JP2010054093A - Humidifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a humidifier preventing water scattering in which water attached to a toothed gear of a turning frame is blown by wind. <P>SOLUTION: The humidifier is provided with: a humidification filter; a water tray arranged below the humidification filter; a water spraying device having the turning frame 65 for pumping up water from the water tray to spray the water to the humidification filter; and a motor for rotating the turning frame 65 of the water spraying device via a gear. The toothed gear 79 with which the gear connected to an output shaft of the motor is engaged is provided on the outer peripheral side of the turning frame 65 of the water spraying device, and an annular groove 141 is provided on the deddendum side and the radial inner side of the toothed gear 79 of the turning frame 65. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a humidifier.

  2. Description of the Related Art Conventionally, a humidifier includes a fan, a humidifying filter, and a watering device for pouring water on the humidifying filter in a casing having a suction port and an outlet (for example, JP-A-2005-282980). No. Publication (Patent Document 1)).

  The watering device of the humidifying device comprises a plurality of ladles that rotate along a vertical plane, and this ladle has a bucket portion provided at the tip of a bar that rotates along the vertical plane. By this rotating ladle bucket, water pumped from the lower water tank is continuously supplied to the humidifying filter.

  In the humidifier, a plurality of ladle is arranged in a water wheel shape, and its central axis is driven by a motor. In the humidifier configured in this way, the axial dimension becomes longer and the case becomes larger. Therefore, a gear is provided on the outer periphery of the revolving frame having the bucket portion, and the revolving frame is rotated by the motor via the gear. Can be considered. The humidifier provided with gears on the outer periphery of the revolving frame is described in order to facilitate understanding of the present invention, and is not a known technique and is not a conventional technique.

However, in the humidifying device provided with gears on the outer periphery of the revolving frame, water droplets adhere to the revolving frame gear, and the water droplets are blown off by the air flow from the fan, causing a problem of water jumping to the leeward side. There is. In this case, water droplets adhere to the air passage and the air outlet on the leeward side of the revolving frame, and the possibility of water leakage increases.
JP 2005-282980 A

  Then, the subject of this invention is providing the humidification apparatus which can prevent generation | occurrence | production of the water splash which the water adhering to the gear of a turning frame blows away with a wind.

In order to solve the above problems, the humidifying device of the present invention provides:
A humidifying filter;
A water tray disposed below the humidification filter;
A watering device having a swivel frame for drawing water from the water tray and applying it to the humidifying filter;
A motor for rotating the swivel frame of the watering device via a gear;
On the outer peripheral side of the swivel frame of the watering device, a gear that meshes with the gear connected to the output shaft of the motor is provided,
An annular groove is provided on the tooth base side and in the radial direction of the gear of the swivel frame.

  According to the above configuration, by providing the annular groove on the tooth root side and radially inward of the swivel frame gear, even if water is transmitted from the water tray to the swivel frame gear, it is guided to the ring groove. Since it flows downward, it is possible to prevent water adhering to the gear of the swivel frame from dropping and being blown off by the wind.

Moreover, in the humidifier of one embodiment,
The swivel frame gear has a swivel frame side cylindrical portion provided on the outer peripheral side of the swivel frame, and a plurality of teeth arranged radially outward of the swivel frame side cylindrical portion,
The annular groove of the swivel frame is provided on one end surface of the swivel frame side cylindrical portion of the gear.

  According to the embodiment, since the annular groove is provided on one end surface of the turning frame side cylindrical portion necessary for supporting the gear teeth of the turning frame, it is necessary to add a new member to provide the groove. Absent.

Moreover, in the humidifier of one embodiment,
The swivel frame gear has a swivel frame side cylindrical portion provided on the outer peripheral side of the swivel frame, and a plurality of teeth arranged radially outward of the swivel frame side cylindrical portion,
The swivel frame includes a flange portion provided radially inward from one end face side of the swivel frame side cylindrical portion of the gear, and an axially standing on the inner side of the swivel frame side cylindrical portion of the flange portion. A cylindrical revolving frame side rib extending outward in the axial direction from the other end surface of the revolving frame side cylindrical portion,
The annular groove of the revolving frame is formed between the revolving frame side cylindrical portion and the revolving frame side rib by the revolving frame side cylindrical portion and the revolving frame side rib.

  According to the above embodiment, a new member is provided in order to provide a groove by forming an annular groove between the turning frame side cylindrical portion and the turning frame side rib by the turning frame side cylindrical portion and the turning frame side rib. There is no need to add more, and more water can be guided downward by the deep annular groove.

  As is clear from the above, according to the humidifying device of the present invention, it is possible to realize a humidifying device capable of preventing the occurrence of water splashing in which water attached to the gears of the swivel frame is blown off by the wind.

  Hereinafter, the humidifying device of the present invention will be described in detail with reference to the illustrated embodiments.

  FIG. 1 shows a perspective view of one embodiment of the humidifier of the present invention. As shown in FIG. 1, the humidifier includes a casing 1, and the casing 1 includes a casing body 2 and a front panel 3 that is detachably attached to the casing body 2.

  Suction ports 5, 5 are provided on both side surfaces of the casing 1 (see FIG. 3), and an outlet 6 is provided at the rear of the upper surface of the casing 1.

  Thus, in this humidifier, the inlets 5 and 5 are provided in the side surface of the casing 1, the outlet 6 is provided in the upper surface of the casing 1, and the inlet and outlet are eliminated in the rear surface 7 of the casing 1. Therefore, the rear surface 7 of the casing 1 of the humidifier can be brought into close contact with the wall surface of a room (not shown), and the degree of freedom of installation of the humidifier is increased.

  Since the conventional humidifier has a suction port on the rear surface of the casing, the suction resistance increases unless a gap of a certain size is provided between the casing and the wall surface of the room. It was not possible, and the degree of freedom of installation was low.

  On the other hand, as shown in FIG. 2, in the casing 1, a water tank 10 is erected on the front side, and a fan 20 driven by a fan motor 21 is arranged on the rear side. The water tank 10 has the same well-known structure as the oil tank of the oil stove. A check valve (not shown) is provided at the bottom outlet, and the check valve is pushed while the water tank 10 is erected. To be released. Between the water tank 10 and the fan 20, an air purifying filter unit 30 and a disc-shaped humidifying filter 40 are arranged in this order from the front side.

