KR20170051176A - apparatus for both humidification and air cleaning - Google Patents

Abstract

According to an embodiment of the present invention, a humidification and air cleaning apparatus comprises: an absorbing flow path absorbing outside air; a discharge flow path discharging inside air; an air blowing unit moving the air introduced to the absorbing flow path to the discharge flow path; a discharge humidification medium arranged on the discharge flow path to additionally humidify the moving air; a water tank humidification medium arranged between the air blowing unit and the discharge humidification medium to humidify the moving air; and a water wheel unit spraying water between the water tank humidification medium and the discharge humidification medium.

Description

Apparatus for both humidification and air cleaning

The present invention relates to a humidifying and cleaning device.

The air conditioner includes an air conditioner for controlling the temperature of the air, an air purifier for maintaining cleanliness by removing foreign substances from the air, a humidifier for providing moisture in the air, and a dehumidifier for removing moisture in the air.

Conventionally, a humidifier is classified into a natural evaporation type in which water is atomized in a diaphragm, and a natural evaporation is performed in a vibration type and a humidifying filter which discharge water into the air.

The natural evaporative humidifier includes a disk type humidifier in which a disk is rotated using a driving force and water is naturally evaporated from the surface of the disk in the air, and a humidifying filter type humidifier which is naturally evaporated by air flowing in a humidifying medium Respectively.

In the conventional humidifier, a part of the air flowing in the humidification process was filtered through the filter. However, since the conventional humidifier has a humidifying function, the function of cleaning the air is weak.

Also, the conventional humidifier has a problem in that the humidifier can not be operated only for air filtration because the humidifier is structured by adding filtration function during the humidification process.

Therefore, the conventional humidifier has a problem that humidification is performed when the user desires air cleaning even in a high humidity condition.

An object of the present invention is to provide a humidifying and cleaning device capable of independently operating a humidification function and an air cleaning function.

An object of the present invention is to provide a humidifying and cleaning device which allows a user to intuitively confirm whether or not humidification is being performed.

An object of the present invention is to provide a humidifying and cleaning device that increases humidifying performance by using two types of humidifying filters and reduces noise.

The present invention is characterized in that the discharge humidifying medium provided on the discharge flow path uses a filter with low water loss and little pressure loss and the water tank humidifying medium installed on the humidification flow inlet is a humidifying clean The purpose of the device is to provide.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

The humidifying and cleaning device according to an embodiment of the present invention includes a suction flow path for sucking outside air; A discharge channel through which air is discharged; An air blowing unit for allowing air introduced into the suction passage to flow through the discharge passage; A discharge humidifying medium disposed on the discharge flow passage for further humidifying the air flowing therein; A water humidifying medium for humidifying air flowing between the air blowing unit and the discharge humidifying medium; And an aberration unit for spraying water between the water tank humidifying medium and the discharge humidifying medium.

According to another aspect of the present invention, there is provided a humidifying / cleaning device comprising: a suction port formed at a lower side of the humidifying / A filtration flow path for filtering the air introduced into the suction flow path; A connecting passage through which the air passing through the filtering passage is pressed by the air blowing unit; A humidification channel in which water is supplied to the air passing through the connection channel; And a discharge passage through which the air having passed through the humidifying passage is discharged to the outside, wherein the humidifying passage includes a water humidifying medium for supplying moisture to air flowing into an inlet of the humidifying passage; A discharge humidifying medium for supplying moisture to the air flowing into the discharge port of the humidification channel; And an aquifer unit for supplying water stored in the water tank to the water tank humidifying medium and the discharge humidifying medium.

The humidifying and cleaning device according to the present invention has one or more of the following effects.

First, two kinds of humidification filters are used to increase humidification performance and reduce noise.

Second, the discharge humidifying medium installed on the discharge flow path has an advantage that the humidifying effect is increased by using a filter having a low water loss and a low pressure loss.

Third, the water tank humidifying medium installed at the humidification channel inlet has an advantage of increasing the effect of the humidification performance by using a filter having a high moisture absorption capacity.

Fourth, water is sprayed using a water turbine, the humidifying filter absorbs water, and the air is spontaneously vaporized by the wind to generate a humidifying effect, thus providing a pleasant environment for the user.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a humidifying and cleaning device according to a first embodiment of the present invention.
2 is an exploded perspective view of FIG.
3 is an exploded front view of Fig.
4 is an exploded sectional view of Fig.
5 is a diagram illustrating an air flow of a humidifying / cleaning device according to the first embodiment of the present invention.
6 is a perspective view of the water humidification medium housing shown in Fig.
7 is a perspective view seen from the lower side of Fig.
8 is a front view of Fig.
9 is a cross-sectional view taken along line AA of FIG.
10 is an exploded perspective view of Fig.
11 is a perspective view seen from the lower side of Fig.
12 is a view for explaining a water tank humidifying medium according to an embodiment of the present invention.
13 is a perspective view of the discharge humidifying medium housing shown in Fig.
14 is an exploded perspective view of Fig.
15 is a perspective view seen from the lower side of Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of FIG. 1, FIG. 3 is an exploded front view of FIG. 1, FIG. 4 is an exploded sectional view of FIG. 3, 5 is a perspective view seen from the lower side of Fig.

