JP7174584B2 - ultrasonic humidifier - Google Patents

Description

TECHNICAL FIELD The present invention relates to an ultrasonic humidifier that atomizes water with ultrasonic waves and blows water droplets in the form of a mist from an outlet.

An ultrasonic humidifier of this type is disclosed that includes a water supply tank, a water reservoir, an ultrasonic vibrator and an electric circuit, an air blower, and a droplet guide (see Patent Document 1). In this ultrasonic humidifier, ultrasonic vibrations are applied to water supplied from a water supply tank and accumulated in a reservoir by an ultrasonic vibrator and an electric circuit, and the water is atomized by the ultrasonic vibrations into a mist. of water droplets are generated. The generated water droplets ride on the air flow sent from the blower, pass through the water droplet guide, and are blown out from the outlet.

JP-A-10-281502

However, in the ultrasonic humidifier described in Patent Document 1, it is difficult to reduce the size of the ultrasonic humidifier depending on the structure of the flow path where the air flow sent from the blower passes through the water droplet guide and blows out from the outlet. However, there is a problem that water droplets may flow back and enter the electric circuit. In addition, there is a problem that the efficiency of the air flow is lowered, and the momentum of the water droplets blown out from the outlet may be weakened.

SUMMARY OF THE INVENTION The present invention has been made to solve such problems. An object of the present invention is to provide a sonic humidifier.

(1) An ultrasonic humidifier according to the present invention is an ultrasonic humidifier that applies ultrasonic vibration to water to generate atomized water droplets, and ejects the atomized water droplets by an air flow. A main body portion having a storage chamber surrounded by a circumferential inner wall surface, a storage chamber arranged on one side of the storage chamber in the central axis direction and storing the misty vapor, and a storage chamber of the main body portion. and an airflow generating portion arranged in a central region of the body portion for generating an airflow flowing toward one side in the circumferential direction along the inner wall surface, and an opening toward the upstream side of the airflow in the housing chamber of the main body portion An air intake port and an air outlet opening into the storage chamber of the main body are provided, and the flow direction of the air flow taken in from the air intake port is changed from one side in the circumferential direction of the storage chamber to the other side in the central axial direction of the storage chamber. and an air flow guide part that converts to the side and guides to the air outlet.

With this configuration, the inner wall surface of the storage chamber can be used as a part of the air flow path through which the air flow flows, and a larger amount of air flow can be taken in from the air intake port to the air flow guide section, and the air flow generation section can The delivered airflow can enter the storage chamber with high efficiency. In addition, it is possible to reduce the size as compared with a structure arranged so as to generate an air flow in the direction of gravity.

(2) The ultrasonic humidifier according to the present invention is the ultrasonic humidifier according to (1) above, wherein the air flow guide portion extends along the inner wall surface of the storage chamber from the air intake port. a first guide portion extending toward one direction side; a second guide portion making a U-turn in a direction approaching the central axis of the storage chamber from the first guide portion toward the other side in the circumferential direction; a third guide portion extending from the guide portion toward one side in the center axis direction of the accommodation chamber, wherein the first guide portion moves from the air intake port toward the second guide portion; It is characterized by a gradual decrease in cross-sectional area.

With this configuration, it is possible to smoothly guide the air flow from the air inlet to the air outlet, and to prevent water droplets that have entered the air flow guide section from the air outlet from entering the storage chamber from the air inlet. can.

(3) The ultrasonic humidifier according to the present invention is the ultrasonic humidifier according to (2) above, wherein the main body part has a central axis of the storage chamber extending along the direction of gravity, and and the storage chamber are arranged so as to be divided into a lower side and an upper side in the direction of gravity, and the air flow guide portion is arranged such that the first guide portion and the second guide portion are arranged along the horizontal direction, and the A third guide portion is arranged along the direction of gravity, and a drain portion for draining water that has entered the air flow guide portion is provided below the air flow guide portion.

With this configuration, water droplets entering the air guide section from the air outlet can be moved downward in the direction of gravity, guided to the drainage section provided below the air flow guide section, and drained by the drainage section.

(4) The ultrasonic humidifier according to the present invention is the ultrasonic humidifier according to (3) above, wherein the air flow guide section partitions between the first guide section and the third guide section. It is characterized by having ribs.

With this configuration, water droplets that have entered the air guide portion from the air outlet can adhere to the ribs and move downward in the direction of gravity along the surface of the ribs. It can be led to the part and drained by the drainage part.

