KR20190018464A - Apparatus for purifying and humidifying air - Google Patents

Abstract

According to the present invention, a humidification and air cleaning apparatus comprises: a cleaning module provided with an inlet port through which air is sucked, a filter filtering the air sucked through the inlet port, and a blowing unit blowing the air filtered by the filter; a water tank arranged in the cleaning module, and provided with a transparent window on a floor thereof; a watering unit pumping water contained in the water tank to spray the water to a flow path on which the air blown by the blowing unit is guided; and a sterilization module provided in the cleaning module, and irradiating ultraviolet rays to the inside of the water tank through the transparent window.

Description

{APPARATUS FOR PURIFYING AND HUMIDIFIING AIR}

The present invention relates to a humidifying air purifier having a humidifying function and an air purifying function.

The humidifying air purifier sucks / filters the indoor air, humidifies the filtered air, and discharges it to the room again. Such a humidifying air purifier has a water tank for storing water required for humidification.

Such a humidifying air purifier needs to suppress the growth of microorganisms in the water tank due to hygienic problems. To this end, the user may insert sterilizing agent of a humidifier purchased separately from the market into a water tank for sterilization. However, such a humidifier sterilizing agent contains a harmful component to the human body, which is a problem. Particularly, it has been reported that chyl chloroisothiazolinone (CMIT) and methyl isothiazolinone (MIT), which are conventionally commercially available humectant disinfectants, are harmful to humans in a very small amount, Several chemicals are likely to cause unknown side effects.

Therefore, it is necessary to prepare a method of sterilizing the bacteria in the water tank without using such a compound whose stability is not ensured.

A first object of the present invention is to provide a humidifying air cleaner capable of sterilizing microorganisms in a water tank by using ultraviolet rays without using a separate sterilizing agent.

Second, it is an object of the present invention to provide a humidifying air cleaner in which a water tank is detachable from a clean module, and the sterilizing module is provided in the clean module.

Third, it is an object of the present invention to provide a humidifying air purifier in which ultraviolet rays emitted from a sterilizing module can be irradiated more intensively into a water tank.

The humidifying air cleaner of the present invention includes a clean module having a suction port for sucking air, a filter for filtering air sucked through the suction port, and a blowing unit for blowing air filtered by the filter.

A water tank is disposed in the clean module, and a transparent window is provided on the bottom of the water tank. And a watering unit for pumping water contained in the water tank and spraying water onto a flow path through which the air blown by the air blowing unit is guided.

In order to sterilize water in the water tank, a sterilizing module for irradiating ultraviolet rays into the water tank may be provided in the clean module.

The humidifying air cleaner of the present invention is harmless to the human body because it sterilizes the water tank using ultraviolet rays.

Secondly, since the sterilizing module is provided in the clean module, the water tank can be separated from the clean module irrespective of the sterilizing module, and therefore, the sterilizing module does not obstruct the sterilizing module when the water tank is washed or replenished.

Third, since ultraviolet rays emitted from the sterilizing module and / or ultraviolet rays incident on the water tank and totally reflected on the water surface are re-reflected by the reflecting surface, ultraviolet rays can be irradiated more intensively into the water tank.

Fourthly, by forming a plurality of grooves parallel to each other on the reflection surface, the reflection efficiency of ultraviolet rays can be enhanced.

1 is a perspective view of a humidifying air cleaner according to an embodiment of the present invention.
2 is an exploded perspective view of FIG.
Fig. 3 is a longitudinal sectional view of Fig. 2. Fig.
Fig. 4 is a longitudinal sectional view of Fig. 1; Fig.
5 is an exploded perspective view of the humidification module.
6 is a longitudinal sectional view of the humidification module.
7 shows an assembly of the water tank and the watering unit.
8 is a longitudinal sectional view of Fig.
FIG. 9 is an exploded view of the bottom surface of the upper body and the sterilizing module provided therein.
10 is an exploded perspective view of the sterilization module shown in Fig.
11 is a perspective view showing the substrate holder.
12 is a plan view of the substrate holder shown in Fig.
13 is a cross-sectional view taken along line AA in Fig.
14 is a cross-sectional view taken along line BB of Fig.
15 shows the inside of the water tank from above.
16 is an exploded perspective view of the water tank.
17 is a top view of an assembly of an inner visual body, a water tank and a watering unit.
18 shows a structure in which a transmission window is installed on the bottom surface of the water tank.

