CN104428598A - Humidification device - Google Patents

Abstract

This invention is provided with: a humidification mechanism (40) disposed in a casing; and a fan for feeding air to the humidification mechanism (40), the fan being disposed in the casing. The humidification mechanism (40) has: a turning frame (100), a humidification member (300) mounted on the turning frame (100), and a bucket (200) for pouring water scooped up by the rotation of the turning frame (100) onto the humidification member (300). A gear (110) provided to the outer peripheral part of the turning frame (100), and the bucket (200), are disposed on the same plane. A humidification device in which the axial-direction dimension of the humidification mechanism can be made smaller and the depth of the main device can be reduced is thereby provided.

Description

Damping device

Technical field

The present invention relates to damping device.

Background technology

In the past, have a kind of damping device, this damping device possesses: humidification mechanism, and its configuration in the enclosure; And fan, air in the enclosure, is supplied to humidification mechanism (for example, referring to Japanese Unexamined Patent Publication 2010-54125 publication (patent document 1)) by its configuration.In above-mentioned damping device, humidifying component is installed on the revolution frame of circular plate shape, humidifying component is flow into by utilizing multiple bucket to draw the water come the rotation along with revolution frame, thus make humidifying component moist, via humidifying component, the extraneous air sucked by fan is blown out to indoor, thus carries out humidification.

But, humidification mechanism due to above-mentioned damping device is configured to such structure: overlapping in the axial direction to the revolving force transfer part and multiple bucket of turning round frame transmission revolving force, therefore there is such problem: the axial dimension of humidification mechanism is thickening, the depth of apparatus main body is thickening.

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2010-54125 publication

Summary of the invention

The problem that invention will solve

Therefore, problem of the present invention is, provides and the axial dimension of humidification mechanism can be made thinning and the damping device making the depth of apparatus main body thinning.

For solving the means of problem

In order to solve above-mentioned problem, the feature of damping device of the present invention is,

Described damping device possesses:

Shell;

Humidification mechanism, it is configured in above-mentioned shell; With

Fan, it is configured in above-mentioned shell, and air is supplied to above-mentioned humidifying structure,

Above-mentioned humidification mechanism has: revolution frame; Humidifying component, it is installed on above-mentioned revolution frame; And bucket, the rotation along with above-mentioned revolution frame is drawn the water come and is injected in above-mentioned humidifying component by it,

The revolving force transfer part and the above-mentioned bucket that are arranged at the peripheral part of above-mentioned revolution frame configure at grade.

According to said structure, in humidification mechanism, the bucket that the water come by the revolving force transfer part of the peripheral part by being arranged at revolution frame and the rotation along with revolution frame being drawn is injected to humidifying component configures at grade, thus can by thinning for the axial dimension of humidification mechanism and make the depth of apparatus main body thinning.

In addition, in the damping device of an embodiment,

The configuration of above-mentioned revolving force transfer part, above-mentioned humidifying component and above-mentioned bucket at grade.

According to above-mentioned embodiment, in humidification mechanism, the bucket that the water come by the revolving force transfer part of the peripheral part by being arranged at revolution frame, the humidifying component and the rotation along with revolution frame being drawn that is installed on this revolution frame is injected to humidifying component configures at grade, thus the axial dimension of humidification mechanism can be made thinner.

In addition, in the damping device of an embodiment,

Above-mentioned revolving force transfer part is gear.

According to above-mentioned embodiment, by adopting gear as revolving force transfer part, thus the driving force of in the future drive motor can reliably be passed to revolution frame.

In addition, in the damping device of an embodiment,

Above-mentioned bucket is configured in the radially inner side of the said gear of above-mentioned revolution frame,

Above-mentioned humidifying component is configured in the radially inner side of above-mentioned bucket.

According to above-mentioned embodiment, by the radially inner side configuration bucket of the gear at revolution frame, and at the radially inner side configuration humidifying component of bucket, thus the gear of revolution frame, humidifying component and bucket are configured in optimal position, therefore, it is possible to the axial dimension of humidification mechanism is reliably thinning.

In addition, in the damping device of an embodiment,

Described damping device possesses axle portion, and described axle portion carries out rotationally supported to above-mentioned revolution frame,

The axial dimension of the part that above-mentioned axle portion is outstanding to the downstream of the air stream provided by said fans from humidifying component is shorter than the axial dimension of the part outstanding to the upstream side of above-mentioned air stream from humidifying component.

According to above-mentioned embodiment, in the axle portion of rotationally supported revolution frame, by the axial dimension making the axial dimension of the part outstanding to the downstream of the air stream provided by fan from humidifying component be shorter than the part outstanding to the upstream side of air stream from humidifying component, thus when being configured to water from bucket to the structure that the upstream side of humidifying component injects, owing to the axially outstanding part except axle portion being removed in the downstream of humidification mechanism, therefore, it is possible to shorten in downstream the depth of the support unit that axle portion supports, and the axial dimension of humidification mechanism can be made thinner.

In addition, in the damping device of an embodiment,

Above-mentioned humidifying component has: round plate; The flange part thin with the above-mentioned round plate of wall ratio, it is arranged on the outer circumferential side of above-mentioned round plate,

The inlet of above-mentioned bucket is with the mode opening opposed with the above-mentioned flange part of above-mentioned humidifying component and the step part of above-mentioned round plate.

According to above-mentioned embodiment, bucket will be arranged at the inlet of the mode opening opposed with the flange part of this humidifying component and the step part of round plate by adopting the humidifying component of the flange part of the thin-walled of the round plate with heavy wall and the outer circumferential side being arranged on this round plate, even if thus the axial dimension of thinning humidification mechanism, also can relative to the surface area expanding the part making water infiltrate of the humidifying component opposed with this inlet from bucket to the aperture area of the inlet of humidifying component water filling.

Invention effect

From the above, according to the present invention, following damping device can be realized: can by thinning for the axial dimension of humidification mechanism and make the depth of apparatus main body thinning.

Accompanying drawing explanation

Fig. 1 is the stereogram of the damping device of an embodiment of the invention.

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

Fig. 3 is the exploded perspective view of the humidification mechanism of above-mentioned damping device.

Fig. 4 A is the stereogram of the above-mentioned humidification mechanism of confined state.

Fig. 4 B is the side view of above-mentioned humidification mechanism.

Fig. 4 C is the figure for illustration of the step water pond being provided with above-mentioned humidification mechanism being installed on housing main body.

Fig. 4 D is the cross-sectional schematic of observing above-mentioned damping device from front.

Fig. 5 A is the sectional view of the humidification mechanism from the VA-VA line observation Fig. 4 B.

Fig. 5 B is the amplification view of the important part of the humidification mechanism shown in Fig. 5 A.