(5) The ultrasonic humidifier according to the present invention is characterized in that, in the ultrasonic humidifier according to (4) above, the rib is provided hanging down above the drainage section.

With this configuration, the water droplets adhering to the rib can be moved downward in the gravitational direction along the surface of the rib, dropped from the lower end of the rib, and reliably guided to the drainage section.

(6) The ultrasonic humidifier according to the present invention is the ultrasonic humidifier according to (5) above, wherein the rib moves toward the second guide portion from the air intake port. It is characterized in that it has a shape that narrows the horizontal width of the first guide portion by moving toward the inner wall surface of the chamber.

With this configuration, the cross-sectional area of the first guide portion can be gradually reduced to increase the flow velocity of the air flowing into the storage chamber from the air intake port, thereby ejecting more water droplets from the storage chamber.

(7) The ultrasonic humidifier according to the present invention is the ultrasonic humidifier according to (1) above, wherein from the air blow port of the air flow generating section to the air intake port of the air flow guide section, the storage chamber An electric circuit portion is arranged in the middle of an air flow path through which air flows along the inner wall surface of the air flow path.

With this configuration, the electric circuit section can be cooled by the air flow, and the air flow can be effectively utilized.

(8) The ultrasonic humidifier according to the present invention is the ultrasonic humidifier according to (1) above, wherein an aromatic substance is added downstream of the air flow guide portion in the housing chamber of the main body portion in the air flow. characterized in that an aromatic substance containing portion for containing is arranged.

With this configuration, part of the airflow that leaks out of the airflow guide portion without being taken into the airflow guide portion from the air intake port is allowed to pass through the aromatic substance stored in the aromatic substance storage portion. The stream can be scented. The scent-laden airflow moves toward one side in the circumferential direction along the circumferential inner peripheral wall, reaches the airflow guide portion again, and is taken into the airflow guide portion through the air intake port. Therefore, it is possible to blow out an air flow containing fragrance together with misty water droplets, and the environment of the user of the ultrasonic humidifier is humidified by the misty water droplets blown out from the water droplet outlet, and the user can You can enjoy the aroma generated by the aroma generator.

ADVANTAGE OF THE INVENTION According to this invention, the ultrasonic humidifier which is comparatively small, can suppress the backflow of a water droplet, and can distribute|circulate the airflow sent from an air blower with high efficiency can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic diagram which represented typically schematic structure of the ultrasonic humidifier which concerns on embodiment of this invention. The perspective view which looked at the housing|casing from the diagonally downward direction in the state which removed the bottom cover of the housing|casing of the ultrasonic humidifier which concerns on embodiment of this invention. FIG. 2 is a perspective view of the housing of the ultrasonic humidifier according to the embodiment of the present invention, as seen from below on the side of the electric circuit section, with the bottom cover of the housing removed. FIG. 2 is a perspective view of the housing of the ultrasonic humidifier according to the embodiment of the present invention, as seen from below on the blower port side, with the bottom lid of the housing removed. FIG. 2 is a perspective view of the housing of the ultrasonic humidifier according to the embodiment of the present invention as seen from below on the power supply side with the bottom lid of the housing removed. FIG. 2 is a perspective view of the water supply tank receiver of the ultrasonic humidifier according to the embodiment of the present invention, viewed from above. The perspective view which looked at the water supply tank receiver of the ultrasonic humidifier which concerns on embodiment of this invention from the downward direction. The perspective view which looked at the air outlet of the water reservoir part and the airflow guide part of the ultrasonic humidifier which concerns on embodiment of this invention from upper direction. The perspective view which looked at the airflow guide part of the ultrasonic humidifier which concerns on embodiment of this invention from the downward direction. The perspective view which looked at the air intake part of the airflow guide part of the ultrasonic humidifier which concerns on embodiment of this invention from the downward direction. The perspective view which looked at the air intake part of the airflow guide part arrange|positioned at the ultrasonic humidifier which concerns on embodiment of this invention from the downward direction. The perspective view which looked at the drainage part of the airflow guide part of the ultrasonic humidifier which concerns on embodiment of this invention from upper direction. The perspective view which looked at the housing|casing from the diagonally downward direction in the state which removed the bottom cover of the housing|casing of the ultrasonic humidifier which concerns on the modification of embodiment of this invention.

An ultrasonic humidifier 10 according to an embodiment to which the ultrasonic humidifier according to the present invention is applied will be described with reference to the drawings.