1 is a perspective view of a humidifying air cleaner according to an embodiment of the present invention. 2 is an exploded perspective view of FIG. Fig. 3 is a longitudinal sectional view of Fig. 2. Fig. Fig. 4 is a longitudinal sectional view of Fig. 1; Fig. 5 is an exploded perspective view of the humidification module. 6 is a longitudinal sectional view of the humidification module. 7 shows an assembly of the water tank and the watering unit. 8 is a longitudinal sectional view of Fig.

The humidifying air purifier according to an embodiment of the present invention includes a flow path for guiding air to a discharge port 411 through which air is sucked from a suction port 111 through which air is sucked, Is formed. And a watering unit 46 provided with an air blowing unit 12 so as to form an airflow along the flow path and spraying fine droplets of water in the form of droplets or spray on the flow path.

At least one humidifying medium (44, 49) may be provided on the flow path. The humidifying mediums 44 and 49 may be wetted directly by the water jetted from the watering unit 46 and may be wetted by moisture contained in the air stream. The air flowing along the flow path directly carries the water sprayed from the watering unit 46, but also absorbs moisture while passing through the humidifying medium 44, 49.

Hereinafter, configurations of a humidifying air cleaner according to an embodiment of the present invention will be described in more detail.

The humidifying air purifier may include a clean module 1 for filtering the air and a humidifying module 4 for humidifying the air filtered by the clean module 1. [ The humidification module 4 may be detachably coupled to the clean module 1. [ Preferably, the clean module 1 is placed on the floor of the room, and the humidification module 4 is mounted on the top of the clean module 1.

The cleaning module 1 filters the air sucked through the suction port 111 and blows air to the humidification module 4. The clean module 1 includes a lower body 10 which is mounted on an indoor floor of a living room or the like and on which a suction port 111 is formed and a filter assembly 100 installed on the lower body 10 for filtering the air introduced through the suction port 111 And an upper body 20 mounted on the upper side of the lower body 10 and into which the air filtered from the lower body 10 flows.

The lower body 10 may include a lower body 11 having a suction port 111 through which air is sucked. The suction port 111 is formed in a lower portion of the lower body body 11 and may be formed in a ring shape so that air can be sucked in any direction.

The lower body body 11 may be formed with a passage through which the air introduced through the intake port 111 is guided and filtered by the filter assembly 30 while the air is guided along the passage. The filter assembly 30 may include a filter 31 for filtering air and a filter tray 32 for receiving the filter 31.

The filter assembly 30 may be detachably attached to the lower body 11. The lower body body 11 has a side surface on which an insertion port for inserting the filter tray 32 is formed and the filter tray 32 can be laterally moved to be inserted into the insertion port or drawn out from the insertion port. The user can remove or replace or clean the filter 31 from the filter tray 32 after detaching the filter assembly 30 from the lower body body 11. [

In the lower body body 11, an air blowing unit 12 may be provided. The air blowing unit 12 may be disposed on the upper side of the filter assembly 30. The blowing unit 12 may include a blowing fan 121 and a blowing motor 122 for rotating the blowing fan 121.

The blowing fan 121 is a centrifugal fan, which in the embodiment is not necessarily limited thereto. The turbo fan 121 includes a shroud 121a formed with a fan inlet through which air is sucked, a main plate 121b coupled with a rotation shaft of the blowing motor 122, and a main plate 121b disposed between the shroud 121a and the main plate 121b. And a plurality of blades 121c. The air sucked in the axial direction (direction extending along the rotation center of the blowing fan 121) through the fan inlet of the shroud 121a is discharged laterally between the blades 121c.

