KR200418087Y1 - humidifier - Google Patents

Abstract

In order to ensure a soft and moisture-free humidification, the present invention is a humidifier to control the humidity in the room by atomizing the water, provided in the discharge passage through which the atomized humidifying particles are discharged, the flow path guide formed with a spiral flow path inside It provides a humidifier characterized in that it comprises a device.

Humidifier, Euroguide, Water Condensation

Description

Humidifier

1 is a cross-sectional view of a conventional humidifier.

2 is a cross-sectional view of the humidifier according to an embodiment of the present invention.

Figure 3 is an exploded perspective view of the flow path guide device according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of the flow path guide device according to an embodiment of the present invention.

Figure 5a is a perspective view of the flow path guide device according to another embodiment of the present invention.

Figure 5b is a cross-sectional view of the flow path guide device according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

12: reservoir 21: bucket

27: discharge passage 30: nozzle portion

31: vibrator 50: fan motor unit

40,240: Euroguide device 41: engaging projection

42: coupling groove 43,243: spiral blade

44: fixing protrusion 45,245: body

46: fixing groove 48: rotating piece

49: rotating groove

The present invention relates to a humidifier, and more particularly to a humidifier capable of providing high quality humidification.

In general, when there is no suitable vapor element in the room air and the temperature is high, the air is dried, causing respiratory failure or disease. Humidifier is a device that can be provided to the indoor air by granulating artificially clean water so that the indoor air can be maintained at the appropriate humidity.

The humidifier includes an ultrasonic humidifier using a vibrator, a heated humidifier using a heater, and a combined humidifier combining the above two methods. However, in any case, the humidity in the room is controlled by spraying water vapor through a nozzle installed in the discharge passage. .

1 is a cross-sectional view schematically showing the structure of a conventional humidifier.

As shown in FIG. 1, the humidifier includes a bucket 121, a fan motor 150, and a vibrator 131. Here, the bucket 121 receives water therein and is coupled to the upper part of the humidifier, and the water stored in the bucket 121 is supplied to the reservoir 112 in which the vibrator 131 is located. The vibrator 131 disposed at the bottom of the reservoir 112 atomizes the water into humidifying particles by applying ultrasonic vibration to the water.

On the other hand, the fan motor unit 150 blows the outside air to the discharge passage 127 through the upper portion of the reservoir 112, the air blown up with the humidified particles of the atomization and the discharge passage And discharged along 127. Here, the upper portion of the discharge passage 127 is provided with a nozzle unit 130 for adjusting the discharge direction of the humidifying particles.

However, the humidifier according to the prior art had the following problems.

That is, since the lift force of the humidified particles due to the blown air is increased because the length of the flow path through which the air blown from the discharge path is moved increases, soft and high-quality humidification is achieved by spraying not only fine humidified particles but also thick humidified particles to the outside. There was a limit.

Furthermore, since the length of the flow path through which the air blown in the discharge passage is moved is shortened, the speed of the blown air is increased, so that the haptic temperature in contact with the air containing the humidifying particles discharged from the nozzle is lowered to provide a warm humidifying effect. There was a limit to this.

In order to solve the above problems, an object of the present invention is to provide a humidifier capable of ensuring a soft and water-free spraying performance.

In order to achieve the above object, the present invention is a humidifier for controlling the humidity of the room by atomizing the water, provided in the discharge passage through which the atomized humidifying particles, including a flow path guide device formed with a spiral flow path inside It provides a humidifier characterized in that.

Here, the flow path guide device is made by combining the flow path guide member divided in the longitudinal direction, each of the flow path guide member has a body having an edge corresponding to the cross section of the discharge passage, the spiral blade provided inside the body It is preferably made to include.

In addition, the center portion of the spiral blade is provided with a blade coupling portion, it is preferable that the fixing projection is formed on one end of the coupling portion and the fixing groove is formed on the other end. Further, it is preferable that the rotating piece is provided on the side of the fixing protrusion, and the rotating groove is formed on the side of the fixing groove.

The body portion is provided with a coupling groove and a coupling protrusion, and the coupling protrusion is preferably fixed to the coupling groove formed in another adjacent flow guide member.

On the other hand, the flow path guide device may comprise an integral body having an edge corresponding to the cross section of the discharge passage, and a spiral blade provided inside the body.

Hereinafter, a humidifier according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

2 is a cross-sectional view of the humidifier according to an embodiment of the present invention.

As shown in FIG. 2, the humidifier includes a water tank 21, a fan motor unit 50, a vibrator 31, and a flow path guide device 40 provided in the discharge passage 27.

Here, the water stored in the reservoir 21 is introduced into the reservoir 12 provided in the lower portion of the discharge passage 27, the introduced water is a vibrator 31 provided in the lower portion of the reservoir 12 It is atomized into humidified particles by ultrasonic vibration of).

The fan motor unit 50 provided in the lower portion of the humidifier blows the outside air to the upper side of the reservoir 12. Therefore, the humidified particles atomized by the blown air are discharged upward along the discharge passage.

Here, the flow path guide device 40 in which a spiral flow path is formed inside the discharge passage 27 is provided. Therefore, since the air discharged along with the humidifying particles along the discharge passage 27 passes through the spiral passage, the discharge passage is lengthened as a whole.

Through this, relatively large humidifying particles while passing through the helical flow path hits the surface of the helical flow path and then flows downward along the surface. On the other hand, the humidifying particles having a small volume is discharged together with the air being blown, so that the feeling of the sprayed humidifying particles is softened, thereby improving the humidification quality.