The ultrasonic humidifier 10 according to the present embodiment is used, for example, by placing it on a desk, a floor, a shelf, etc., and applies ultrasonic vibration to water to atomize the water by the ultrasonic vibration. water droplets are generated, and an air flow is applied to the mist-like water droplets to jet them out. The ultrasonic humidifier 10 has a cylindrical outer shape, and includes a housing 1 and a water supply tank 2 detachably attached to the housing 1, as shown in FIG.

As shown in FIG. 1 , the housing 1 includes a main body 11 , a dish-shaped top cover 12 attached above the main body 11 in the gravitational direction (hereinafter simply referred to as above or below), and below the main body 11 . It is composed of a dish-shaped bottom lid 13 attached to the . Either the body portion 11 or the upper lid 12 is provided with a switch portion or a display portion (not shown). The upper lid 12 is provided with a water droplet outlet 12a that opens above the storage chamber 11b of the main body 11, and the bottom lid 13 is provided with a through hole 13a through which the drain pipe 74a of the air flow guide portion 7 passes. It is

The main body 11 has an accommodation chamber 11a surrounded by a circular inner wall surface, and a storage chamber 11b in which mist-like water droplets are generated and temporarily stored. In the main body 11, the central axis of the storage chamber 11a extends along the direction of gravity, and the storage chamber 11a and the storage chamber 11b are arranged so that they are divided into upper and lower sides in the direction of gravity. An airflow guide portion 7 for guiding the airflow generated in the storage chamber 11a to the storage chamber 11b is provided between the storage chamber 11a and the storage chamber 11b.

In the storage chamber 11a, an ultrasonic vibrator 5 for imparting ultrasonic vibrations to the water in the storage chamber 11b, a blower 6 (airflow generating section) for generating an airflow, and the ultrasonic vibrator 5 and the blower 6 are controlled. and a power source unit 9 for supplying power to the electric circuit unit 8 are accommodated. The storage chamber 11b has a water reservoir portion 42 for storing water supplied from the water supply tank 2, and a droplet circulation portion 35 in which atomized water droplets are stored above the water reservoir portion 42 and through which an air flow is circulated.

The water supply tank 2 has a structure that can be removed from the housing 1 and replenished with water. The water supply tank 2 has a tank main body 21 and a valve 22 and is configured to be detachably housed in the main body portion 11 . A predetermined volume of water can be put into the tank main body 21, and the valve 22 causes the water in the tank main body 21 to flow into the water reservoir 42 of the storage chamber 11b, thereby raising the liquid level in the water reservoir 42 to a predetermined level. Configured to maintain automatically.

The body portion 11 is provided with a water tank receiver 3 on which the water tank 2 is placed. The water tank receiver 3 is attached above the water reservoir 42 . As shown in FIGS. 1, 6, and 7, the water supply tank receiver 3 includes a cylindrical receiver 31 that is housed in close contact with the cylindrical main body 11, and the receiver 31. It has a valve insertion hole 33 recessed in the upper surface and a through hole 34 penetrating through the bottom surface 32 of the valve insertion hole 33 .

A water droplet circulation portion 35 is provided in the water supply tank receiver 3 . The water droplet circulation part 35 has a tubular shape protruding upward from the upper surface of the receiving part 31 , and has a lower end that opens above the water reservoir part 42 and an upper end that is connected to the water droplet outlet 12 a of the upper lid 12 . . A flat positioning portion 36 is provided on the outer peripheral portion of the receiving portion 31 of the water tank receiver 3 .

As shown in FIG. 8, on the storage chamber 11b side of the body portion 11, a disk portion 41 is formed so as to partition the interior of the cylindrical body portion 11 into upper and lower portions, and a recessed portion is provided below the disk portion 41. A water pool 42 , a positioning portion 43 formed vertically and partially flat above the disk portion 41 , and a recess 44 provided on the bottom surface of the water pool 42 are provided. Further, the disk portion 41 is provided with an air blowing portion 76 of the air flow guide portion 7 protruding. The water tank receiver 3 is inserted into the main body 11 from above, and the positioning portion 36 contacts the positioning portion 43 of the main body 11 .

The ultrasonic vibrator 5 is a known device that applies ultrasonic vibrations to the water stored in the water reservoir 42 . The ultrasonic transducer 5 is composed of, for example, a device such as piezoelectric ceramics that mechanically resonates the ultrasonic transducer 5 when energized to generate ultrasonic vibrations. The ultrasonic transducer 5 is connected to the electric circuit section 8 and its operation is controlled by the electric circuit section 8 .

