JP2019098255A - Liquid atomizing device and ventilation, air purification and air conditioning devices using the same - Google Patents

Abstract

To provide a liquid atomizing device and ventilation, air purification and air conditioning devices using the same which augment comfort of a user by enhancing droplet separation performance and evaporation of liquid.SOLUTION: In a liquid atomizing device which has an inlet port and an outlet port, air passes through the liquid atomizing device in series in the order of an inner cylinder air trunk communicated with the inlet port and the outlet port, liquid atomizing means arranged in the inner cylinder air trunk, a ventilation port which communicates the inner cylinder air trunk with an outer cylinder air trunk installed on an outer periphery of the inner cylinder air trunk, an outer cylinder air trunk, and the outlet communicated with the outer cylinder air trunk. The inlet port, the liquid atomizing means and the ventilation port are arranged in this order from a vertically upper section to a lower section. The liquid atomizing means is arranged so as to be covered by a hollow inner cylinder forming the inner cylinder air trunk.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a liquid refinement device and a ventilation device, an air cleaner, and an air conditioner using the same.

  For example, the configuration of the liquid refinement device was as follows.

  As shown in FIG. 4, the liquid refinement device 101 is provided with a processing chamber 102 through which outside air passes by a blower, and a water storage section 103 for storing a predetermined amount of water supplied from a water supply pipe. Further, the lower part is submerged in the water storage section 103, and the bowl-shaped rotating body 104 whose diameter is expanded upward rotates with the rotating body 104, and water and air scattered by the centrifugal force by the rotation of the rotating body 104 can pass The cylindrical porous body 105 is provided. Also, water is sucked from the water storage section 103 by the centrifugal force caused by the rotation of the rotating body 104, and the water scattered from the rotating body 104 toward the outside collides with the peripheral portion through the porous body 105, and the water is refined It has become.

JP, 2009-279514, A

  In such a conventional liquid refinement device, the water in the water storage section is pumped by centrifugal force, and the pumped water is scattered from the pores provided in the rotating body. At this time, there is a problem that a part of the splashed water droplets is not sufficiently vaporized, and a part thereof is discharged to the outside of the apparatus together with the blown air, which impairs the user's comfort.

  Therefore, the present invention solves the above-mentioned problems, promotes the evaporation of water droplets, improves the separation performance of water droplets, and can improve the comfort of the user, liquid refinement device and liquid refinement It is an object of the present invention to provide a ventilating apparatus, an air purifier and an air conditioner using the

  And in order to achieve this object, the present invention is a liquid refinement device provided with a suction port and a blowout port, wherein the liquid in the liquid refinement device comprises a water storage portion and the liquid in the water storage portion. Liquid refining means, wherein the air passing through the liquid refining device is the suction port, an inner cylindrical air passage communicating with the suction port, and a liquid refining means provided in the inner cylindrical air channel, An air vent communicating the inner cylinder air passage and the outer cylinder air passage provided on the outer periphery of the inner cylinder air passage, the outer cylinder air passage, and the air outlet communicating with the outer cylinder air passage pass in this order, The suction port, the liquid refining means, and the vent are arranged in this order from above in the vertical direction, and the air passing through the inside of the outer cylinder air passage is blown upward in the vertical direction, and the liquid is refined The means is arranged to be covered by a hollow shaped inner cylinder forming said inner cylinder air passage It is characterized in that there, thereby is to achieve the intended purpose.

  According to this configuration, the vaporization of water droplets generated by the liquid refining unit can be promoted, and the water droplet separation performance can be improved. As a result, the user's comfort can be improved without increasing the size of the entire device.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic perspective view of the liquid refinement | miniaturization apparatus which concerns on Embodiment 1 of this invention. Sectional drawing which cut | disconnected the liquid refinement | miniaturization apparatus which concerns on the embodiment by the surface A enclosed with the broken line in FIG. The schematic sectional view which expanded a part of liquid refinement device concerning the embodiment. Sectional drawing which shows the cross section of the conventional liquid refinement | miniaturization apparatus.