  In FIG. 2, reference numeral 111 denotes a power printed board, 112 denotes an operation control printed board, 113 denotes a display printed board, 114 denotes a dust sensor, 115 denotes a spare filter, and 200 denotes a control unit.

  As shown in FIGS. 2 and 4, the water tank 10 and the air purification filter unit 30 are substantially rectangular in front view, and substantially overlap most of them in the front-rear direction. Further, the lower portion of the air purification filter unit 30 and the humidifying filter 40 overlap in the front-rear direction. Further, each of the water tank 10, the air purification filter unit 30 and the humidifying filter 40 is disposed so as to overlap at least a part of the bell mouth 23 of the fan 20, that is, so as to cover at least a part of the bell mouth 23. It is arranged to reduce the noise from the fan 20.

  In the present specification, the bell mouth 23 is a concept including an opening surrounded by the bell mouth 23 in addition to the bell mouth 23 itself.

  In general, the water tank 10, the air purification filter unit 30, and the humidification filter 40 are arranged in descending order of maintenance frequency. For example, the water tank 10 must be replenished with water almost every day, and the air cleaning filter unit 30 needs to be cleaned or replaced once every two to one and a half years. Is required approximately once every two years. That is, among the water tank 10, the air purifying filter unit 30 and the humidifying filter 40, the water tank 10 is most frequently replenished with water, and then the air purifying filter unit 30 is frequently cleaned and replaced, The frequency of cleaning and replacement of the humidifying filter 40 is the lowest. That is, in order of the frequency of maintenance work, the water tank 10, the air purifying filter unit 30, and the humidifying filter 40 are arranged. The order of the water tank 10, the air purifying filter unit 30, and the humidifying filter 40 is the casing. It is also the order close to the front side of 1, that is, the front panel 3.

  As described above, the higher the maintenance frequency, the closer to the front side of the casing 1, that is, the front panel 3. Therefore, the maintenance workability of the water tank 10, the air purifying filter unit 30 and the humidifying filter 40 is improved. It is getting better.

  The air purifying filter unit 30 also collects a pre-filter 31 for collecting large dust, pet hair, etc., an ionization unit 32 for charging the dust, dust, etc., and charged dust, dust, etc. For example, a dust collecting filter 33 made of a pleated filter and a deodorizing filter 34 for collecting malodorous components such as cigarette odor and pet odor are included. The pre-filter 31, the ionization unit 32, the dust collection filter 33, and the deodorization filter 34 are arranged in a substantially straight line in order from the front side of the casing 1. Therefore, the water tank 10, the pre-filter 31, the ionization unit 32, the dust collection filter 33, the deodorization filter 34 and the humidification filter 40 are arranged in order from the front side of the casing 1.

  On the other hand, in general, the water tank 10, the pre-filter 31, the ionization unit 32, the dust collection filter 33, the deodorization filter 34, and the humidification filter 40 are arranged in descending order of maintenance frequency. For example, the water tank 10 must be replenished with water almost every day, the frequency of cleaning the prefilter 31 is about once every two weeks, and the frequency of maintenance of the ionization unit 32 is about half a year. The frequency of cleaning or replacement of the dust collecting filter 33 is about once a year, and the frequency of cleaning the deodorizing filter 34 is about once a year and a half. Replacement is required about once every two years. When arranged in order of frequency of maintenance work, the water tank 10, the prefilter 31, the ionization unit 32, the dust collection filter 33, the deodorization filter 34, and the humidification filter 40 are obtained. The water tank 10, the prefilter 31, and the ionization unit 32 are arranged. The order of the dust collection filter 33, the deodorization filter 34, and the humidification filter 40 is also the order close to the front side of the casing 1, that is, the front panel 3.

  Thus, the higher the maintenance frequency, the closer to the front side of the casing 1, that is, the front panel 3, the water tank 10, the prefilter 31, the ionization unit 32, the dust collecting filter 33, the deodorizing filter. The maintenance workability of each of the 34 and the humidifying filter 40 is improved because the lower maintenance work frequency does not interfere with the higher maintenance work frequency.

  Further, since the ionization unit 32 is arranged on the upstream side of the air flow with respect to the humidification filter 40, dust and dust attached to the ionization unit 32 do not include moisture from the humidification filter 40. The discharge failure can be prevented.

  Further, since the deodorizing filter 34 is disposed on the upstream side of the air flow with respect to the humidifying filter 40, the moisture from the humidifying filter 40 does not fill the adsorption hole of the deodorizing filter 34, and therefore the deodorizing performance. Can be prevented.

  In addition, since the said dust collection filter 33 is a pleated filter with a large surface area, it can reduce ventilation resistance.

  On the other hand, the rear surface 11 of the water tank 10 is also used as a guide surface for guiding the air sucked from the suction ports 5 and 5 as shown in FIG. The size of is reduced.

  Specifically, as shown in FIG. 3, the water tank 10 has a substantially trapezoidal horizontal cross section, and the rear surface 11 is inclined on both sides so that the thickness gradually increases from the side to the center. It consists of surfaces 12 and 12 and a central flat surface 13.

  The inclined surfaces 12 and 12 of the rear surface 11 of the water tank 10 gradually guide the air sucked from the suction ports 5 and 5 of the casing 1 toward the prefilter 31 of the air purification filter unit 30 to reduce the ventilation resistance. To do.

  However, instead of the inclined surfaces 12 and 12, a curved surface (not shown) that guides the air from the suction port 5 toward the prefilter 31 gradually may be used.

  Further, the central portion having the flat surface 13 of the water tank 10 is made thicker than the side portions, and the portion that becomes the central dead space is effectively used for the central portion of the water tank 10 to increase the tank capacity. ing.

  On the other hand, the pre-filter 31, the ionization unit 32, the dust collection filter 33 and the deodorizing filter 34, and the humidification filter 40 of the air cleaning filter unit 30 are partially overlapped in the front-rear direction and arranged in a substantially straight line. The airflow sucked from the suction port 5 is reduced in the number of bendings to reduce the ventilation resistance.

