CN201476205U - Humidifying device - Google Patents

Abstract

The utility model provides a humidifying device which enables water to spread over the integral body in the thickness direction of a humidifying rotor and can obtain bigger humidifying quantity, when a barrel portion (61) of a water supply device (60) supplies water for a humidifying rotor (40), an inner surface (62) of the humidifying rotor (40) near an opening (81) is inclined through utilizing the upstream of the air current as the lower portion. Therefore, water discharged from the opening (81) has a speed component facing to the upstream side of the air current, water is supplied to the upstream portion in the thickness direction of the humidifying rotor (40), thereby water and air current spread all over the integral body in the thickness direction of the humidifying rotor (40), thereby getting bigger humidifying quantity.

Description

Damping device

Technical field

The utility model relates to damping device.

Background technology

In the past, as damping device, the damping device of TOHKEMY 2006-220390 communique (patent documentation 1) record was that people are known.

This damping device in the housing with suction inlet and blow-off outlet, disposes evaporating filter and fan in turn by upstream side.This evaporating filter, at the fixing discoideus humidifying rotor of the core of rotating frame as humidifying component, simultaneously, a plurality of buckets are set, are provided with slotted hole in the side of the humidifying rotor side of this barrel and with the central corresponding position of the thickness direction of humidifying rotor at the peripheral part of above-mentioned rotating frame.

And, by the center that is positioned at above-mentioned rotating frame be the motor at humidifying rotor center rotation drives to evaporating filter, use bucket to draw water, supply water to the central authorities of the thickness direction of humidifying rotor by the slotted hole of bucket side, the air stream by humidifying rotor is carried out humidification.

But, in above-mentioned existing damping device, because bucket supplies water the part of the upstream side that the air that exists water can't fully spread all over humidifying rotor flows to the central authorities of the thickness direction of humidifying rotor, the humidification function of the part of the upstream side of humidifying rotor is low, the problem that the humidification amount is less.

Patent documentation 1: TOHKEMY 2006-220390 communique, Fig. 1, Fig. 3

The utility model content

So problem of the present utility model is, provide the integral body that water can spread all over the thickness direction of humidifying component, the damping device that obtains big humidification amount.

In order to solve above-mentioned problem, damping device of the present utility model is characterized in that,

Possess:

Housing with suction inlet and blow-off outlet;

Be configured in the fan in the above-mentioned housing;

The air stream that is produced by said fans is carried out the humidifying component of humidification;

Be configured in the water pond of the below of above-mentioned humidifying component;

In the rotating frame setting from the bucket portion that above-mentioned water pond draws water, and the water supply installation that above-mentioned humidifying component is supplied water from the opening in direction of rotation the place ahead of said bucket portion;

Make the motor of the rotating frame rotation of above-mentioned water supply installation,

The bucket portion of above-mentioned water supply installation along with rotatablely moving of above-mentioned rotating frame,, supplies water to above-mentioned humidifying component from above-mentioned opening towards the upstream side of air stream from the top of above-mentioned humidifying component.

According to damping device of the present utility model, follow the rotatablely moving of rotating frame of above-mentioned water supply installation, from the opening of bucket portion, humidifying component is supplied water by the upstream side of its top towards air stream.

Therefore, not only water can spread all over the upstream side of the thickness direction of the humidifying component that is supplied water, and its water that infeeds also flows the part in the downstream of the thickness direction that spreads all over humidifying component, result with air, water can spread all over the integral body of the thickness direction of humidifying component, can obtain bigger humidification amount.

In 1 embodiment,

The bucket portion of above-mentioned water supply installation, when above-mentioned humidifying component was supplied water, near the inner surface of the above-mentioned humidifying component side of above-mentioned opening served as that ground, below tilts with the upstream side of air stream.

According to above-mentioned embodiment, when above-mentioned humidifying component is supplied water, because near the inner surface of the above-mentioned humidifying component side of the opening of said bucket portion serves as that ground, below tilts with the upstream side of air stream, the glassware for drinking water of being discharged by above-mentioned opening has towards the speed composition of the upstream side of air stream.Therefore, water is infeeded the part of upstream side of the thickness direction of above-mentioned humidifying component, and then this water can obtain bigger humidification amount with the integral body that air stream spreads all over the thickness direction of humidifying component.

In addition, in 1 embodiment,

The opening of the bucket portion of above-mentioned water supply installation is corresponding with the part of the upstream side of the air of the thickness direction of above-mentioned humidifying component stream, the part of above-mentioned upstream side is supplied water, more do not supply water by the part in the downstream in the downstream of air stream to being positioned at than the part of the upstream side of the air stream of the thickness direction of above-mentioned humidifying component.

According to above-mentioned embodiment, the opening of the bucket portion of above-mentioned water supply installation, corresponding with the part of the upstream side of the air stream of the thickness direction of above-mentioned humidifying component, part to the upstream side of the air stream of the thickness direction of above-mentioned humidifying component supplies water, on the other hand, more do not supply water to being positioned at by the part in the downstream in the downstream of air stream than the part of the upstream side of the air stream of the thickness direction of above-mentioned humidifying component.

Therefore, not only water can spread all over the part of upstream side of the thickness direction of the humidifying component that is supplied water, and its water that infeeds also spreads all over the part in downstream of the thickness direction of humidifying component, result with air stream, water can spread all over the integral body of the thickness direction of humidifying component, obtains bigger humidification amount.

In addition, because the part in the downstream of above-mentioned humidifying component is not directly infeeded water, can prevent by humidifying component dabbling of side downstream.

In addition, in 1 embodiment,

Above-mentioned humidifying component is a humidifying rotor,

Above-mentioned humidifying rotor is installed on the rotating frame of above-mentioned water supply installation,

With respect to the tangent section of the track at the edge of the humidifying rotor side of the opening of the bucket portion of above-mentioned water supply installation, promptly with respect to the section at the edge of the humidifying rotor side by above-mentioned opening, the inner surface of the humidifying rotor side of said bucket portion tilts to be acute angle.

According to above-mentioned embodiment, because with respect to the tangent section of the track at the edge of the humidifying rotor side of the opening of the bucket portion of above-mentioned water supply installation, promptly with respect to the section at the edge of the humidifying rotor side by above-mentioned opening, the inner surface of the humidifying rotor side of said bucket portion tilts to be acute angle, the inner surface of the humidifying rotor side of said bucket portion, before bucket portion arrives the summit, become level.Thus, bucket portion is before arriving the summit, and whole water is discharged in the beginning discharge water near the summit of humidifying rotor.

As mentioned above, said bucket portion, before arriving the summit of humidifying rotor, begin to discharge whole water near discharge water, the summit at humidifying rotor, and the water that is infeeded humidifying rotor moves to direction of rotation the place ahead with humidifying rotor, the two combines, water is flowed in the wider scope of the both sides on the summit of humidifying rotor, increase the humidification amount.

In addition, in 1 embodiment,

Above-mentioned humidifying component is a humidifying rotor,

Above-mentioned humidifying rotor is installed on the rotating frame of above-mentioned water supply installation,

At above-mentioned rotating frame, near the maintaining part that be provided with the opening that is positioned at said bucket portion, guiding keeps above-mentioned humidifying rotor from the water of above-mentioned opening the time.

According to above-mentioned embodiment, above-mentioned maintaining part has the effect that keeps humidifying rotor concurrently and guides the effect of the water of being discharged by the opening of bucket portion.

As mentioned above,, can make water promptly spread all over the zone of the broad of humidifying rotor, increase the humidification amount because above-mentioned maintaining part except keeping humidifying rotor, also guides the water of being discharged by the opening of bucket portion.

In addition, in 1 embodiment,

Above-mentioned humidifying component is a humidifying rotor,

Above-mentioned humidifying rotor is installed on the rotating frame of above-mentioned water supply installation,

Above-mentioned rotating frame has the place ahead of direction of rotation of the rotating frame of the opening that is positioned at said bucket portion, thereby prevents water from above-mentioned opening from not flowing to humidifying rotor and flow to the wall portion at the rear of air stream.

According to above-mentioned embodiment, the wall portion of above-mentioned rotating frame has prevented from not flow to humidifying rotor by the water that the opening of said bucket portion is discharged but has together flowed to than humidifying rotor more by the position at rear with air stream.

Thereby, can prevent that the water and the air of being discharged by the opening of said bucket portion from flowing the rear that together flows to humidifying rotor, increases the humidification amount.

In addition and since the wall portion of above-mentioned rotating frame prevented the current direction of discharging by the opening of bucket portion than humidifying rotor more by the position at rear, can prevent dabbling to the rear of humidifying rotor.

In addition, in embodiment 1,

Above-mentioned humidifying component is a humidifying rotor,

Above-mentioned humidifying rotor is installed on the rotating frame of above-mentioned water supply installation,

At above-mentioned rotating frame, a plurality of barrels of portions are provided with the interval of predesignating on circumference,

Between said bucket portion and bucket portion, the outer peripheral face of above-mentioned humidifying rotor is exposed by rotating frame.

According to above-mentioned embodiment,, can make water infiltrate humidifying rotor from the outer peripheral face that exposes of above-mentioned humidifying rotor because between said bucket portion and bucket portion, the outer peripheral face of above-mentioned humidifying rotor is exposed by rotating frame.Thereby, in the present embodiment, can increase the humidification amount.

