is little, and diameter only has 5-20nm, compared with the water droplet of diameter at 5 microns, can waft to each corner in room with airflow circulating wind, be more evenly distributed.Further, because diameter is little, hydrone can go deep into the inside of fiber easily, produces better moistening effect, instead of as water smoke, be bonded at surface to skin and hair etc., makes people feel moist.

Meanwhile, compare the air ion that traditional anion generator generates, the maximum difference of nanometer water ion is the anion water particulate formed by water.Common anion is owing to being air ion, easily and nitrogen and oxygen have an effect, will disappear after several seconds after generation, nanometer water ion is water particulate composition, the time existed in atmosphere is 6 times of general anion, under the help of air circulation system, the scope of covering is larger, and this just guarantees that nanometer water ion can tell in home environment on a large scale.Nanometer water ion contains hydroxy (OH-) ion, and pH value is about 5, and in faintly acid, the pH value of the skin hair of this and people is close, more has affinity than common water.

Nanometer water ion unit 30 relies on needle electrode 31 and the sparking electrode that partners to pole plate 32, water smoke on needle-like negative electrode 31 is sprayed onto to ultrasonic humidifier 20, more than 7000 volt electrion effect under, these water smokes are divided again, the electronegative water particulate of final formation nano-scale, diameter is greatly between 5-20nm.

Nanometer water ion unit 30 can produce 4,800 hundred million nanometer water ions each second, fully can meet the needs of human body 13,000,000,000 anions every day.The same water yield, formed after nanometer water ion through nanometer water ion unit 30, preserving moisture and protecting skin ability promotes greatly.Simultaneously because the hydrogen (H) in the bacterium touched can be extracted out by its hydroxy comprised (OH-), therefore nanometer water ion can suppress and remove a lot of bacterium, virus and anaphylactogen, keeps the health environment in room.

Nanometer water ion unit 30 can only ionize a small amount of water droplet at every turn, therefore, adopt ultrasonic humidifier 20 to supply water to it, ensure that each all little or nothing water smoke wafts on the sparking electrode of nanometer water ion unit 30, then water smoke is ionized as nanometer water ion.

Please refer to Fig. 5, described storage tank 10 is connected with watered cup 12 and overflow pipe 13, when in the supplementary moisture content of needs to storage tank 10, can add water in storage tank 10 by watered cup 12, when adding when adding water, unnecessary moisture content can be discharged from overflow pipe 13.

Particularly, the height and position of described overflow pipe 13 on described storage tank 10 is higher than the height of described mesh plate 22, and the height and position of described watered cup 12 on described storage tank 10 is higher than the height and position of described overflow pipe 13 on described storage tank 10.

Particularly, storage tank 10 offers filler (sign) and discharge outlet (sign), filler place connects watered cup 12, discharge outlet is connected with overflow pipe 13, when adding water, an external watered cup 12, by funnel 12, clean water is filled with in storage tank 10, unnecessary water can spill out from overflow pipe 13.

Please refer to Fig. 6, another object of the present utility model also provides a kind of wall-hanging air conditioner 100, and this wall-hanging air conditioner 100 comprises shell 40, be opened in air inlet 10a on described shell 40 and air outlet 10b, the gas channel 41 being communicated with described air inlet 10a and described air outlet 10b and the heat exchanger 42 be set in turn on the airflow direction of described gas channel 41 and wind wheel 43.

Described wall-hanging air conditioner 100 also comprises above-mentioned ultrasonic wave nanometer water ion damping device, described ultrasonic wave nanometer water ion damping device is positioned at described shell 40, described storage tank 10, described ultrasonic humidifier 20 and described nanometer water ion unit 30 are formed and add wet channel 35, as shown in Fig. 1, Fig. 5, Fig. 7, described add wet channel 35 run through described shell 40 and and ft connection, described in add wet channel 35 and comprise described son and add wet channel 33.

Add wet channel 35 and adopt horizontal humidification method, for air-conditioning, horizontal humidification can avoid water ion to collide, in order to avoid water ion is lost electric charge by metal adsorption with the barrier metallization of the outlet adding wet channel 35.

Described add wet channel 35 outlet and the outlet of described gas channel 41 side by side and near arranging.The outlet (namely adding the outlet of wet channel 35) of nanometer water ion unit 30 is arranged side by side with air-conditioner wind road junction (i.e. the outlet of gas channel 41), directly towards room, after ensureing that the water smoke that ultrasonic wave nanometer water ion damping device produces and nanometer water ion leave outlet, under the help of air circulation system, can rack each corner, room.

Further, described wall-hanging air conditioner 100 also comprises the drip tray 50 accepting the condensed water that described heat exchanger 42 produces, described heat exchanger 42 has the portion of dripping 420, described portion 420 of dripping stretches in described drip tray 50, described ultrasonic wave nanometer water ion damping device to be arranged in described drip tray 50 and to be positioned at the below in the portion of dripping 420 of described heat exchanger 42, described in add wet channel 35 and run through described drip tray 50.

Further, described storage tank 10, described ultrasonic humidifier 20 and described nanometer water ion unit 30 are laterally placed in described drip tray 50.

Further, drip described in described heat exchanger 42 screen pack 60 be provided with between portion 420 and described storage tank 10 in order to filter freezing water.