  A liquid refinement device according to claim 1 of the present invention is a liquid refinement device provided with a suction port and a blowout port, in which the liquid in the liquid refinement device includes a water storage portion and the liquid in the water storage portion. Liquid refining means, wherein the air passing through the liquid refining device is the suction port, an inner cylindrical air passage communicating with the suction port, and a liquid refining means provided in the inner cylindrical air channel, An air vent communicating the inner cylinder air passage and the outer cylinder air passage provided on the outer periphery of the inner cylinder air passage, the outer cylinder air passage, and the air outlet communicating with the outer cylinder air passage pass in this order, The suction port, the liquid refining means, and the vent are arranged in this order from above in the vertical direction, and the air passing through the inside of the outer cylinder air passage is blown upward in the vertical direction, and the liquid is refined The means is disposed so as to be covered by a hollow-shaped inner cylinder forming the inner cylinder air passage. It is characterized in.

  With this configuration, the air sucked from the suction port is blown into the inner cylinder, passes around the liquid refinement means disposed so as to be covered by the hollow inner cylinder, and is below the liquid refinement means. It can be made to pass through the vent hole arrange | positioned and to reach an outer cylinder air path. As a result, the contact efficiency between the air taken in from the suction port and the water droplets generated by the liquid refining means can be improved, and the evaporation efficiency of the water droplets can be improved. In addition, air taken in from the suction port passes through the inner cylindrical air passage downward in the vertical direction, and then passes through the vent and vertically upward through the outer cylindrical air passage, causing large droplets of water that are difficult to evaporate. It can be separated. That is, the water droplets generated by the liquid refining means scatter downward with the air flowing downward in the inner cylindrical air passage, and are blown downward at the air vent. Here, when the air passes through the air vent, the air passing through the inside of the outer cylinder air passage is blown upward in the vertical direction, so the blowing direction changes to the opposite direction. At this time, the water droplets collide with the wall surface of the outer cylinder air passage by inertia due to weight and are collected. In this way, large-sized water droplets that are difficult to vaporize can be collected on the wall surface of the outer cylinder air passage and can be separated. Further, by arranging the liquid refining means to be covered by the inner cylinder, it is possible to cause water droplets generated by the liquid refining means to adhere to the inner surface of the inner cylinder and to suppress scattering to the outside of the inner cylinder. It is possible to suppress re-scattering of water droplets from the air vents of the air flow by wind pressure. As a result, it is possible to suppress the release of water droplets generated by the liquid refining unit into the living room.

  In addition, the outlet of the liquid refinement device according to claim 2 of the present invention may be disposed vertically above the inlet.

  With this configuration, when air containing water droplets generated by the liquid refining unit passes through the outer air duct, a sufficient distance for the water droplets to be vaporized can be taken. Thereby, the vaporization efficiency of the water droplets can be improved, and the release of the water droplets to the living room can be suppressed.

  Further, the outer cylinder air passage of the liquid refining device according to claim 3 of the present invention is formed vertically above the air passage from the air vent in the vertical direction above the outer cylinder air passage. An air passage enlarged portion having a larger air passage than the outer cylinder air passage may be provided, and the air outlet may be formed vertically above the air passage enlarged portion.

  With this configuration, when air containing water droplets generated by the liquid refining unit passes from the inner cylindrical air passage to the outer cylindrical air passage, the air velocity can be reduced, and the separation of water droplets due to gravity can be promoted. In addition, since the air passage is rapidly expanded from the outer cylinder air passage to the air passage expansion passage where the air passage is large, swirling of the air flow is generated, and the mixing efficiency of the water droplet and air can be promoted to improve the evaporation efficiency of the water droplet. .

  Further, the liquid refining means of the liquid refining apparatus according to claim 4 of the present invention comprises a rotating plate for refining the liquid in the water storage section by rotation and discharging the liquid into the air passage of the inner cylinder, and the rotating plate , May be disposed near the lower end of the inner cylinder.