As shown in FIG. 1, the ultrasonic transducer 5 is in close contact with the water reservoir 42, and the projection 51 formed above is inserted into the recess 44 of the water reservoir 42 to protrude into the water in the water reservoir 42. is fitted to The ultrasonic vibrator 5 is driven based on a control signal from the electric circuit section 8 and imparts ultrasonic vibration to the water in the water reservoir section 42 .

The blower 6 is arranged in the central region of the storage chamber 11a of the main body 11, and generates an air flow that flows toward one side in the circumferential direction along the inner wall surface forming the storage chamber 11a. The blower 6 is not particularly limited as long as it is a blower that generates an air flow in a horizontal direction perpendicular to the direction of gravity at a predetermined pressure (Pa). As shown, it is a sirocco fan having a number of small blades 61, a rotary drive unit (not shown) for rotating the blades 61, and a blower case 63 having a blower port 62 formed therein. The airflow generated by the blower 6 flows in the direction of the arrow inside the housing 1, as shown in FIG. The blower 6 is connected to the electric circuit section 8 and its operation is controlled by the electric circuit section 8 .

The predetermined pressure (Pa) generated by the blower 6 is adjusted so that the spray amount (ml/h) of water droplets finally blown out from the water droplet outlet 12a of the upper lid 12 is about 120 ml/h to 150 ml/h. , is adjusted. In this case, the size of the housing 1, the size and structure of the air flow guide section 7, the arrangement within the housing 1, the width and length of the water droplet circulation section 35, the position and size of the water droplet outlet 12a, etc. are set. Specifications and experimental values are considered comprehensively.

The air flow guide portion 7 has an air intake port 71 that opens toward the upstream side of the air flow inside the housing chamber 11 a of the main body portion 11 and an air outlet port 75 that opens into the storage chamber 11 b of the main body portion 11 . . The airflow guide portion 7 directs the airflow taken in from the air intake port 71 from a horizontal flow toward one side in the circumferential direction of the housing chamber 11a to a flow toward the upper side in the direction of gravity, which is the one side in the central axis direction. , and guided to the air outlet 75.

As shown in FIG. 1, the air flow guide portion 7 includes an air intake portion 72 formed with an air intake port 71, a drain portion 74 for draining water droplets entering the air intake portion 72, and an air blower. and an air blowing portion 76 in which an outlet 75 is formed. The airflow guide portion 7 has a configuration in which the horizontal airflow generated by the blower 6 is taken in by the air intake portion 72, and the air is blown out from the air blowout portion 76, thereby converting the airflow in the direction of gravity. there is

The air intake portion 72 is attached to the body portion 11 of the housing 1 with an attachment screw. The air intake portion 72 has therein an air flow guide path 720 that guides the air flow taken in from the air intake port 71 to the air blowout portion 76 . As shown in FIG. 11, the airflow guide path 720 includes a first guide portion 721 extending from the air intake port 71 toward one side in the circumferential direction along the inner wall surface of the storage chamber 11a, and A second guide portion 722 that makes a U-turn toward the other side in the circumferential direction in a direction approaching the central axis of the accommodation chamber 11a, and a third guide portion that extends from the second guide portion 722 toward the one side in the central axis direction of the accommodation chamber 11a. and a guide portion 723 .

The first guide portion 721 is formed such that its cross-sectional area gradually decreases from the air intake port 71 toward the second guide portion 722 side. The air flow guide path 720 has a rib 724 that partitions between the first guide portion 721 and the third guide portion 723 . The rib 724 is formed so as to hang down along the edge of the opening that is continuous with the air blowing portion 76 and opens to the disk portion 41 . As the rib 724 moves from the air intake port 71 to the second guide portion 722, that is, as it moves toward one side in the circumferential direction, it moves in a direction gradually approaching the inner wall surface of the storage chamber 11a. It has a shape that narrows the horizontal width of the first guide portion 721 .

The air flow guide portion 7 causes the water droplets entering from the air outlet 75 of the air blowing portion 76 to come into contact with the wall surface of the rib 724, thereby directing the water droplets to the drain portion 74 below as indicated by the dashed arrow in FIG. guides to keep water droplets from entering the upstream side of the airflow.

1, 2 and 9, the drainage section 74 is located below the air intake section 72, and similarly to the air intake section 72, the horizontal drainage generated by the blower 6 and indicated by the arrow in FIG. It is formed in an arc shape so as to follow the directional air flow.