The humidification cleaner according to the present embodiment includes a clean module 100 and a humidification module 200 mounted on the clean module 100.

The clean module 100 sucks outside air, filters the air, and provides filtering air to the humidification module 200. The humidification module 200 receives the filtered air and humidifies the humidifying air to provide moisture, and discharges humidified air to the outside.

The humidification module 200 includes a water tank 30 in which water is stored. The water tub 30 is detachable from the clean module 100 when the humidification module 200 is detached. The humidification module 200 is mounted on the clean module 100.

The user can separate the humidification module 200 from the clean module 100 and clean the separated humidification module 200. The user may clean the inside of the clean module 100 in which the humidification module 200 is separated. When the humidification module 200 is detached, the upper surface of the clean module 100 is opened to the user. The clean module 100 can be cleaned after separately separating the filter assembly 10 to be described later.

The user can supply water to the humidification module 200. The humidification module 200 is provided with a water supply channel that can supply water to the water tub 30 from the outside.

The water supply channel is configured to be able to supply water to the water tank at any time. For example, when the humidification module 200 is in operation, water can be supplied through the water supply channel. For example, even when the humidification module 200 is coupled to the clean module 100, water can be supplied through the water supply channel. For example, even when the humidification module 200 is separated from the clean module 100, water can be supplied through the water supply channel.

The clean module 100 and the humidification module 200 are connected through a connection channel 103. Since the humidification module 200 is detachable, the connection passage 103 is formed by being dispersed in the clean module 100 and the humidification module 200.

The connection channel formed in the clean module 100 is defined as a clean connection channel 104 and the connection channel formed in the humidification module 200 is defined as a humidification connection channel 105. When the humidification module 200 is mounted on the clean module 100, the connecting flow path is connected and the flow path of the air is accurately constituted.

The flow of air passing through the clean module 100 and the humidification module 200 will be described later in more detail.

The construction of the clean module 100 will be described in more detail as follows.

The clean module 100 includes a base body 110 formed with a suction passage 101 and a clean connection passage 104 and a separator installed to be detachable with respect to the base body 110, And a blowing unit 20 disposed inside the base body 110 and configured to flow air.

And external air is sucked into the base body 110 through the suction passage 101. The air filtered in the filter assembly 10 through the clean connection channel 104 is supplied to the humidification module 200.

In the present embodiment, the base body 110 is composed of two parts.

The base body 110 includes a lower body 130 formed with an outer shape and having a suction port 111 formed on a lower side thereof and a mounting body 120 formed on the upper side of the lower body 130 to form an outer shape. do.

A display module 160 may be disposed on at least one of the clean module 100 and the humidification module 200 to display an operating state to a user. In this embodiment, the base body 110 is provided with a display module 160 for displaying the operating state of the humidifying / cleaning device to the user.

The stowage body 120 and the lower body 130 are integrally assembled. The mounting body 120 and the lower body 130 may be formed as one body, unlike the present embodiment.

The humidification module 200 is detachably mounted on the upper side of the accommodation body 120 to support the load of the humidification module 200.

The stowage body 120 provides a structure for stably mounting the water tank 30. [ The mounting body 120 has a structure in which the water tub 30 of the humidification module 200 is detachable. The stowage body 120 has a concave structure to accommodate the water tank 30. [

The stowage body 120 is recessed into the base body 110 and can house the water tank 30 inside the base body 110 so that the center of gravity of the air cleaner can be moved downward Can be moved.

The air cleaner according to the present embodiment receives power from the clean module 100 and supplies power to the humidification module 200 through the clean module 100. Since the humidification module 200 is detachable from the clean module 100, the clean module 100 and the humidification module 200 are provided with detachable power supply structures.

Since the clean module 100 and the humidification module 200 are formed through the mounting body 120, the connector 260 for supplying power to the humidification module 200 is disposed in the mounting body 120 .

The filter assembly 10 is detachably assembled to the base body 110.

The filter assembly 10 provides filtration flow path 102 and performs filtering on the outside air.

The filter assembly 10 is detachable in the horizontal direction with respect to the base body 110. The filter assembly 10 is arranged to intersect with the flow direction of the air flowing against the vertical direction. The filter assembly 10 is arranged in a horizontal direction orthogonal to the flow of air flowing from the lower side to the upper side.

The filter assembly 10 may slide in the horizontal direction with respect to the base body 110.