  With this configuration, it is possible to minimize the amount of water released from the rotary plate of the liquid refining means and adhering to the inner cylinder wall surface without being vaporized. As a result, the amount of water attached to the inner wall of the inner cylinder can be reduced again as large droplets by the wind pressure of the air flowing from the inner cylinder to the outer cylinder through the vent.

  In the liquid atomization device according to the fifth aspect of the present invention, the liquid atomization means may be provided with a plurality of water guiding ribs extending from the lower end of the inner cylinder to the water storage portion.

  With this configuration, water adhering to and falling on the inner wall of the inner cylinder can be dropped along the water guiding rib into the water storage portion. Thus, the water adhering to the inner wall of the inner cylinder can be prevented from being scattered again as large droplets from the lower end of the inner cylinder by the wind pressure of the air flowing from the inner cylinder to the outer cylinder through the vent. Can.

  Moreover, in Claim 6 of this invention, it is good also as a ventilating apparatus provided with the liquid refinement | miniaturization apparatus in any one of Claims 1-5.

  As one of the functions of the ventilator, a liquid refinement device for humidification purpose is incorporated. By using the above-described liquid refinement device as a mechanism for vaporizing these water droplets, it is possible to suppress the release of water droplets into the living room, and to provide a ventilator that further improves the comfort of the occupant. Can.

  Moreover, in Claim 7 of this invention, it is good also as an air cleaner provided with the liquid refinement | miniaturization apparatus in any one of Claims 1-5.

  As one of the functions of the air cleaner, there is incorporated a device for vaporizing water droplets, such as a liquid refinement device for humidification purpose and a hypochlorous acid generator for sterilization purpose. By using the above-described liquid refining device as a mechanism for vaporizing these water droplets, it is possible to suppress the discharge of water droplets into the room and provide an air cleaner with improved occupant comfort. Can.

  Moreover, in Claim 8 of this invention, it is good also as an air conditioner provided with the liquid refinement | miniaturization apparatus in any one of Claims 1-5.

  As one of the functions of the air conditioner, there is incorporated a device for vaporizing water droplets, such as a liquid refinement device for humidification and a hypochlorous acid generator for sterilization purpose. By using a liquid refinement device as a mechanism for vaporizing these water droplets, it is possible to suppress the discharge of water droplets into the room and provide an air conditioner with improved occupant comfort.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention. The following embodiment is an example embodying the present invention, and does not limit the technical scope of the present invention. Moreover, the same reference numerals are given to the same parts throughout the drawings, and the description is omitted. Further, the details of each part not directly related to the present invention will not be described in each drawing in order to avoid duplication.

Embodiment 1
FIG. 1 is a perspective view of a liquid refinement device according to Embodiment 1 of the present invention. FIG. 2 shows a schematic cross-sectional view of a liquid refinement device. FIG. 3 is a schematic cross-sectional view in which the vicinity of the liquid refinement means 17 of the liquid refinement device is enlarged. The liquid refinement device 1 is configured as a cylindrical container, and includes a suction port 2 for taking in air and a blowout port 3 for discharging air. The suction port 2 for taking in air is provided on the side surface of the liquid refinement device 1. The air outlet 3 for discharging the air is provided on the upper surface of the liquid refinement device 1. In the embodiment, the opening cross-sectional area of the suction port 2 is approximately 220 cm ² . Moreover, the blower outlet 3 is provided with several blower outlets supposing supposing that air is supplied to a some living room. In the embodiment, six air outlets are provided. However, the opening cross-sectional areas of the suction port 2 and the blowout port 3 and the number of the blowout ports 3 can be changed according to the number of rooms to be applied and the required air volume.

  Further, the inner cylinder air passage 4 is an air passage indicated by a solid arrow in FIG. 2 and includes an inner cylinder 5, an inner cylinder top plate 6, and a suction communication air passage 7 described later.

  As shown in FIG. 2, the inner cylinder 5 is disposed in the vicinity of the center of the inside of the liquid refinement device 1 and is formed in a hollow cylindrical shape opened substantially downward in the vertical direction. The upper surface of the inner cylinder 5 is provided with an inclined inner cylinder top plate 6. A duct-shaped suction communication air passage 7 communicating the suction port 2 with the inner cylinder is provided in the vicinity of the inner cylinder top plate 6 of the inner cylinder air passage 4, and the air sucked from the suction opening 2 is suctioned The inside of the inner cylinder 5 is constructed via the communicating air passage 7.