As shown in FIG. 4, the blowing fan 121 may be disposed below the blowing motor 122 so that the blowing fan 121 can suck the lower air. In the lower body body 11, a suitable flow path for guiding the air discharged laterally by the air blowing fan 121 upward can be formed.

An opening is formed in the upper side of the lower body body 11, and air blown by the blowing fan 121 is discharged through the opening. The upper body 20 is installed in the opening, and air discharged through the opening is introduced into the upper body 20.

The upper body 20 may be detachably coupled to the lower body 10. The upper body 20 may include an upper outer 21, an outer visual body 22, an upper inner 25, and a flow guide 24.

The upper outer 21 has a cylindrical outer shape with upper and lower ends opened. An upper inner 25 for receiving a water tub 43 described later may be provided on the inner side of the upper outer 21. The lower end of the upper inner part 25 protrudes further downward than the upper outer part 21 and is inserted into the upper opening of the lower body body 11. In this state, the lower end of the upper outer part 21 is inserted into the lower body body 11 ) Around the top opening.

The outer visual body 22 is coupled to the upper part of the upper outer 21. The outer visual body 22 may have a long tubular shape and may be made of a transparent material.

The flow guide 24 may guide the flow of air from the inside of the upper outer 21 to cover the outer side of the upper inner 25. The air introduced from the lower body 10 is guided upward along the flow guide 24.

The upper inner 25 includes a bottom 25a and a tubular sidewall 25b extending upward from the bottom 25a and the sidewall 25b is provided with air guided along the flow guide 24 At least one opening 25h may be formed. A water tank humidifying medium 49 may be disposed in the upper inner 25. Air introduced into the upper inner 25 through the opening 25h passes through the water tank humidifying medium 49. [ The water sprayed by the watering unit 46 is absorbed by the water tank humidifying medium 49 so that the water is humid during the passage of the air through the water tank humidifying medium 49 as will be described later in detail.

The humidification module 4 may include an inner visual body 42, a water tank 43, a watering unit 46, and / or a top cover 41.

The humidifying module 4 humidifies the air by spraying water into the air flow path. The water tank 43 contains water used for humidification, and the watering unit 46 pumps water in the water tank 43 and injects it.

Referring to FIG. 7, the water tub 43 may be provided with a floater 73 which is moved up and down according to a water level. A partition 72 partitioning the inside of the water tank 43 can be provided and the plotter 73 can be disposed in a space defined by the partition 72. [

The plotter 73 has a specific gravity smaller than that of water, and floats when it is immersed in water for a predetermined amount or more. Therefore, the floater 73 ascends and descends according to the level in the water tank 43. The position (or the height) of the plotter 73 varies according to the water level in the water tank 43. The water level in the water tank 43 is the water level in the water level.

The plotter 73 may include a magnet (not shown). A water level sensor (not shown) for sensing a magnetic field (or magnetic force) generated from the magnet may be provided outside the water tank 43. The level sensor may output a current or voltage signal according to the magnitude of the sensed magnetic field.

The humidification module 4 may be detachably coupled to the upper body 20. [ The humidification module 4 may be inserted through the opening at the upper end of the outer visual body 22 and the water tub 43 may be disposed in the upper inner space 25. [ The water tray 43 may include a water tray base 431a and a tubular side wall 431b extending upward from the water tray base 431a.

The upper end of the side wall 431b may be coupled with the inner visual body 42. A plurality of connection portions 432 coupled to the inner visual body 42 are formed in the upper portion of the side wall 431b along the circumferential direction and open between the adjacent connection portions 432. The opening 43h between the connecting portions 432 can be formed at a position corresponding to the opening 25h formed in the upper inner 25. The air that has passed through the opening 25h of the upper inner 25 flows inward through the opening 43h of the water tub 43. [

The inner visual body 42 has a tubular shape extending vertically upwards and downwards, and may be formed of a transparent material. A water tank humidifying medium 49 may be coupled to the lower end of the inner visual body 42. The water tank humidifying medium 49 may include a porous mesh (not shown) capable of absorbing moisture and a fixed frame for fixing the mesh.