The air blowing unit 20 generates a flow of air. The air blowing unit 20 is disposed inside the base body 110 and allows air to flow from the lower side to the upper side.

The air blowing unit 20 is composed of a blowing housing 150, a blowing motor 22 and a blowing fan 24. In the present embodiment, the blowing motor 22 is disposed on the upper side, and the blowing fan 24 is disposed on the lower side.

The air blowing housing 150 is disposed inside the base body 110. The air blowing housing 150 provides a flow path of air to be flowed. The blowing motor (22) and the blowing fan (24) are disposed in the blowing housing (150).

The air blowing housing 150 is disposed on the filter assembly 10 and is disposed below the mounting body 120.

The air blowing fan 24 is a centrifugal fan that sucks air from the lower side and then discharges the air outward in the radial direction. The air blowing fan 24 discharges air radially outward and upward. The blowing fan 24 is formed such that its outer end is directed upward in the radial direction.

The blowing motor 22 is disposed above the blowing fan 24 to minimize contact with the air to be flowed. The air blowing motor 22 is not positioned on the air flow path by the blowing fan 24.

The humidification module 200 includes a water tank 30 in which water for humidification is stored and is detachably mounted to the clean module 100 and a water tank 30 disposed in the water tank 30, A humidifying medium 50 for humidifying the air to be humidified by the water jetted from the aberration unit 40 and supplying moisture to the air; A visual body 210 detachably mounted on the visual body 210 and connected to a discharge channel 107 through which air is discharged and a water supply channel And a top cover assembly 230 formed with a top cover assembly 109.

The water tub (30) is mounted on the mounting body (120). The aberration unit 40 is disposed inside the water tank 30 and is rotated inside the water tank 30.

The aberration unit 40 sucks the water inside the water tank, sucks the sucked water upward, and injects the pumped water outward in the radial direction. The aberration unit 40 includes a water turbine housing 80 that sucks water inward, sucks the sucked water upward, and then discharges it radially outward.

The water jetted from the aberration housing 80 wets the humidifying medium 50. The water sprayed from the aberration housing 80 may be sprayed toward at least one of the visual body 210 and the humidifying medium 50.

In the present embodiment, the aberration housing 80 injects water toward the inner side of the visual body 210, and the injected water flows down along the inner side of the visual body 210. A droplet is formed on the inner surface of the visual body 210 in the form of a droplet, and the user can see the droplet through the visual body 210.

The visual body 210 is coupled to the water tank 30 and is located on the upper side of the water tank 30. At least a part of the visual body 210 is formed of a material capable of viewing through the inside.

A droplet formed on the side surface of the visual body 210 may be formed as a raindrop. A droplet flowing down from the visual body 210 impregnates the humidifying medium 50.

The display module 160 may be disposed outside the visual body 210. The display module 160 is coupled to either the visual body 210 or the mounting body 120. In this embodiment, the display module 160 is disposed on the mounting body 120.

When the humidification module 200 is mounted, the outer surface of the visual body 210 is brought into close contact with the display module 160. At least a part of the surface of the display module 160 is formed of a material reflecting light.

The droplet formed on the visual body 210 is also projected on the surface of the display module 160. Thus, the user can observe the movement of the droplet in two places of the visual body 210 and the display module 160.

The water tank (30) is formed with a water tank inlet (31) through which air is communicated. The air supplied from the clean module 100 flows into the humidification module 200 through the water tank inlet 31.

The humidifying medium 50 includes a water bath humidifying medium 51 disposed in the connecting flow path 103 and a discharge humidifying medium 55 disposed in the discharging flow path 107.

The water tank humidifying medium 51 is disposed on the connection channel 103 and is disposed in the water tank inlet 31 of the water tank 30 in the present embodiment. The water tank humidifying medium 51 is located inside the water tank inlet 31 and provides humidification for the air passing through the water tank inlet 31.

The water tank humidifying medium 51 covers the water tank inlet 31 and air flows into the water tank 30 through the water tank humidifying medium 51.

The discharge humidification medium 55 is disposed on the discharge flow path 107. The discharge humidifying medium 55 may be disposed in at least one of the visual body 21 and the top cover assembly 230. In the present embodiment, the discharge humidifying medium 55 is disposed in the top cover assembly 230.

The discharge humidification medium 55 covers the discharge flow path 107 and the air flows out of the top cover assembly 230 through the discharge humidification medium 55.

Hereinafter, the flow of air will be described with reference to the drawings.

When the air blowing unit 20 is operated, the outside air flows into the base body 110 through the suction flow path 101 formed on the lower side of the base body 110. The air sucked through the suction passage 101 passes upward through the clean module 100 and the humidification module 200 and is discharged to the outside through the discharge passage 107 formed on the upper side of the humidification module 200 do.