  The inner cylinder air passage 4 is provided at the lower end of the inner cylinder 5 via an air vent 8 opened downward and is provided at the outer cylinder air passage 9 (shown by a broken arrow in FIG. 2). It communicates with the air path).

  Further, the liquid refinement device 1 includes an outer cylinder 10 formed in a cylindrical shape, and the outer cylinder 10 is disposed so as to enclose the inner cylinder 5. An outer cylinder air passage 9 is formed between the inner cylinder 5 and the outer cylinder 10.

  Further, a liquid storage unit 11 for storing liquid is provided in the lower part of the liquid refinement device 1.

  The liquid storage portion 11 is provided below the air vent 8 of the inner cylinder 5 and formed substantially in a mortar shape, and the side wall of the liquid storage portion 11 is connected to and integrated with the lower end of the outer cylinder 10. In the embodiment, in order to use the liquid stored in the liquid storage unit 11 as water and continuously refine the water, the liquid refinement device 1 includes a water supply port 12 for supplying water to the liquid storage unit 11, and A drainage port 13 for draining water from the liquid unit 11 is provided. The water supply port 12 is provided in the outer cylinder 10, and water is stored up to the water surface (broken line 23) shown in FIG. Further, the drainage port 13 is provided at the bottom surface 14 of the bowl-shaped liquid storage portion which is a lower portion of the liquid storage portion 11. The water supply port 12 is connected to a water supply pipe (not shown), and the water supply pipe is connected to, for example, a water supply system such as a house or facility water supply or a water supply pump via an opening / closing means such as a solenoid valve. Further, the drainage port 13 is connected to drainage equipment such as a drainage port provided in a house or facility via a drainage pipe (not shown).

Further, the size of the opening cross-sectional area of the vent 8 is set in accordance with the air flow rate, the humidification amount of the liquid refining means, and the like. In the embodiment, the size of the opening cross-sectional area of the vent 8 is about 30 cm ² , but it is not limited to this size.

  Above the outer cylinder 10 in the vertical direction, an air passage enlarged portion 15 which is formed in a hollow cylindrical shape and whose diameter is larger than the diameter of the outer cylinder 10 is provided. Then, an air passage enlarged portion top plate 16 closing the air passage enlarged portion 15 is provided above the air passage enlarged portion 15, and the air outlet 3 is provided in the air passage enlarged portion top plate 16. The position of the blowout port 3 is provided above the suction port 2.

  As shown in FIG. 3, the liquid refining means 17 has a suction pipe 18 for sucking water from the liquid storage section 11 by rotation, and a rotary plate 19 for discharging the water sucked by the suction pipe 18 in the rotational surface direction. , And a motor 20 for rotating the suction pipe 18 and the rotary plate 19.

  The suction pipe 18 is formed in a hollow truncated cone shape, and is provided so that the tip on the small diameter side is equal to or less than the water surface of the water stored in the liquid storage section 11. Further, the rotary plate 19 is formed in a donut-like disc shape whose center is open, and is disposed around the large diameter side of the suction pipe 18. On the large diameter side of the suction pipe 18, a plurality of openings are provided on the side surface thereof, and the sucked water passes through the openings and is supplied to the rotary plate 19.

  The liquid refining means 17 is provided in the inner cylinder 5 at a position covered by the inner cylinder 5. In the embodiment, the rotary plate 19 of the liquid refining means 17 is disposed in the vicinity of the lower end of the inner cylinder 5.

  Further, below the lower end of the inner cylinder 5, there is provided a columnar water guiding rib 21 which is connected to the vent 8 and protrudes downward from the vent 8. A plurality of water guiding ribs 21 are provided, and an end of the water guiding rib 21 is provided on the outer edge of the vent 8. And the water conveyance rib 21 is formed so that it may go to the center to a liquid refinement | miniaturization apparatus from the outer edge of the vent 8 as it goes below. Further, the water guiding rib 21 is provided such that the lower end thereof is equal to or less than the water surface stored in the liquid storage section 11.