As shown in FIG. 12 , the drainage part 74 has an arcuate box shape with an open top, and is connected to the lower part of the air intake part 72 . A rib 724 of the air intake portion 72 hangs down from the upper portion of the drainage portion 74, and when mist-like water droplets flow backward from the air blowing portion 76 to the upstream side of the air flow, the broken line in FIG. , the ribs 724 are configured to collect water droplets that fall along the ribs 724. As shown in FIG. A drain pipe 74a passing through the bottom cover 13 is formed on the bottom surface of the drain portion 74, and is configured to discharge water accumulated in the drain portion 74 to the outside of the housing 1 through the drain pipe 74a. .

Further, the drainage portion 74 is provided with an intake guide 73 for positively guiding the air flowing along the inner wall surface toward the air intake port 71 of the air intake portion 72 . The intake guide 73 is provided continuously below the air intake port 71, and is composed of an inclined surface that slopes downward in a direction away from the air intake port 71, and directs a horizontal air flow. The slanted surface can guide the air to the air intake port 71 .

As shown in FIGS. 1 and 8, the air blowing portion 76 is provided so as to protrude upward from the disk portion 41 of the storage chamber 11b, and the air flow passes from the air intake portion 72 to the air blowing portion 76. An air passage 76a is formed. In addition, as shown in FIG. 8, the air outlet 75 is formed above the air outlet 76 perpendicular to the air passage 76a so that water droplets do not fall directly downward. is configured to blow air into the

The electric circuit section 8 is arranged in the middle of the air flow path until the airflow sent out from the blower 6 flows along the inner wall surface of the housing chamber 11 a and reaches the airflow guide section 7 . As shown in FIGS. 2, 3, 4 and 5, the electric circuit section 8 has a substrate 81 and a plurality of electric components 82 mounted on the substrate 81. The ultrasonic vibrator 5 and the blower 6 , a power supply unit 9 and a display unit (not shown). The heat-generating electrical component 82 is provided with a heat sink (not shown) that cools the electrical component 82 by heat exchange. In this manner, since the electric circuit section 8 is arranged in the middle of the air flow path, the electric circuit section 8 can be effectively cooled using the airflow sent from the blower 6 .

As shown in FIG. 1, the power supply unit 9 is connected to a 100V AC power supply, a so-called household power supply, through a plug 91 to supply the electric circuit unit 8 with necessary power. The power supply unit 9 is connected to a switch unit, and is turned on and off by the switch unit. The switch section is composed of a switch and a timer for turning ON/OFF the power supply to the power supply section 9 , and is provided on the main body section 11 and the upper lid 12 of the housing 1 .

The display unit (not shown) is connected to elements such as a remaining amount sensor of the water supply tank 2, and has an LED indicating that the amount of water remaining in the water supply tank 2 is low and an LED indicating that the power supply unit 9 is turned on. etc., and provided on the main body 11 and the upper lid 12 of the housing 1 . A water level window (not shown) may be provided on the side surface of the housing 1 so that the amount of water in the water supply tank 2 can be visually confirmed.

Next, operation of the ultrasonic humidifier 10 according to the embodiment will be briefly described with reference to the drawings.

First, when the switch of the switch section is turned on, the ultrasonic vibrator 5 is operated via the electric circuit section 8, and ultrasonic vibration is imparted to the water in the water reservoir section . Then, mist-like water droplets are generated by the ultrasonic vibration, flow into the water droplet circulation portion 35 of the storage chamber 11b, and are stored.

When the ultrasonic transducer 5 starts to operate, the blower 6 operates via the electric circuit section 8, blows air from the blower port 62, and generates an air flow indicated by the arrow in FIG. This air flow flows toward one side in the circumferential direction along the inner wall surface of the housing chamber 11 a and passes through the electric circuit section 8 . Therefore, the electric parts 82 of the electric circuit section 8 are cooled by this air flow.

Furthermore, the air that has flowed through the electric circuit portion 8 flows into the air intake portion 72 from the air intake port 71 of the air intake portion 72 . Also, the air that has collided with the intake guide 73 of the drainage portion 74 flows along the intake guide 73 toward the air intake port 71 and flows into the air intake portion 72 from the air intake port 71 .