The air sucked into the suction passage (101) passes through the filter passage (102) of the filter assembly (10). The filter assembly (10) filters external air while passing through the filtration channel (102).

The air that has passed through the filtration channel (102) flows into the connection channel (103) through the air blowing unit (20). The air passing through the filtration channel 102 is pressurized by the blowing fan 24 and then flows into the connection channel 103 along the blowing housing 150.

Since the blowing unit 20 is disposed after the filtration flow path 102, adhesion of foreign matter such as dust to the blowing fan 24 can be minimized.

When the air blowing unit 20 is disposed in front of the filtration flow path 102, there is a problem that foreign matter adheres to the blowing fan 24 and the cleaning period becomes short.

Further, since the air blowing unit 20 is disposed in front of the humidification channel 106 to be described later, adhesion of moisture to the surface of the blowing fan 24 can be minimized. When the humidified moisture adheres to the surface of the air blowing fan 24, there is a great risk that the foreign matter gets clogged or mold is generated.

Since the air blowing unit 20 is disposed between the filtration channel 102 and the humidification channel 106, adhesion of foreign matter can be minimized and the flow pressure of the air can be appropriately provided.

The connection passage 103 is composed of a clean connection passage 104 formed in the clean module 100 and a humidification connection passage 105 formed in the humidification module 200.

The clean connection passage 104 and the humidification connection passage 105 are connected to each other when the humidification module 200 is mounted on the mounting body 120. When the humidification module 200 is in a detached state, the clean connection channel 104 and the humidification connection channel 105 are exposed to the outside.

The clean connection passage 104 may be formed in the mounting body 120 and the humidification connection path 105 may be formed in the humidification module 200.

The clean connection passage 104 and the humidification connection passage 105 may be formed in the form of a duct to form a clear flow passage. When the humidification module 200 is mounted on the stationary body 120, the connecting passage 103 is divided into a part of the structure of the stationary body 120 and a part of the structure of the water tank 30, The flow path 103 is formed.

In the present embodiment, the stowage body 120 provides an outer structure of the connection passage 103, and the water tank 30 provides an inner structure of the connection passage 103.

That is, the connection passage 103 is formed between the outside of the water tub 30 and the inside of the accommodation body 120. Therefore, the connection passage 103 is formed between the water tank 30 and the mounting body 120. The water tank 30 forms an inner wall of the connection passage 103 and the accommodation body 120 forms an outer wall of the connection passage 103.

The structure of the connection passage 103 is dispersedly disposed, thereby minimizing the structure of the passage. The connection passage 103 is formed in a vertical direction.

The air that has passed through the connection passage (103) flows into the humidification channel (106). The humidification channel 106 is a section in which moisture is supplied. In this embodiment, the humidification channel 106 is from the water humidifying medium 51 to the humidification medium 55.

Moisture can be supplied to the air while passing through the water tub humidifying medium 51 from the connecting flow path 103. Water droplets scattered in the aberration unit 40 and water evaporated in the water tank 30 are provided in the water tank 30.

Moisture can be supplied again while passing through the discharge humidifying medium 55 in the water tub 30. [

In the humidification channel 106, water is supplied through the water tank humidifying medium 51, the water tank 30, and the discharge humidifying medium 55.

The air having passed through the discharge humidifying medium (55) is exposed to the outside through the discharge passage (107).

FIG. 6 is a perspective view of the water humidifying medium housing shown in FIG. 4, FIG. 7 is a perspective view from the lower side of FIG. 6, FIG. 8 is a front view of FIG. 6, FIG. 10 is an exploded perspective view of FIG. 6, FIG. 11 is a perspective view from the lower side of FIG. 10, and FIG. 12 is a view for explaining a water tank humidifying medium according to an embodiment of the present invention.

The water tank humidifying medium and the water tank humidifying medium housing will be described in more detail with reference to the drawings.

In this embodiment, the housing in which the water tank humidifying medium 51 is installed in the humidifying medium 50 is defined as the water tank humidifying medium housing 300.

In this embodiment, the water tank humidification medium housing 300 is disposed in the water tank 30. [ In particular, the water tank humidifying medium housing 300 is disposed inside the water tank inlet 31. In the present embodiment, the water tank humidifying medium housing 300 is mounted on the visual body 210 and is located inside the water tank 30. Unlike the present embodiment, the water tank humidifying medium housing 300 may be installed in the water tank 30. [

The water tank humidifying medium housing 300 allows air sucked through the water tank inlet 31 to pass therethrough. The water tank humidifying medium 51 humidifies the passing air.

The water tank humidifying medium housing 300 not only supplies moisture to the air flowing through the water tank humidifying medium 51 but also covers the upper side of the water tank 30 to prevent water from overflowing the water tank 30 .

When the water tub humidification medium housing 300 is mounted on the visual body 210, the lower end thereof is brought into close contact with the upper edge of the water tub 30. The water tank humidifying medium housing 300 may be fastened or coupled to the upper end of the water tub 30 to completely block water overflow.