  The operation will be described below.

  First, water is supplied from the water supply port 12 to the liquid storage unit 11 from a water supply facility (not shown), and the water is stored in the liquid storage unit 11. The air drawn into the interior of the liquid refinement device 1 from the suction port 2 by the air blower (not shown) is the inner cylinder air passage 4, the liquid refinement means 17, the vent 8, the outer cylinder air passage 9, the air passage enlarged portion In the order of 15, the blowout port blows out toward the outside, for example, a living room. At this time, the water droplets generated by the liquid refining means 17 come in contact with the air, and the water droplets can be vaporized to humidify the air. In addition, the water stored in the liquid storage unit 11 is discharged from the drainage port 13 after a predetermined time has elapsed.

  The detailed operation will be described. The air taken in from the suction port 2 to the inner cylinder 5 of the inner cylindrical air passage 4 via the suction communication air passage 7 passes through the liquid refining means 17 provided at a position covered by the inner cylinder 5. When the liquid refinement means 17 is rotated by the operation of the motor 20, the water stored in the liquid storage section 11 by rotation is elevated along the inner wall surface of the suction pipe 18. The raised water is drawn along the surface of the rotary plate 19 and is discharged from the outer peripheral end of the rotary plate 19 as fine water droplets in the direction of the rotary surface. The discharged water droplets collide with the inner wall surface of the inner cylinder 5 to be broken and become finer water droplets. The water droplets discharged from the rotary plate 19 and the water droplets collided with the inner wall surface of the inner cylinder 5 and broken are brought into contact with the air passing through the inner cylinder 5, and the water droplets are vaporized to humidify the air. In addition, although a part of the generated water droplets is not vaporized, since the liquid refinement means 17 is disposed so as to be covered by the inner cylinder 5, the non-vaporized water droplets adhere to the inner surface of the inner cylinder 5 and fall off. Do.

  Then, the air containing the water droplets is blown out from the air vent 8 provided at the lower end of the inner cylinder 5 toward the liquid storage portion 11 provided below. Then, the air blown out from the vent 8 flows toward the outer cylinder air passage 9 formed between the inner cylinder 5 and the outer cylinder 10, and the air passing through the outer cylinder air passage 9 is vertically upward. Since the air is blown toward the air flow direction, the air flowing downward in the inner cylinder air passage 4 and the air blowing direction change in the opposite direction.

  At that time, the water droplets blown out with the air from the vent 8 can not follow the flow of air due to its inertia, and adheres to the water surface of the liquid storage portion 11 or the inner wall surface of the outer cylinder 10. The effect is greater as the weight of the water droplet is larger, that is, the larger the diameter of the water droplet that is hard to evaporate, the larger the effect, so that it can be separated from the air flowing through the large water droplet.

  Then, the air flowing from the inner cylindrical air passage 4 into the outer cylindrical air passage 9 through the vent 8 flows upward through the outer cylindrical air passage 9. Then, it flows into the air passage enlargement unit 15.

  The air that has flowed into the air passage enlarged portion 15 is subjected to rapid expansion of the air passage as shown by the dotted arrow 24 in FIG. 2 and collides with the air passage expanded portion top plate 16 of the air passage expanded portion 15 so that the wind speed is rapid. descend. In addition, a part of air flows in a swirling manner inside the air passage enlarged portion 15.

  At this time, part of the water droplets fall due to gravity due to the rapid decrease of the wind speed or the swirl of the air flow, and part of them adheres to the upper surface side of the inner cylinder top panel 6 Or adhere to the bottom. Then, the water droplets attached to the inner cylinder top plate 6 flow along the inclination of the inner cylinder top plate 6, and fall along the outer wall surface of the inner cylinder 5 into the liquid storage portion 11. Further, water droplets adhering to the wall surface of the air passage expanding portion 15 flow to the bottom of the air passage expanding portion 15 by gravity, and flow along the slope of the bottom of the air passage expanding portion 15. It flows downward and drops into the liquid storage section 11.