Fig. 6 is the front view observing above-mentioned humidification mechanism from upstream side.

Fig. 7 A is the sectional view of the humidification mechanism from the VIIA-VIIA line observation Fig. 6.

Fig. 7 B is the enlarged drawing of the important part of irising out with dotted line of the humidification mechanism shown in Fig. 7 A.

Fig. 8 A is the sectional view of the humidification mechanism from the VIIIA-VIIIA line observation Fig. 6.

Fig. 8 B is the enlarged drawing of the important part of irising out with dotted line of the humidification mechanism shown in Fig. 8 A.

Fig. 9 A is the front view of the revolution frame observing above-mentioned humidification mechanism from upstream side.

Fig. 9 B is the side view of above-mentioned revolution frame.

Fig. 9 C is the rearview of the revolution frame observing above-mentioned humidification mechanism from downstream.

Figure 10 (A) is the rearview of the bucket of above-mentioned humidification mechanism, and Figure 10 (B) is the figure observing above-mentioned bucket from inlet side, Figure 10 (C) is the figure observing above-mentioned bucket from suction port side.

Figure 11 (A) is the stereogram of above-mentioned bucket, and Figure 11 (B) is the figure observing inlet from the suction port side of above-mentioned bucket.

Figure 12 A is the schematic diagram of the shape of inlet for illustration of above-mentioned bucket.

Figure 12 B is the schematic diagram of other shape of inlet for illustration of above-mentioned bucket.

Figure 13 A illustrates that the back-surface side at above-mentioned revolution frame is provided with the figure of the state of bucket.

Figure 13 B is the amplification stereogram of the important part of Figure 13 A.

Figure 14 A is the front view of the humidifying component of above-mentioned humidification mechanism.

Figure 14 B is the side view of the humidifying component of above-mentioned humidification mechanism.

Figure 15 A is the front view by press box observing above-mentioned humidification mechanism from upstream side.

Figure 15 B is the side view by press box of above-mentioned humidification mechanism.

Figure 15 C is the rearview by press box observing above-mentioned humidification mechanism from downstream.

Figure 16 is the side view in the axle portion of above-mentioned humidification mechanism.

Detailed description of the invention

Below, by illustrated embodiment, damping device of the present invention is described in detail.

Fig. 1 shows the stereogram of the damping device of an embodiment of the invention.As shown in Figure 1, this damping device possesses shell 1, and this shell 1 is made up of housing main body 2 and front panel 3, and described front panel 3 is detachably installed on this housing main body 2.Be provided with suction inlet 5,5 (only illustrating in FIG) in the two sides of above-mentioned shell 1, the rear portion of the upper surface of shell 1 is provided with blow-off outlet 6.

Fig. 2 shows the longitudinal section of above-mentioned damping device.The reference label identical to the same structure portion mark shown in Fig. 1.

As shown in Figure 2, in the shell 1 of this damping device, from front face side, air cleaner filter element 30, humidification mechanism 40 is sequentially configured with and the fan 20 that driven by fan motor 21.In addition, in fig. 2, although not shown, but in the side of humidification mechanism 40 water tank 10 (with reference to Fig. 4 C) is configured with.In addition, in fig. 2,71 is power supply printed base plates, and 72 is operation control printed base plates, and 73 is display printed base plates, and 74 is dust sensors, and 75 is pre-reserve filters, and 80 is control parts.

Observe from front, above-mentioned air cleaner filter element 30 is substantially rectangular.In addition, the part of the downside of above-mentioned air cleaner filter element 30 and humidification mechanism 40 overlapping in the longitudinal direction.Further, it is overlapping at least partially that above-mentioned air cleaner filter element 30 and humidification mechanism 40 are configured to the horn mouth 23 of fan 20, that is, be configured to cover horn mouth 23 at least partially, reduce the noise from fan 20.

In addition, above-mentioned air cleaner filter element 30 comprises: coarse filter 31, and it is for trapping large dust and the hair etc. of pet; Ionization portion 32, it makes dust, dust and dirt etc. charged; Dust-collecting filter 33, it traps charged dust, dust and dirt etc., such as, be made up of pleated filter; With odor removal filter 34, the odor pollutant of its trapping cigarette taste, pet taste etc.Above-mentioned coarse filter 31, ionization portion 32, dust-collecting filter 33, odor removal filter 34 are sequentially arranged in roughly straight line shape from the front face side of shell 1.In addition, because dust-collecting filter 33 is pleated filters that surface area is large, therefore, it is possible to reduce flowing resistance.

In addition, as shown in Figure 2, the odor removal filter 34 of air cleaner filter element 30 and dust-collecting filter 33 etc. are overlapping with the whole horn mouth 23 of fan 20, on the other hand, partly overlapping of the downside of humidification mechanism 40 and horn mouth 23, but not with the partly overlapping of the upside of horn mouth 23.Therefore, in the non-humidified path 51 of part in the upside from above-mentioned odor removal filter 34 to the part of the upside of horn mouth 23, the air of flowing is not via humidification mechanism 40, therefore, it is possible to be reduced in the flowing resistance of the air of flowing in non-humidified path 51, particularly, when only carrying out air cleaner running when not carrying out humidification running, sufficient air quantity (air capacity) can be guaranteed.

On the other hand, utilize dividing plate 50 by humidification path 52 and non-humidified path 51 spaced apart, described humidification path 52 leads to humidification mechanism 40 from the part of the downside of the odor removal filter 34 of above-mentioned air cleaner filter element 30, the part of the upside of the horn mouth 23 of described non-humidified path 51 from the part of the upside of above-mentioned odor removal filter 34 to fan 20.

This dividing plate 50 can be utilized to prevent air from flowing from humidification path 52 to non-humidified path 51, namely, prevent the air stream getting around humidification mechanism 40 from humidification path 52, make the flowing mostly through humidification mechanism 40 of the air flowing to humidification path 52 and can obtain large adding moisture.

In addition, aforementioned barriers 50 extends near fan 20 from the odor removal filter 34 of air cleaner filter element 30.Or although not shown, but aforementioned barriers 50 also can extend near horn mouth 23 from odor removal filter 34.Thus, prevent the turbulent flow produced from above-mentioned humidification mechanism 40 humidifying air out and non-humidified air collides flow at non-humidified path 51, reduce flowing resistance, and, reduction noise.

Fig. 3 shows the exploded perspective view of the humidification mechanism 40 of above-mentioned damping device.