The watering unit 46 may include a watering housing 461, a watering housing cover 462, a water housing 463, a coupling shaft 466, and a power transmitting unit 465.

A water ring motor 27 for driving the water ring unit 46 may be provided on the bottom surface of the bottom 25a of the upper inner 25. The power transmitting unit 465 is for coupling the coupling shaft 466 with the rotation shaft of the watering motor 27, and such a coupling is separable. That is, when the clean module 1 is mounted on the upper body 20, the rotation shaft of the water ring motor 27 is coupled to the engagement shaft 466 by the power transmission unit 465, When separated from the upper body 20, the coupling is released.

The power transmission unit 465 may be disposed in the column 435 of the water tank 43 and the coupling shaft 466 extends through the opening of the upper end of the column 435 to the inside of the water ring housing 461 .

The upper end of the water ring housing 461 may be coupled to the water ring housing cover 462 and the lower end of the water ring housing 461 may be engaged with the upper end of the positive housing 463 .

The water ring housing cover 462 is coupled to the upper end of the water ring housing 461 to close the opening of the upper end of the water ring housing 461. The water ring housing cover 462 is coupled with the engagement shaft 466 so that when the engagement shaft 466 is rotated, the water ring housing cover 462, the water ring housing 461 and the water- . A plurality of blades 461a may protrude from the outer peripheral surface of the water ring housing 461. [

The positive housing 463 may be formed in a circular shape in a horizontal section. The positive housing 463 may have a funnel shape with a gradually increasing horizontal cross section.

On the inner surface of the positive housing 463, a groove 463a extending vertically downward may be formed. The grooves 463a may be formed to be spaced apart from each other along the circumferential direction. The opening of the lower end of the positive housing 463 is spaced apart from the water tank base 341a of the water tank 43 so that water can flow in from the water tank 43. [ When the positive housing 463 is rotated, the water introduced into the inside of the positive housing 463 through the opening rises along the inner surface of the positive housing 463 due to the centrifugal force, and the groove 436a moves upward .

The water pumped by the positive housing 463 flows into the interior of the watering housing 461 and is continuously lifted along the inner side of the watering housing 461 so that the jetting port 461h formed in the watering housing 461, Lt; / RTI > The sprayed water can form a water film in the form of droplets or spray in the inner visual body 42 to humidify the air. Particularly, since the air in the inner visual body 42 is being raised by the wind pressure provided by the blowing fan 121, the water particles rise together with the airflow, and the discharge humidifying medium 44). Therefore, once the air passes through the discharge humidifying medium 44, moisture is contained again.

The water tank humidifying medium 49 provided in the water tub 43 can also be wetted by the water jetted from the water ring housing 461 and the air guided by the flow guide 24 can be supplied to the water tank humidifying medium 49 It can contain moisture while passing through it.

The top cover 41 can be mounted on the inner visual body 42 and covers the open top of the inner visual body 42. The top cover 41 may be provided with a discharge port 411 for discharging air that has passed through the inner visual body 42 to the outside.

The top cover 41 includes a cover frame 410 having a water supply port 412 at a substantially central portion thereof and a plurality of discharge ports 411 along the periphery of the water supply port 412, And a discharge humidifying medium 44 disposed below the discharge opening 411 for humidifying the air flowing into the discharge opening 411.

The water supply port 412 communicates with the inside of the water tank 43 so that the water supplied through the water supply port 412 is supplied into the water tank 43. Water can be poured into the water supply port 412 to fill the water tank 43 without separating the humidification module 4 from the clean module 1. [

The discharge humidification medium 44 may include a porous mesh 441 and a fixed frame 442 for fixing the mesh 441. The water molecules injected by the watering unit 46 rise together with the air stream passing through the inner visual body 42 so as to wet the mesh 441 so that the mesh is formed before the air is discharged through the discharge port 411 441).

Meanwhile, in the embodiment, the lower body 10, the upper body 20, and the humidification module 4 are detachably coupled to each other. At least one of these components is provided with a power supply unit for supplying power, and in other configurations, a power supply terminal electrically connected to the power supply unit in a state where these components are coupled to each other is provided, Can be supplied.