  On the other hand, as shown in FIGS. 2 and 4, the deodorizing filter 34, the dust collection filter 33, and the like of the air purification filter unit 30 are overlaid on the entire bell mouth 23 of the fan 20, while the humidifying filter 40 is Although it overlaps with the lower part, it does not overlap with the upper part of the bell mouth 23. Therefore, the air flowing through the non-humidifying passage 51 extending from the upper portion of the deodorizing filter 34 to the upper portion of the bell mouth 23 does not pass through the humidifying filter 40, so that the ventilation resistance of the air flowing through the non-humidifying passage 51 can be reduced. In particular, when only the air cleaning operation is performed without performing the humidifying operation, a sufficient air volume (air amount) can be secured.

  On the other hand, the humidifying passage 52 from the lower part of the deodorizing filter 34 of the air purification filter unit 30 to the humidifying filter 40 and the upper part of the deodorizing filter 34 to the upper part of the bell mouth 23 of the fan 20 are not. The humidifying passage 51 is partitioned by a partition plate 50.

  The partition plate 50 prevents the flow of air from the humidification passage 52 to the non-humidification passage 51, that is, prevents the flow of air from the humidification passage 52 to bypass the humidification filter 40, and flows into the humidification passage 52. Most of the water is passed through the humidifying filter 40 so that a large amount of humidification can be obtained.

  If this partition plate 50 is not present, the air flow A3 flowing through the humidifying passage 52 flows into the non-humidifying passage 51 and bypasses the humidifying filter 40, as in the comparative example shown in the schematic diagram of FIG. The amount of humidification is reduced.

  Further, the partition plate 50 extends from the deodorizing filter 34 of the air purification filter unit 30 to the vicinity of the fan 20. Alternatively, although not illustrated, the partition plate 50 may extend from the deodorizing filter 34 to the vicinity of the bell mouth 23.

  Thereby, the turbulent flow due to the collision between the humidified air exiting the humidifying filter 40 and the non-humidified air flowing through the non-humidified passage 51 is prevented, the ventilation resistance is reduced, and the noise is reduced. .

  This will be described in detail with reference to the schematic views of FIGS. 6 and 7. The non-humidification passage 51 and the humidification passage 52 are separated by the partition plate 50 extending to the vicinity of the fan 20. Collision between A1 and the air flow A2 flowing through the humidifying passage 52 can be prevented, and therefore, turbulent flow due to the collision can be prevented, ventilation resistance can be reduced, and noise can be reduced.

  However, as shown in the modification of FIG. 8, the partition plate 58 may extend from the air cleaning filter unit 30 to the humidifying filter 40.

  Also by doing so, the partition plate 58 can prevent an air flow bypassing the humidifying filter 40 and sufficiently allow air to pass through the humidifying filter 40 to obtain a large amount of humidification.

  As shown in FIG. 4, the partition plate 50 includes horizontal portions 53 and 54 and inclined portions 55 that connect the horizontal portions 53 and 54, and substantially follows the humidifying filter 40 and the watering device 60. I am doing so.

  On the other hand, the humidification filter 40 is made of, for example, a nonwoven fabric or the like, and is a so-called vaporization filter or the like. The humidification filter 40 allows air to pass therethrough and humidifies the vaporized air. As shown in FIGS. 2 to 4, the humidifying filter 40 has a disk shape and is fixed to the watering device 60.

  The bucket unit 61 of the watering device 60 is configured to apply water to the humidifying filter 40 so as to apply water toward the upstream side of the air flow of the humidifying filter 40, as schematically shown in FIGS. The inner surface 62 of the bucket portion 61 in the vicinity of the first opening 81 and on the humidifying filter 40 side is inclined so that the upstream side of the airflow is downward.

  As shown in FIG. 9, the watering device 60 includes a support leg portion 63, a swivel frame 65, and bucket portions 61, 61,. A turning frame 65 is attached to the support leg 63 so as to be turnable along a vertical plane. More specifically, the boss 66 at the center of the revolving frame 65 is supported by the bearing 64 at the upper part of the support leg 63 so as to be rotatable.

  As shown in FIG. 10, the revolving frame 65 includes a boss portion 66, an annular disc portion 67, and a plurality of radial arm portions 68, 68,... That connect the annular disc portion 67 and the boss portion. Have The arm portions 68, 68,... Are connected by a ring portion 69 for reinforcement.

  As shown in FIGS. 10 and 11, a plurality of bucket portions 61, 61,... Are provided at equal intervals on the circumference on one end surface of the annular disc portion 67 of the revolving frame 65. 10 and 11, the humidifying filter 40 is not shown, but the outer peripheral surface of the humidifying filter 40 is exposed from the revolving frame 65 between the bucket portion 61 and the bucket portion 61.

  Thereby, between the bucket part 61 and the bucket part 61, the water discharged from the bucket part 61 can be infiltrated from the outer peripheral surface of the humidifying filter 40 exposed from the swivel frame 65. The amount can be increased.

  Further, a gear 79 is formed on the outer peripheral portion of the annular disk portion 67, and a gear 130 (shown in FIG. 16) connected to the output shaft of a geared motor 74 as an example of the motor shown in FIG. Thus, the revolving frame 65 can be driven by the geared motor 74.

  As shown in FIG. 2, the geared motor 74 is disposed on the humidifying filter 40 so as not to overlap the air flow direction so that the geared motor 74 does not interfere with the air flow through the humidifying filter 40. .

  As a result, the amount of air passing through the humidifying filter 40 is increased, and the amount of humidification can be increased.

  Further, as shown in detail in FIGS. 10 and 11, inner flange portions 71, 71,... Are intermittently provided on the inner peripheral side of the annular disc portion 67 of the revolving frame 65, and each bucket portion 61 is provided. A substantially claw-shaped holding portion 75 extending inward in the radial direction from the vicinity of the first opening 81 facing forward in the turning direction is provided. In addition, a second opening 82 is provided in the windward side wall 61a of each bucket portion 61 so as to be bent in a dogleg shape toward the rear in the turning direction from the edge continuous with the holding portion 75. Although not shown in FIG. 10 and FIG. 11, the both end surfaces of the humidifying filter 40 shown in FIGS. While restraining and holding, the outer periphery of the humidifying filter 40 is held by the inner peripheral surface 76 of the annular disc portion 67 and the inner peripheral surface 77 of the bucket portion 61 (see FIG. 15).