In addition, in 1 embodiment,

Outer peripheral portion at above-mentioned rotating frame is provided with gear,

Said motor drives rotating frame via said gear,

Said motor and above-mentioned humidifying component be not configuration overlappingly on the flow direction of air stream.

In the above-described embodiment, the gear via the outer peripheral portion that is arranged on above-mentioned rotating frame is driven rotating frame by motor, because this motor and humidifying component are not overlapping at the flow direction of air stream, said motor can not hinder the air stream by humidifying component.

Thereby, in the above-described embodiment, can increase air capacity by humidifying component, can increase the humidification amount.

In addition, in 1 embodiment,

Said fans with respect to above-mentioned humidifying component, is configured in the downstream of air stream.

In the above-described embodiment, even fan is positioned at the downstream of the air stream of humidifying component, because the part of the upstream side of the air stream of humidifying component is supplied water, the water that humidifying component is infeeded is very little by the possibility that fan sucks.

In addition, in embodiment 1,

Above-mentioned humidifying component is configured to not immerse in the interior water of above-mentioned water pond.

In the above-described embodiment because above-mentioned humidifying component is configured to not immerse in the water in the water pond, by use said motor with the Unscrew of rotating frame, close, can carry out the opening of humidification function, closing control.

In addition, in 1 embodiment,

Inner surface in the bucket portion of above-mentioned water supply installation, the inner surface of above-mentioned humidifying component side is connected by flexure plane smoothly with the side in the downstream of air stream.

In the above-described embodiment, because the existence of above-mentioned flexure plane, water can not be easy to drain owing to surface tension is trapped in corner portions located in barrel portion, can obtain bigger humidification amount.

And then the inner surface in said bucket portion also can make the inner surface of above-mentioned humidifying component side and the side of the upstream side of air stream be connected smoothly by flexure plane.

As mentioned above, and then water can not be trapped in the corner portions located in the said bucket portion, is easy to drain, and can obtain bigger humidification amount.

According to the utility model, owing to by bucket portion the part of the upstream side of the air stream of humidifying component is supplied water, water can flow to the integral body of the thickness direction of humidifying component, can obtain bigger humidification amount.

Description of drawings

Fig. 1 is the stereogram of the embodiment 1 of damping device of the present utility model.

Fig. 2 is the longitudinal section of the damping device of above-mentioned embodiment.

Fig. 3 is the cross-sectional view of the damping device of above-mentioned embodiment.

Fig. 4 takes off the front elevation that the front panel of the damping device of above-mentioned embodiment is watched by the water tank side.

Fig. 5 is the schematic diagram of expression comparative example.

Fig. 6 is the schematic diagram of the relation of the fan of damping device of the above-mentioned embodiment of expression and humidifying rotor and dividing plate.

Fig. 7 is the schematic diagram of the relation of the humidifying rotor of damping device of the above-mentioned embodiment of expression and horn mouth and dividing plate.

Fig. 8 is the schematic diagram of the relation of the expression humidifying rotor of variation and horn mouth and dividing plate.

Fig. 9 is the figure that is watched water supply installation by the front.

Figure 10 is the stereogram of rotating frame.

Figure 11 is the stereogram of the major part of expression rotating frame.

Figure 12 is the stereogram of expression bucket portion.

Figure 13 is the key diagram of the relation of near the track at edge of inner surface of the humidifying rotor side the opening of expression bucket portion and this inner surface.

The figure of the trend of Figure 14 state that to be explanation supply water to humidifying rotor and water.

Figure 15 is the stereogram of water pond.

(A) of Figure 16 and (B) be the table and the curve map of the humidification amount result of the test of expression damping device of above-mentioned embodiment and comparative example.

Figure 17 is the figure of the major part of other embodiments of expression.

Symbol description

1 housing

3 front surface panels

5 suction inlets

6 blow-off outlets

10 water tanks

11 rear surfaces

12 inclined planes

20 fans

23 horn mouths

30 air cleaning filter unit

31 prefilters

32 ionization portions

33 dust-collecting filters

34 odor removal filters

40 humidifying rotors

50 dividing plates

51 non-humidification paths

52 humidification paths

60,160 water supply installations

61,161 barrels of portions

62 inner surfaces

The 62a edge

65,165 rotating frames

74 geared motors

75 maintaining parts

78 wall portions

79 gears

81 openings

90 water ponds

91 next doors

92 portions that draw water

The 93 non-portions that draw water

95 slotted holes

99 temporary water resettlement sections

101 otch

162,172 flexure planes

The specific embodiment

Below, explain the utility model according to illustrated embodiment.

As shown in Figure 1, this damping device possesses housing 1, the front surface panel 3 that this housing 1 has housing body 2, can install on this housing body 2 with loading and unloading.

Be provided with suction inlet 5,5 (with reference to Fig. 3) in the two sides of above-mentioned housing 1, be provided with blow-off outlet 6 at the rear portion of the upper surface of housing 1.

As mentioned above, in this damping device, owing to be provided with suction inlet 5,5 in the side of housing 1, upper surface at housing 1 is provided with blow-off outlet 6, rear surface 7 at housing 1 is not provided with suction inlet and blow-off outlet, the rear surface 7 of the housing 1 of this damping device can closely contact with the wall in not shown room, and the free degree of the setting of this damping device improves.

Existing damping device because suction inlet is positioned at the rear surface of housing, if do not open the gap of size to a certain degree between the wall in this housing and room, because suction resistance increases, can't closely be contacted with the wall in room, and the free degree of its setting is low.

On the other hand, as shown in Figure 2, in above-mentioned housing 1, uprightly be provided with water tank 10, dispose fan motor in the rear surface side and drive 21 fan 20 in the front surface side.Above-mentioned water tank 10 has the known structure identical with the fuel tank of kerosene heater, and the outlet in the bottom is provided with not shown check valve, and under the water tank 10 upright states that are provided with, the check valve pressurized is open.Between above-mentioned water tank 10 and fan 20, dispose air cleaning filter unit 30 in order and as the humidifying rotor 40 of an example of humidifying component by the front surface side.

Above-mentioned water tank 10 and air cleaning filter unit 30, shown in Fig. 2 and 4, the front is seen as essentially rectangular, and is roughly most of overlapping at fore-and-aft direction.In addition, the part and the humidifying rotor 40 of the downside of above-mentioned air cleaning filter unit 30 are overlapping at fore-and-aft direction.And then above-mentioned water tank 10, air cleaning filter unit 30 and humidifying rotor 40 dispose overlappingly with at least a portion of the horn mouth 23 of said fans 20 respectively,, cover at least a portion ground configuration of horn mouth 23 that is, reduce the noise from fan 20.

Wherein, in this manual, horn mouth 23 also comprises the notion of the opening that is surrounded by horn mouth 23 for except comprising horn mouth 23 self.

Generally speaking, arrange, be above-mentioned water tank 10, air cleaning filter unit 30, humidifying rotor 40 according to frequency of maintenance order from high to low.For example, to above-mentioned water tank 10, roughly every day all must make-up water, and the cleaning of air cleaning filter unit 30 or change needs about 2 to carry out once in thoughtful 1 year half, and the replacing of humidifying rotor 40 needed carry out once in about 2 years.Secondly that is, in above-mentioned water tank 10 and air cleaning filter unit 30 and the humidifying rotor 40, the frequency of the water supply of water tank 10 is the highest, and, the cleaning of air cleaning filter unit 30, to change equifrequent higher, and the cleaning of humidifying rotor 40, the frequency of replacing are minimum.Promptly, when arranging according to the frequency order from high to low of upkeep operation, be above-mentioned water tank 10, air cleaning filter unit 30, humidifying rotor 40, the order of this water tank 10, air cleaning filter unit 30, humidifying rotor 40 also be the front surface side apart from housing 1 be front surface panel 3 near to order far away.

As mentioned above, because the high more part of frequency of maintenance, the front surface side that is configured in apart from housing 1 is the near more position of front surface panel 3, and the operation of the maintenance of this water tank 10, air cleaning filter unit 30, humidifying rotor 40 is good.

In addition, above-mentioned air cleaning filter unit 30 comprise the hair that is used to catch bigger dust and pet etc. prefilter 31, make charged ionization portion 32 such as dust and dust, catch charged dust and dust etc. the dust-collecting filter 33 formed of for example multi-bended filter, the odor removal filter 34 of catching smell components such as tobacco smell and pet odors.Above-mentioned prefilter 31, ionization portion 32, dust-collecting filter 33 and odor removal filter 34 are arranged as roughly linearity in order by the front surface side of housing 1.Therefore, above-mentioned water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 are arranged in order by the front surface side of housing 1.

On the other hand, generally speaking, when arranging, be above-mentioned water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 according to frequency of maintenance order from high to low.For example, to above-mentioned water tank 10, roughly every day must make-up water, the frequency of the cleaning of prefilter 31 be about 2 weeks once, the frequency of the maintenance of ionization portion 32 be about half a year once, the cleaning of dust-collecting filter 33 or the frequency of replacing are about once a year, the frequency of the cleaning of odor removal filter 34 be about 1 year half once, the frequency of the replacing of humidifying rotor 40 be about 2 years once.When arranging according to the frequency order from high to low of upkeep operation, be above-mentioned water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34, humidifying rotor 40, the order of this water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34, humidifying rotor 40 also be the front surface side apart from housing 1 be front surface panel 3 near to order far away.