The airflow that has flowed into the air intake portion 72 from the air intake port 71 is guided by the rib 724 and passes through the first guide portion 721 and the second guide portion 722 as indicated by the solid line arrow in FIG. As shown in FIG. 1, the water droplets flow from the third guide portion 723 into the air blowing portion 76, and from the air blowing port 75 of the air blowing portion 76, the water droplets flowing through the water droplet circulating portion 35 of the storage chamber 11b. flow inside. The mist-like water droplets that are atomized by the ultrasonic vibration and flow into the water droplet circulation portion 35 are carried upward by the air flow generated by the air that has flowed in from the air outlet 75, and are carried upward through the water droplet outlet 12a of the upper lid 12. blown out from

Water droplets flowing back from the air blowing port 75 and entering the air blowing portion 76 flow along the ribs 724 of the air intake portion 72 and fall as indicated by the dashed arrow in FIG. and discharged to the outside of the housing 1 through the drain pipe 74a.

When the user has finished using the ultrasonic humidifier 10, the switch section is operated, the power supply of the power supply section 9 is cut off, and the operation of the ultrasonic humidifier 10 is finished.

Effects of the ultrasonic humidifier 10 according to the embodiment configured as described above will be described.

The ultrasonic humidifier 10 according to the present embodiment includes a storage chamber 11a surrounded by a circular inner wall surface, and a storage chamber arranged on one side of the storage chamber 11a in the central axis direction and in which atomized water vapor is stored. 11b, a blower 6 arranged in a central region in the storage chamber 11a of the main body 11 and generating an air flow flowing toward one side in the circumferential direction along the inner wall surface of the main body 11; It has an air intake port 71 that opens toward the upstream side of the air flow inside the housing chamber 11 a and an air outlet port 75 that opens into the storage chamber 11 b of the main body 11 . It has an airflow guide portion 7 that guides the airflow to the air outlet 75 by changing the flow direction of the airflow from one side in the circumferential direction of the storage chamber 11 a to one side in the central axis direction.

With this configuration, more airflow can be taken into the airflow guide portion 7 from the air intake port 71, and the airflow sent from the blower 6 can be made to flow into the storage chamber 11b with high efficiency. In addition, it is possible to reduce the size as compared with a structure arranged so as to generate an air flow in the direction of gravity.

Further, in the ultrasonic humidifier 10 according to the present embodiment, the air flow sent from the blower 6 flows along the inner wall of the accommodation chamber 11a to the air intake port 71, so that the inside of the accommodation chamber 11a The wall surface can be used as part of the airflow path through which the airflow flows. Therefore, members such as ducts become unnecessary, the number of parts can be reduced with a simple structure, and the production cost such as the number of assembly man-hours can be reduced.

Further, the air flow guide part 7 has an air intake port 71 having an intake guide 73 that takes in flowing air, and has an air outlet 75 that converts the flowing direction of the taken air into the direction of gravity and blows it out. As a result, the efficiency of air intake is enhanced, and the effect of highly efficient circulation of the airflow sent from the blower 6 is obtained.

The airflow guide part 7 of the ultrasonic humidifier 10 according to this embodiment has a different structure from the airflow guide part of the conventional ultrasonic humidifier. Airflow can be circulated. That is, in the air flow guide portion of the conventional ultrasonic humidifier, the air intake port does not open toward the air flow, and the air intake guide is not formed. could not circulate.

For example, in a conventional ultrasonic humidifier, only the structural part of the airflow guide portion is different, and the structure other than the airflow guide portion is configured in the same manner as the ultrasonic humidifier 10 according to the present embodiment, The spray amount (ml/h) of water droplets blown out from the water droplet outlet 12a formed in the upper lid 12 of the housing 1 is different.

Specifically, in the conventional ultrasonic humidifier, the spray amount was 100 ml / h, but in the ultrasonic humidifier 10 according to the present embodiment, the spray amount is 120 ml / h to 150 ml / h. An effect was obtained that the airflow sent from the blower 6 was circulated with high efficiency.

In addition, in the ultrasonic humidifier 10 according to the present embodiment, the airflow guide portion 7 includes a first guide portion 721 extending from the air intake port 71 along the inner wall surface of the storage chamber 11a toward one side in the circumferential direction. , a second guide portion 722 that makes a U-turn from the first guide portion 721 toward the central axis of the storage chamber 11a and toward the other side in the circumferential direction; The first guide portion 721 has a configuration in which the cross-sectional area gradually decreases from the air intake port 71 toward the second guide portion 722 side.