  Further, each of the arm portions 68, 68,... Of the revolving frame 65 is provided with a linear rib portion 89. Although not shown, the rib portion 89 is caused to bite into the humidifying filter 40, and the humidifying filter 40. Are rotated together with the revolving frame 65.

  In addition to holding the front surface of the humidifying filter 40, the holding portion 75 also serves as a water guide, and serves to serve as a water guide and to remove water discharged from the first and second openings 81 and 82 of the bucket portion 61. Guide the front face radially inward. Here, the water in the bucket portion 61 is mainly discharged from the second opening 82.

  Therefore, the water discharged from the first and second openings 81 and 82 of the bucket portion 61 is quickly guided radially inward from the front surface of the humidifying filter 40 by the holding portion 75 and quickly goes to a wide range. Over time, the amount of humidification can be increased.

  Further, as shown in FIGS. 10 and 11, the portion 78 of the ring-shaped disc portion 67 located in the rotation direction of the swivel frame 65 of the first opening 81 of the bucket portion 61 has water from the opening 81. It functions as a wall portion that blocks the passage of the air flow without going to the humidifying filter 40.

  The wall portion 78 that is a portion of the annular disk portion 67 does not allow the water discharged from the first opening 81 of the bucket portion 61 to go to the humidifying filter 40, but goes behind the humidifying filter 40 together with the air flow. The water from the first opening 81 is guided to the humidification filter 40.

  Therefore, the wall portion 78 can prevent water splashing to the rear of the humidifying filter 40 to increase the amount of humidification, and can prevent water splashing from the fan 20 and the outlet 6.

  Further, as shown in FIGS. 2 and 12, the bucket portion 61 of the watering device 60 is provided near the first and second openings 81 and 82 when the humidifying filter 40 is filled with water. The inner surface 62 on the side is inclined so that the upstream side of the air flow (the right side in FIGS. 2 and 12) is downward.

  Thus, when water is applied to the humidifying filter 40 from the first and second openings 81 and 82, the vicinity of the first and second openings 81 and 82 of the bucket portion 61 and the humidifying filter 40 side are provided. Since the inner surface 62 is inclined so that the upstream side of the air flow is downward, the water discharged from the first and second openings 81 and 82 has a velocity component directed to the upstream side of the air flow. Therefore, water is applied to the upstream portion of the humidifying filter 40 in the thickness direction, and the applied water reaches the downstream portion of the humidifying filter 40 in the thickness direction together with the air flow. As a result, water spreads over the entire thickness direction of the humidifying filter 40, and a large amount of humidification can be obtained.

  In the embodiment shown in FIG. 12, the inner surface of the bucket 61 on the humidifying filter 40 side is positioned behind the inner surface 62 on the humidifying filter 40 side in the vicinity of the first and second openings 81 and 82 and the inner surface 62. However, the inner surface on the side of the humidifying filter 40 may be a single step composed of the inner surface 62 and its extended surface. Further, on the inner surface 62 and the inner surface 72 of the bucket 61, curved concave surfaces 62a and 72a that are continuous with the wall portion 78 are formed. Thus, the water pumped up by the bucket 61 is smoothly discharged from the first and second openings 81 and 82 from the bucket 61.

  Further, as shown in FIGS. 2 and 11, the width of the first opening 81 of the bucket portion 61 in the thickness direction of the humidifying filter 40 is smaller than the thickness dimension of the humidifying filter 40 and the bucket portion. 61 corresponds to a portion on the upstream side in the thickness direction of the humidifying filter 40 (the humidifying filter 40 is not shown in FIG. 11, but the humidifying filter 40 has an inner flange). It is sandwiched between the part 71 and the holding part 75).

  Therefore, the water discharged from the first and second openings 81 and 82 of the bucket portion 61 is applied to the upstream portion of the air flow in the thickness direction of the humidifying filter 40, while the thickness of the humidifying filter 40 is It is not directly hung on the downstream part of the directional air flow.

  Therefore, not only the upstream portion in the thickness direction of the humidifying filter 40 to which water has been applied is distributed, but also the water that has been applied to the downstream side in the thickness direction of the humidifying filter 40 together with the air flow. As a result, the water reaches the entire portion in the thickness direction of the humidifying filter 40, and a large amount of humidification can be obtained.

  In addition, since water is not directly applied to the downstream portion of the humidifying filter 40 in the thickness direction, it is possible to prevent water from flowing from the humidifying filter 40 to the downstream side. Can be prevented.

  As shown in FIG. 2, the watering device 60 does not immerse the humidifying filter 40 in the water of the water tray 90, while the bucket unit 61 can immerse the water in the pumping unit 92 and pump the water from the pumping unit 92. As such, the dimensions are set and arranged.

  As described above, the humidifying filter 40 is arranged so as not to be immersed in the water in the water tray 90, so that the humidifying filter 40 is not flooded with water from the bucket portion 61 when the swivel frame 65 of the watering device 60 is stopped. Further, the humidification filter 40 is not soaked in the water of the water tray 90 and does not absorb water, so that the humidification function is turned off.

  Therefore, the on / off control of the humidification function can be performed by turning on / off the turning of the turning frame 65 with the geared motor 74.

  On the other hand, as shown in FIG. 2, the water tray 90 is provided with a partition wall 91 having an inverted L-shaped cross section, and is divided into a pumping portion 92 and a non-pumping portion 93. The bucket unit 61 pumps water from the pumping unit 92. The non-pumping portion 93 receives the air pressure on the upstream side of the air cleaning filter unit 30.

  The upper part of the partition wall 91 is in close contact with the lower part of the pre-filter 31, the ionization unit 32, the dust collection filter 33 and the deodorizing filter 34 of the air purification filter unit 30, and the resistance loss of air passing through the air purification filter unit 30. Thus, a differential pressure is generated between the air pressure on the non-pumping portion 93 and the air pressure on the pumping portion 92.

  The non-pumping section 93 is provided with a float switch 94, and when the water level of the non-pumping section 93 is lower than the steady state by a certain value, a display or alarm indicating that there is no water in the water tank 10 is not shown. Or the alarm section.