In this embodiment, a part of the water tank humidifying medium housing 300 is brought into close contact with the water tub 30 to prevent water overflow.

The water tank humidifying medium housing 300 is located inside the water tank humidifying medium 51 and includes an inner medium frame 310 having an inner medium inlet 311 through which the air is passed, An outer medium frame 320 located outside the water tub humidifying medium 51 and supporting the water tub humidifying medium 51 and having an outer medium inlet 321 through which air is passed, And a water overflow prevention cover 330 which is combined with at least one of the outer media frame 320 and the outer media frame 320 and is in close contact with the water tank 30 to prevent the water tank 30 from overflowing.

The inner medium frame 310 includes an inner upper frame 312 on which the visual body 210 is mounted and an inner vertical frame 310 extending downward from the inner upper frame 312 and forming the inner medium inlet 311. [ And an inner lower frame 314 connected to the inner vertical frame 313 and seated on the upper surface of the water overflow prevention cover 330.

A handle 315 is formed on the inner vertical frame 313. A plurality of the handles 315 may be formed.

The outer medium frame 320 includes an outer medium inlet 321, an outer upper frame 322, an outer vertical frame 323 and an outer lower frame 324, as in the inner medium frame 310.

A storage space 328 is formed in the outer lower frame 324. The flowing water is temporarily stored in the storage space 328.

The water overflow prevention cover 330 includes a cover portion 332 covering the upper portion of the water tank 30 and a cover portion 332 formed in connection with the cover portion 332. The water overflow prevention cover 330 is bent at the cover portion 332, A cover insertion groove 335 formed in the cover portion 332 and into which the outer medium guide 325 is inserted and a cover insertion groove 335 formed in the cover insertion groove 335, And a cover hole (336) communicating with the inside of the water tub (30) to drain the water.

The bottom surface of the cover insertion groove 335 is formed as an inclined surface 337. The inclined surface 337 corresponds to the inclined surface 327 of the outer medium guide 325.

The inner medium frame 310 is formed with an inner medium inlet 311 through which air is passed. The outer medium frame 320 is formed with an outer medium inlet 321 through which air flows.

The inner medium inlet 311 and the outer medium inlet 321 are formed so as to be capable of sucking air in all directions 360 degrees. The media inlet 311 and the outer media inlet 321 may be disposed to face each other.

The inner medium frame 310 has a larger upper diameter and a lower lower diameter. The outer medium frame 320 also has a larger upper diameter and a lower lower diameter. In the present embodiment, the water tank humidifying medium housing 300 is formed in a hopper shape as a whole.

The water tank humidifying medium housing 300 may include direction indicating means for indicating a position where the water humidifying medium housing 300 is coupled. The direction indication means may be formed in such a manner that a display groove 304 is provided in the inner medium frame 310 and a display protrusion 302 is fitted in the outer medium frame 320. The display groove 304 and the display protrusion 302 are coupled with each other in an interference fit manner to fix the coupling of the inner medium frame 310 and the outer medium frame 320.

The outer medium frame 320 and the inner medium frame 310 are coupled to each other in a forced fit manner. When the outer medium frame 320 and the inner medium frame 310 are deteriorated, the water humidifying medium 51 is fixed.

Humidifying medium fixing means for fixing the water humidifying medium 51 may be formed on at least one of the outer medium frame 320 and the inner medium frame 310 to fix the water humidifying medium 51.

In this embodiment, the humidifying medium fixing means is composed of a projection and a hole.

The humidifying medium fixing means may include a fixing protrusion 308 formed on one of the inner medium frame 310 and the outer medium frame 320 and a fixing projection 308 formed on the other of the inner medium frame 310 and the outer medium frame 320 And a fixing hole 306 into which the fixing protrusion 308 is fitted. The number of the fixing protrusions 308 and the fixing holes 306 according to the present embodiment can be changed within a corresponding range.

In this embodiment, the fixing protrusion 308 is formed in the inner medium frame 310, and the fixing hole 306 is formed in the outer medium frame 320. But may be reversed to that position, unlike the present embodiment. When the fixing portion 54 of the water tub humidifying medium 51 is disposed between the fixing protrusion 308 and the fixing hole 306 and the fixing protrusion 308 is fitted in the fixing hole 306, 51 are fixed to the water tank humidifying medium housing 300.

The fixing protrusion 308 and the fixing hole 306 prevent the water tub humidifying medium 51 from moving between the inner medium frame 310 and the outer medium frame 320. [

In the present embodiment, the fixing holes 306 are formed in the outer upper frame 322 of the outer medium frame 320 so as to open upward and downward.

The fixing protrusions 308 are disposed on the inner upper frame 312 of the inner medium frame 310 and protrude downward from the lower surface of the inner upper frame 312.