As shown in Figure 3, above-mentioned humidification mechanism 40 possesses: the revolution frame 100 of circular plate shape, and its peripheral part is provided with the gear 110 of an example as revolving force transfer part; 12 buckets 200, they in the revolution downstream (right side in Fig. 3) of frame 100 and outer circumferential side circumferentially equally spaced install; Discoid humidifying component 300; Circular plate shape press press box 400; With axle portion 500.Humidifying component 300 is by revolution frame 100 and clip by press box 400 and fix.And, axially axle portion 500 be inserted into the axis hole 100a being arranged at the center turning round frame 100, the axis hole 300a being arranged on the center of humidifying component 300 and be arranged in the axis hole 400a by the center of press box 400, thus axle portion 500 being fixed on revolution frame 100.

In addition, the gear linked with the output shaft of geared motor 70 (shown in Fig. 2) can be made to engage with the gear 110 of the peripheral part of above-mentioned revolution frame 100 and be driven by geared motor 70 and turn round frame 100.

As shown in Figure 2, said gear drive motor 70 is configured on the circulating direction of air stream not overlapping with humidification mechanism 40, prevents geared motor 70 from becoming the obstacle of the air stream by humidification mechanism 40.Thereby, it is possible to increase through the air capacity of above-mentioned humidification mechanism 40 and increase and add moisture.

In addition, the rotation along with revolution frame 100 is injected in humidifying component 300 at the water that water pond 90 (shown in Fig. 4 C) absorption of below comes by 12 buckets 200 up.

Like this, utilize above-mentioned revolution frame 100 and by press box 400, humidifying component 300 clipped fixing.

In addition, in this embodiment, 12 buckets 200 are installed on revolution frame 100, as long as but be arranged at revolution frame or by either party of press box, in addition, the quantity of bucket suitably sets according to adding moisture etc., is at least two or more.

Fig. 4 A shows the stereogram of the humidification mechanism 40 of confined state, and Fig. 4 B shows the side view of humidification mechanism 40.In Fig. 4 A, Fig. 4 B, the reference label identical to structural portion same as shown in Figure 3 mark.

In addition, Fig. 4 C shows the figure for illustration of the water pond 90 being provided with humidification mechanism 40 being installed on the step of housing main body 2.As shown in Figure 4 C, near the suction inlet 5 from side, the water pond 90 being equipped with humidification mechanism 40 and water tank 10 being installed on the right side being arranged on housing main body 2 and the water pond insert port 2a of back-surface side.

In addition, Fig. 4 D shows the cross-sectional schematic of observing above-mentioned damping device from front, and in fig. 4d, 96 is dividing plates.

As shown in Figure 4 D, next door 91 be set in water pond 90 and be partitioned into drawing section 92 and non-drawing section 93.The laterally longer elongated hole 95 as limbers is provided with in the bottom in this next door 91.The bucket 200 carrying out the humidification mechanism 40 of gyration is drawn from drawing section 92 by water.

In above-mentioned non-drawing section 93, float switch 94 is set, when the water level of non-drawing section 93 is lower than stable state certain value, by not shown display part or alarm portion carry out by there is no water in water tank 10 situation shown in display or alarm.

[detailed construction of humidification mechanism]

Fig. 5 A shows the sectional view of the humidification mechanism 40 of observing from the VA-VA line Fig. 4 B.

As shown in Figure 5A, humidification mechanism 40 rotates along the direction of arrow R1.At the radially inner side of the gear 110 of revolution frame 100, circumferentially configure each bucket 200 to make the opening of the suction port 201 of each bucket 200 towards the mode in the front of gyratory directions.At the radially inner side configuration humidifying component 300 of above-mentioned each bucket 200.

Like this, in above-mentioned humidification mechanism 40, the gear 110 of revolution frame 100, humidifying component 300 and 12 buckets 200 are configured at grade.

In addition, at the radially inner side configuration bucket 200 of the gear 110 of above-mentioned revolution frame 100, and humidifying component 300 is configured at the radially inner side of bucket 200.Thus, the revolution gear 110 of frame 100, humidifying component 300 and bucket 200 are configured in optimal position, therefore, it is possible to the axial dimension of reliably thinning humidification mechanism 40.

Fig. 5 B shows the enlarged drawing of the important part of the humidification mechanism 40 shown in Fig. 5 A.In this Fig. 5 B, identical reference number is marked to the identical structural portion shown in Fig. 5 A.

As shown in Figure 5 B, the inlet 202 of the radially inner side opening at 12 buckets 200 is provided with at bucket 200.In addition, in figure 5b, 106a is that radially outside extends to the wall portion near the suction port 201 of bucket 200.

In addition, Fig. 6 shows the front view observing humidification mechanism 40 from upstream side, and Fig. 7 A shows the sectional view of the humidification mechanism 40 that the VIIA-VIIA line from this Fig. 6 is observed.As shown in Figure 7 A, the structure utilizing revolution frame 100 and clamped by humidifying component 300 by press box 400 is formed as.

Fig. 7 B shows the enlarged drawing of the important part of irising out with dotted line of the humidification mechanism 40 shown in Fig. 7 A.As shown in Figure 7 B, the front end of guide portion 105 of extending from the ring-type plectane portion 101 of revolution frame 100 abuts with the outer peripheral portion of the round plate 301 of humidifying component 300.

In addition, the front end of the guide portion 203 extended from the edge in the downstream of the inlet 202 of bucket 200 to radially inner side is positioned near the outer peripheral portion of flange part 302 of humidifying component 300.

The inlet 202 of above-mentioned bucket 200 is with the mode opening opposed with the flange part 302 of humidifying component 300 and the step part of round plate 301.Thus, even if the axial dimension of thinning humidification mechanism 40 also can relative to the surface area expanding the part making water infiltrate of the humidifying component 300 opposed with this inlet 202 from bucket 200 to the aperture area of the inlet 202 of humidifying component 300 water filling.

In addition, the gear 110 of revolution frame 100 has: inclined plane 110a, and it is from upstream side towards downstream and tilt from crown towards tooth root; With discharge outlet 110b, it is arranged on the downstream at the end of teeth groove.

This discharge outlet 110b is the through hole be communicated with the inside of humidification mechanism 40 by the radial outside of humidification mechanism 40.

In addition, with along by the axis of press box 400 and the rib 420 that the mode that upstream side is given prominence to is arranged abut with the back side (surface in the downstream of air stream) of each bucket 200 and determine the position of the axis of bucket 200.In addition, this rib 420 is examples for projection, and also can be the multiple projections be arranged at by press box for each bucket.

Thus, bucket 200 is configured to the upstream side (left side in Fig. 7 B) of the air stream being partial to through humidifying component 300 relative to humidifying component 300.

Fig. 8 A shows the sectional view of the humidification mechanism 40 of observing from the VIIIA-VIIIA line Fig. 6.In fig. 8 a, identical reference number is marked to the identical structural portion shown in Fig. 7 B.

