KR200418082Y1 - humidifier - Google Patents

Abstract

In order to provide a higher quality humidification, the present invention is a humidifier to control the humidity of the room by atomizing the water, the fan motor unit for blowing air; A humidifier body having a vibrating element amplifier and a pipe heater at a lower portion thereof, the first blower opening through which air passing through the vibrating element amplifier passes, and a second blowing hole through which air passing through the pipe heater passes; And a second discharge passage communicating with one of the first and second blowers, and the second discharge passage communicated with another one of the first and second blowers, and partitioned to meet the first discharge passage at an upper portion thereof. It provides a humidifier characterized in that it comprises a discharge passage including a flow path.

Humidifier, Discharge Path, Vibration Element Amplifier

Description

Humidifier

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

Figure 2a and Figure 2b is an exploded perspective view showing a lower structure of a conventional humidifier body.

3 is a top plan view of the humidifier according to an embodiment of the present invention.

Figure 4 is a perspective view of the humidifier according to an embodiment of the present invention.

5 and 6 are exploded perspective view showing a lower structure of the humidifier body according to an embodiment of the present invention.

Figure 7 is a plan view showing a discharge passage provided in the humidifier body according to an embodiment of the present invention.

8 is a cross-sectional view taken along the line AA ′ of FIG. 7.

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

11: humidifier body 13: fan motor unit

15: pipe heater 31: vibrator

35: vibration element amplifier 36: heat sink

41: 1st air vent 42: 2nd air vent

50: discharge passage 51: the first discharge passage

52: second discharge flow path 55: partition plate

56: first guide portion 57: second guide portion

The present invention relates to a humidifier, and more particularly, to a humidifier capable of achieving 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, but 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 general ultrasonic humidifier.

As shown in FIG. 1, the humidifier includes a main body 111, a bucket 121, and a vibrator 131. Here, the bucket 121 receives water therein and is coupled to an upper side of the main body 111, and the vibrator 131 is in contact with water at the bottom of the reservoir 112 provided at the bottom of the bucket. Disposed to granulate water by applying ultrasonic vibrations to the water.

In addition, the handle 122 is formed in the upper region of the bucket 121, the water supply port 123 is formed at the bottom. The water supply port 123 is coupled to the water supply valve 125 to open the water supply port 123 when coupled with the main body 111 and to block the water supply port 123 when separated from the main body 111. The bucket 121 is formed with a discharge passage 127 along the vertical direction so that the granulated water can be discharged to the outside.

The upper surface of the main body 111 is formed with a reservoir 112 to accommodate the water therein. In addition, the receiving portion 116 is formed to accommodate the water flowing out through the water supply port 123 of the bucket 121, the receiving portion 116 and the reservoir 112 are mutually by the pipe heater 115. Connected to communicate. The reservoir 112 is provided with a level sensor 117 to detect the water level. The bottom surface of the reservoir 112 is formed with a through hole 114 which is downwardly opened, and a heat sink 141 is integrally coupled to the through hole 114.

A communication hole 142 is formed in the central region of the heat sink 141 so as to be in communication with the through hole 114, and the oscillator may be in contact with the water of the storage chamber 112 in the communication hole 142. 131 is coupled. The heat sink 141 is disposed around the vibrator 131 and serves to promote heat dissipation of the vibrator 131. The discharge passage 127 has a cylindrical shape, and the nozzle 150 is rotatably seated on the step, so that the user can adjust the direction. The nozzle 150 has a circular opening at the bottom thereof to communicate with the discharge passage 127.

By this configuration, when the water tank 121 is seated on the main body 111, the water supply valve 125 is opened, the water of the water tank 121 is discharged through the water supply port 123, the receiving portion 116 and the inside Water flows into the reservoir 112 through a pipe heater 115 through which water is supplied. When water is received in the reservoir 112, the water is granulated by the vibrator 131, and the granulated water is sprayed to the outside through the discharge passage 127 and the nozzle 150 by a blower fan (not shown). do.

2a and 2b is a view showing the lower structure of the humidifier body according to the prior art.

As shown in FIG. 2A, a vibration device amplifier 221 is provided below the main body 111, and the vibrator (131 of FIG. 1) is ultrasonically vibrated by the operation of the vibration device amplifier 221. In this case, the vibrating element amplifier 221 generates heat, and air is blown by the fan motor 213 around the heat sink 222 connected to the generated amplifier 221. The blown air is cooled to the heat sink 222 and the amplifier 221 and then guided to the tuyeres 215 around the pipe heater 115, and the air passing through the tuyeres 215 is atomized by the vibrator. Along with the humidified particles are discharged to the discharge passage (127 of Figure 1).