The inner medium frame 310 and the outer medium frame 320 may be coupled to each other by the engagement of the fixing protrusion 308 and the fixing hole 306.

The water tub humidifying medium 51 is disposed between the inner medium frame 310 and the outer medium frame 320. The water tank humidifying medium 51 covers the water tank inlet 31. The water tank humidifying medium 51 may be formed in a ring shape. In the present embodiment, the water tank humidifying medium 51 is formed into a hopper shape having a small lower cross section and a larger cross sectional area.

 The water tank humidifying medium 51 includes at least one fixing section 54 for fixing to the water tank humidifying medium housing 300. The fixing portion 54 is formed in a number equal to or smaller than the number of the fixing protrusions 308 and the fixing holes 306. [ The fixing portion 54 has an annular shape and is disposed above the water tray humidifying medium 51. The fixing portion 54 is fixed between the fixing protrusion 308 and the fixing hole 306. The water tank humidifying medium 51 is fixed to the fixing protrusion 308 of the inner medium frame 310 and the fixing hole 306 of the outer medium frame 320 so that the inner medium frame 310 and And does not move between the outer media frames 320.

The water tank humidifying medium 51 is arranged obliquely with respect to the vertical direction. The inclination of the water tank humidifying medium 51 takes into consideration the air flow direction.

The air flowing into the water tank inlet 31 through the connection passage 103 forms a sloping upward direction rather than a horizontal movement. The water tub humidification medium 51 formed obliquely can be disposed orthogonal to the air flow direction.

When the air flow and the water tank humidification medium 51 are orthogonal to each other, it is possible to prevent the air from being poured into a specific portion of the water tank humidifying medium 51, and even air can be passed through the entire area.

The water tank humidifying medium 51 uses a material having excellent moisture absorption performance in order to ensure humidifying performance. The water tank humidifying medium 51 is preferably made of a material made of polyethylene terephthalate (PET) having excellent moisture absorption performance.

12, the water tank humidifying medium 51 includes a pre-filter 53 for preventing water splashed by the water turbine unit 40 from splashing, and a humidifying unit for humidifying the air flowing in the water tank humidifying medium 51 And a filter 52. The humidifying filter 52 forms a double lacquer structure in which a connecting member 52a of a PET material is disposed inside and a PET material 52b of a hexagonal mesh structure surrounds both sides of the filling material. The double lacquer structure is also called a 3D mesh, and the upper layer and the lower layer are made of a mesh network of a square or hexagonal structure, and are connected to each other by a connecting member.

Since the hygroscopic force and the humidifying performance are improved in the state where the PET material 52b having a hexagonal net structure is spaced apart from the PET material 52b by a predetermined distance, the connecting material 52a of the PET material inside the humidifying filter 52 is placed, Thereby separating the structured PET material 52b by a predetermined distance. Absorption power refers to the ability of an object to absorb moisture.

The pre-filter 53 is formed to have a structure that covers both surfaces of the humidifying filter 52. The pre-filter 53 is formed of a mesh member having a plurality of through holes. The size of the through-holes formed in the mesh of the pre-filter 53 is smaller than the size of the holes formed in the PET material 52b having the hexagonal net structure of the humidifying filter, Thereby preventing the water absorbed in the water tank humidifying medium 51 from flowing into the connecting flow path 103. [0054]

The prefilter 53 surrounds the humidifying filter 52 on both sides so that the outer surface of the humidification medium 51 is formed and one surface of the water is sprayed from the water turbine 40 And the other side faces the coupling flow path 103 to prevent water from flowing out of the water tub humidifying medium 51. [

The prefilter 53 located on the surface of the water jetted by the aberration unit 40 is formed with a liquid film in the through hole by the surface tension when water comes into contact with the through hole formed in a small size, (52).

The prefilter 53 facing the connection flow path 103 forms a liquid film so that the water absorbed in the humidifying filter 52 can not flow into the connection flow path.

The water tank humidifying medium 51 according to the present embodiment is made up of three kinds of members. 12, the water tank humidifying medium 51 includes a humidifying filter 52 composed of a triple-quadruple enclosing a connecting member 52a disposed therein and a PET material 52b having a hexagonal net structure, The two sides of the filter 52 are formed as a quintuple which surrounds the pre-filter 53, thereby effectively absorbing water and preventing water from escaping onto the connection channel 103.

The humidifying filter (52) and the prefilter (53) are fused and bonded at the upper and lower sides. When the humidifying filter 52 and the prefilter 53 are joined together by fusion bonding, the problem of the occurrence of baffles due to sewing is eliminated.

It is preferable to use a PET preform filter 53 and a humidifying filter 52 having excellent moisture absorbing performance so as to increase the humidifying performance.