For example, when the power supply unit is provided in the lower body 10, the upper body 20 and the humidification module 4 may be provided with power terminals. Particularly, the upper body 20 can mediate the power supplied from the lower body 10 to be supplied to the humidification module 4.

In addition, a control unit is provided in any one of the lower body 10, the upper body 20, and the humidification module 4, and the communication terminal communicably connected to the control unit in a state where the above- .

FIG. 9 is an exploded view of the bottom surface of the upper body and the sterilizing module provided therein. 10 is an exploded perspective view of the sterilization module shown in Fig. 11 is a perspective view showing the substrate holder. 12 is a plan view of the substrate holder shown in Fig. 13 is a cross-sectional view taken along line A-A in Fig. 14 is a cross-sectional view taken along line B-B in Fig. 15 shows the inside of the water tank from above. 16 is an exploded perspective view of the water tank. 17 is a top view of an assembly of an inner visual body, a water tank and a watering unit. 18 shows a structure in which a transmission window is installed on the bottom surface of the water tank.

9 to 15, the clean module 1 may be provided with a sterilizing module 80. FIG. The sterilizing module 80 includes a light emitting portion 85 for emitting ultraviolet rays, a circuit board 81 on which the light emitting portion 85 is mounted, a substrate holder 82 for fixing the circuit board 81 to the clean module 1 A transparent shield 83 which is disposed on the front surface of the substrate holder 82 and through which ultraviolet rays emitted from the light emitting portion 85 are transmitted and a shield holder 83 which is coupled to the substrate holder 82 and fixes the transparent shield 83, (Not shown).

The light emitting portion 85 irradiates ultraviolet rays, and preferably includes an LED chip. However, the light emitting portion 85 may include other light emitting means such as an LCD and a lamp.

Hereinafter, the front surface and the rear surface of the substrate holder 82 are respectively defined as a surface 821a facing the transparent shield 83 and a surface 821b facing the circuit board 81 corresponding to the opposite surface thereof . The substrate holder 82 has a substrate mounting plate 821 constituting the front surface 821a and the rear surface 821b and a substrate mounting rib 822 projecting from the rear surface 821b and defining a space in which the circuit board 81 is installed ). The substrate holder 82 may be made of a synthetic resin material.

The circuit board 81 may be fixed to the back surface of the board mounting plate 821. [ A through hole 82h through which the light emitting portion 85 passes is formed in the board mounting plate 821 so that the light emitting portion 85 mounted on the circuit board 81 can be exposed to the front side of the board mounting plate 821 .

At least a part of the back surface of the substrate mounting plate 821 forms a convex portion toward the circuit board 81. Corresponding to this, the front surface 821a of the substrate mounting plate 821 is provided with a concave A reflecting surface 825 can be formed.

Convex portions are formed on the back surface 821b of the substrate mounting plate 821. Hence, if the circuit board 81 is directly mounted on the back surface 821b, it is difficult to provide the circuit board 81 flat. The substrate supporter 824 protrudes from the rear surface 821b of the substrate mounting plate 821 and the circuit board 81 is supported flat without being inclined to either side by the substrate supporter 824. [ A plurality of substrate supporters 824 may be formed. The substrate supporter 824 can be elongated along the substrate mounting rib 822 described later.

The substrate mounting ribs 822 may extend in a manner to enclose the circuit board 81. The substrate mounting ribs 822 may not be completely wrapped around the circuit board 81 and may be partially open. As in the embodiment, when the circuit board 81 is rectangular, the substrate mounting rib 822 may extend along three sides except for one of the four sides of the square.

A lock 826 for fixing the circuit board 81 mounted on the substrate supporter 824 may be formed on the substrate mounting rib 822. The lock 826 can protrude from the substrate mounting rib 822 and restrain the circuit board 81 located inside the substrate mounting rib 822. That is, the circuit board 81 is prevented from moving in the lateral direction by the substrate mounting rib 822, and the upper surface is interfered with the lock 826 while the lower surface is supported by the substrate supporter 824, The movement in the direction is inhibited.