  As shown in more detail in FIG. 13, the water tray 90 divides a wide pumping unit 92 from which water is pumped by the bucket unit 61 and a non-pumping unit 93 that receives air pressure upstream of the air purification filter unit 30. A partition wall 91 (only a part is shown) is provided, and a long long hole 95 is provided in the lower part of the partition wall 91 as a water passage hole.

  As a result, when the differential pressure between the upstream side and the downstream side of the air purification filter unit 30 increases as the rotational speed of the fan 20 increases, the water level of the pumping section 92 depends on the magnitude of this differential pressure. The water level is higher than the water level of the non-pumping portion 93, and the pumping water amount of the bucket portion 61 can be automatically adjusted according to the rotational speed of the fan 20.

  Therefore, the amount of watering to the humidifying filter 40 is automatically adjusted according to the rotational speed of the fan 20 so that the humidifying amount can be easily and automatically adjusted.

  The horizontally long slot 95 provided in the partition wall 91 of the water tray 90 is not easily exposed to air even when the water level is low, and quickly supplies water from the non-pumping section 93 to the pumping section 92. The response speed of the automatic adjustment of the water level of the pumping unit 92 is increased.

  On the other hand, the non-pumping portion 93 is provided with a water tank setting portion 98 for setting the water tank 10, and the height of the bottom surface 98 b of the water tank setting portion 98 is near the partition wall 91 of the non-pumping portion 93. It is higher than the height of the bottom surface 93b. Further, a notch 101 is provided on the peripheral wall of the water tank installation part 98 from the upper end.

  As a result, the rotation of the fan 20 is stopped, the differential pressure between the upstream side and the downstream side of the air purification filter unit 30 disappears, the water returns from the pumping unit 92 to the non-pumping unit 93, and the non-pumping unit 93 When the water level exceeds a certain value, water is discharged from the non-pumping portion 93 to the buffer water storage portion 99 through the notch 101 to prevent water from overflowing from the non-pumping portion 93 to the outside. .

  Instead of the notch 101, a through hole may be provided in the upper part of the peripheral wall of the water tank installation part 98.

  In FIG. 4, 121 is a high-voltage printed circuit board, 122 is an odor sensor, 123 is a streamer, 124 is a light receiving unit, 96 in FIG. 13 is a hole for attaching an antibacterial case, and 97 is a float mounting hole. Since these are not related to the gist of the present invention, detailed description thereof is omitted.

  The humidifier configured as described above operates as follows.

  As shown in FIGS. 2 and 3, when the fan 20 is driven by the fan motor 21 and the swivel frame 65 of the watering device 60 is driven by the geared motor 74, air is sucked from the suction ports 5, 5 on the side surface 3 of the casing 1. Inhaled. This sucked air changes the direction of the flow 90 degrees once from the rear surface 11 of the water tank 10 and the prefilter 31 of the air purifying filter unit 30 toward the prefilter 31, and then becomes substantially straight. The pre-filter 31, the ionization unit 32, the dust collection filter 33, the deodorizing filter 34, the humidification filter 40 and the fan 20 of the arranged air purification filter unit 30 flow in a substantially straight line in the horizontal direction to be cleaned and humidified. Then, when it leaves the fan 20, the flow direction is changed 90 degrees once in a substantially vertical direction, and the air is discharged from the air outlet 6 on the upper surface of the casing 1.

  As described above, in this humidifier, the flow of air sucked from the suction ports 5 and 5 of the casing 1, that is, the number of times of bending of the air flow path is approximately from the suction ports 5 and 5 of the side surface 3 of the casing 1. Since the air cleaning filter unit 30 is once for the pre-filter 31 and once for exiting the fan 20, the air flow resistance is small because the number of times the air flow path is bent is small.

  Further, the air sucked from the suction ports 5, 5 of the casing 1 is gradually guided toward the pre-filter 31 of the air purification filter unit 30 by the inclined surfaces 12, 12 on both sides of the rear surface 11 of the water tank 10. The draft resistance is small because there is little sudden change of direction.

  The clean air coming out from the upper part of the deodorizing filter 34 of the air purification filter unit 30 flows through the non-humidification passage 51 partitioned from the humidification passage 52 by the partition plate 50 and does not pass through the humidification filter 40. The purified air coming out of the lower part of the deodorizing filter 34 flows through the humidifying passage 52 and passes through the humidifying filter 40 and is humidified while being sucked into the fan 20 through the upper part of the mouse 23. Then, the air is sucked into the fan 20 through the lower part of the bell mouth 23.

  As described above, the air flowing through the non-humidifying passage 51 from the upper portion of the deodorizing filter 34 to the upper portion of the bell mouth 23 does not pass through the humidifying filter 40, so that the ventilation resistance of the air flowing through the non-humidifying passage 51 is reduced. Can be reduced. In particular, when the geared motor 74 is stopped, the operation of the watering device 60 is stopped, the humidification operation is not performed, and only the air cleaning operation is performed, the presence of the non-humidification passage 51 allows a sufficient air volume ( Air volume).

  The clean air flowing through the humidifying passage 52 is prevented from flowing into the non-humidifying passage 51 by bypassing the humidifying filter 40 from the humidifying passage 52 by the partition plate 50. Most of the air that has flowed into the humidifying passage 52 passes through the humidifying filter 40. Thus, since the partition plate 50 extending from the deodorizing filter 34 to the vicinity of the fan 20 prevents the air flow bypassing the humidifying filter 40 from the humidifying passage 52, a large amount of humidification can be obtained.

  (A) and (B) of FIG. 14 are a table and a graph which show the humidification amount test result of this embodiment and a comparative example.

  In FIG. 14, P represents this embodiment, and N represents a comparative example different from this embodiment only in that the partition plate 50 is removed from this embodiment.

As can be seen from FIGS. 14A and 14B, the embodiment P and the comparative example N have the same air volume (mainstream air volume) of the fan 20 of 7.5 m ³ / min. In the comparative example N, the humidifying filter While the amount of air passing through 40 is 3.21 m ³ / min, in this embodiment, the amount of air passing through the humidifying filter 40 is increased to 3.50 m ³ / min. In this embodiment, the amount of humidification increased to 597 cc / h, whereas the amount was 556 cc / h.

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

  That is, in this embodiment P, the amount of humidification increased by about 7% compared with the comparative example N.