As mentioned above, because the high more part of frequency of maintenance disposes apart from the front surface side of housing 1, is that front surface panel 3 is near more, therefore the low part of frequency of upkeep operation can not counteract the high part of frequency of maintenance, and the operation of the maintenance separately of this water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 is good.

In addition,, stick to the dust of ionization portion 32 and dust and do not contain moisture from humidifying rotor 40 because above-mentioned ionization portion 32 is configured in than humidifying rotor 40 more by the upstream side of air stream, thereby, discharge failure can be prevented.

In addition,, can not enter in the adsorption hole of odor removal filter 34 from the moisture of humidifying rotor 40 because above-mentioned odor removal filter 34 is configured in than humidifying rotor 40 more by the upstream side of air stream, thereby, the low of deodoriging properties can be prevented.

Wherein, because above-mentioned dust-collecting filter 33 can reduce flowing resistance for having the bigger multi-bended filter of surface area of fold.

On the other hand, the rear surface 11 of above-mentioned water tank 10, as shown in Figure 3, double as does not need independently diversion component for the guide face of guiding by suction inlet 5,5 inhaled airs, can reduce the size of the fore-and-aft direction of damping device.

Specifically, above-mentioned water tank 10, as shown in Figure 3, the horizontal cross-section becomes roughly platform shape, and to the central portion progressive additive, rear surface 11 is made up of the inclined plane 12,12 of both sides and the tabular surface 13 of central authorities by sidepiece.

The inclined plane 12,12 of the rear surface 11 of above-mentioned water tank 10 will little by little be guided to the prefilter 31 of air cleaning filter unit 30 by suction inlet 5,5 inhaled airs of housing 1, has reduced flowing resistance.

Certainly, also can replace above-mentioned inclined plane 12,12, the not shown flexure plane that use will little by little guide to prefilter 31 from the air of suction inlet 5.

In addition, the central portion with tabular surface 13 of above-mentioned water tank 10, thicker than sidepiece, the dead zone (デ ッ De ス ペ one ス) of central authorities is used for the central portion of water tank 10 effectively, increase water tank volume.

On the other hand, the prefilter 31 of above-mentioned air cleaning filter unit 30, ionization portion 32, dust-collecting filter 33 and odor removal filter 34 and humidifying rotor 40, overlap at fore-and-aft direction, roughly a linearity ground is arranged, minimizing reduces flowing resistance by the number of bends of suction inlet 5 inhaled airs stream.

On the other hand, shown in Fig. 2 and 4, the odor removal filter 34 of above-mentioned air cleaning filter unit 30 and dust-collecting filter 33 etc. are whole overlapping with the horn mouth 23 of fan 20, on the other hand, overlapping of the downside of humidifying rotor 40 and horn mouth 23, but not with the overlapping of the upside of horn mouth 23.Therefore, flow air from the part of the upside of above-mentioned odor removal filter 34 to the non-humidification path 51 of the part of the upside of horn mouth 23, without humidifying rotor 40, so can reduce the flowing resistance of the air that flows through non-humidification path 51, particularly, under the situation of not carrying out humidification running only carrying out air cleaning running, can guarantee sufficient air quantity (air capacity).

On the other hand, by dividing plate 50 separating to the humidification path 52 of humidifying rotor 40 and part to the non-humidification path 51 of the part of the upside of the horn mouth 23 of fan 20 with above-mentioned air cleaning filter unit 30 from the upside of above-mentioned odor removal filter 34 from the part of the downside of odor removal filter 34.

This dividing plate 50 has prevented from humidification path 52 flowing to the air of non-humidification path 51, promptly, prevent from the flowing of the air of humidification path bypass humidifying rotor 40, flow through humidifying rotor 40, can obtain bigger humidification amount in the major part of humidification path 52 flow air.

If this dividing plate 50 does not exist, shown in the comparative example that the schematic diagram of Fig. 5 is represented, owing to flow into non-humidification path 51 at humidification path 52 flow air stream A3, bypass humidifying rotor 40 can reduce the humidification amount.

In addition, aforementioned barriers 50 from the odor removal filter 34 of air cleaning filter unit 30 extend to fan 20 near.Perhaps, though not shown, also can make aforementioned barriers 50, extend to horn mouth 23 from odor removal filter 34 near.

Thus, prevented humidifying air and the sinuous flow that the conflict of flowing through the non-humidifying air of non-humidification path 51 causes, reduced flowing resistance, in addition, reduced noise from above-mentioned humidifying rotor 40 ejections.

Use the schematic diagram of Fig. 6 and 7 to specify to this, because by extending near the dividing plate 50 the fan 20, non-humidification path 51 is separated with humidification path 52, can prevent that the air that flows through the air stream A1 of non-humidification path 51 and flow through humidification path 52 from flowing the conflict of A2, therefore, the sinuous flow that can avoid a conflict and cause can reduce flowing resistance, reduces noise.

Certainly, shown in the variation of Fig. 8, dividing plate 58 also can extend to the position of humidifying rotor 40 from air cleaning filter unit 30.

As mentioned above,, can prevent the air stream of bypass humidifying rotor 40, make air, can obtain bigger humidification amount fully by humidifying rotor 40 by aforementioned barriers 58.

In addition, as shown in Figure 4, aforementioned barriers 50 comprises horizontal part 53,54 and the rake 55 that is connected above-mentioned horizontal part 53,54, roughly along humidifying rotor 40 and water supply installation 60.

On the other hand, above-mentioned humidifying rotor 40 for example is made up of nonwoven etc., for so-called vaporization filter etc., air is passed through, by the moisture of vaporization to this air wetting of passing through.This humidifying rotor 40 shown in Fig. 2～4, is circular plate shape, is fixed in water supply installation 60.

As Fig. 2 and 3 schematically shown in, when 61 pairs of humidifying rotors of the bucket portion of this water supply installation 60 40 supply water, make near the opening 81 of barrel portion 61 and the inner surfaces 62 of humidifying rotor 40 sides tilt,, thereby supply water towards the upstream side of the air stream of humidifying rotor 40 so that the upstream side of air stream becomes the below.

Above-mentioned water supply installation 60, as shown in Figure 9, have support foot 63 and rotating frame 65 and bucket portion 61,61 ...Rotating frame 65 is mounted freely in the above-mentioned support foot 63 along vertical guide rotation.More detailed, via the axle 64 of level flange part 66 rotations at the center of above-mentioned rotating frame 65 are mounted freely on the top of supporting foot 63.

As shown in figure 10, above-mentioned rotating frame 65 have flange part 66, colyliform plectane portion 67, connect this colyliform plectane portion 67 and flange part 66 radial a plurality of arms 68,68 ...Above-mentioned arm 68,68 ... between connect and reinforce by ring portion 69.

Shown in Figure 10 and 11, an end face in the colyliform plectane portion 67 of above-mentioned rotating frame 65, a plurality of barrels of portions 61,61 ... on circumference, uniformly-spaced be provided with.In addition, in Figure 10 and Figure 11, do not represent above-mentioned humidifying rotor 40, the outer peripheral face of humidifying rotor 40 is exposed from rotating frame 65.

Thus, between said bucket portion 61 and bucket portion 61, the outer peripheral face of the humidifying rotor 40 that the water of emitting from bucket portion 61 exposes from spinning frame 65 is infiltrated, can increase the humidification amount.

In addition, the peripheral part formative gear 79 in above-mentioned colyliform plectane portion 67 is the gears engaged of geared motor 74 with an example of this gear 79 and motor shown in Figure 2, can drive rotating frames 65 by geared motor 74.

As shown in Figure 2, said gear drive motor 74 does not dispose with humidifying rotor 40 on the circulating direction of air stream overlappingly, and geared motor 74 can not hinder the air stream by humidifying rotor 40.

Thus, increased air capacity, can increase the humidification amount by above-mentioned humidifying rotor 40.

In addition, as Figure 10 and 11 in detail shown in, interior all sides in the colyliform plectane portion 67 of above-mentioned rotating frame 65, be provided with intermittently inward flange portion 71,71 ... and, be provided with from towards near the opening 81 in direction of rotation the place ahead of each barrel portion 61 to the maintaining parts 75 of the inboard roughly claw-like that extends of radial direction.Though Figure 10 and Figure 11 are not shown, inward flange portion 71,71 by above-mentioned colyliform plectane portion 67 ... with maintaining part 75,75 ... the both ends of the surface and maintenances that use restraint of humidifying rotor 40 shown in restriction Fig. 2 and 3, and the periphery of the face 77 maintenance humidifying rotors 40 of interior all sides of inner peripheral surface 76 by above-mentioned colyliform plectane portion 67 and bucket portion 61.

And then, the arm 68,68 of above-mentioned rotating frame 65 ... each on, the flank 89 of wire is set, though diagram not makes this flank 89 insert humidifying rotors 40, make this humidifying rotor 40 with rotating frame 65 rotations.

Above-mentioned maintaining part 75 also has the effect as the water diversion component concurrently except keeping humidifying rotor 40, will be side directed in radial direction from the water that the opening 81 of bucket portion 61 is discharged.

Thereby the water from the opening 81 of said bucket portion 61 is discharged by promptly side directed in the radial direction of humidifying rotor 40, spreads all over wider scope by maintaining part 75 rapidly, can increase the humidification amount.