Referring to FIG. 11, the front surface 821a of the substrate holder 82 may be formed with a reflecting surface for reflecting ultraviolet rays. In order to improve the light reflectance, the front surface 821a of the substrate holder 82 may be configured to have a metallic luster. The front surface 821a having metallic luster (preferably silver) is formed by depositing a metal on the surface of a substrate holder 82 made of a synthetic resin material, coloring a metallic color paint, And the like.

A plurality of grooves 827 may be formed in the front surface 821a of the substrate holder 82 so as to surround the through holes 82h and extend in parallel. The plurality of grooves 827 may extend parallel to each other. The inner surface of the groove 817 may also be treated to have a metallic luster.

The grooves 827 may each be formed in an annular shape having a common center. Here, the "annular" does not necessarily have to be a perfect circle, but it may be a closed loop form surrounding the through hole 82h.

Each of the grooves 827 can form a pattern of a four-sided symmetrical shape, and the groove 827 can be formed in a cross-section where the center of symmetry is cut to the symmetrical baseline AA as shown in Figs. The top may be aligned on the first line segment PL1 inclined at a constant angle with respect to the horizontal and the lowest point of the grooves 827 may be aligned on the second line segment PL2 parallel to the first line segment PL1. Although not shown, this structure is the same even when the substrate holder 82 is cut along a straight line passing through the center of symmetry and orthogonal to A-A.

On the other hand, the front surface 821a of the substrate holder 82 is divided into regions P1, P2, P3, and P4 having a constant width and extending in four chambers and arranged symmetrically with each other, P4 and P41 between the straight lines and the straight line segments formed on the regions P1, P2, P3 and P4, the groove 827 connects the straight lines, And may include curved sections in the form of arcs having a constant radius centering on the concentric circle.

Preferably, each curved section is formed in an area (P12, P23, P34, P41) in which a linear section is formed, and is in the form of an arc centered on an edge where adjacent linear sections meet with each other. 14 is a cross-sectional view taken along the diagonal symmetry reference line BB dividing the regions P12 and P34 formed with the slit segments passing through the corners. As in FIG. 13, the upper ends of the grooves 827 are parallel to the first It can be seen that the lowest point of the grooves 827 is aligned on the third segment PL3 inclined at the same angle as the segment PL1 and the lowest point of the grooves 827 is aligned on the fourth segment PL4 parallel to the third segment PL3. Here, the diagonal symmetry reference line B-B forms a 45-degree angle with the left and right symmetry reference line A-A. Such a structure is preferably common to all the regions P12, P23, P34, and P41 where the curve sections are formed.

The through holes 82h may be substantially square and each of the four room extending regions P1, P2, P3, and P4 may extend outward from the sides of the square, P1, P2, P3, P4) is substantially equal to the length of one side of the square.

An opening 25h through which the light emitted from the light emitting portion 85 can pass may be formed on the bottom 25a of the upper inner 25. A sterilizing module mounting frame 251 that surrounds the opening 25h may be formed on the bottom surface of the upper inner panel 25 (i.e., the bottom surface of the bottom 25a). The sterilizing module installation frame 251 may be formed in a rib shape protruding from the bottom surface of the upper inner 25.

A shield holder 84 can be inserted into the sterilizing module mounting frame 251. The outer diameter of the shield holder 84 is substantially the same as the inner diameter of the sterilizing module mounting frame 251 so that the shield holder 84 is fixed in the sterilizing module mounting frame 251 without shaking.

The shield holder 84 includes a plate body 841 having an opening 84h formed at a position corresponding to the opening 25h (or a position corresponding to a transparent window 93 described later) And a side plate 842 protruding from the side plate 842. The plate 841 may be formed in a rectangular shape, and the side plate 842 may extend upward from each side of the square to form a square shape. The ultraviolet light emitted from the light emitting portion 85 passes through the transparent shield 83 and is incident on the transparent window 93 provided on the bottom of the water tank 43.