With this configuration, the air flow is smoothly guided from the air intake port 71 to the air blow-out port 76, and the water droplets entering the air flow guide portion 7 from the air blow-out port 76 flow from the air intake port 71 into the housing chamber 11a. You can prevent it from entering.

In addition, the body portion 11 is arranged such that the center axis of the storage chamber 11a extends along the direction of gravity, and the storage chamber 11a and the storage chamber 11b are separated into upper and lower sides in the direction of gravity, and the air flow The guide portion 7 has a first guide portion 721 and a second guide portion 722 arranged in the horizontal direction, a third guide portion 723 arranged in the direction of gravity, and an air flow guide portion 7 below the air flow guide portion 7 . A drainage portion 74 is provided for draining water that has entered the flow guide portion 7 .

With this configuration, water droplets entering the airflow guide portion 7 from the air outlet 76 are moved downward in the direction of gravity and guided to the drain portion 74 provided below the airflow guide portion 7. It can be discharged to the outside through a drain pipe 74a.

In addition, in the ultrasonic humidifier 10 according to this embodiment, the airflow guide portion 7 has ribs 724 that partition the first guide portion 721 and the third guide portion 723 .

With this configuration, water droplets entering the air flow guide portion 7 from the air outlet 76 can adhere to the rib 724 and move downward along the surface of the rib 724 in the direction of gravity. It can be guided to a drain pipe 74a, which is a drain part of a drain part 74 provided in the lower part, and can be drained to the outside.

In particular, the ribs 724 are preferably provided so as to hang down above the drainage section 74 , so that water droplets adhering to the ribs 724 move downward in the direction of gravity along the surface of the ribs 724 , and the lower ends of the ribs 724 , and can be surely guided into the drainage part 74. - 特許庁

Further, in the ultrasonic humidifier 10 according to the present embodiment, the ribs 724 move toward the inner wall surface of the accommodation chamber 11a as they move from the air intake port 71 toward the second guide portion 722. It has a shape that narrows the horizontal width of the first guide portion 721 .

With this configuration, the cross-sectional area of the first guide portion 721 is gradually reduced, the flow velocity of the air flowing into the storage chamber 11b from the air intake port 71 is increased, and more water droplets flow from the water droplet circulation portion 35 of the storage chamber 11b. can be ejected.

In addition, the ultrasonic humidifier 10 according to the present embodiment has an air flow path through which air flows along the inner wall surface of the housing chamber 11a from the blower port 62 of the blower 6 to the air intake port 71 of the airflow guide portion 7. An electric circuit section 8 is arranged in the middle of the flow path.

This configuration provides an effect that the electric circuit section 8 is cooled by the airflow and the airflow is effectively utilized.

1 and 2, the ultrasonic humidifier 10 according to the present embodiment has a structure in which only water droplets are blown out from the water droplet outlet 12a formed in the upper lid 12 of the housing 1. explained. However, the ultrasonic humidifier according to the present invention may have a structure in which a substance other than water droplets, such as an aromatic substance, is blown out from the water droplet outlet 12a at the same time as the water droplets.

Hereinafter, an ultrasonic humidifier 10A according to a modification configured to blow out aromatic substances other than water droplets from the water droplet outlet 12a at the same time as the water droplets will be described with reference to the drawings.

In the ultrasonic humidifier 10A according to the modification, as shown in FIG. 13, the aroma generator 100 is provided on the downstream side of the airflow with respect to the airflow guide portion 7, and the other structures are the same as those of the present embodiment. It is configured in the same manner as the ultrasonic humidifier 10 concerned.

The aroma generator 100 is an aromatic substance storage unit that stores an aromatic substance, and is configured such that a small amount of a user's favorite essential oil can be dripped therein. Essential oils include, for example, essential oils collected from lavender, cypress, sweet orange, lemongrass, lemon, eucalyptus, rosemary, grapefruit, and the like.

In the ultrasonic humidifier 10A according to the modified example, the aroma generator 100 accommodates part of the air flow that has leaked out of the air flow guide portion 7 without being taken in by the air flow guide portion 7 from the air intake port. The airflow can be scented by passing it through a scented substance. Then, the scented airflow moves along the circular inner peripheral wall, reaches the airflow guide portion 7 again, and is taken into the airflow guide portion 7 through the air intake port 71 . Therefore, it is possible to eject an air flow containing fragrance together with misty water droplets, and the environment of the user of the ultrasonic humidifier 10A is humidified by the misty water droplets blown out from the water droplet outlet 12a. A person can enjoy the aroma generated by the aroma generator 100 .