In addition, as shown in Figure 10 and Figure 11, be positioned at the part 78 of colyliform plectane portion 67 in the place ahead of direction of rotation of rotating frame 65 of the opening 81 of said bucket portion 61, play that the water that stops from opening 81 does not flow to humidifying rotor 40 and the effect of wall portion that flows to the rear of air stream.

As the wall portion 78 of the part of this colyliform plectane portion 67, prevented from not flow to humidifying rotor 40 and flow to than humidifying rotor 40 more by the position at rear with air from the water that the opening 81 of bucket portion 61 is discharged, will guide to humidifying rotor 40 from the water of opening 81.

Thereby this wall portion 78 has prevented from can increase the humidification amount to the dabbling of the rear of humidifying rotor 40, and, can prevent dabbling from fan 20 and blow-off outlet 6.

In addition, shown in Fig. 2 and 12, the bucket portion 61 of above-mentioned water supply installation 60, when when humidifying rotor 40 supplies water, making near the inner surface 62 of and humidifying rotor 40 sides of opening 81 serves as that ground, below tilts with the upstream side of air stream.

As mentioned above, by opening 81 when above-mentioned humidifying rotor 40 supplies water, because making near the inner surface 62 of and humidifying rotor 40 sides of the opening 81 of barrel portion 61 serves as that ground, below tilts with the upstream side of air stream, the glassware for drinking water of being discharged by opening 81 has towards the speed composition of the upstream side of air stream.Thus, water is infeeded the part of upstream side of the thickness direction of above-mentioned humidifying rotor 40, and then, the water that is infeeded also flows the part in the downstream of the thickness direction that spreads all over humidifying rotor 40 with air, the result, water spreads all over the integral body of the thickness direction of humidifying rotor 40, can obtain bigger humidification amount.

Wherein, in embodiment shown in Figure 12, the inner surface of humidifying rotor 40 sides of said bucket 61 comprises near the inner surface 62 of humidifying rotor 40 sides the opening 81, and be positioned at than this inner surface 62 by two sections such compositions of the inner surface 72 of the position of lining, but the inner surface of these humidifying rotor 40 sides also can be one section that is made up of above-mentioned inner surface 62 and its elongated surfaces.

And then, shown in Fig. 2 and 11, the width of the opening 81 of the bucket portion 61 of the thickness direction of above-mentioned humidifying rotor 40, gauge than humidifying rotor 40 is little, and, the opening 81 of said bucket portion 61 corresponding with the part of the upstream side of the thickness direction of humidifying rotor 40 (in Figure 11, not shown humidifying rotor 40, this humidifying rotor 40 is sandwiched between inward flange portion 71 and the maintaining part 75).

Therefore, the water of being discharged by the opening 81 of said bucket portion 61 is infeeded the part of upstream side of air stream of the thickness direction of humidifying rotor 40, on the other hand, does not directly infeed the part in downstream of air stream of the thickness direction of humidifying rotor 40.

Thereby, not only water can spread all over the part of upstream side of the thickness direction of the humidifying rotor 40 that has been infeeded water, this water that is poured into can also flow the part in the downstream of the thickness direction that spreads all over humidifying rotor 40 with air, the result, water spreads all over the integral body of the thickness direction of humidifying rotor 40, can obtain bigger humidification amount.

In addition,, can prevent from humidifying rotor 40 dabbling of side downstream because water does not directly infeed the part in downstream of the thickness direction of above-mentioned humidifying rotor 40, and then, dabbling can be prevented from fan 20 and blow-off outlet 6.

On the other hand, Figure 13 is the inclination for the inner surface 62 of humidifying rotor 40 sides that said bucket portion 61 is described, is illustrated in and the schematic diagram of the rectangular direction of the rotary middle spindle of humidifying rotor 40 with the state in bucket portion 61 cross sections.

By Figure 12 and 13 as can be seen, with respect to the opening 81 of the bucket portion 61 of above-mentioned water supply installation 60 near the track of edge 62a of inner surface 62 of humidifying rotor 40 sides be taper seat (two-dimensional representation is circle) the tangent section TP of C of three dimensional representation, promptly with respect to the section TP of the edge 62a of the inner surface 62 by near humidifying rotor 40 sides the above-mentioned opening 81, the inner surface 62 of humidifying rotor 40 sides of said bucket portion 61 is in contrast to the oblique acute angle theta of humidifying rotor 40 inclinations.

As mentioned above, because near the inner surface 62 of humidifying rotor 40 sides the opening 81 of said bucket portion 61 is with respect to above-mentioned section TP acute rake angle θ only, as seen from Figure 13, arrive at the edge 62a of the inner surface 62 of the opening 81 of bucket portion 61 before the summit S of locus circle C of two-dimensional representation when pivot O becomes central angle θ (equaling above-mentioned acute angle theta) with the direction of summit S, near the inner surface 62 of humidifying rotor 40 sides that above-mentioned opening 81 is is levels.

Therefore, shown in Figure 13 and 14, said bucket portion 61, before the summit S that arrives locus circle C, the beginning draining is discharged whole water and is finished near the RS of the summit of humidifying rotor 40.

As mentioned above, said bucket portion 61, central angle θ before on than the summit RS that arrives humidifying rotor 40 begins draining on the bigger angle, near the RS of the summit of humidifying rotor 40, discharge whole water, and the water that is infeeded humidifying rotor 40 moves to the place ahead of direction of rotation R with humidifying rotor 40 shown in the arrow of Figure 14, thus, can make water spread all over the wider scope of both sides of the summit RS of humidifying rotor 40, can increase the humidification amount.

Wherein, the optimum value of above-mentioned acute angle theta changes according to the rotary speed of rotating frame 65 and the size of humidifying rotor 40, about for example preferred 5 degree～30 degree.

On the other hand, as shown in Figure 2, set the size of above-mentioned water supply installation 60 and be configured,, and barrel portion 61 is immersed in the water of the portion 92 that draws water draw water by the portion of drawing water 92 so that humidifying rotor 40 do not immerse in the water of water pond 90.

As mentioned above, do not immerse configuration in the water in the water pond 90 by making above-mentioned humidifying rotor 40, when the rotating frame 65 of water supply installation 60 stops, make water not infeed humidifying rotor 40 from bucket portion 61, and humidifying rotor 40 does not immerse in the water of water pond 90 and absorbs water, and closes humidification function thus.

Thereby, by open by said gear drive motor 74, the rotation of closing control rotating frame 65, can carry out the opening of humidification function, closing control.

On the other hand, at above-mentioned water pond 90, as shown in Figure 2, be provided with the next door 91 of cross section for the word shape of falling L, will draw water portion 92 and the non-portion 93 that draws water separate.Bucket portion 61 is drawn water by the above-mentioned portion 92 that draws water.The above-mentioned non-portion 93 that draws water is subjected to the air pressure of the upstream side of air cleaning filter unit 30.

The top in above-mentioned next door 91, fit tightly with the bottom of prefilter 31, ionization portion 32, dust-collecting filter 33 and the odor removal filter 34 of air cleaning filter unit 30, owing to pass through the drag losses of the air of air cleaning filter unit 30, between air pressure in the non-portion 93 that draws water and the air pressure in the portion 92 that draws water, produce pressure differential.

In the above-mentioned non-portion 93 that draws water, buoyancy aid switch 94 is set, when the water table ratio steady state of the non-portion 93 that draws water is hanged down certain value, represent that water tank 10 does not have the demonstration or the alarm of water, is undertaken by not shown display part or alarm portion.

Shown in Figure 15 is further detailed, at above-mentioned water pond 90, portion that draws water 92 that is provided with the wider width that can draw water with bucket portion 61 and the next door 91 (an only expression part) that the non-portion 93 that draws water of the air pressure of the upstream side that is subjected to air cleaning filter unit 30 separates are provided with laterally long slotted hole 95 in the bottom in this next door 91 as the limbers.

Thus, with the rising of the rotary speed of said fans 20 accordingly, when the upstream side of air cleaning filter unit 30 and the pressure reduction in downstream increase, with the size of this pressure reduction accordingly, the water level of portion 92 of drawing water becomes and is higher than the water level of the non-portion 93 that draws water, and can regulate the amount of drawing water of barrel portion 61 accordingly automatically with the rotary speed of fan 20.

Thereby, with the rotary speed of said fans 20 accordingly, can regulate output automatically for humidifying rotor 40, automatically regulate the humidification amount simply.

The laterally long slotted hole 95 that is provided with in the next door 91 of above-mentioned water pond 90 even the water level step-down also is difficult to be exposed in the air, can promptly be supplied with water to the portion of drawing water 92 by the non-portion 93 that draws water, the self-regulating answer speed of the water level of the portion 92 that accelerates to draw water.

On the other hand, in the above-mentioned non-portion 93 that draws water, be provided with the water tank that water tank 10 is set portion 98 is set, this water tank is provided with the height height of the bottom surface 93b the next door 91 of the non-portion 93 that draws water of aspect ratio of bottom surface 98b of portion 98 near.In addition, the perisporium of portion 98 is set, otch 101 is set by the upper end at above-mentioned water tank.