Fig. 8 B shows the enlarged drawing of the important part of irising out with dotted line of the humidification mechanism 40 shown in Fig. 8 A.As shown in Figure 8 B, be arranged at and engage with the connecting hole 101c being arranged at the ring-type plectane portion 101 turning round frame 100 by the engagement pawl 410 in the ring-type plectane portion 401 of press box 400.

[revolution frame monomer]

Fig. 9 A shows the front view observing above-mentioned revolution frame 100 from upstream side, and Fig. 9 B shows the side view of revolution frame 100.

As shown in Fig. 9 A, Fig. 9 B, revolution frame 100 has: ring-type plectane portion 101, and its peripheral part is provided with gear 110; Boss portion 102, it is configured in the central part in ring-type plectane portion 101; With radial 6 arms 103,103, this ring-type plectane portion 101 and boss portion 102 link up by they.Utilize ring portion 104 by above-mentioned arm 103,103, connected to each other and strengthen.

In above-mentioned ring-type plectane portion 101 circumferentially and be equally spaced alternately provided with the water supply hole 101a of circular and the water supply hole 101b of long hole shape.In addition, near water supply hole 101a, the 101b in ring-type plectane portion 101 and radially inner side is respectively arranged with the guide portion 105 extended towards radially inner side.Configure this guide portion 105 circumferentially at equal intervals (every 30deg).Further, between the guide portion 105 in ring-type plectane portion 101, be respectively arranged with the rib 106 (shown in Fig. 9 C) (part except connecting hole 101c) of arc-shaped.

By ester moulding, above-mentioned ring-type plectane portion 101, boss portion 102, arm 103,103 and ring portion 104 are formed as one.

In addition, near the water supply hole 101a in ring-type plectane portion 101 and radially inner side is respectively arranged with connecting hole 101c.This connecting hole 101c be arranged on revolution frame 100 ring-type plectane portion 101 and with suction port 201 opposition side of bucket 200 near portion.

Fig. 9 C shows the rearview observing above-mentioned revolution frame 100 from downstream.In Fig. 9 C, identical reference number is marked to the identical structural portion shown in Fig. 9 A, Fig. 9 B.

As shown in Fig. 9 A, Fig. 9 C, in pivotal humidification mechanism 40, when water supply hole 101a, the 101b in ring-type plectane portion 101 turning round frame 100 is on the downside of vertical, when being in than the water surface in water pond 90 (shown in Fig. 4 C) on the lower, water is directed in the bucket 200 in humidification mechanism 40 through water supply hole 101a, 101b.

This water supply hole 101a, 101b are overlapping by radial outside portion ground to inner edge with the specific diameter of the opening of the suction port 201 of bucket 200.

In addition, this water supply hole 101a, 101b is overlapping with the radially outer edge of the opening of the suction port 201 of bucket 200.

In addition, this water supply hole 101a, 101b is configured near the opening of suction port 201 of bucket 200.

[bucket monomer]

Figure 10 (A) is the front view of bucket 200, and Figure 10 (B) is the figure observing bucket 200 from inlet 202 side, and Figure 10 (C) shows the figure observing bucket 200 from suction port 201 side.

As shown in Figure 10 (A), the front surface of bucket 200 is faces opposed with the back-surface side of the revolution frame 100 shown in Fig. 9 C, is the upstream side of humidification mechanism 40.Bucket 200 is in from suction port 201 towards rear, tapered cross section, the inside is the shape that the cylinder of rectangle is bending.In Figure 10 (A), downside becomes radially inner side when being installed on revolution frame 100, and upside becomes radial outside when being installed on revolution frame 100.The radial outside of this bucket 200 is outer peripheral faces 210.

As shown in Figure 10 (A) ~ (C), near the suction port 201 of bucket 200, be provided with the inlet 202 of opening towards radially inner side (downside in Figure 10 (A)).Be provided with the guide portion 203 extended from the edge in the downstream of this inlet 202 to radially inner side.In addition, at the rear side of the gyratory directions (direction from right to left in Figure 10 (A)) of bucket 200 and front-surface side is provided with the flange 204 extended towards radially inner side (downside of Figure 10 (A)).

In addition, as shown in Figure 10 (A), the end of the rear side of the gyratory directions of bucket 200 is provided with the projection 205 outstanding towards radial outside.

In addition, as shown in Figure 10 (A), (C), in the back-surface side of bucket 200 and the end of the rear side of gyratory directions is provided with projection 206.

In addition, as shown in Figure 10 (A) ~ (C), the gyratory directions (direction from right to left in Figure 10 (A)) of bucket 200 front side and back-surface side is provided with the holding section 207 extended toward the front.

Formed bucket 200 by ester moulding, described bucket 200 has above-mentioned suction port 201, inlet 202, guide portion 203, flange 204, projection 205, projection 206 and holding section 207.

In addition, Figure 11 (A) is the stereogram of bucket 200, and Figure 11 (B) shows the figure observing inlet 202 from suction port 201 side of bucket 200.

Figure 12 A shows the schematic diagram of the shape of the inlet 202 for illustration of bucket 200, is the figure observing inlet 202 from radially inner side.As illustrated in fig. 12, the trailing edge 220 of inlet 202 is stepped.

The mode that the trailing edge 220 of the inlet 202 of above-mentioned bucket 200 earlier discharges water with the part of the upstream side of the air stream of through humidifying component 300 (right side in Figure 12 A) than the part being arranged in the downstream (left side of Figure 12 A) of the trailing edge 220 of the part inlet 202 downstream than upstream side of trailing edge 220 retreats.

In addition, Figure 12 B shows the schematic diagram of other shape of the inlet 202 for illustration of bucket 200, is the figure observing inlet 202 from radially inner side.As shown in Figure 12 B, the trailing edge 230 of inlet 202 is in saw bladed.

Like this, the line of bending is utilized to define the trailing edge 220,230 of the inlet 202 of the radially inner side opening of the bucket 200 in gyration.

Figure 13 A shows the state being provided with 12 buckets 200 in the back-surface side of revolution frame 100.

As shown in FIG. 13A, revolution frame 100 rotates along the direction of arrow R2.Utilize the rib 106 that is connected and the both sides of guide portion 203 of each bucket 200 being circumferentially configured in the ring-type plectane portion 101 of revolution frame 100 be clipped in the both sides of the guide portion 105 in ring-type plectane portion 101.Like this, the guide portion 203 of each bucket 200 engages with the engaging portion (between rib 106) of revolution frame 100.

In addition, Figure 13 B shows the amplification stereogram of the important part shown in Figure 13 A.In Figure 13 B, identical reference number is marked to the identical structural portion shown in Figure 13 A.