  Further, the partition plate 50 extending from the deodorizing filter 34 of the air purification filter unit 30 to the vicinity of the fan 20 prevents collision between the humidified air exiting the humidifying filter 40 and the non-humidified air flowing through the non-humidified passage 51. Thus, generation of turbulence is prevented. As a result, ventilation resistance can be reduced and noise can be reduced.

  On the other hand, as shown in FIGS. 2, 10, 11, and 12, the humidifying filter 40 is filled with water from the first and second openings 81 and 82 of the bucket portion 61 of the watering device 60. Specifically, the swivel frame 65 having the bucket portions 61, 61, 61... Is swung by the geared motor 74 via the gear 79, and the bucket portions 61, 61, 61. The water is pumped up sequentially, and the humidifying filter 40 is poured with water.

  Further, the water discharged from the first opening 81 of the bucket portion 61 is, as shown in FIGS. 10 and 11, the ring-shaped disc portion 67 of the swivel frame 65 located in front of the first opening 81. The wall portion 78 that is a part blocks the air flow from going behind the humidifying filter 40 and falls toward the humidifying filter 40.

  Therefore, the wall portion 78 can prevent water splashing to the rear of the humidifying filter 40 to increase the amount of humidification, and can prevent water splashing from the fan 20 and the outlet 6.

  On the other hand, as shown in FIG. 2, the bypass of air to the air purification filter unit 30 is blocked by a partition wall 91. Due to the resistance loss of the air passing through the pre-filter 31, ionization unit 32, dust collection filter 33 and deodorizing filter 34 of the air purification filter unit 30, a pressure difference is generated between the upstream side and the downstream side of the air purification filter unit 30. This pressure difference becomes higher in accordance with the rotation speed of the fan 20, that is, the increase in the air volume.

  The pressure on the upstream side of the air purification filter unit 30 and the partition wall 91 is substantially atmospheric pressure, and this substantially atmospheric pressure acts on the water of the non-pumping portion 93 of the water tray 90, while the air purification filter unit 30 and the partition are separated. The pressure on the downstream side of the wall 91 is a low pressure lower than the atmospheric pressure by the resistance loss, and this low pressure acts on the water in the pumping portion 92 of the water tray 90. There is the above-described pressure difference between the substantially atmospheric pressure acting on the water of the non-pumping portion 93 of the water tray 90 and the low pressure acting on the water of the pumping portion 92.

  On the other hand, the non-pumping portion 93 and the pumping portion 92 of the water tray 90 communicate with each other through a long hole 95 at the bottom of the partition wall 91, so that the water level of the pumping portion 92 of the water tray 90 is set to the non-pumping portion 93. The above-described pressure difference is higher than the water level. This pressure difference becomes higher in accordance with the rotation speed of the fan 20, that is, the increase in the air volume.

  Therefore, the water level of the pumping unit 92 becomes higher according to the rotational speed of the fan 20, that is, the increase in the air volume.

  Accordingly, the bucket unit 61 of the watering device 60 can pump water from the pumping unit 92 and apply it to the humidifying filter 40 so that the pumped water amount increases as the rotational speed (air volume) of the fan 20 increases. it can.

  Thus, since the water level of the pumping unit 92 is automatically adjusted according to the rotational speed of the fan 20, the air volume (air volume) can be obtained without controlling the rotational speed of the swivel frame 65 of the watering device 60. Accordingly, the amount of water applied to the humidifying filter 40 can be automatically adjusted, and the humidifying amount can be easily adjusted automatically.

  The automatic adjustment of the water level of the pumping section 92 is performed by supplying water to the pumping section 92 through the long hole 95 at the lower part of the partition wall 91, and therefore can be performed quickly and with good responsiveness. In particular, since the long elongate hole 95 that is difficult to be exposed to the air is used, water can be supplied quickly through the elongate hole 95, and the water level of the pumping portion 92 can be automatically adjusted with good responsiveness.

  Next, when the rotation of the fan 20 stops, the differential pressure between the upstream side and the downstream side of the air purification filter unit 30 disappears, so that water returns from the pumping unit 92 having a high water level to the non-pumping unit 93 having a low water level. Thus, the water level of the non-pumping portion 93 may become a certain value or more.

  In this case, since water is discharged from the non-pumping portion 93 to the buffer water storage portion 99 through the notch 101, the water does not overflow from the non-pumping portion 93 to the outside.

  FIG. 15 shows a perspective view of the watering device 60 to which the humidifying filter 40 is attached. As shown in FIG. 15, the disc-shaped humidifying filter 40 is attached to the inner periphery of the annular disc portion 67 of the swivel frame 65 of the watering device 60. Then, the boss 66 at the center of the revolving frame 65 passes through a hole (not shown) provided at the center of the humidifying filter 40, and the shaft 110 provided with the flange 110a for holding the humidifying filter is revolved. The humidifying filter 40 is fixed to the revolving frame 65 through a hole provided in the boss portion 66 of the frame 65.

  FIG. 16 shows a perspective view of the water tray 90 with the water hanger 60 attached thereto. The support leg portion 63 attached to the pumping portion 92 side of the water tray 90 has a U-shaped bearing portion 64 at the top. The shaft part 110 penetrated through the boss part 66 of the turning frame 65 is supported by the bearing part 64 of the support leg part 63 so as to be turnable. Here, the gear 130 is engaged with the gear 79 on the outer periphery of the revolving frame 65, and the output shaft of the geared motor 74 is connected to the gear 130.

  FIG. 17 shows a perspective view of the gear 130. As shown in FIG. 17, the gear 130 includes a bottomed cylindrical portion 131 having a plurality of teeth 132 formed on the outer periphery, and a disc portion 133 as an example of the bottom portion of the cylindrical portion 131 from the center to the opening side. A shaft portion 134 that is extended and inserted and connected to an output shaft 74c of a geared motor 74 (shown in FIG. 18), and is disposed upright on the disk portion 133 so as to surround the shaft portion 134, and extends axially to the opening of the cylindrical portion 131. And a cylindrical rib 135 extending outward.

  FIG. 18 is a perspective view of the geared motor 74 to which the gear 130 is attached. In FIG. 18, reference numerals 73 a and 73 b are connection terminals provided on the geared motor 74.

  Next, FIG. 19 shows a cross-sectional view of the gear 130 attached to the geared motor 74.