Thus, stop the rotation of said fans 20, the upstream side of air cleaning filter unit 30 and the pressure reduction in downstream are eliminated, water returns the non-portion 93 that draws water by the portion of drawing water 92, under the non-water level that draws water portion 93 becomes situation more than the certain value, by otch 101 by the non-portion 93 that draws water to 99 discharge waters of temporary water resettlement section, anti-sealing is overflowed to the outside by the non-portion 93 of drawing water.

Wherein, also can replace above-mentioned otch 101, the top that the perisporium of portion 98 is set at water tank is provided with through hole.

Wherein, in Fig. 2,111 are the power supply printed circuit board (PCB), 112 are operation control printed circuit board (PCB), 113 is to show to use printed circuit board (PCB), and 114 is the dust sensor, and 115 is reserve filter, in Fig. 4,121 are the high pressure printed circuit board (PCB), and 122 is smell sensor, and 123 is streamer (ス ト リ one マ), 124 is light accepting part, in Figure 15,96 holes for the box that is used to install antiseptic, 97 is the buoyancy aid installing hole, because above-mentioned parts are related with purport of the present utility model weak, omit its detailed description.

The damping device of said structure moves as described below.

Shown in Fig. 2 and 3, use fan motor 21 to drive said fans 20, when using geared motor 74 to drive the rotating frame 65 of water supply installation 60, air is sucked by the suction inlet 5,5 of the side 3 of above-mentioned housing 1.Between the prefilter 31 of this air that is inhaled into by the rear surface 11 of water tank 10 and air cleaning filter unit 30, towards prefilter 31 flow direction is once changed 90 degree, then, roughly linearity ground flows through the roughly prefilter 31 of the air cleaning filter unit 30 of linearity ground arrangement in the horizontal direction, ionization portion 32, dust-collecting filter 33, odor removal filter 34, humidifying rotor 40 and fan 20, air is cleaned and humidification, afterwards, when blowing out by fan 20, flow direction once changes 90 degree to the top of vertical roughly, is discharged by the blow-off outlet 6 of the upper surface of housing 1.

As mentioned above, in this damping device, by flowing of suction inlet 5,5 inhaled airs of above-mentioned housing 1, the number of bends that is air flow circuit is roughly, amount to 2 times to 1 time of the prefilter 31 of air cleaning filter unit 30 and 1 time of blowing out by fan 20 by the suction inlet 5,5 of the side 3 of housing 1, because the number of bends of air flow circuit is less, flowing resistance is less.

In addition, by suction inlet 5,5 inhaled airs of above-mentioned housing 1, by the inclined plane 12,12 of the both sides of the rear surface 11 of water tank 10, towards the prefilter 31 of air cleaning filter unit 30 and guiding gradually, because it is less that violent direction changes, so flowing resistance is less.

By purifying air that the part of the upside of the odor removal filter 34 of above-mentioned air cleaning filter unit 30 blows out, flow through the non-humidification path 51 that is separated by dividing plate 50 and humidification path 52,,, be not inhaled into fan 20 by the upper portion of horn mouth 23 by humidifying rotor 40.On the other hand,, flow through humidification path 52,,,, be inhaled into fan 20 by the lower portion of horn mouth 23 by humidification by humidifying rotor 40 by purifying air that the lower portion of odor removal filter 34 blows out.

As mentioned above, owing to flow through by the upper portion of above-mentioned odor removal filter 34 air, without humidifying rotor 40, so can reduce the flowing resistance of the air that flows through non-humidification path 51 to the non-humidification path 51 of the upper portion of horn mouth 23.Particularly, stop geared motor 74, stop the action of water supply installation 60, do not carry out the humidification running, only carry out under the situation of air cleaning running,, can guarantee sufficient air quantity (air capacity) owing to there is this non-humidification path 51.

In addition, owing to flow through purifying air of above-mentioned humidification path 52, because of dividing plate 50 prevents to flow into non-humidification path 51 by humidification path 52 bypass humidifying rotors 40, so flow into the air of humidification path 52 nearly all by humidifying rotor 40 by the lower portion of odor removal filter 34.As mentioned above, by extend near the dividing plate 50 the fan 20 by above-mentioned odor removal filter 34, prevent from the flowing of the air of humidification path 52 bypass humidifying rotors 40, so can obtain bigger humidification amount.

(A) of Figure 16 and (B) be the table and the curve map of the humidification amount result of the test of expression present embodiment and comparative example.

In Figure 16, P represents present embodiment, and N represents only removing the comparative example different with present embodiment on dividing plate 50 this point from present embodiment.

By (A) of this Figure 16 and (B) as can be seen, the air quantity of the fan 20 of present embodiment P and comparative example N (main flow air quantity) is similarly 7.5m ³/ min, the air capacity by humidifying rotor 40 among the comparative example N is 3.21m ³/ min, relative therewith, the air capacity increase by humidifying rotor 40 in the present embodiment is 3.50m ³/ min, in addition, the humidification amount is 556cc/h in comparative example N, and is relative therewith, the increase of humidification amount is 597cc/h in the present embodiment.

Present embodiment P is (597-556)/556=0.074 with respect to the ratio of the increase of the humidification amount of comparative example N.

That is, among the present embodiment P, N compares with comparative example, and the humidification amount has increased about 7% and had a surplus.

In addition, extend near the fan 20 dividing plate 50, prevent the humidifying air that blows out by above-mentioned humidifying rotor 40 and flow through the conflict of the non-humidifying air of non-humidification path 51, prevent sinuous flow by odor removal filter 34 by above-mentioned air cleaning filter unit 30.Its result can lower flowing resistance, and, reduce noise.

On the other hand, humidifying rotor 40 shown in Figure 2 is supplied water from the opening 81 of the bucket portion 61 of water supply installation 60.Specifically, shown in Fig. 2,10,11 and 12,, has barrel portion 61,61,61 by said gear drive motor 74 ... rotating frame 65 be driven in rotation via gear 79, bucket portion 61,61,61 ... the portion that draws water 92 by water pond 90 draws water in turn, and water is infeeded humidifying rotor 40.

When supplying water by 61 pairs of humidifying rotors of this barrel portion 40, shown in Fig. 2 and 12, because making near the inner surface 62 of humidifying rotor 40 sides of the opening 81 of barrel portion 61 serves as that ground, below tilts with the upstream side of air stream, the glassware for drinking water of being discharged by opening 81 has towards the speed composition of the upstream side of air stream.Thus, water is poured into the part of upstream side of the thickness direction of above-mentioned humidifying rotor 40, and then, the water that is poured into also flows the part in the downstream of the thickness direction that spreads all over humidifying rotor 40 with air, the result, water spreads all over the integral body of the thickness direction of humidifying rotor 40, can obtain bigger humidification amount.

And then, shown in Fig. 2 and 11, the width of the opening 81 of the bucket portion 61 of the thickness direction of above-mentioned humidifying rotor 40 is littler than the gauge of humidifying rotor 40, and, the opening 81 of said bucket portion 61, corresponding with the part of the upstream side of the thickness direction of humidifying rotor 40, so the water of being discharged by the opening 81 of said bucket portion 61 is only infeeded the part of the upstream side that the air of thickness direction of the outer peripheral face of the humidifying rotor 40 that exposes flows between bucket portion 61 and bucket portion 61.

Thereby, outer peripheral face water leaking-in in humidifying rotor 40 from the part of the upstream side of the thickness direction of this humidifying rotor that is supplied water 40, infiltrate the part in the downstream of the water of this upstream side part and the thickness direction that air stream together spreads all over humidifying rotor 40, the result, water spreads all over the integral body of the thickness direction of humidifying rotor 40, can obtain bigger humidification amount.

In addition, owing to water is not directly infeeded the part in downstream of the thickness direction of above-mentioned humidifying rotor 40, can prevent from humidifying rotor 40 dabbling of side downstream, and then, can prevent to dabble from fan 20 and blow-off outlet 6.

In addition, as Figure 12 and shown in Figure 13, with respect to the opening 81 of the bucket portion 61 of above-mentioned water supply installation 60 near the track of three-dimensional of edge 62a of inner surface 62 of humidifying rotor 40 sides be the tangent section TP of taper seat C, promptly with respect to the section TP of the edge 62a of the inner surface 62 by near humidifying rotor 40 sides the above-mentioned opening 81, the inner surface 62 of humidifying rotor 40 sides of said bucket portion 61 is to tiltedly being acute angle theta in contrast to humidifying rotor 40 inclinations, by the schematic cross-section of Figure 13 as can be known, near the edge 62a of the inner surface 62 the opening 81 of bucket portion 61 arrives before the summit S of the locus circle C that represents in the cross section, when distance vertical axis central angle θ (equaling above-mentioned acute angle theta), near the inner surface 62 of humidifying rotor 40 sides the above-mentioned opening 81 is levels, afterwards, along with the rotation of rotating frame 65, this inner surface 62 inclination with respect to the horizontal plane increases gradually.

Thereby, as Figure 13 and shown in Figure 14, said bucket portion 61, before the summit S that arrives locus circle C, the beginning draining has been arranged whole water near the RS of the summit of humidifying rotor 40.

Thereby, from said bucket portion 61, than the bigger angle of the central angle θ before the summit RS that arrives humidifying rotor 40 time, begin discharge water, near the RS of the summit of humidifying rotor 40, discharge whole water, and the water that is infeeded humidifying rotor 40 moves in the place ahead of direction of rotation R in the same way with humidifying rotor 40 1 shown in the arrow W of Figure 14, thus, can make water spread all over the scope of broad of both sides of the summit RS of humidifying rotor 40, can increase the humidification amount.