As shown in Figure 13 B, in the rib 106 in ring-type plectane portion 101 being formed at revolution frame 100, near the suction port 201 of bucket 200, the wall portion 106a that radially outside extends erectly is provided with.As shown in Figure 5 B, the end of the radial outside of this wall portion 106a is positioned at the inner surface 200a of the radially inner side of the suction port 201 than bucket 200 by radial outside.

As shown in Figure 13 B, have indentation in the side, ring-type plectane portion 101 of wall portion 106a, the holding section 207 of bucket 200 is engaging in the indentation of this wall portion 106a.

In addition, in the rib 106 in ring-type plectane portion 101 being formed at revolution frame 100, be erectly provided with in the position opposed with flange 204 of bucket 200 the raised 106b extended to radial outside.In addition, the position opposed with projection 106b in ring-type plectane portion 101 is provided with through hole 120.The flange 204 of bucket 200 is axially engaging in the recess turned round between the projection 106b of frame 100 and through hole 120.

Outer peripheral face 210 side of bucket 200 abuts with the inner peripheral surface 111 of said gear 110, utilizes the rib 106 as an example of wall that the inner circumferential side of bucket 200 is limited to revolution frame 100.

In addition, each guide portion 105 in the ring-type plectane portion 101 of revolution frame 100 has: base portion 105a, and it extends from ring-type plectane portion 101; With sidewall 105b, 105b, it is erectly arranged on the both sides of base portion 105a and downstream (left side in Figure 13 B).

[humidifying component monomer]

Figure 14 A shows the front view of above-mentioned humidifying component 300, and Figure 14 B shows the side view of humidifying component 300.

As shown in Figure 14 A, Figure 14 B, humidifying component 300 has: round plate 301; With the flange part 302 than round plate 301 thin-walled, it is arranged on the outer circumferential side of round plate 301.Through hole 300a is set in the central authorities of this round plate 301, and is circumferentially equally spaced provided with 12 installing holes 303 near the flange part 302 of round plate 301.

This humidifying component 300 is made up of such as non-woven fabrics etc., and be so-called evaporating filter etc., it makes air pass through and utilizes the moisture being gasificated into the air that this passes through to carry out humidification.

[by press box monomer]

Figure 15 A shows and observes the above-mentioned front view by press box 400 from upstream side, and Figure 15 B shows the side view by press box 400.

As shown in Figure 15 A, Figure 15 B, have by press box 400: ring-type plectane portion 401; Boss portion 402, it is configured in the central part in ring-type plectane portion 401; With radial 6 arms 403,403, this ring-type plectane portion 401 and boss portion 402 link up by it.In addition, the net 404 preventing from dabbling is provided with at the radially inner side in ring-type plectane portion 401.In this embodiment, the spacing of the mesh of net 404 is 0.5mm, and linear diameter is 50 denier.

In addition, by ester moulding by ring-type plectane portion 401, boss portion 402 and arm 403,403, form as one.Now, net 404 also forms as one.

In addition, 6 engagement pawls 410 are circumferentially equally spaced set in the ring-type plectane portion 401 by press box 400, and are provided with to by the axis of press box 400 and the rib 420 of the outstanding ring-type of upstream side.

In above-mentioned humidification mechanism 40, net 404 is configured in the downstream of humidifying component 300.

In addition, the maximum diameter of hole of above-mentioned net 404 is less than the maximum diameter of hole of humidifying component 300.

In addition, be circumferentially equally spaced erectly provided with in the inner circumferential side in ring-type plectane portion 401 towards 12 outstanding projections 411 of upstream side.These 12 projections 411 by be inserted into be arranged on humidifying component 300 flange part 302 near 12 installing holes 303 in and relative to the location of carrying out the radial direction of humidifying component 300 by press box 400.

In addition, in this embodiment, by net 404 with form as one by press box 400, but to be not limited thereto, also can be configured in the downstream of humidifying component by with the net by press box split.

Figure 15 C shows the rearview by press box 400 observing humidification mechanism 40 from downstream, marks identical reference number to the identical structural portion shown in Figure 15 A.

[axle portion monomer]

Figure 16 shows the side view in the axle portion 500 of humidification mechanism 40.As shown in figure 16, have: principal part 501, it will turn round frame 100, humidifying component 300 (shown in Fig. 3) and through by press box 400; First endless groove portion 502, it is arranged on the upstream side (left side in Figure 16) of principal part 501; With the second endless groove portion 503, it is arranged on the downstream (right side in Figure 16) of principal part 501.

The bearing portion (not shown) of the first supporting leg 601 of the example as support unit erectly arranged upward from water pond 90 (shown in Fig. 4 C) is rotatably chimeric with the endless groove 502a in above-mentioned first endless groove portion 502.In addition, the bearing portion (not shown) of the second supporting leg 602 of the example as support unit erectly arranged upward from water pond 90 is rotatably chimeric with the endless groove 503a in above-mentioned second endless groove portion 503.

According to the damping device of said structure, as shown in Fig. 7 A, Fig. 8 A, in humidification mechanism 40, by the revolving force transfer part of peripheral part of revolution frame 100 and gear 110 will be arranged at and configure at grade along with the rotation of revolution frame 100 by drawing the bucket 200 that the water that comes injects to humidifying component 300, thus can by thinning for the axial dimension of humidification mechanism 40 and make the depth of apparatus main body thinning.

In addition, revolving force transfer part is not limited to gear 110, also can adopt the transmission mechanisms such as the roller transmitting revolving force.

In addition, in humidification mechanism 40, by the gear 110 of the peripheral part by being arranged at revolution frame 100, be installed on this revolution frame 100 humidifying component 300 and configure at grade along with the rotation of revolution frame 100 by drawing the bucket 200 that injects to humidifying component 300 of water come, thus the axial dimension of humidification mechanism 40 can be made thinning.

In addition, by adopting gear 110 as revolving force transfer part, thus the driving force from gear motor 70 reliably can be passed to revolution frame 100.

In addition, by bucket 200 being configured in the radially inner side of the gear 110 of above-mentioned revolution frame 100, and humidifying component 300 is configured in the radially inner side of bucket 200, thus the revolution gear 110 of frame 100, humidifying component 300 and bucket 200 are configured in optimal position, therefore, it is possible to the axial dimension of reliably thinning humidification mechanism 40.

In the axle portion 500 of rotationally supported above-mentioned revolution frame 100, make the axial dimension being shorter than the part of giving prominence to from the humidifying component 300 of upstream side from the axial dimension of the outstanding part of the humidifying component 300 in the downstream of the air stream provided by fan 20.Specifically, relative to than the humidifying component 300 upstream side axial length L 1 of part of giving prominence to and shorten the axial length L 2 of the part more outstanding to side, downstream than humidifying component 300.Thus, by being formed as the structure of the upstream side water filling from bucket 200 to humidifying component 300, thus in the downstream of humidification mechanism 40 by removing to axially outstanding part except axle portion, therefore, it is possible to shorten in downstream to the depth of the supporting leg that axle portion 500 supports, and the axial dimension of humidification mechanism 40 can be made thinner.