Fig. 13 is a perspective view of the discharge humidifying medium housing shown in Fig. 4, Fig. 14 is an exploded perspective view of Fig. 13, and Fig. 15 is a perspective view from the lower side of Fig.

The discharge humidification medium and the discharge humidification medium housing will be described in more detail with reference to the drawings.

In this embodiment, the housing in which the discharge humidifying medium 55 is installed in the humidifying medium 50 is defined as the discharge humidifying medium housing 400. [

In this embodiment, the discharge humidifying medium housing 400 is disposed on the discharge flow path 107. The discharge humidification medium housing 400 may be installed in the top cover assembly 230.

The discharge humidification medium housing 400 may be integrally formed with the top cover assembly 230. In this embodiment, the discharge humidifying medium housing 400 is manufactured as a separate structure from the top cover assembly 230. The discharge humidification medium housing 400 is disposed below the top cover assembly 230. The discharge humidification medium housing 400 may be detachably assembled to the top cover assembly 230. In this embodiment, the discharge humidifying medium housing 400 is mounted on the visual body 210.

The top cover assembly 230 forms a part of the water supply channel 109 and exposes a water supply cap 430 to be described later to the user.

The discharging humidification medium housing 400 may be configured such that air is passed through to the outside and water can pass through the inside of the discharging humidifying medium housing 400. Air is passed from the lower side to the upper side and water is passed from the upper side to the lower side.

The discharge and humidification medium housing 400 provides a discharge flow passage 107 through which air flows outward and a water supply flow passage 109 through which water passes.

The discharge humidification medium housing 400 includes an upper housing 410, a lower housing 420, and a water supply cap 430. The discharge humidifying medium 55 is disposed between the upper housing 410 and the lower housing 420.

The upper housing 410 and the lower housing 420 are formed with a plurality of voids.

The upper housing 410 is formed in a donut shape as a whole.

The upper housing 410 includes an upper inner frame 412 disposed at the center, an upper housing opening 415 formed at the center of the upper inner frame 412 and providing a water supply flow passage 109, And an upper mesh frame 416 spaced apart from the inner frame 412 and disposed at the outer periphery and an upper mesh frame 416 connecting the upper inner frame 412 and the upper outer frame 414. [

The lower housing 420 is generally formed in a donut shape.

The lower housing 420 includes a lower inner frame 422 disposed at the center, a lower housing opening 425 provided at the center of the lower inner frame 422 to provide a water supply flow passage 109, A lower outer frame 424 spaced apart from the frame 422 and disposed at an outer periphery thereof and a lower mesh frame 426 connecting the lower inner frame 422 and the lower outer frame 424.

The shapes of the upper housing 410 and the lower housing 420 correspond to each other. The upper housing opening 415 and the lower housing opening 425 communicate with each other.

The upper housing 410 and the lower housing 420 are assembled together.

The water supply cap 430 may be coupled to at least one of the upper housing 410 and the lower housing 420. In the present embodiment, the water supply cap 430 is detachably fitted to the lower housing 420.

A coupling protrusion 437 and a coupling groove 427 are formed for detachable coupling of the water supply cap 430 and the lower housing 420.

One of the water supply cap 430 and the lower housing 420 has a coupling protrusion 437 and the other coupling groove 427 is formed. In this embodiment, a coupling protrusion 437 is formed in the water supply cap 430 and a coupling groove 427 is formed in the lower housing 420. The engaging projections 437 and the engaging grooves 427 form a fitting engagement with respect to the horizontal direction.

Meanwhile, the discharge humidification medium housing 400 is provided with a water supply structure 440 for temporarily storing water to be supplied and draining the stored water to the lower side.

The water supply structure 440 includes a reservoir 441 disposed on the water supply channel 109 for temporarily storing water and a water reservoir 441 for draining water from the water reservoir 441 to the water tank 30 And a water supply port 445.

The lower housing 420 includes a reservoir base 442 and a reservoir 444. The reservoir base 442 and the leisure broom 444 are formed in the lower inner frame 422. The water supply reservoir 441 is formed between the inside of the leisure broom 444, the upper side of the reservoir base 442, and the outside of the water supply cap 430. When water is stored in the water supply reservoir 441, water is drained through the water supply port 445 by its own weight.

The discharge humidifying medium 55 is disposed between the upper housing 410 and the lower housing 420. The discharge humidifying medium 55 is formed in a ring shape as a whole. The discharge humidifying medium 55 is disposed between the upper mesh frame 416 of the upper housing 410 and the lower mesh frame 426 of the lower housing 420.

The discharge humidification medium 55 is a filter for humidifying the air before it is discharged to the outside. When the pressure of the air passing through the discharge humidifying medium 55 is lowered due to pressure loss, the humidification performance is lowered. Therefore, it is preferable to use a material having a lower pressure loss than the water humidifying medium 51.