In addition, as shown in Figure 2b, the lower portion of the main body 111 is covered with a cover portion 214, the blown air is guided by the cover portion 214 from the fan motor 213 to the tuyere 215. Can be.

However, the humidifier according to the prior art is the air blown by the fan is first cooled by heating the outside of the pipe heater after cooling the heat generated by the vibration element amplifier is discharged to the outlet through one flow path.

At this time, since the warm air passing through the vibrating device amplifier and the pipe heater meets the cold humidifying particles immediately after being atomized by the vibration of the vibrator, the temperature is cooled again to achieve a warm humidification. In other words, since the warm air flows upward in contact with cold humidifying particles for humidifying indoors, there is a problem that it is difficult to substantially achieve warm and comfortable humidification.

In order to solve the problems as described above, an object of the present invention is to provide a humidifier for maintaining the warm state of the air discharged with the humidifying particles through the humidifier.

In order to achieve the above object, the present invention is a humidifier for controlling the humidity of the room by atomizing the water, fan motor for blowing air; A humidifier body having a vibrating element amplifier and a pipe heater at a lower portion thereof, the first blower opening through which air passing through the vibrating element amplifier passes, and a second blowing hole through which air passing through the pipe heater passes; And a second discharge passage communicating with one of the first and second blowers, and the second discharge passage communicated with another one of the first and second blowers, and partitioned to meet the first discharge passage at an upper portion thereof. It provides a humidifier characterized in that it comprises a discharge passage including a flow path.

Here, the lower portion of the first discharge passage is provided with a vibrator to atomize the water using ultrasonic waves, it is preferable that the atomized humidifying particles are upward by the air blown. Further, the cross section of the second discharge passage is preferably formed in a "U" shape along the edge of the discharge passage.

In addition, the lower portion of the main body is preferably provided with a cover portion for guiding the flow of the air blown from the fan motor portion divided into the first and second vents.

Hereinafter, a humidifier according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail. Here, the same components as in the prior art are given the same name and the same reference numerals for convenience of description and detailed description thereof will be omitted.

Figure 3 is a plan view of the humidifier body according to an embodiment of the present invention, Figure 4 is a perspective view of the humidifier body according to an embodiment of the present invention.

3 and 4, the humidifier is a device for controlling the humidity of the room by atomizing the water, one side of the humidifier main body 111 is provided with a vibrator 31 for atomizing the water using ultrasonic waves do. The reservoir 12 is formed around the vibrator 31 to store water from the bucket. In addition, one side and the other side of the water storage chamber 12 is formed with tuyere (41, 42), respectively, one of the tuyere 41 is the air blown through it through the humidifier particles atomized by the vibrator (31) To face.

On the other hand, Figure 5 is an exploded perspective view showing the lower part of the humidifier main body according to an embodiment of the present invention.

As shown in Figure 5, the lower portion of the humidifier main body 11 is provided with a fan motor 13, a vibration element amplifier 35 and a pipe heater 15 for blowing air. The vibrating device amplifier 35 is a device for vibrating the vibrator by ultrasonic waves, and generates a lot of heat during operation, so it is necessary to cool the air by blowing air so as not to overheat. In addition, the pipe heater 15 is a device for guiding the water supplied from the water tank to the water storage chamber and heating it to a predetermined temperature.

Here, the fan motor unit 13 includes a motor for rotating the fan by supplying a fan and power to blow external air to the lower part of the humidifier main body, and is blown by the fan motor unit 13. Some of the air is directed to the vibration element amplifier 35 and the other is directed to the pipe heater 15.

Meanwhile, a heat sink 36 is connected to the vibration device amplifier 35, and the air directed toward the vibration device amplifier 35 and the heat sink 36 cools the vibration device amplifier 35 and the heat sink 36. Preferably, the air is passed through the first tuyeres 41 to the water storage chamber. In addition, the air passing through the pipe heater 15 passes through the second air vent 42.

Therefore, the air passing through the first and second air outlets 41 and 42 absorbs heat from the vibrating element amplifier 35 and the pipe heater 15, respectively, and thus becomes warm.

Figure 6 is a perspective view showing a lower portion of the humidifier body according to an embodiment of the present invention.

As shown in Figure 6, the lower portion of the humidifier main body 11 is covered with a cover portion (14). Here, the flow of air blown from the fan motor unit 13 is guided by dividing the above-described first and second vents by the cover unit 14.