3 is an exploded perspective view showing a flow path guide device according to an embodiment of the present invention.

As shown in FIG. 3, according to one embodiment of the present invention, the flow path guide device 40 is preferably formed by combining at least two flow path guide members divided in the longitudinal direction.

In detail, each of the flow path guide members includes a body 45 and a spiral blade 43. Here, the body 45 has an edge corresponding to the cross section of the discharge passage (27 in Figure 2), in the case of a circular discharge passage 27 is made of a circular cross-sectional view of the body 45. In addition, the spiral blade 43 is provided to form a flow path in a spiral on the inner edge of the body 45.

In addition, it is preferable that the fixing protrusion 44 inserted into the fixing groove 46 of the adjacent flow guide member protrudes from the central portion of the spiral blade 43, and the fixing groove is formed at the other side of the fixing protrusion. Accordingly, when the plurality of flow guide members are coupled, corresponding fixing protrusions 44 between adjacent members are inserted into the fixing grooves 46, respectively.

In addition, the side of the fixing protrusion 44 is provided with a rotating piece 48, the side of the fixing groove 46 is formed with a rotating groove 49 into which the rotating piece 48 is inserted. That is, as the rotary piece 48 is inserted into the rotary groove 49, when the plurality of flow guide members are assembled, the spiral blades 43 are arranged such that their circumferential positions are aligned so as to form a continuous curve with each other. desirable. In addition, it is possible to prevent each of the flow path guide members from being independently rotated through the combination of the rotary piece 48 and the rotary groove 49.

As shown in FIG. 3, the rotating piece 48 and the rotating groove 49 may be formed in a “+” shape with the fixing protrusion 44 and the fixing groove 46 as a center, but are not limited thereto. When assembling between neighboring flow guide members, the spiral blades 43 may be provided in other shapes such as "-" shapes so as to align positions that can form a continuous curve with each other.

In addition, the body portion 45 is preferably formed with a coupling groove 42 and the coupling protrusion 41. The coupling protrusion 41 is coupled to and fixed to the coupling groove 42 formed in another adjacent flow guide member, and the end of the coupling protrusion 41 is preferably formed in a hook shape.

Therefore, after aligning the flow guide members, pressing in the vertical direction is fixed while being inserted into the coupling groove (42). Of course, the position of the coupling protrusion 41 and the coupling groove 42 is also arranged such that the spiral blade 43 can form a continuous curve.

As such, the coupling protrusion 41 protrudes from the lower end of the assembled flow guide device 40 to the lowermost flow guide member, and the lower coupling protrusion 41 is formed in the discharge passage (27 in FIG. 2). It can be inserted into the groove to be fixed. Of course, the present invention is not limited thereto, and the flow guide device 40 may be fixed on the discharge passage in various other ways.

On the other hand, Figure 5a is a perspective view of a flow path guide device according to another embodiment of the present invention, Figure 5b is a cross-sectional view of the flow path guide device according to another embodiment of the present invention.

As shown in FIGS. 5A and 5B, the flow path guide device 240 according to the present embodiment includes an integrated body 245 and a spiral blade 243. In detail, the body 245 may be integrally formed as a cylindrical body, and may be assembled by inserting a spiral blade 243 spirally extending from the center bar 244 in a vertical direction to the inside of the cylindrical body 245. .

That is, when the body 245 and the spiral blades 243 are formed as an injection molding, it is difficult to integrate the whole body, but the cylindrical body 245 and the spiral blades 243 are manufactured as a single unit and then assembled into the flow path. Guide device can be completed.

Each embodiment of the present invention as described above is configured to help the understanding of the present invention is not limited only to the above-described embodiment, the present invention includes various modifications within the scope without departing from the technical spirit of the above-described embodiment do.

As described above, the humidifier according to the present invention has the following effects.

First, since the flow path guide device having a spiral flow path is provided in the discharge passage, thick humidifying particles fall while passing through the spiral flow path to spray only fine humidifying particles, thereby achieving smooth and high-quality humidification.

Second, the passage guide device can lengthen the length of the passage through which the air blown from the discharge passage is moved without increasing the total volume of the humidifier, and through this, appropriately adjust the speed of the discharged air to humidify the particles. It is possible to achieve a warm humidification effect by preventing the haptic temperature is in contact with the air containing.

Claims (6)

In the humidifier to control the humidity of the room by atomizing the water, Humidifier, characterized in that made in the discharge passage through which the atomized humidifying particles are discharged, comprising a flow path guide device formed with a spiral flow path inside. The method of claim 1, The flow path guide device is formed by coupling the flow path guide member divided in the longitudinal direction, each of the flow path guide members A body having an edge corresponding to a cross section of the discharge passage; Humidifier, characterized in that comprises a spiral blade provided on the inside of the body. The method of claim 2, Humidifier, characterized in that the central portion of the spiral blade is provided with a blade coupling portion, a fixing projection is formed on one end of the coupling portion and a fixing groove is formed on the other end. The method of claim 3, wherein Humidifier, characterized in that the rotating piece is provided on the side of the fixing protrusion, the rotating groove is formed in the side of the fixing groove. The method of claim 2, Humidifier, characterized in that the coupling portion and the engaging projection is formed in the body portion, the coupling projection is fixed to the coupling groove formed in the other flow guide member adjacent. The method of claim 1, The flow guide device is An integrated body having an edge corresponding to a cross section of the discharge passage; Humidifier, characterized in that comprises a spiral blade provided on the inside of the body.

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