And then the water of discharging from the opening 81 of said bucket portion 61 is by the maintaining part 75 shown in Figure 10～12, to the inboard guiding rapidly of the radial direction of humidifying rotor 40, the wider scope that spreads all over humidifying rotor 40 rapidly.

Thereby, also can increase the humidification amount by this maintaining part 75.

Above-mentioned maintaining part 75 except having the function that keeps humidifying rotor 40, also has the function as the water diversion component that increases the humidification amount.

In addition, the water of discharging from the opening 81 of said bucket portion 61, shown in Figure 10 and 11, the part of the colyliform plectane portion 67 of the rotating frame 65 in the place ahead by being positioned at its opening 81 is a wall portion 78, prevent that itself and air stream from together flowing to the rear of humidifying rotor 40, and fall towards humidifying rotor 40.

Thereby above-mentioned wall portion 78 prevents to dabble to the rear of humidifying rotor 40, can increase the humidification amount, and prevent to dabble from fan 20 and blow-off outlet 6.

In the present embodiment, by from the opening 81 of said bucket portion 61 when humidifying rotor 40 supplies water, near the inner surface 62 of humidifying rotor 40 sides the opening 81 of this barrel portion 61 serves as the structure that ground, below tilts with the upstream side of air stream, the glassware for drinking water that is poured into has towards the speed composition of the upstream side of air stream, and opening 81 structure corresponding with the part of the upstream side of the thickness direction of humidifying rotor 40 by said bucket portion 61, infeeded the part of upstream side of the thickness direction of humidifying rotor 40 from the water of opening 81, by with respect to the opening 81 of said bucket portion 61 near the track of edge 62a of inner surface 62 of humidifying rotor 40 sides be the tangent section TP of taper seat C, promptly with respect to the section TP of the edge 62a by its inner surface 62, above-mentioned inner surface 62 tiltedly is the structure of acute angle theta to anti-humidifying rotor 40 inclinations, bucket portion 61 is before the summit RS that arrives humidifying rotor 40, the beginning discharge water, near the RS of the summit of humidifying rotor 40, discharge whole water, near the structure of the maintaining part 75 of the opening 81 by being arranged on barrel portion 61, the water of discharging from opening 81 is promptly guided to the radial direction inboard of humidifying rotor 40, the structure of the wall portion 78 of the rotating frame 65 in the place ahead of the opening by being positioned at said bucket portion 61, prevent to flow the rear that together flows to humidifying rotor 40 from water and air that the opening 81 of bucket portion 61 is discharged, it is fallen towards humidifying rotor 40, thus, by above synergism, can obtain extremely many humidification amounts.

On the other hand, as shown in Figure 2,, blocked by next door 91 for the bypass of the air of above-mentioned air cleaning filter unit 30.Drag losses by the air of prefilter 31, ionization portion 32, dust-collecting filter 33 and odor removal filter 34 by this air cleaning filter unit 30 produces pressure reduction in the upstream side and the downstream of air cleaning filter unit 30.This pressure reduction is that the increase of air quantity raises according to the rotary speed of fan 20.

The pressure of the upstream side in above-mentioned air cleaning filter unit 30 and next door 91 is atmospheric pressure roughly.This roughly atmospheric pressure act on the water of the non-portion 93 that draws water of water pond 90, on the other hand, the pressure in the downstream in air cleaning filter unit 30 and next door 91 is for forcing down the low pressure of above-mentioned drag losses amount than atmosphere, this low pressure acts on the water of the portion that draws water 92 of water pond 90.Act on above-mentioned water pond 90 the non-portion 93 that draws water water roughly atmospheric pressure and act on the low pressure of the portion of drawing water 92, have above-mentioned pressure reduction.

On the other hand, the non-portion 93 that draws water of above-mentioned water pond 90 is interconnected with the slotted hole 95 of portion 92 by the bottom in next door 91 that draw water, therefore, and the amount of the pressure reduction that the water level of the non-portion 93 that draws water of the water table ratio of the portion that draws water 92 of water pond 90 height is above-mentioned.This pressure reduction is that the increase of air quantity raises according to the rotary speed of fan 20.

Therefore, the water level of the above-mentioned portion 92 that draws water is that the increase of air quantity raises according to the rotary speed of fan 20.

Thereby the bucket portion 61 of above-mentioned water supply installation 60 can increase the mode of the amount of drawing water with the increase according to the rotary speed (air quantity) of fan 20, draws water from the portion of drawing water 92, and humidifying rotor 40 is supplied water.

As mentioned above, can regulate the water level of the portion of drawing water 92 automatically owing to corresponding said fans 20 rotary speeies, even do not control the rotary speed of the rotating frame 65 of water supply installation 60, also can corresponding air quantity (air capacity) regulate output automatically, can simply automatically regulate the humidification amount humidifying rotor 40.

The automatic adjusting of the water level of this portion 92 that draws water, 95 pairs of the slotted holes of the bottom by next door 91 portion 92 that draws water supplies with water and carries out, and therefore can quickly responding to property carry out well.Particularly,, therefore can promptly supply with water, the automatic adjusting of the water level of the portion 92 that can response draws water well by this slotted hole 95 owing to used the laterally long slotted hole 95 that is difficult to be exposed to air.

Then, when the rotation of said fans 20 stops, the upstream side of air cleaning filter unit 30 and the pressure reduction in downstream have been eliminated, and therefore exist water to return the lower non-portion 93 that draws water of water level by the higher portion that draws water 92 of water level, and the non-water level that draws water portion 93 becomes more than the certain value.

In the case, water is discharged by otch 101 to temporary water resettlement section 99 from the non-portion 93 that draws water, and water can not overflow to the outside from the non-portion 93 of drawing water.

Then, the operation of safeguarding is described.

Generally speaking, arrange according to frequency of maintenance order from high to low, be water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40, the front surface side that is apart from housing 1 is front surface panel 3 order from the near to the remote.For example, for above-mentioned water tank 10, roughly must every day make-up water, the cleaning frequency of prefilter 31 be about 2 the week 1 time, the frequency of the maintenance of ionization portion 32 is half a year roughly 1 time, the cleaning of dust-collecting filter 33 or the frequency of replacing are that the frequency of the cleaning of odor removal filter 34 is about 1 year half 1 times roughly 1 year 1 time, being replaced by about 2 years 1 time of humidifying rotor 40.

Under the situation to above-mentioned water tank 10 make-up water, take off front surface panel 3, take out water tank 10 from housing body 2, water tank 10 make-up water from housing body 2.

At this moment, because air cleaning filter unit 30 and humidifying rotor 40 are positioned at the rear surface side of water tank 10, can not hinder operation to the make-up water of water tank 10.

Thereby the upkeep operation of water tank 10 is good.

Then, carry out taking off front surface panel 3 from housing body 2 under the situation of cleaning work of prefilter 31, take out after the water tank 10, take out prefilter 31, clean.

At this moment, because ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 are positioned at the rear surface side of prefilter 31, do not need to take off, take out.

As mentioned above, for the cleaning of prefilter 31, because the water tank 10 that takes off before it is just passable, the cleaning work ratio of prefilter 31 is easier to.

As mentioned above, because the high more component configuration of frequency of maintenance is the near more position of front surface panel 3 in the front surface side of distance housing 1, therefore the lower parts of frequency of upkeep operation can not hinder the higher parts of frequency of upkeep operation, and the operation of the maintenance separately of this water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 is good.

The damping device of above-mentioned embodiment, in the side of housing 1 suction inlet 5 is set, upper surface at housing 1 is provided with blow-off outlet 6, because the rear surface 7 of housing 1 does not have suction inlet and blow-off outlet, the rear surface of housing 1 and the wall in room are fitted tightly, have the free degree advantage of higher of setting.

In addition, in the damping device of above-mentioned embodiment, suction inlet 5 from the side 3 of housing 1,5 air that are inhaled into, between the prefilter 31 of the rear surface 11 of water tank 10 and air cleaning filter unit 30, towards prefilter 31 flow direction is changed 90 degree for 1 time, afterwards, from being arranged as the roughly prefilter 31 of the air cleaning filter unit 30 of a linearity, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 to fan 20 in the horizontal direction roughly linearity ground flow, be cleaned and humidification, then, when when fan 20 blows out, flow direction changes 90 degree for 1 time to the vertical top, blow-off outlet 6 by the upper surface of housing 1 is discharged, the number of bends of air flow circuit is roughly, suction inlet 5 by the side 3 of housing 1,5 amount to 2 times to 1 time of the prefilter 31 of air cleaning filter unit 30 and 1 time of being blown out by fan 20, because the number of bends of air flow circuit is less, have the less advantage of flowing resistance.

In addition, the damping device of above-mentioned embodiment, suction inlet 5,5 inhaled airs from housing 1, the inclined plane 12,12 of the both sides of the rear surface 11 by water tank 10, prefilter 31 towards air cleaning filter unit 30 is guided gradually, because it is less that violent direction changes, so have the less advantage of flowing resistance.

In addition, in the damping device of above-mentioned embodiment,, do not need independently guide member, therefore, can reduce the size of the fore-and-aft direction of damping device because the inclined plane 12,12 of the rear surface 11 of water tank 10 is also used as guide surface.