In addition, inlet 202 is arranged at bucket 200 by the mode opposed with the step part of round plate 301 with the flange part 302 with this humidifying component 300, even if thus the axial dimension of thinning humidification mechanism 40 also can relative to the surface area expanding the part making water infiltrate of the humidifying component 300 opposed with this inlet 202 from bucket 200 to the aperture area of the inlet 202 of humidifying component 300 water filling by adopting the humidifying component 300 of the flange part 302 of the thin-walled of the round plate 301 with heavy wall and the outer circumferential side being arranged at this round plate 301.

In addition, according to above-mentioned damping device, as shown in Fig. 7 A, Fig. 8 A, by utilizing revolution frame 100 and the humidification mechanism 40 of being clamped by bucket 200 by press box 400 and can the axial dimension of thinning humidification mechanism 40, the thickness of restraining device main body, and, as shown in Fig. 9 A, Fig. 9 C, be arranged at water supply hole 101a, 101b of revolution frame 100 by utilization and water guided in bucket 200, even thus bucket 200 also can provide sufficient moisture to bucket 200 by revolution frame 100 with by the structure that press box 400 is clamped.Therefore, it is possible to by thinning for the axial dimension of the humidification mechanism 40 and thickness of restraining device main body, and moisture can be added fully.

In addition, be provided with in the humidification mechanism 40 of the structure of water supply hole 101a, 101b at such revolution frame 100, by configuring being arranged at the gear 110 of peripheral part of revolution frame 100, humidifying component 300 and bucket 200 at grade, thus the axial dimension of humidification mechanism 40 can be made thinner.

In addition, because water supply hole 101a, 101b are overlapping by radial outside portion ground to inner edge with the specific diameter of the opening of the suction port 201 of above-mentioned bucket 200, therefore at least a part of water supply hole 101a, 101b is arranged in the low position of the upper limb of the suction port 201 of the bucket 200 of the downside than the revolution frame 100 being positioned at gyration, therefore can increase water supply hole necessarily.

In addition, because water supply hole 101a, 101b are overlapping with the radially outer edge of the opening of the suction port 201 of above-mentioned bucket 200, therefore at least a part of water supply hole 101a, 101b is arranged in the high position of the lower edge of the suction port 201 of the bucket 200 of the downside than the revolution frame 100 being positioned at gyration, therefore, it is possible to be reliably directed to by water in the suction port 201 of bucket 200 through water supply hole 101a, 101b.

In addition, by configuring water supply hole 101a, 101b near the opening of the suction port 201 of above-mentioned bucket 200, thus beeline can be utilized to be directed in the suction port 201 of bucket 200 by water through water supply hole 101a, 101b.

In addition, water supply hole 101a, 101b are set by the front surface of the upstream side at above-mentioned revolution frame 100, thus downstream can be splashed through water supply hole 101a, 101b by anti-sealing.

In addition, when revolution frame being configured at downstream by being configured at upstream side by press box, by arranging water supply hole at the front surface of the upstream side by press box, thus downstream can be splashed by anti-sealing.

In addition, according to above-mentioned damping device, as Figure 12 A, shown in Figure 12 B, owing to utilizing folding line to define the trailing edge 220 of the inlet 202 of the radially inner side opening of the gyration at bucket 200, 230, therefore, when utilizing the gradient of bucket 200 near the upper end of gyration and make water be discharged to radially inner side from inlet 202 while bucket 200 gyration, water a small amount of is at first from the trailing edge 220 utilizing folding line to define, the rearmost part (such as 220a) of 230 is discharged, then, water is discharged from the part (such as 220b) more forward than the part after this, water is little by little discharged, a large amount of water can not be discharged quickly.Therefore, even if humidifying component 300 becomes dry, water also can penetrate in humidifying component 300.Like this, because water is little by little discharged from inlet 202, therefore such situation can not be there is: occur moisture film at whole inlet 202 due to surface tension, this water break and quickly a large amount of water is discharged from inlet 202 in heaps, therefore water droplet can not splash downstream from humidifying component 300.Thereby, it is possible to prevent from dabbling.

In addition, the trailing edge 220,230 of the inlet 202 of above-mentioned bucket 200 retreats in the mode that the part of the upstream side of the trailing edge 220,230 of inlet 202 earlier discharges water than the part in the downstream of the trailing edge of inlet 202 with respect to the air stream of humidifying component 300, therefore, relative to air stream, the part of the upstream side of humidifying component 300 is earlier watered than the part in downstream, make the part of upstream side first moist, then the part in the downstream that moisture passes over from the part of upstream side is watered.Therefore, even such environment that humidifying component 300 becomes dry, become owing to making the part in the downstream of humidifying component 300 from upstream side after wetting and the part in the downstream of humidity is watered, even if therefore water also can penetrate in humidifying component 300 swimmingly in the part in downstream, can effectively prevent water droplet from splashing the phenomenon that dabbles in the downstream of humidifying component 300.

In addition, as illustrated in fig. 12, because the trailing edge 220 of the inlet 202 of bucket 200 is bent into stepped, therefore, it is possible to utilize simple structure little by little water to humidifying component 300 and prevent from dabbling.

In addition, as shown in Figure 12 B, because the trailing edge 230 of the inlet 202 of bucket 200 is bent into saw bladed, therefore, it is possible to utilize simple structure little by little water to humidifying component 300 and prevent from dabbling.

In addition, according to above-mentioned damping device, rotated by revolution frame 100, thus when bucket 200 carries out gyration and is positioned at the near top of humidifying component 300, the water in bucket 200 flows out from inlet 202 and pours humidifying component 300.Now, as shown in Fig. 5 B, Figure 13 B, revolution frame 100 near the suction port 201 of from the gyratory directions front openings to bucket 200 is provided with wall portion 106a, the end of the radial outside of this wall portion 106a is positioned at leans on radial outside than the inner surface of the radially inner side of suction port 201, therefore, it is possible to prevent the water that should flow out from inlet 202 from spilling from suction port 201.Therefore, it is possible to avoid the water that should flow out from above-mentioned inlet 202 to reduce, the water supply of aim parameter can be carried out to humidifying component 300.

In addition, as shown in Figure 13 B, by by the holding section 207 of bucket 200 engaging in the wall portion 106a of engaging portion doubling as revolution frame 100, thus can prevent wall portion 106a away from suction port 201.That is, wall portion 106a can be made reliably to be positioned near the inner surface of the radially inner side of above-mentioned suction port 201.