On the other hand, Figure 7 is a plan view showing a discharge passage provided in the upper portion of the humidifier main body according to an embodiment of the present invention, Figure 8 is a cross-sectional view showing a cross-sectional view taken along line A-A 'of FIG.

As shown in FIG. 7 and FIG. 8, the lower portion of the discharge passage 50 is partitioned by the partition portion 55 into the first discharge passage 51 and the second discharge passage 52, and the first from the upper portion. And the second discharge passages 51 and 52 meet. Here, the humidifying particles discharged through one of the discharge passages are discharged together with warm air discharged through the other discharge passages from the top.

In detail, the discharge passage 50 is provided with a vibrator 31 at a lower portion thereof so that the first discharge passage 51 upwards the humidified particles, and is partitioned at a lower portion thereof and meets the first discharge passage 51 at an upper portion thereof. It is preferable to include a second discharge passage (52). Here, the aforementioned first blower opening (41 of FIG. 4) communicates with the first discharge passage 51, and the second blower opening (42 of FIG. 4) communicates with the second discharge passage 52.

To this end, a lower portion of the discharge passage 50 is provided with a first guide portion 56 for guiding the air passing through the first air outlet 41 to the first discharge passage 51, the second air outlet ( It is preferable that the second guide portion 57 for guiding the air passing through the 52 to the second discharge passage 52 is provided.

Therefore, since the vibrator 31 which atomizes water by using ultrasonic waves is provided below the first discharge passage 51, humidified particles atomized by the vibrator 31 are blown through the first blower 41. Up by air. Thereafter, the air blown along with the humidifying particles along the first discharge passage 51 meets the warm air flowing along the second discharge passage 52 at the upper portion of the discharge passage 50, thereby moving to the outside of the humidifier. The overall temperature of the vented air can be kept warm.

As shown in FIG. 7, in order to secure as much as possible the cross-sectional area of the first discharge passage 51 through which the humidifying particles are discharged, the cross section of the second discharge passage 52 is “U” along the edge of the discharge passage. It is preferred to be shaped like a child. Through this, the first discharge passage 51 and the second discharge passage 52 can effectively meet at the upper portion of the discharge passage 50 without significantly narrowing the cross-sectional area of the first discharge passage 51. have.

On the other hand, according to another embodiment of the present invention, the first air outlet 41 is in communication with the second discharge passage 52, the second air outlet 42 is configured to be in communication with the first discharge passage (51). It may be. Even in this case, since the basic configuration is the same as the above-described embodiment, a description thereof will be omitted.

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, the air blown by the fan motor unit is divided through the heat sink and the pipe heater of the vibrating element amplifier provided in the lower part of the humidifier main body, and then is blown to different discharge passages partitioned in the discharge passage. The blown air may raise the atomized cold humidifying particles and the air blown into the second discharge channel may be kept warm. That is, part of the warm air is discharged by joining the flow of humidifying particles upward from the upper part of the discharge passage, so that the humidifying particles discharged from the humidifier are blown together with the air maintaining the warm state to achieve substantially warm and comfortable humidification. Can be.

Second, the discharge passage of the humidifier is partitioned, the cross-sectional size of the first discharge passage in which the humidifying particles are upward since the cross section of the second discharge passage in which warm air is blown is formed in a "U" shape along the edge of the discharge passage. Can be kept as long as possible.

Claims (4)

In the humidifier to control the humidity of the room by atomizing the water, A fan motor unit for blowing air; A humidifier body having a vibrating element amplifier and a pipe heater at a lower portion thereof, the first blower opening through which air passing through the vibrating element amplifier passes, and a second blowing hole through which air passing through the pipe heater passes; And A first discharge passage communicating with any one of the first and second ventilation openings, and a second discharge passage communicating with another one of the first and second cooling openings and partitioned to meet the first discharge passage at an upper portion thereof; Humidifier comprising a discharge passage comprising a. The method of claim 1, The lower portion of the first discharge passage is provided with a vibrator to atomize the water by using ultrasonic waves, characterized in that the humidified particles are humidified, characterized in that up by the air blown. The method of claim 1, Humidifier, characterized in that the cross section of the second discharge passage is formed in a "U" shape along the edge of the discharge passage. The method of claim 1, Humidifier, characterized in that the lower portion of the main body is provided with a cover portion for guiding the flow of air blown from the fan motor portion divided into the first and second vents.

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