  Then, the mixing of the water droplets and the air is promoted by the reduction of the wind speed in the air passage enlargement unit 15 and the swirl of the air flow, and the vaporization of the water droplets proceeds. Then, the air in which the water droplets are vaporized passes through the air outlet 3 provided in the air passage enlarged portion top plate 16 of the air passage enlarged portion 15 and is blown out toward the outside of the apparatus, for example, a room.

  Further, since the liquid refining means 17 is disposed at a position covered by the inner cylinder 5, the water droplets adhering to the inner surface of the inner cylinder 5 may be re-scattered by the air pressure from the ventilation port 8 of the inner cylinder. It can be suppressed.

  Furthermore, since the rotary plate 19 of the liquid refining means 17 is disposed near the lower end of the inner cylinder 5, the amount of water released from the rotary plate 19 and attached to the inner cylinder 5 without being vaporized is minimized. can do. For example, even if the air volume is large and the wind speed passing through the ventilation opening 8 is high, the amount of water droplets falling along the inner wall of the inner cylinder 5 and scattered as large droplets from the ventilation opening 8 due to the wind pressure of passing air It can be reduced.

  In addition, since the water guiding rib 21 is provided, the water falling along the inner wall of the inner cylinder 5 can be made to fall along the surface of the water guiding rib 21 and be dropped on the water surface 23. Therefore, re-scattering of water droplets due to wind pressure is suppressed. can do. In addition, since the water guiding rib 21 is provided so as to be concentrated at the center of the liquid refinement device as it goes downward, water can be sent to a place having a smaller wind speed farther than the outer cylinder air passage. Scattering of water droplets from the water guiding rib 21 can be suppressed.

  The eliminator 22 may be provided to separate water droplets from the air passing through the internal space of the air passage enlarged portion 15. As a result, even when the air volume and the amount of water droplets generated by the liquid refining unit 17 temporarily increase, it is possible to suppress the water droplet discharge from the blowout port 3 by the action of the eliminator 22.

  As described above, the liquid refining device according to the present invention can promote the vaporization of water droplets generated by the liquid refining means 17 and can improve the water droplet separation performance.

  In addition, a ventilating apparatus, an air cleaner and an air conditioner using the liquid refinement device of the present invention can be configured. Although not shown, it is incorporated in a ventilating apparatus, an air purifier and an air conditioner, and by providing the liquid refinement device of the present invention in a part of the air path, a ventilating apparatus having a humidifying function, an air purifier and air A harmonic machine can be realized.

  INDUSTRIAL APPLICABILITY The liquid refining device of the present invention is expected to be utilized for, for example, a ventilation device, an air cleaner, an air conditioner, a humidifying device, and a sauna device.

DESCRIPTION OF SYMBOLS 1 Liquid refinement device 2 Suction port 3 Air outlet 4 Inner cylinder air passage 5 Inner cylinder 6 Inner cylinder top plate 7 Suction communication air passage 8 Ventilation opening 9 Outer cylinder air passage 10 Outer cylinder 11 Liquid storage part 12 Water supply opening 13 Drain opening 14 bottom of liquid storage unit 15 air passage enlargement unit 16 air passage enlargement unit top plate 17 liquid refinement means 18 suction pipe 19 rotation plate 20 motor 21 water guide rib 22 eliminator 23 water surface 24 dotted arrow 101 liquid refinement device 102 treatment chamber 103 water reservoir 104 rotating body 105 porous body

In such a conventional liquid refinement device, the water in the water storage section is pumped by centrifugal force, and the pumped water is scattered from the pores provided in the rotating body. At this time, there has been a problem that a part of the splashed water droplets is not sufficiently vaporized, and a part thereof is discharged to the outside of the apparatus together with the blown air, which impairs the user's comfort.