In addition, as shown in Figure 5 B, when bucket 200 carries out gyration and is positioned at the near top of humidifying component 300, owing to being provided with inlet 202 at the gyratory directions rear of bucket 200 relative to suction port 201, the water therefore in bucket 200 is not easy to arrive suction port 201.Therefore, it is possible to improve the effect preventing the water that should flow out from above-mentioned inlet 202 from spilling from suction port 201.

In addition, when above-mentioned bucket 200 carries out gyration and is positioned at the near top of humidifying component 300, because inlet 202 is at radially inner side opening, the water therefore in bucket 200 becomes and easily flows out from inlet 202.Therefore, water becomes and is not easy to stay in above-mentioned bucket 200.

In addition, in the above-described embodiment, humidification mechanism 40 has by press box 400, but also can not have by press box.

In addition, the wall portion 106a of above-mentioned revolution frame 100 doubles as engaging portion locking for bucket 200, but also can not double as and carry out locking engaging portion to bucket.

In addition, above-mentioned inlet 202 at radially inner side opening, but also can such as with respect to fan produce air stream and at upstream side opening.

In addition, according to above-mentioned damping device, owing to carrying out humidification to the air stream produced by fan 20, therefore water supply unit (bucket 200) provides water to humidifying component 300.Now, net 404 (Figure 15 A, Figure 15 C) is configured with in downstream due to the air stream relative to above-mentioned humidifying component 300, therefore, it is possible to other parts preventing the water watering humidifying component 300 place from splashing and water than this humidifying component 300 downstream.

In addition, as shown in Figure 3, owing to being configured with net 404 in the downstream of humidifying component 300, therefore, it is possible to prevent from being reduced by the air quantity of humidifying component 300.

In addition, owing to being configured with net 404 in the downstream of above-mentioned humidifying component 300, therefore can also prevent the area contributing to humidification in humidifying component 300 from reducing and adding moisture minimizing.

Relative to this, when the downstream of above-mentioned humidifying component is provided with such as wall, can prevent the water watering humidifying component from splashing the downstream of humidifying component, but be reduced by the air quantity of humidifying component, the area contributing to humidification in humidifying component reduces and adds moisture minimizing.

In addition, the largest hole due to above-mentioned net 404 is less than the largest hole of humidifying component 300, therefore, it is possible to reliably prevent the water watering humidifying component 300 from splashing the downstream of humidifying component 300.

In addition, as shown in Figure 15 A ~ Figure 15 C, because net 404 is with press press box 400 integrally formed, therefore, it is possible to minimizing number of components and assembly work and reduce manufacturing cost.

In addition, in the above-described embodiment, humidification mechanism 40 has by press box 400, but also can not have by press box.

In addition, in the above-described embodiment, the largest hole of net 404 is less than the largest hole of humidifying component 300, but also can be the size identical with the largest hole of humidifying component.

In addition, in the above-described embodiment, by net 404 with to press press box 400 integrally formed, but also can be shaped by net with by press box split.Under these circumstances, also can by with by press box split the net that is shaped be installed on the such as horn mouth in the downstream of humidifying component.

In addition, according to above-mentioned damping device, as shown in Figure 7 B, by arranging discharge outlet 110b in the downstream at the end of teeth groove of gear 110 of peripheral part of the revolution frame 100 being arranged at humidification mechanism 40, thus the water being attached to the teeth groove of gear 110 is fallen from the discharge outlet 110b in downstream at the end being arranged at teeth groove to the inner side of humidification mechanism 40 after flowing to downstream when the crown of gear 110 is roughly above vertical from the upstream side of the air stream provided by fan 20.Therefore, it is possible to the water at gear 110 place being attached to the peripheral part being arranged on revolution frame 100 is discharged expeditiously and effectively prevents from dabbling.

In addition, as shown in Figure 7 B, by by from upstream side to downstream and from the inclined plane 110a that crown tilts to tooth root be arranged on revolution frame 100 gear 110, thus the water being attached to the teeth groove of gear 110 is directed into discharge outlet 110b to downstream along inclined plane 110a from the upstream side of the air stream provided by fan 20, therefore, it is possible to expeditiously the water being attached to gear 110 is discharged.

In addition, as shown in Figure 7 B, discharge outlet 110b is set by the part in the downstream at the end of the teeth groove of the gear 110 at revolution frame 100, thus the intensity that discharge outlet more improves gear 110 can be set than the whole bottom of the teeth groove at gear 110.

In addition, in the above-described embodiment, the part in the downstream at the end of the teeth groove of the gear 110 of revolution frame 100 is provided with discharge outlet 110b, if but the intensity of gear is no problem, then also discharge outlet can be set in the whole bottom of the teeth groove of gear.

In addition, according to above-mentioned damping device, as shown in Fig. 7 A, Fig. 7 B, Fig. 8 A, Fig. 8 B, be configured at grade owing to turning round the gear 110 of peripheral part of frame 100, bucket 200 and humidifying component 300, therefore, it is possible to by thinning for the axial dimension of this humidification mechanism 40 and then damping device, and owing to utilizing revolution frame 100 and clamped by bucket 200 by press box 400 and fix, therefore, it is possible to by with the bucket 200 turning round frame 100 split simple and reliable be fixed on and turn round frame 100.

In addition, due to the radially inner side opening of the gyration at above-mentioned bucket 200 inlet 202 be arranged at the engaging portion rib 106 of frame 100 (turn round between) of turning round frame 100 and engage in the circumference of gyration, therefore, it is possible to circumferentially simply, reliably position bucket 200.In addition, due to above-mentioned inlet 202 be arranged at the engaging portion of turning round frame 100 circumference along gyration and engage, therefore, it is possible to inlet 202 is also used as positioning element.

In addition, also the engaging portion engaged along the circumference of gyration and the inlet 202 of bucket 200 can be arranged at by press box 400.

In addition, as shown in Figure 8 B, because portion in bucket 200 is the shape narrowed in the radial direction of the gyration of bucket 200 than suction port 201, and be arranged at and engage with the connecting hole 101c of the revolution frame 100 near inner portion by the engagement pawl 410 of press box 400, therefore, it is possible to the space that the portion in bucket 200 that effectively utilizes narrows and produces, the connecting hole 101c and being arranged at of revolution frame 100 is engaged by the engagement pawl 410 of press box 400 and fixes simply by revolution frame 100 with by press box 400.

In addition, as shown in Figure 10 (A) ~ (C), in the ratio suction port 201 of bucket 200 narrows along the radial direction of the gyration of bucket 200, portion is provided with flange 204, flange 204, axially engaging in the recess (between the projection 106b of the revolution frame 100 shown in Figure 13 B and through hole 120) being arranged at revolution frame 100, therefore can axially to position bucket 200 engaging in recess and can be temporary fixed when being installed to revolution frame 100 by bucket 200 by this flange 204 simply.