The side plate 842 has one end connected to the plate body 841 and the other end corresponding to the opposite side. The portion surrounded by the other end is open, and the transparent shield 83 is inserted into the region defined by the side plate 841 through the open portion.

The transparent shield 83 may be in the form of a plate-like transparent material through which light (particularly ultraviolet rays) can pass. The shape of the transparent shield 83 may correspond substantially to that of the side plate 842 of the shield holder 84. In this case, the periphery of the transparent shield 83 is in close contact with the inner peripheral surface of the side plate 842, so that the transparent shield 83 can be fixed without shaking in the shield holder 84.

The shield holder 84 may be covered by the substrate holder 82. The substrate holder 82 prevents the disinfection module mounting frame 251 and the transparent shield 83 from being detached from the shield holder 84 and prevents the sterilizing module mounting frame 251 and the transparent shield 83 from being detached from the shield holder 84 while covering the area defined by the side plate 842, Can be coupled to the bottom surface.

The substrate holder 82 may be provided with at least one engaging mount 823 protruding outside the substrate mounting plate 821. [ Each coupling mount 823 may be formed with a fastening hole 823h through which a fastening member such as a screw or bolt passes. A boss 255 may protrude from the bottom surface of the upper inner 25 at a position corresponding to the fastening hole 823h and the fastening member may be fastened to the boss 255 through the fastening hole 823h.

16 to 18, the water tank 43 may include a bottom 43a and a side wall 43b defining a space in which water is contained in a tubular shape extending along the periphery of the bottom 43a have. The bottom 43a of the water tank 43 may be constructed with a double bottom structure including a water tank base 431a coupled to the side wall 43b and a water tank cover 431b coupled to the lower side of the water tank base 431a have. In this case, the openings 431ah and 431bh through which the light irradiated from the sterilizing module 80 can pass, respectively, are formed in the water tray 431a and the water tray cover 431b, and water contained in the water tray 43 is not leaked , At least one of the openings 431ah, 431bh should be sealed.

In particular, the transparent window 93 may be provided in the opening 431 ah formed in the water tub base 431a. An installation frame 434 which surrounds the opening 431 ah can be formed on the bottom surface of the water tub base 431a. The installation frame 434 may be formed in a rib shape protruding from the bottom surface of the water tub base 431a.

A fixing frame 94 can be inserted into the mounting frame 434. The outer diameter of the fixed frame 94 is substantially the same as the inner diameter of the mounting frame 434 so that the stationary frame 94 is fixed in a state of being fitted in the mounting frame 434 without shaking.

The fixed frame 94 may include a plate body 941 formed with an opening 94h at a position corresponding to the opening 431 ah and a side plate 942 projecting upward from the periphery of the plate body 941. The plate body 941 may be formed in a rectangular shape, and the side plate 942 may extend upward from the sides of the rectangular shape to form a square shape.

The side plate 942 has one end connected to the plate body 941 and the other end corresponding to the opposite side. The portion surrounded by the other end is opened, and the transparent window 93 is inserted into the region defined by the side plate 942 through the open portion.

The transparent window 93 may be formed in a transparent plate-like form through which light (particularly, ultraviolet rays) can be transmitted. The transparent window 93 may correspond to the shape of the side plate 942 of the fixed frame 94 substantially. In this case, the periphery of the transparent window 93 is in close contact with the inner peripheral surface of the side plate 942, so that the transparent window 93 can be fixed in the fixed frame 94 without shaking.

And a frame cover 91 covering the fixed frame 94 may be further provided. The opening 91h may be formed in the frame cover 91 so that the light irradiated from the sterilizing module 80 can be incident on the transparent window 93. [

The frame cover 91 prevents the fixing frame 94 and the transparent window 93 from being separated from the mounting frame 343 and is provided on the bottom surface of the water tub base 431a in a state of covering the area defined by the side plate 942 Can be combined. The frame cover 91 can be engaged with the water tub base 431a by fastening members such as screws or bolts.