Pressure loss is the pressure drop of a fluid caused by fluid friction as it flows through a tubular passage or through a device.

The humidifying / cleaning device according to the present embodiment is also supplied with water through the discharge humidifying medium 55. Therefore, it is possible to supply the water even during the operation of the humidifying and cleaning apparatus, to prevent water in the water supply from splashing to the outside, and to prevent water sprayed by the water turbine unit 40 from splashing out, . A water phenomenon is a phenomenon in which when water is sprayed or dropped on an object, the water is reflected by the object and then splashed.

[Table 1]

Preferably, the discharge humidifying medium 55 uses a polyurethane material having a lower pressure loss and a lower water-solubility than the water humidifying medium 51. Table 1 shows the pressure loss caused by the passage of air through the humidifier filter at 2.33 m / s and the degree of dewatering of the filters due to water spraying. As shown in Table 1, as compared with the filter made of PET material of 20 to 25 PPI (Pore Per Inch) polyurethane, since the water loss phenomenon is equal to or less than that of the PET material, the pressure loss is greatly reduced. It is preferable to use it as a material.

Since the discharge humidifying medium 55 uses a material having low water solubility, water can be supplied stably without spilling out even when water is supplied onto the discharge humidifying medium 55 during operation of the humidifying / cleaning apparatus according to the present invention .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

10: filter assembly 20: blowing unit
30: water tank 40: aberration unit
51: water tank humidifying medium 52: humidifying filter
53: pre-filter 55: discharge humidifying medium
100: Clean module 110: Base body
120: mounting body 130: lower body
150: blower housing 160: display module
200: Humidification module 210: Visual body
230: Top cover assembly 260: Connector
300: Water tank humidifying medium housing 308: Fixing projection
306: Fixing hole 310: Inner medium frame
320: outer medium frame 330: water overflow protection cover
400: Discharge humidification medium housing 410: Upper housing 410
420: Lower housing 430: Water supply cap
440: Water supply structure

Claims (13)

A suction passage through which external air is sucked;
A discharge channel through which air is discharged;
An air blowing unit for allowing air introduced into the suction passage to flow through the discharge passage;
A discharge humidifying medium disposed on the discharge flow passage for further humidifying the air flowing therein;
A water humidifying medium for humidifying air flowing between the air blowing unit and the discharge humidifying medium; And
And an aberration unit for spraying water between the water tank humidifying medium and the discharge humidifying medium. The method according to claim 1,
Wherein the discharge humidifying medium is made of a material having a lower pressure loss than the water humidifying medium. The method according to claim 1,
Wherein the water tank humidifying medium is made of a material having a higher moisture absorption capacity than the discharge humidifying medium. The method according to claim 1,
Wherein the humidifying medium is a polyethylene terephthalate (PET) material. The method according to claim 1,
The water tank humidifying medium
A prefilter for preventing water sprayed by the aberration unit from splashing; And
A humidifying and cleaning device comprising a humidifying filter for increasing humidity in flowing air. 6. The method of claim 5,
Wherein the humidifying filter forms a double lacquer structure in which a connecting member of a PET material is disposed inside and a PET material of a hexagonal mesh structure surrounds both sides of the connecting member. The method according to claim 6,
Wherein the prefilter is formed of a mesh member having a plurality of through holes,
Wherein the size of the through-holes formed in the mesh of the pre-filter is smaller than the size of the holes formed in the PET material having the hexagonal net structure of the humidifying filter. 6. The method of claim 5,
Wherein the pre-filter and the humidifying filter are fused and coupled. The method according to claim 1,
Wherein the water humidifying medium is formed in a hopper shape having a lower cross-sectional area and a larger upper cross-sectional area. 10. The method of claim 9,
Further comprising a water tank humidifying medium housing for supporting said water tank humidifying medium,
Wherein the water tank humidifying medium includes a fixing part for fixing to the water tank humidifying medium housing. The method according to claim 1,
Wherein the discharge humidifying medium is made of a polyurethane material. 12. The method of claim 11,
Wherein the discharge humidifying medium has a pore size of 20 to 25 PPI (Pore Per Inch). A suction flow path formed on the lower side and into which external air flows;
A filtration flow path for filtering the air introduced into the suction flow path;
A connecting passage through which the air passing through the filtering passage is pressed by the air blowing unit;
A humidification channel in which water is supplied to the air passing through the connection channel; And
And a discharge flow path through which the air having passed through the humidifying flow path is discharged to the outside,
The humidification channel
A humidification medium for supplying moisture to the air flowing into the inlet port of the humidification channel;
A discharge humidifying medium for supplying moisture to the air flowing into the discharge port of the humidification channel; And
A humidifying and cleaning device in which water stored in a water tank is disposed in the water tank humidifying medium and an aberration unit for supplying water to the discharge humidifying medium.

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