  As shown in FIG. 17, even if water droplets accumulated between the teeth of the cylindrical portion 131 of the gear 130 fall, it flows down along the outer periphery of the cylindrical rib 135 and falls from the lower end of the cylindrical portion 131 of the gear 130. . This prevents water droplets from being transmitted through the gear 130 to the output shaft of the geared motor 74 that rotates the swivel frame 65 (shown in FIGS. 15 and 16) of the watering device 60, and prevents water from entering the geared motor 74. Can be prevented.

  Further, water accumulates on the edge of the cylindrical rib 135 of the gear 130 and on the outer peripheral side of the rib 135 due to surface tension, and the water is guided downward along the edge to flow down. It is possible to more reliably prevent water droplets from being transmitted to the shaft via the gear 230.

  FIG. 20 shows a cross-sectional view of another example gear 230 attached to the geared motor 74. As shown in FIG. 20, the gear 230 has a bottomed cylindrical portion 231 having a plurality of teeth 232 formed on the outer periphery and a disc portion 233 as an example of the bottom portion of the cylindrical portion 231 from the center to the opening side. The shaft portion 234 extends and is connected to the output shaft 74c of the geared motor 74 (shown in FIG. 18), and the cylindrical rib 235 is erected on the disc portion 233 so as to surround the shaft portion 234. is doing.

  Annular recesses 236 and 237 having edges are formed on the disc portion 233 of the cylindrical portion 231 on the geared motor 74 side and on the outer peripheral side of the rib 235.

  Water accumulates at the edges of the annular recesses 236, 237, and the water is guided downward along the edges to flow down. Therefore, it is possible to more reliably prevent water droplets from being transmitted to the output shaft of the geared motor 74 via the gear 230. be able to.

  In this embodiment, the cylindrical rib 135 erected on the disk portion 133 so as to surround the shaft portion 134 of the gear 130 extends outward in the axial direction to the opening of the cylindrical portion 131, but at least the cylinder What is necessary is just to extend to the axial direction outer side rather than the opening of the part.

  FIG. 21 is a perspective view of the swivel frame 65 of the watering device 60, and is a view of the swivel frame 65 as viewed from an oblique side on the downstream side of the air flow. FIG. 22 shows a cross-sectional view of the main part of the swivel frame 65 of the watering device 60.

  As shown in FIGS. 21 and 22, the gear 79 formed on the outer peripheral portion of the annular disc portion 67 of the revolving frame 65 is disposed on the outer side in the radial direction of the revolving frame side cylindrical portion 79 a and the revolving frame side cylindrical portion 79 a. A plurality of teeth 79b are arranged.

  The swivel frame 65 includes a ring-shaped disc portion 67 as an example of a flange portion provided radially inward from one end face side of the swivel frame-side cylindrical portion 79a of the gear 79, and a swivel frame of the ring-shaped disc portion 67. A cylindrical revolving frame side rib 140 is provided on the inner side of the side cylindrical portion 79a in the axial direction and extends outward in the axial direction from the other end surface of the revolving frame side cylindrical portion 79a. An annular groove 141 is formed between the revolving frame side cylindrical portion 79 a and the revolving frame side rib 140.

  As described above, by providing the annular groove 141 on the tooth base side and the radially inner side of the gear 79 of the revolving frame 65, even if water is transmitted from the water tray 90 to the gear 79 of the revolving frame 65, the annular groove is provided. Since it is guided to 141 and flows down, it is possible to prevent water adhering to the gear 79 from dropping and being blown off by the wind.

  By forming the annular groove 141 between the turning frame side cylindrical portion 79a of the turning frame 65 and the turning frame side rib 140, it is not necessary to add a new member to provide the groove, and a deep annular shape is further provided. More water can be guided downward by the groove.

  FIG. 23 shows a cross-sectional view of the main part of another example of the swivel frame of the watering device. The swivel frame 165 shown in FIG. 23 is provided with an annular groove 142 on one end face of the swivel frame side cylindrical portion 179a of the gear 179.

  According to the revolving frame 165, the annular groove 142 is provided on one end surface of the revolving frame side cylindrical portion 179a necessary for supporting the teeth 179b of the gear 179 of the revolving frame 165. There is no need to add parts.

  Further, in the humidifier of the above embodiment, the gear 79 is provided on the outer periphery of the revolving frame 65, and the geared motor 74 that drives the gear 79 is disposed so as not to overlap the humidifying filter 40 and the air flow direction. The geared motor 74 does not interfere with the air flow through the humidifying filter 40, and the amount of air passing through the humidifying filter 40 can be increased, thereby increasing the amount of humidification.

  Further, in the humidifying device of the above embodiment, the humidifying filter 40 is arranged so as not to be immersed in the water in the pumping portion 92 of the water tray 90, so that the turning of the turning frame 65 is turned on and off by the geared motor 74. In addition, the humidification function can be turned on / off.

  In the said embodiment, although the blower outlet 6 was provided in the upper surface of the casing 1, you may provide a blower outlet in the side surface of a casing, or you may provide in both the upper surface and side surface of a casing.

  Moreover, in the said embodiment, although the air purifying filter unit 30 contained the pre filter 31, the ionization part 32, the dust collection filter 33, and the deodorizing filter 34, in addition to these, you may contain the disinfection filter, Or you may remove the ionization part 32, the deodorizing filter 34, etc. FIG. For example, the air purifying filter unit may include only a pre-filter and a dust collection filter, or may include only a single filter. Alternatively, the air purification filter unit 30 may be removed.

  Moreover, in the said embodiment, although the partition plate 50 was provided, you may remove this partition plate.

  Moreover, in the said embodiment, although the humidification filter 40 rotated with the turning frame 65 was used as a humidification member, it replaces with this and uses the stationary humidification member separate from a watering apparatus, and this stationary humidification member You may make it pour water into the upstream part from the bucket part provided in the turning frame of the watering apparatus.

  Moreover, in the said embodiment, the structure that the inner surface 62 by the side of the humidification filter 40 near the 1st, 2nd opening 81,82 of the bucket part 61 inclines so that the upstream of an airflow may become down, and a bucket Although the opening 81 of the part 61 is provided with both of the configurations that correspond to the upstream portion of the humidifying filter 40 in the thickness direction, it may have only one configuration, or both It is not necessary to have the configuration of. Further, the holding portion 75 and the wall portion 78 may also be removed.