In addition, as shown in Fig. 7 B, Fig. 8 B, rib 420 as the raised example arranged in axially outstanding to revolution frame 100 mode abuts with bucket 200 from axis and determines the position of the axis of bucket 200, therefore, it is possible to reliably determined the position of the axis of bucket 200 and can reliably be fixed.

In addition, by suitably setting the length of this projection, thus at random can determine the position of the axis of bucket 200, the free degree increases.

In addition, as above-mentioned projection rib 420 relative to bucket 200 air stream and abut with the face in downstream, bucket 200 is configured to the upstream side of the air stream be partial to by this humidifying component 300 relative to humidifying component 300, therefore, it is possible to water to the upstream side of humidifying component 300 from bucket 200 and prevent from dabbling from humidifying component 300 to the downstream of air stream.

In addition, in the above-described embodiment, revolution frame 100 is provided with the rib 420 as projection, but when by when being configured at upstream side by press box and revolution frame is configured at downstream, also the position of the axis of bucket can be determined by with raised the abutting with bucket from axis axially arranged to the mode outstanding by press box.

In addition, according to above-mentioned damping device, as shown in Fig. 7 B, Fig. 8 B, be configured at grade owing to turning round the gear 100 of peripheral part of frame 100, bucket 200 and humidifying component 300, therefore, it is possible to by thinning for the size of the axis of this humidification mechanism 40 and then damping device, and, as shown in Figure 13 B, peripheral part due to bucket 200 abuts with the inner peripheral surface of gear 110 and bucket 200 is configured in maximum limit within the bounds of possibility the outside diameter turning round frame 100, therefore, it is possible to increase the size of bucket 200, and the quantity of bucket can be increased and increase uptake.

In addition, as shown in Figure 13 B, the peripheral part (outer peripheral face 210 side) of bucket 200 abuts with the inner peripheral surface 111 of gear 110, and utilize the wall (rib 106) being arranged at revolution frame 100 to limit the inner peripheral portion of bucket 200, therefore, it is possible to utilize the elasticity of gear 110, to the inner side of radial direction towards wall, ground flexibly presses bucket 200 and to bucket 200 easily and be reliably fixed.

In addition, as shown in Figure 7 B, because the part at the bottom of the tooth of gear 110 becomes through hole (discharge outlet 110b), therefore the flexibility of gear 110 improves further, and elasticity improves further, can be fixed bucket 200 more reliably.

In addition, in the above-described embodiment, revolution frame 100 is provided with the rib 420 as projection, but when by when being configured at upstream side by press box and revolution frame is configured at downstream, also the position of the axis of bucket can be determined with raised the abutting with bucket from axis axially arranged to the mode outstanding by press box.

In the above-described embodiment, the damping device possessing air cleaner filter element 30 and humidification mechanism 40 is described, but also can applies the present invention to the damping device not possessing air cleaner filter element.

Concrete embodiment of the present invention is illustrated, but the invention is not restricted to above-mentioned embodiment, various change can be carried out implement within the scope of the invention.

Label declaration

1 shell

2 housing main bodies

3 front panels

5 suction inlets

6 blow-off outlets

10 water tanks

21 fan motors

20 fans

23 horn mouths

30 air cleaner filter elements

40 humidification mechanism

70 gear motors

71 power supply printed base plates

72 operation control printed base plates

73 display printed base plates

74 dust sensors

75 pre-reserve filters

80 control parts

90 water ponds

100 revolution frames

100a axis hole

101 ring-type plectane portions

101a, 101b water supply hole

101c connecting hole

102 boss portion

103,103, arm

104 ring portions

105 guide portion

106 ribs

106a wall portion

106b projection

120 through holes

110 gears

111 inner peripheral surfaces

200 buckets

201 suction port

202 inlets

203 guide portion

204 flanges

205 projections

206 projections

207 holding sections

210 outer peripheral faces

220,230 trailing edges

300 humidifying components

300a axis hole

301 round plates

302 flange parts

303 installing holes

400 press press box

400a axis hole

401 ring-type plectane portions

402 boss portion

403,403, arm

404 nets

410 engagement pawls

420 ribs

500 axle portions

501 principal parts

502 first endless groove portions

502a endless groove

503 second endless groove portions

503a endless groove

601 first supporting legs

602 second supporting legs

Claims (6)

1. a damping device, is characterized in that,

Above-mentioned damping device possesses:

Shell (1);

Humidification mechanism (40), it is configured in above-mentioned shell (1); With

Fan (20), it is configured in above-mentioned shell (1), air is supplied to above-mentioned humidification mechanism (40),

Above-mentioned humidification mechanism (40) has: revolution frame (100); Humidifying component (300), it is installed on above-mentioned revolution frame (100); With bucket (200), the rotation along with above-mentioned revolution frame (100) is drawn the water come and is injected in above-mentioned humidifying component (300) by it,

The revolving force transfer part and the above-mentioned bucket (200) that are arranged at the peripheral part of above-mentioned revolution frame (100) configure at grade.

2. damping device according to claim 1, is characterized in that,

The configuration of above-mentioned revolving force transfer part, above-mentioned humidifying component (300) and above-mentioned bucket (200) at grade.

3. damping device according to claim 1 and 2, is characterized in that,

Above-mentioned revolving force transfer part is gear (110).

4. the damping device according to any one in claims 1 to 3, is characterized in that,

Above-mentioned bucket (200) is configured in the radially inner side of the above-mentioned revolving force transfer part of above-mentioned revolution frame (100),

Above-mentioned humidifying component (300) is configured in the radially inner side of above-mentioned bucket (200).

5. the damping device according to any one in Claims 1-4, is characterized in that,

Above-mentioned damping device possesses axle portion (500), and above-mentioned axle portion (500) is carried out rotationally supported to above-mentioned revolution frame (100),

The axial dimension of the part that above-mentioned axle portion (500) is outstanding to the downstream of the air stream provided by said fans (20) from above-mentioned humidifying component (300) is shorter than the axial dimension of the part outstanding to the upstream side of above-mentioned air stream from above-mentioned humidifying component (300).

6. the damping device according to any one in claim 1 to 5, is characterized in that,

Above-mentioned humidifying component (300) has: round plate (301); The flange part (302) thin with the above-mentioned round plate of wall ratio (301), it is arranged on the outer circumferential side of above-mentioned round plate (301),

The inlet (202) of above-mentioned bucket (200) is with the mode opening opposed with the above-mentioned flange part (302) of above-mentioned humidifying component (300) and the step part of above-mentioned round plate (301).