In addition, in the damping device of above-mentioned embodiment,, use the quiet song of central authorities effectively, can increase water tank volume because the central portion with tabular surface 13 of water tank 10 is thicker than the sidepiece with inclined plane 12,12.

In addition, in the damping device of above-mentioned embodiment, because ionization portion 32 is configured in than humidifying rotor 40 more by the upstream side of air stream, the dust that sticks to ionization portion 32 does not contain the moisture from humidifying rotor 40, thereby can prevent discharge failure.

In addition, in the damping device of above-mentioned embodiment, because odor removal filter 34 is configured in the upstream side that more flows by air than humidifying rotor 40, can not enter the adsorption hole of odor removal filter 34 from the moisture of humidifying rotor 40, thereby can prevent the low of deodoriging properties.

In addition, in the damping device of above-mentioned embodiment,, use the bigger multi-bended filter of surface area, therefore can reduce flowing resistance with fold as dust-collecting filter 33.

In addition, in the damping device of above-mentioned embodiment, humidifying rotor 40 is overlapping with the part of horn mouth 23, air cleaning filter unit 30 and water tank 10 be whole overlapping with horn mouth 23 respectively, because humidifying rotor 40, air cleaning filter unit 30 and water tank 10 cover horn mouth 23, can reduce noise.

In addition, in the damping device of above-mentioned embodiment, by dividing plate 50, prevent to purify air and flow into non-humidification path 51 from humidification path 52 bypass humidifying rotors 40, nearly all pass through humidifying rotor 40 from odor removal filter 34 to humidification path 52 leaked-in airs, so can obtain bigger humidification amount.

In addition, in the damping device of above-mentioned embodiment, owing to possess near the dividing plate 50 that extends to fan 20 or horn mouth 23 from the odor removal filter 34 of air cleaning filter unit 30, prevent from humidifying rotor 40 humidifying air that blows out and the conflict of flowing through the non-humidifying air of non-humidification path 51, prevent the generation of sinuous flow, flowing resistance can be reduced, and noise can be reduced.

In addition, in the damping device of above-mentioned embodiment, a part and the humidifying rotor 40 of the horn mouth 23 of fan 20 are overlapping, the other part of the horn mouth 23 of fan 20 is not overlapping and overlapping with the part of air cleaning filter unit 30 with humidifying rotor 40, can reduce flowing resistance, particularly, not carry out the humidification running, only carry out to guarantee sufficient air quantity (air capacity) under the situation of air cleaning running.

In addition, in the damping device of above-mentioned embodiment, from bucket portion 61 when humidifying rotor 40 supplies water, near because the inner surface 62 of humidifying rotor 40 sides the opening 81 of bucket portion 61, upstream side with air stream serves as that ground, below tilts, the glassware for drinking water of discharging from opening 81 has towards the speed composition of the upstream side of air stream, part to the upstream side of the thickness direction of humidifying rotor 40 supplies water, water that this infeeds and air flow the part in the downstream of the thickness direction that together flows to humidifying rotor 40, the result, water spreads all over the integral body of the thickness direction of humidifying rotor 40, can obtain bigger humidification amount.

In addition, in the damping device of above-mentioned embodiment, the opening 81 of bucket portion 61, corresponding with the part of the upstream side of the thickness direction of humidifying rotor 40, the water of discharging from the opening 81 of bucket portion 61 is infeeded the part of upstream side of air stream of thickness direction of the outer peripheral face of humidifying rotor 40, the part that the water of the upstream side part of the thickness direction of infiltration humidifying rotor 40 and air flow the downstream of the thickness direction that together spreads all over humidifying rotor 40, the result, water spreads all over the integral body of the thickness direction of humidifying rotor 40, can obtain bigger humidification amount.

In addition, in the damping device of above-mentioned embodiment, owing to water is not directly infeeded the part in downstream of the thickness direction of humidifying rotor 40, can prevent from humidifying rotor 40 dabbling of side downstream, and then, can prevent to dabble from fan 20 and blow-off outlet 6.

In addition, in the damping device of above-mentioned embodiment, because with respect to the track with near the edge 62a of the inner surface 62 of humidifying rotor 40 sides of the opening 81 of the bucket portion 61 of water supply installation 60 is the tangent section TP of taper seat C, promptly with respect to the section TP of the edge 62a of the inner surface 62 by near humidifying rotor 40 sides the above-mentioned opening 81, near the inner surface 62 of humidifying rotor 40 sides the opening 81 of bucket portion 61 is to tiltedly being acute angle theta in contrast to humidifying rotor 40 inclinations, near the RS of the summit of humidifying rotor 40, discharge whole water, in addition, the water and the humidifying rotor 40 1 that are infeeded humidifying rotor 40 move in the place ahead of direction of rotation R in the same way, thus, water is flow in the scope of both sides broad of summit RS of humidifying rotor 40, can increase the humidification amount.

In addition, in the damping device of above-mentioned embodiment, since rotating frame 65 be provided with the opening 81 that is positioned at barrel portion 61 near, have maintaining part when keeping humidifying rotor 40 as the function of water diversion component, water from opening 81 promptly can be guided to the inboard of the radial direction of humidifying rotor 40, the relative broad range that promptly spreads all over humidifying rotor 40 increases the humidification amount.

In addition, in the damping device of above-mentioned embodiment, because the wall portion 78 of the rotating frame 65 in the place ahead by being positioned at opening 81 prevents from together to flow to from the water and air stream that the opening 81 of bucket portion 61 is discharged the rear of humidifying rotor 40, therefore prevent dabbling to the rear of humidifying rotor 40, the humidification amount can be increased, and dabbling of fan 20 and blow-off outlet 6 can be prevented.

In addition, in the damping device of above-mentioned embodiment, by from the opening 81 of bucket portion 61 when humidifying rotor 40 supplies water, near the inner surface 62 of humidifying rotor 40 sides the opening 81 of this barrel portion 61 serves as the structure that ground, below tilts with the upstream side of air stream, the glassware for drinking water that is infeeded has towards the speed composition of the upstream side of air stream, by the opening 81 of bucket portion 61 structure corresponding with the part of the upstream side of the thickness direction of humidifying rotor 40, infeeded the part of upstream side of the thickness direction of humidifying rotor 40 from the water of opening 81, by with respect to the opening 81 of bucket portion 61 near the track of edge 62a of inner surface 62 of humidifying rotor 40 sides be the tangent section TP of taper seat C, promptly with respect to the section TP of the edge 62a by its inner surface 62, above-mentioned inner surface 62 is to tiltedly being the structure of acute angle theta in contrast to humidifying rotor 40 inclinations, bucket portion 61 is before the summit RS that arrives humidifying rotor 40, the beginning discharge water, near the RS of the summit of humidifying rotor 40, discharge whole water, near the structure of the maintaining part 75 of the opening 81 by being arranged on barrel portion 61, the water of discharging from opening 81 is promptly guided to the radial direction inboard of humidifying rotor 40, the structure of the wall portion 78 of the rotating frame 65 in the place ahead of the opening by being positioned at said bucket portion 61, prevent to flow the rear that together flows to humidifying rotor 40 from water and air that the opening 81 of bucket portion 61 is discharged, it is fallen towards humidifying rotor 40, by above synergism, can obtain extremely many humidification amounts.

In addition, in the damping device of above-mentioned embodiment, between bucket portion 61 and bucket portion 61, because the outer peripheral face of humidifying rotor 40 is exposed by rotating frame 65, the outer peripheral face from humidifying rotor 40 exposes to humidifying rotor 40 water leaking-ins, can increase the humidification amount.

In addition, in the damping device of above-mentioned embodiment, peripheral part at rotating frame 65 is provided with gear 79, because the geared motor 74 that drives this gear 79 is not disposed on the flow direction of air stream overlappingly with humidifying rotor 40, this geared motor 74 can not hinder the air stream by humidifying rotor 40, air capacity can be increased, the humidification amount can be increased by humidifying rotor 40.

In addition, in the damping device of above-mentioned embodiment, owing to the water in the portion that draws water 92 of humidifying rotor 40 not being immersed water ponds 90 do not dispose,, can carry out the opening of humidification function, closing control by open, close the rotation of rotating frame 65 by geared motor 74.

In addition, in the damping device of above-mentioned embodiment, because by next door 91, separate water pond 90 for the portion that draws water that draws water with bucket portion 61 92 and be subjected to the non-portion 93 that draws water of air pressure of the upstream side of air cleaning filter unit 30, bottom in this next door 91 is provided with slotted hole 95 as the limbers, corresponding with the increase of the air quantity of fan 20, when the pressure reduction in the upstream side of air cleaning filter unit 30 and downstream increases, corresponding with its pressure extent, the water level of portion 92 of drawing water raises, even the rotary speed of rotating frame 65 is constant, corresponding with the increase of the air quantity of fan 20, can automatically regulate the amount of drawing water of barrel portion 61, can automatically regulate output, simply automatically regulate the humidification amount to humidifying rotor 40.

In addition, in the damping device of above-mentioned embodiment, because bottom in the next door 91 of water tank 90, laterally long slotted hole 95 is set, should be difficult to be exposed to air by laterally long slotted hole 95, promptly supply with water from the non-portion 93 that draws water to the portion of drawing water 92, can make the self-regulating response speed of water level of the portion of drawing water 92 faster.