The frame cover 91 may be formed with at least one engaging mount 914. Each coupling mount 914 may be formed with a fastening hole 914h through which a fastening member such as a screw or bolt passes. A boss 437 can be protruded from the bottom surface of the water tub base 431a at a position corresponding to the fastening hole 914h and the fastening member can be fastened to the boss 437 through the fastening hole 914h.

A sealer 92 may be disposed between the frame cover 91 and the transparent window 93. The sealer 92 is ring-shaped, made of a flexible material, and is disposed so that the opening 91h is located inside. The sealer 92 is pressed by the transparent window 93 and therefore is prevented from reaching the opening 91h by the sealer 92 even if water penetrates into the fixed frame 94 through the opening 94h do.

Claims (12)

A clean module having a suction port through which air is sucked, a filter for filtering air sucked through the suction port, and an air blowing unit for blowing air filtered by the filter;
A water tank disposed in the clean module and having a transparent window at the bottom;
A watering unit for pumping water contained in the water tank to spray water onto a flow path through which the air blown by the air blowing unit is guided; And
And a sterilizing module provided in the clean module and irradiating ultraviolet rays into the water tank through the transparent window. The method according to claim 1,
The sterilization module comprises:
A circuit board on which a light emitting part for emitting ultraviolet rays is mounted;
A substrate holder on which the circuit board is fixed to the back surface and through holes through which the light emitting unit passes are formed so that the light emitting unit is exposed on the front side;
A plate-shaped transparent shield disposed on a front surface of the substrate holder; And
And a shield holder coupled to the substrate holder for fixing the transparent shield and having an opening at a position corresponding to the transparent window so that ultraviolet rays passing through the transparent shield are incident on the transparent window. 3. The method of claim 2,
Wherein the front surface of the substrate holder is metallic glossy. The method of claim 3,
Wherein the substrate holder comprises:
And a plurality of grooves extending in parallel with each other are formed on the front surface of the humidifying air cleaner. 5. The method of claim 4,
Wherein the front surface of the substrate holder
And a concave reflective surface inclined toward the through-hole,
Wherein the plurality of grooves comprise:
And a humidifying air cleaner formed on the reflecting surface. 6. The method of claim 5,
Wherein the plurality of grooves comprise:
An annular humidifying air humidifier having a common center. 6. The method of claim 5,
Wherein each of the grooves includes:
Rectilinear sections formed on the regions extending from the through-holes at a constant width and extending in all directions and disposed symmetrically with each other; And
Wherein the curved sections are curved sections connecting the straight line sections and forming a circle having a constant radius around the concentric circle. 8. The method of claim 7,
Wherein the through-hole is square, and the width of each of the regions extending in all directions has a length of the side of the square. 6. The method of claim 5,
The rear surface of the substrate holder
A convex portion toward the circuit board is formed at a portion corresponding to the concave reflective surface,
A plurality of substrate supporters protruding from the rear surface of the substrate holder,
Wherein the circuit board is mounted on the plurality of substrate supporters. 10. The method of claim 9,
Wherein the substrate holder comprises:
A substrate mounting plate on which the through-hole is formed;
A substrate mounting rib protruding from the substrate mounting plate to define a space in which the circuit board is installed; And
And a lock protruding from the substrate mounting rib to press the circuit board. The method according to claim 1,
The clean module includes:
A lower body provided with the filter; And
And an upper body which is mounted on the upper side of the lower body and into which the air filtered by the filter flows,
The upper body includes:
And an upper housing in which the water tank is accommodated,
On the bottom of the upper inner,
An opening is formed at a position corresponding to a transparent window provided on the bottom of the water tank,
The sterilization module comprises:
And an ultraviolet ray emitted from the light emitting portion is transmitted through an opening formed in the bottom of the upper inner. The method according to claim 1,
The bottom of the water tank,
A water tank base on which an opening is formed;
A tubular side wall extending upwardly from the periphery of the water tub base; And
And a water tank cover coupled to a lower side of the water tub base and having an opening at a position corresponding to the opening formed in the water tub base,
The transparent window may include:
And an opening formed in the water tub base.

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