Also in 10 A of ultrasonic humidifiers which concern on a modification, the effect similar to the ultrasonic humidifier 10 which concerns on embodiment is acquired. That is, it is relatively small, can suppress backflow of water droplets, and has the effect of allowing the airflow sent from the blower 6 to circulate with high efficiency.

Since the ultrasonic humidifier 10A according to the modification of the present embodiment is provided with the aroma generator 100 on the downstream side of the air flow guide section 7, the environment of the user of the ultrasonic humidifier 10A is exposed from the water droplet outlet. It is possible to obtain the effect that the user can enjoy the aroma generated by the aroma generator 100 while being humidified by the sprayed mist-like water droplets.

Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various designs can be made without departing from the spirit of the invention described in the claims. Changes can be made.

DESCRIPTION OF SYMBOLS 1...Case 2...Water supply tank 3...Water supply tank receiver 5...Ultrasonic vibrator 6...Blower (airflow generating part)
7 Air flow guide part 8 Electric circuit part 9 Power supply part 10, 10A Ultrasonic humidifier 11 Main body 11a Accommodating chamber 11b Storage chamber 12. Top lid 12a Water droplet outlet 13 Bottom lid 21 Tank main body 22 Valve 32 Bottom surface 33 Valve insertion hole 35 Water droplet circulation part 41 Disk part 42 Water reservoir 51 Protrusion 61 Blade 62 Blower port 63 Blower case 71 Air intake 72 Air intake 721 First guide portion 722 Second guide portion 723 Third guide portion 724 Rib 73 Intake guide 74 Drainage portion 75 Air outlet 76 Air Blowing Portion 81 Substrate 82 Electric Component 91 Plug 100 Aroma Generator

Claims (7)

An ultrasonic humidifier that applies ultrasonic vibrations to water to generate atomized water droplets and ejects the atomized water droplets by an air flow,
a main body having a storage chamber surrounded by a circumferential inner wall surface, and a storage chamber disposed on one side of the storage chamber in the central axis direction and storing the misty water vapor;
an airflow generating portion disposed in a central region of the housing chamber of the main body portion and generating an airflow flowing toward one side in the circumferential direction along the inner wall surface;
An air intake port that opens toward the upstream side of the air flow in the accommodation chamber of the main body and an air outlet that opens into the storage chamber of the main body, and air is taken in from the air intake port. an air flow guide portion that converts the flow direction of the flow from one side in the circumferential direction of the storage chamber to one side in the central axis direction and guides the air flow to the air outlet;
The air flow guide part is
a first guide portion extending from the air intake port toward the one side in the circumferential direction along the inner wall surface of the storage chamber;
a second guide portion that makes a U-turn from the first guide portion toward the other side in the circumferential direction in a direction approaching the central axis of the storage chamber;
a third guide portion extending from the second guide portion toward one side in the central axis direction of the accommodation chamber;
The cross-sectional area of the first guide portion gradually decreases as it moves from the air intake port toward the second guide portion.
An ultrasonic humidifier characterized by: the body portion is arranged such that the central axis of the storage chamber extends along the direction of gravity, and the storage chamber and the storage chamber are separated into upper and lower sides in the direction of gravity;
The air flow guide part has the first guide part and the second guide part arranged along the horizontal direction, and the third guide part arranged along the direction of gravity,
2. The ultrasonic humidifier according to claim 1 , wherein a drainage section for draining water that has entered the airflow guide section is provided below the airflow guide section. 3. The ultrasonic humidifier according to claim 2 , wherein the airflow guide portion has a rib that partitions between the first guide portion and the third guide portion. 4. The ultrasonic humidifier according to claim 3 , wherein the rib is provided so as to hang down above the drainage part. The rib has a shape that narrows the width of the first guide portion in the horizontal direction by moving toward the inner wall surface of the storage chamber as it moves from the air intake port toward the second guide portion. The ultrasonic humidifier according to claim 4 , characterized by comprising: An electric circuit section is arranged in the middle of an air flow path through which air flows along the inner wall surface of the housing chamber from the air outlet of the air flow generating section to the air intake port of the air flow guide section. The ultrasonic humidifier according to claim 1, characterized by: 2. The ultrasonic humidifier according to claim 1, wherein an aromatic substance containing portion for containing an aromatic substance is arranged downstream of the air flow guide portion in the containing chamber of the main body portion. vessel.

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