Liquid atomizer of claim 1 of the present invention is the liquid atomizer having a suction inlet and outlet, the liquid material finer the device, miniaturization and reservoir, the liquid water storage portion comprising a liquid refining unit, the air passing through the liquid body refinement apparatus, suction plug mouth, inner cylinder air passage communicating with the suction plug mouth, liquid fine means provided in the inner cylinder air passage, the inner cylinder vent which communicates the external cylinder air passage provided on the outer periphery of the inner cylinder air passage and air passage, the outer tube air passage, passes through in the order of the outlet port communicating with the outer tube air passage further from the vertically upward, suction plug mouth, liquids miniaturization means are arranged in the order of passing Kazeguchi, air passing through the outer tube air passage is blown toward the upper side in the vertical direction, liquids miniaturization means, inner cylinder air passage Are disposed so as to be covered by a hollow-shaped inner cylinder that forms

Further, the outlet of the liquid refinement device according to the item 2 of the present invention may be disposed vertically above the inlet.

Further, the outer cylinder air passage of the liquid refinement device according to the item 3 of the present invention is formed extending vertically above the air passage from the air vent and outside the air passage in the vertical direction. An air passage enlarged portion having a larger air passage than the cylindrical air passage may be provided, and the air outlet may be formed vertically above the air passage expanded portion.

Further, the liquid refining means of the liquid refining device according to the item 4 of the present invention comprises a rotary plate for finely grinding the liquid in the water storage section by rotation and discharging the liquid into the inner air passage, and the rotary plate It may be disposed near the lower end of the inner cylinder.

Further, the liquid refining means of the liquid refining device according to the item 5 of the present invention may be provided with a plurality of water guiding ribs extending from the lower end of the inner cylinder to the water storage portion.

  In item 6 of the present invention, a ventilating apparatus may be provided that includes the liquid refinement device according to any one of items 1 to 5.

  Moreover, in the item 7 of this invention, it is good also as an air cleaner provided with the liquid refinement | miniaturization apparatus in any one of the items 1-5.

  Moreover, in the item 8 of this invention, it is good also as an air conditioner provided with the liquid refinement | miniaturization apparatus in any one of the items 1-5.

Claims (8)

In a liquid refinement device provided with a suction port and a blowout port,
In the liquid refinement device,
Water storage section,
Liquid refining means for refining the liquid in the water storage section;
The air passing through the liquid refining device includes the suction port, an inner cylindrical air passage communicating with the suction port, a liquid refining unit provided in the inner cylindrical air passage, the inner cylindrical air passage and the inner cylindrical air flow. Air vents communicating with an outer cylindrical air passage provided on the outer periphery of the passage, the outer cylindrical air passage, and an outlet communicating with the outer cylindrical air passage in this order,
Further, the suction port, the liquid refining means, and the vent are arranged in this order from above in the vertical direction, and the air passing through the inside of the outer cylinder air passage is blown upward in the vertical direction,
The liquid refining apparatus according to claim 1, wherein the liquid refining unit is disposed so as to be covered by a hollow-shaped inner cylinder forming the inner cylinder air passage. The liquid atomization apparatus according to claim 1, wherein the blowout port is disposed vertically above the suction port. The outer cylinder air passage is formed extending vertically above the inner cylinder air passage from the vent, and the air passage is larger than the outer cylinder air passage vertically above the outer cylinder air passage. The liquid refinement device according to claim 1 or 2, further comprising a passage enlargement portion, and the blowout port being formed vertically above the air passage enlargement portion. The liquid refining means includes a rotary plate for finely grinding the liquid in the water storage portion by rotation and discharging the liquid into the inner cylindrical air passage.
The liquid refinement device according to any one of claims 1 to 3, wherein the rotating plate is disposed in the vicinity of the lower end of the inner cylinder. The liquid refinement device according to any one of claims 1 to 4, wherein the liquid refinement means includes a plurality of water guiding ribs extending from the lower end of the inner cylinder to the water storage portion. A ventilator comprising the liquid refinement device according to any one of claims 1 to 5. The air cleaner provided with the liquid refinement | miniaturization apparatus in any one of Claims 1-5. An air conditioner comprising the liquid refinement device according to any one of claims 1 to 5.