In addition, in the damping device of above-mentioned embodiment, when the non-water level that draws water portion 93 becomes the certain value of predesignating when above, owing to be provided with the temporary water resettlement section 99 that water flows into by otch 101 from the non-portion 93 that draws water, the rotation of fan 20 stops, the upstream side of air cleaning filter unit 30 and the pressure reduction in downstream are eliminated, even water returns the non-portion 93 that draws water from the portion of drawing water 92, can prevent that also sealing is overflowed to the outside by the non-portion 93 of drawing water.

In addition, in the damping device of above-mentioned embodiment, front surface side from housing 1, according to frequency of maintenance order from high to low, roughly dispose water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 linearity, the part that the frequency of upkeep operation is lower can not hinder the higher part of frequency of upkeep operation, and the operation of the maintenance separately of water tank 10, prefilter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 and humidifying rotor 40 is good.

In addition, in the damping device of above-mentioned embodiment, because fan 20 is positioned at than water tank 10, air cleaning filter unit 30 and humidifying rotor 40 more by the rear surface side, fan 20 can not hinder upkeep operations such as the cleaning, replacing of water tank 10, air cleaning filter unit 30 and humidifying rotor 40, thereby the operation of maintenance is good.

Figure 17 is the figure of the major part of other embodiments of expression.Present embodiment has only the inner surface of bucket portion 161 of rotating frame 65 of water supply installation 160 different with the inner surface of the bucket portion 61 of the rotating frame 65 of the water supply installation 60 of the embodiment of Figure 12.Thereby in Figure 17, for the structural element identical with the structural element of Figure 12, the additional reference number identical with the structural element of Figure 12 omits explanation, only for different structural elements, in following explanation.

As shown in figure 17, the inner surface in the bucket portion 161 of above-mentioned water supply installation 160, the side 150 in the downstream of the inner surface 62,72 of above-mentioned humidifying rotor 40 (with reference to figure 2) side and air stream connects smoothly by flexure plane 162,172.

Because of the existence of this flexure plane 162,172, the bight in bucket portion 161 can not help controlling water owing to surface tension makes hydropexis, can obtain bigger humidification amount.

Wherein, though diagram not, also can be at the inner surface of bucket portion, further the side with the upstream side of the inner surface of humidifying rotor side and air stream is connected smoothly by flexure plane.

As mentioned above, further the occluded water not of the bight in said bucket portion is beneficial to control water, can obtain bigger humidification amount.

In the above-described embodiment, blow-off outlet 6 is set, also can blow-off outlet be set, perhaps all be provided with in the upper surface and the side of housing in the side of housing at the upper surface of housing 1.

In addition, in the above-described embodiment, air cleaning filter unit 30 comprises prefilter 31, ionization portion 32, dust-collecting filter 33 and odor removal filter 34, in addition, can also comprise sterilizing filter, perhaps removes deionization portion 32 and odor removal filter 34 etc.For example, the air cleaning filter unit also can only comprise prefilter and dust-collecting filter, perhaps only is made of single filter.

In addition, in the above-described embodiment, be provided with dividing plate 50, also can remove this dividing plate.

In addition, in the above-described embodiment, as humidifying component, used humidifying rotor 40, also can replace humidifying rotor 40, use the static humidifying component that separates with water supply installation, from the part water supply of the bucket portion of the rotating frame that is arranged on water supply installation to the upstream side of this static humidifying component.

In addition, in the above-described embodiment, possess from the opening 81 of bucket portion 61 when humidifying rotor 40 supplies water, near the inner surface 62 of humidifying rotor 40 sides the opening 81 of this barrel portion 61 serves as the structure that ground, below tilts with the upstream side of air stream, and the opening 81 of bucket portion 61 structure two kind structures corresponding with the part of the upstream side of the thickness direction of humidifying rotor 40, also can only possess wherein a kind of structure.

In addition, in the above-described embodiment, be provided with gear 79 in the periphery of rotating frame 65, also can replace gear that the belt wheel portion that driving-belt is used is set, driving-belt drives rotating frame, perhaps connects the axle of motor at the center of rotating frame, uses motor directly to drive rotating frame.

In addition, in the above-described embodiment, at water pond 90 next door 91 is set, will draw water portion 92 and the non-portion 93 that draws water separate, and the bottom of next door 91 is provided as the slotted hole 95 of limbers, but the limbers also can be one or more slit or circular hole.

In addition, in the above-described embodiment, at water pond 90, the next door 91 that portion that will draw water 92 and the non-portion 93 that draws water separate is set, the limbers is set in this next door 91, corresponding with air quantity, automatically regulate the amount of drawing water of portion 92 that draws water, but also can take off next door 91, remove the automatic regulatory function of water level.

In addition, in the above-described embodiment,, be provided with the temporary water resettlement section 99 that water flows into by otch 101 from the non-portion 93 that draws water, but also can remove this temporary water resettlement section 99 and otch 101 when the non-water level that draws water portion 93 becomes the certain value of predesignating when above.

Claims (11)

1. damping device is characterized in that:

Possess,

Housing (1) with suction inlet (5) and blow-off outlet (6);

Be configured in the fan (20) in the described housing (1);

The air stream that is produced by described fan (20) is carried out the humidifying component (40) of humidification;

Be configured in the water pond (90) of the below of described humidifying component (40);

Be provided with from the bucket portion (61,161) that described water pond (90) draws water at rotating frame (65,165), and the water supply installation (60,160) that described humidifying component (40) is supplied water from the opening (81) in direction of rotation the place ahead of described bucket portion (61,161);

Make the motor (74) of rotating frame (65, the 165) rotation of described water supply installation (60,160),

The bucket portion (61,161) of described water supply installation (60,160) is along with described rotating frame (65,165) rotatablely moves, and, supplies water to above-mentioned humidifying component (40) from described opening (81) towards the upstream side of air stream from the top of described humidifying component (40).

2. damping device as claimed in claim 1 is characterized in that:

The bucket portion (61,161) of described water supply installation (60,160), when described humidifying component (40) was supplied water, near the inner surface (62) of described humidifying component (40) side of described opening (81) served as that ground, below tilts with the upstream side of air stream.

3. damping device as claimed in claim 1 is characterized in that:

Described water supply installation (60,160) bucket portion (61,161) opening (81) is corresponding with the part of the upstream side of the air stream of the thickness direction of described humidifying component (40), thereby the part of described upstream side is supplied water, but more do not supply water by the part in the downstream in the downstream of air stream to being positioned at than the part of the upstream side of the air stream of the thickness direction of described humidifying component (40).

4. damping device as claimed in claim 1 is characterized in that:

Described humidifying component (40) is humidifying rotor (40),

Described humidifying rotor (40) is installed in the rotating frame (65,165) of described water supply installation (60,160),

With respect to described water supply installation (60,160) bucket portion (61, the tangent section (TP) of track at the edge (62a) of humidifying rotor (40) side of opening 161) (81), promptly with respect to the section (TP) at the edge (62a) of humidifying rotor (40) side by described opening (81), the inner surface (62) of humidifying rotor (40) side of described bucket portion (61,161) is with inclined at acute angles.

5. damping device as claimed in claim 1 is characterized in that:

Described humidifying component (40) is humidifying rotor (40),

Described humidifying rotor (40) is installed in the rotating frame (65,165) of described water supply installation (60,160),

In described rotating frame (65,165), be provided with near the opening (81) that is positioned at described bucket portion (61,161) guiding from the water of opening (81) and keep the maintaining part (75) of described humidifying rotor (40).

6. damping device as claimed in claim 1 is characterized in that:

Described humidifying component (40) is humidifying rotor (40),

Described humidifying rotor (40) is installed in the rotating frame (65,165) of described water supply installation (60,160),

Described rotating frame (65,165) has the described bucket portion (61 that is positioned at, the place ahead of the direction of rotation of the rotating frame (65,165) of opening 161) (81) is used to prevent that the water from described opening (81) from not flowing to humidifying rotor (40) and flowing to the wall portion (78) at the rear of air stream.

7. damping device as claimed in claim 1 is characterized in that:

Described humidifying component (40) is humidifying rotor (40),

Described humidifying rotor (40) is installed in the rotating frame (65,165) of described water supply installation (60,160),

Described rotating frame (65,165) on circumference according to a plurality of barrels of portions (61,161) that are arranged at intervals with that predesignate

Between described bucket portion (61,161) and bucket portion (61,161), the outer peripheral face of described humidifying rotor (40) exposes from rotating frame (65,165).

8. damping device as claimed in claim 1 is characterized in that:

Peripheral part at described rotating frame (65,165) is provided with gear (79),

Described motor (74) drives rotating frame (65,165) via described gear (79),

Described motor (74) and described humidifying component (40) not configuration overlappingly on the flow direction of air stream.

9. damping device as claimed in claim 1 is characterized in that:

Described fan (20) is configured in the downstream that air flows with respect to described humidifying component (40).

10. damping device as claimed in claim 1 is characterized in that:

Described humidifying component (40) is configured to not immerse in the interior water of described water pond (90).

11. damping device as claimed in claim 1 is characterized in that:

Inner surface in the bucket portion (161) of described water supply installation (160), the side (150) in the downstream of the inner surface (62,72) of described humidifying component (40) side and air stream connects smoothly by flexure plane (162,172).

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