  Further, in the above embodiment, the partition wall 91 is provided in the water tray 90 to partition the pumping portion 92 and the non-pumping portion 93, and the elongated hole 95 is provided as a water passage hole in the lower portion of the partition wall 91. The water hole may be one or more slits or round holes.

  Moreover, in the said embodiment, the partition wall 91 which partitions off the pumping part 92 and the non-pumping part 93 is provided in the water tray 90, a water flow hole is provided in this partition wall 91, and the pumping part 92 of the pumping part 92 is provided according to an air volume. Although the amount of pumped water is automatically adjusted, the partition wall 91 may be removed to eliminate the automatic water level adjustment function.

  Moreover, in the said embodiment, when the water level of the non-pumping part 93 becomes more than the predetermined fixed value, the buffer water storage part 99 into which water flows in from the non-pumping part 93 through the notch 101 is provided. You may remove the water accommodating part 99 and the notch 101. FIG.

  Furthermore, although the said embodiment demonstrated the humidification apparatus provided with the air purification filter unit 30 and the humidification filter 40, you may apply this invention to the humidification apparatus which is not provided with the air purification filter unit.

It is a perspective view of one embodiment of a humidification device of this invention. It is a longitudinal cross-sectional view of the humidification apparatus of the said embodiment. It is a cross-sectional view of the humidifying device of the embodiment. It is the front view which removed the front panel of the humidification apparatus of the said embodiment, and was seen from the water tank side. It is a schematic diagram which shows a comparative example. It is a schematic diagram which shows the relationship between the fan of the humidification apparatus of the said embodiment, a humidification filter, and a partition plate. It is a schematic diagram which shows the relationship between the humidification filter of the humidification apparatus of the said embodiment, a bell mouth, and a partition plate. It is a schematic diagram which shows the relationship between the humidification filter of a modification, a bellmouth, and a partition plate. It is the figure which looked at the watering apparatus from the front. It is a perspective view of a revolving frame. It is a perspective view which shows the principal part of a turning frame. It is a perspective view which shows a bucket part. It is a perspective view of a water tray. (A) and (B) of FIG. 14 are a table | surface and a graph which show the humidification amount test result of the humidification apparatus of the said embodiment, and a comparative example. It is a perspective view of the watering apparatus with which the humidification filter was attached. It is a perspective view which shows the state in which the watering apparatus was attached to the water tray. It is a perspective view of a gear. It is a perspective view of the geared motor with which the gear was attached. It is sectional drawing of the gear of the state attached to the geared motor. It is sectional drawing of the gear of the other example of the state attached to the geared motor. It is a perspective view of the turning frame of a watering apparatus. It is principal part sectional drawing of the turning frame of a watering apparatus. It is principal part sectional drawing of the other example of the turning frame of a watering apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Casing 3 Front panel 5 Intake port 6 Outlet 10 Water tank 11 Rear surface 12 Inclined surface 20 Fan 23 Bell mouth 30 Air purifying filter unit 31 Prefilter 32 Ionization part 33 Dust collection filter 34 Deodorizing filter 40 Humidification filter 50 Partition plate 51 Non- Humidification passage 52 Humidification passage 60 Watering device 61 Bucket portion 62 Inner surface 62a Edge 65,165 Swivel frame 66 Boss portion 67 Ring-shaped disk portion 68 Arm portion 69 Ring portion 71 Inner flange portion 72 Inner surface 74 Geared motor 74c Output shaft 75 Holding portion 76 Inside Peripheral surface 77 surface 78 Wall portion 79,179 Gear 79a, 179a Teeth 79b, 179b Revolving frame side cylindrical portion 81 First opening 82 Second opening 89 Rib portion 90 Water tray 91 Partition wall 92 Pumping portion 93 Non-pumping portion 95 Long hole 96 hole 97 float Hole 98 Water tank installation part 99 Buffer water storage part 101 Notch 110 Shaft part 114 Dust sensor 121 High pressure printed circuit board 122 Odor sensor 130,230 Gear 131,231 Cylindrical part 132,232 Teeth 133,233 Disc part 134, 234 Shaft part 135,235 Rib 140 Revolving frame side rib 141,142 Groove

Claims (3)

A humidifying filter (40);
A water tray (90) disposed below the humidifying filter (40);
A watering device (60) having a swivel frame (65,165) for pumping water from the water tray (90) and applying it to the humidifying filter (40);
A motor (74) for rotating the swivel frame (65, 165) of the watering device (60) via a gear (130, 230),
A gear (79) that meshes with the gear (130) coupled to the output shaft of the motor (74) is provided on the outer peripheral side of the swivel frame (65, 165) of the watering device (60),
A humidifying device characterized in that annular grooves (141, 142) are provided on the tooth base side and radially inward of the gear (79) of the revolving frame (65, 165). The humidifier according to claim 1,
A gear (179) of the swivel frame (165) is provided on a radially outer side of the swivel frame side cylindrical portion (179a) provided on the outer peripheral side of the swivel frame (165) and the swivel frame side cylindrical portion (179a). A plurality of teeth (179b) arranged;
The humidifying device, wherein the annular groove (141) of the revolving frame (65, 165) is provided on one end face of the revolving frame side cylindrical portion (179a) of the gear (179). The humidifying device according to claim 2,
A gear (79) of the swivel frame (65) is provided on a radially outer side of the swivel frame side cylindrical portion (79a) provided on the outer peripheral side of the swivel frame (65) and the swivel frame side cylindrical portion (79a). A plurality of teeth (79b) arranged;
The swivel frame (65) includes a flange portion (67) provided radially inward from one end face side of the swivel frame side cylindrical portion (79a) of the gear (79), and a flange portion (67). Cylindrical swivel frame side ribs (140) which are erected along the axial direction on the inner side of the swivel frame side cylindrical portion (79a) and extend outward in the axial direction from the other end face of the swivel frame side cylindrical portion (79a). )
An annular groove (141) of the revolving frame (65) is formed by the revolving frame side cylindrical portion (79a) and the revolving frame side rib by the revolving frame side cylindrical portion (79a) and the revolving frame side rib (140). (140) A humidifier characterized by being formed between.

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