The described ultrasonic wave nanometer water ion damping device object be arranged in drip tray 50 is the condensed water that storage tank 10 can make full use of air-conditioning.

The source of water in storage tank 10, if air-conditioning is in refrigeration mode, can utilize air conditioner condensate water, and through filtering, inside the storage tank 10 adding to air-conditioning, too much condensed water also can flow out from overflow pipe 13; If air-supply or heating mode, need user to add water to storage tank 10, after water injection, watered cup 12 can be removed.

Wind deflector 70 can be set at the Way out adding wet channel 35, the air-flow of being discharged by gas channel 41 can be made to drive water ion to enter each corner in room more fast, more equably by the effect of the wind deflector 70 of outside.

Particularly, in the present embodiment, wind deflector 70 is rotationally connected with the upside of described air outlet 10b, and when wind deflector 70 is towards swing, the air-flow that gas channel 41 is discharged mixes with water ion and drives water ion to each corner in room.

In other embodiments, wind deflector 70 is rotationally connected with described air outlet 10b downside, and described wind deflector 70 adds between the outlet of wet channel 35 and the outlet of described gas channel 41 described.

The water smoke that the ultrasonic humidifier 20 of air-conditioning sprays is horizontal ejection, first enters in the cavity 34 of nanometer water ion unit 30.The amount of water smoke and the speed of ionization close, water smoke is mainly floating in the cavity 34 of nanometer water ion unit 30.In the present embodiment, nanometer water ion unit 30 does not have wind to blow out from inside, but cavity 34 designs, and suitable gas flies away, and the nanometer water ion of generation is easy to cavity 34 of overflowing.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (9)

1. a ultrasonic wave nanometer water ion damping device, it is characterized in that: described ultrasonic wave nanometer water ion damping device comprises storage tank, the nanometer water ion unit of water ion is ionized in order to the water in described storage tank to be changed into the ultrasonic humidifier of water smoke and the water smoke in order to be produced by described ultrasonic humidifier, described storage tank has tank wall, described ultrasonic humidifier comprises piezoelectric ceramic ring and is connected to the inner edge of described piezoelectric ceramic ring and the mesh plate in the middle of the ring covering whole described piezoelectric ceramic ring, described mesh plate forms a part for the described tank wall of described storage tank, described nanometer water ion unit comprise needle electrode and with described needle electrode partner sparking electrode to pole plate, described needle electrode and describedly add wet channel to forming son between pole plate, described son is added wet channel and is connected with described storage tank by described mesh plate, described mesh plate produces mechanical shock and the water be attached on this mesh plate is shaken into water smoke when described piezoelectric ceramic ring energising, described water smoke is ionized to water ion when described nanometer water ion unit energising, the outlet that described water ion adds wet channel by described son is discharged.

2. ultrasonic wave nanometer water ion damping device as claimed in claim 1, it is characterized in that: described storage tank is connected with watered cup and overflow pipe, the height and position of described overflow pipe on described storage tank is higher than the height of described mesh plate, and the height and position of described watered cup on described storage tank is higher than the height and position of described overflow pipe on described storage tank.

3. a wall-hanging air conditioner, it comprises shell, be opened in the air inlet on described shell and air outlet, be communicated with the gas channel of described air inlet and described air outlet and the heat exchanger be set in turn on the airflow direction of described gas channel and wind wheel, it is characterized in that: described wall-hanging air conditioner also comprises ultrasonic wave nanometer water ion damping device as claimed in claim 1 or 2, described ultrasonic wave nanometer water ion damping device is positioned at described shell, described storage tank, described ultrasonic humidifier and described nanometer water ion unit are formed and add wet channel, described add wet channel run through described shell and and ft connection, the described wet channel that adds comprises described son and adds wet channel.

4. wall-hanging air conditioner as claimed in claim 3, is characterized in that: described in add wet channel outlet and described gas channel outlet side by side and closely to arrange.

5. wall-hanging air conditioner as claimed in claim 3, it is characterized in that: described wall-hanging air conditioner also comprises accepting the drip tray of the condensed water that described heat exchanger produces, described heat exchanger has the portion of dripping, the described portion of dripping stretches in described drip tray, described ultrasonic wave nanometer water ion damping device to be arranged in described drip tray and to be positioned at the below in the portion of dripping of described heat exchanger, described in add wet channel and run through described drip tray.

6. wall-hanging air conditioner as claimed in claim 5, is characterized in that: described storage tank, described ultrasonic humidifier and described nanometer water ion unit are laterally placed in described drip tray.

7. wall-hanging air conditioner as claimed in claim 5, is characterized in that: drip described in described heat exchanger the screen pack be provided with between portion and described storage tank in order to filter freezing water.

8. the wall-hanging air conditioner as described in any one of claim 3-7, it is characterized in that: described wall-hanging air conditioner also comprises the wind deflector being rotationally connected with described air outlet downside, described wind deflector adds between the outlet of wet channel and the outlet of described gas channel described.

9. the wall-hanging air conditioner as described in any one of claim 3-7, is characterized in that: described wall-hanging air conditioner also comprises the wind deflector be rotationally connected with on the upside of described air outlet.