KR101162165B1 - Humidifier - Google Patents

Abstract

The humidifier according to the present invention is provided with a bypass passage so that some of the air dehumidified in the adsorption unit is bypassed to the regeneration unit, so that the temperature of the air in the regeneration unit is increased, thereby heating the air sucked into the regeneration unit. There is an effect that can reduce the power consumption to drive the.

Humidifier, Desiccant, Adsorption Unit, Regenerator, Heater, Bypass, Power

Description

Humidifier

1 is a perspective view schematically showing the inside of the humidifier according to the prior art,

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is a perspective view schematically showing the inside of the humidifier according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

50: main body 52: barrier

54: desiccant wheel 56: third euroguide

60: adsorption part 62: first blower

64: first inlet 66: first outlet

68: first euro guide 70: regeneration unit

72: second blower 74: first intake

76: first discharge outlet 78: second euro guide

80: cooling part 90: bypass passage

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidifier, and more particularly, to a part of a humidifier that can reduce power consumption by reducing a load of a heater that heats air sucked into the regeneration unit by bypassing some of the air dehumidified in the adsorption unit to the suction side of the regeneration unit. will be.

In general, an air conditioner is to create a more comfortable indoor environment for the user. The air conditioner includes a dehumidifier for dehumidifying the room, a humidifier for humidifying the room, and a ventilation device for ventilating indoor and outdoor air. It is a device that humidifies indoor air by using the desiccant wheel of the desiccant wheel made of Kand (Desiccant).

1 is a perspective view schematically showing the inside of the humidifier according to the prior art, Figure 2 is a cross-sectional view taken along line A-A of FIG.

As shown in FIGS. 1 and 2, the humidifier according to the related art includes a main body 2 and a desiccant wheel 4 mounted inside the main body 2 to absorb or release moisture. .

A barrier 6 is mounted inside the main body 2, and the main body 2 includes an adsorption unit 10 that absorbs moisture from the outside air by the barrier 6 and a regeneration unit that discharges moisture to the outside air ( 20).

The desiccant wheel 4 penetrates the barrier 6 inside the main body, and is mounted at an inclined angle. One side of the desiccant wheel 4 is positioned at the suction unit 10 and the other side of the desiccant wheel 20. It is positioned, and a rotation means (not shown) such as a motor is provided to be rotated after a predetermined time has elapsed.

The suction part 10 is formed with a first suction hole 12 through which outside air is sucked, and a first discharge hole 14 through which air dehumidified by the suction part 10 is discharged to the outside, and the regeneration unit 20 is formed. The second suction port 22 into which the outside air is sucked and the second discharge port 24 through which the air humidified by the regeneration unit 20 is discharged are formed.

Here, the first suction opening 12 is formed on the rear surface of the main body 2, the first discharge port 14 and the second suction opening 22 are formed on the front surface of the main body 2, respectively, 2, the discharge port 24 is formed on the side of the main body (2).

The suction unit 10 is equipped with a first blower 16 for generating a blowing force so that the outside air is sucked from the first suction port 12 and discharged to the first discharge port 14, the regeneration unit 20 The second blower 26 is installed to generate a blowing force so that the outside air is sucked from the second suction port 22 and discharged to the second discharge port 24.

The first suction port 12 and the first discharge port 14 are divided into the suction part 10, and the outside air sucked into the first suction hole 12 passes through the desiccant wheel 6. A first flow guide 18 is provided to guide the flow path of the outside air to be discharged to the first discharge port 14.

In addition, the regeneration unit 20 partitions the second suction port 22 side and the second discharge port 24 side, and the outside air sucked into the second suction port 22 passes through the desiccant wheel 6. Then, a second flow guide 28 is provided to guide the flow path of the outside air to be discharged to the second discharge port 24.

The regeneration unit 20 is equipped with a heater 30 for heating the outside air sucked into the second suction port 22.

Meanwhile, one side of the regeneration unit 20 is an outside air sucked into the second suction port 22 before the desiccant wheel 6 heated in the regeneration unit 20 is rotated to the adsorption unit 10. The cooling section 8 is partitioned by the third flow guide 7 so that it can be cooled.

Referring to the operation of the humidifier according to the prior art configured as described above are as follows.

First, when the first blower 16 is operated in the adsorption unit 10, outside air is sucked through the first suction port 12 and passes through the desiccant wheel 6, whereby water contained in the outside air is stored. The desiccant wheel 6 is adsorbed, so that the outside air is dehumidified.

The outside air dehumidified by the desiccant wheel 6 is discharged to the outside through the first discharge port 14.

On the other hand, when the second blower 26 is operated in the regeneration unit 20, the outside air sucked through the second suction port 22 is heated by the heater 30, and then the desiccant wheel 6 The desiccant wheel 6 is dried while passing through).

Therefore, the desiccant wheel 6 dried by the heated outside air releases moisture to the outside air, and the outside air is humidified by the desiccant wheel 6 and then indoors through the second discharge port 24. It will be discharged.

However, the humidifier according to the related art uses a predetermined temperature of the outside air sucked into the regeneration unit 20 in order to smoothly desorb water from the desiccant wheel 6 in the regeneration unit 20 using the heater 30. When the heating up to the above, a lot of power consumption to operate the heater 30, there is a problem that the maintenance cost is high.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide a humidifier that can reduce power consumption by reducing the load of the heater.

Humidifier according to the present invention for solving the above problems is installed by the barrier to the main body partitioned into the adsorption unit and the regeneration unit, and rotatably through the barrier, one side is located in the adsorption unit is absorbed, the other side Bypass means for bypassing a desiccant wheel located at the regeneration unit to be dampproof, a heater mounted at the regeneration unit to heat outside air sucked into the regeneration unit, and a part of air dehumidified at the adsorption unit to the regeneration unit; Characterized in that configured to include.

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

3 is a perspective view schematically showing the inside of the humidifier according to the present invention.

As shown in FIG. 3, the humidifier according to the present invention is rotatable and penetrates the main body 50 partitioned into the adsorption part 60 and the regeneration part 70 and the barrier 52 by the barrier 52. It is installed so that, one side is located in the adsorption unit 60, the moisture absorption, the other side is located in the regeneration unit 70, the desiccant wheel 54 and moisture-proof, mounted on the regeneration unit 70, the regeneration And a heater (not shown) for heating the outside air sucked into the unit 70 and bypass means for bypassing some of the air dehumidified in the adsorption unit 60 to the regeneration unit 70.

The interior of the main body 50 is partitioned into left and right spaces by the barrier 52 arranged vertically, wherein the adsorption part 60 is a left space and the regeneration unit 70 is a right space.

The adsorption unit 60 of the main body 50 is equipped with a first blower 62 for generating a blowing force so that the outside air is sucked into the adsorption unit 60 and discharged to the outside, and the regeneration of the main body 50 is performed. The unit 70 is equipped with a second blower 72 for generating a blowing force so that the outside air is sucked into the regeneration unit 70 and discharged to the indoor side.

Here, the first and second blowers 62 and 72 are composed of a sirocco fan and a fan motor for operating the sirocco fan.

The suction part 60 of the main body 50 has a first suction port 64 through which outside air is sucked into the suction part 60, and a first discharge port through which the air dehumidified by the suction part 60 is discharged to the outside ( 66 are formed, respectively, the second suction port 74 where the outside air is sucked into the regeneration unit 70 and the air humidified by the regeneration unit 70 are discharged to the regeneration unit 70 of the main body 50. Second discharge holes 76 to be formed are respectively formed.

The first suction port 64 is formed on the rear surface of the main body 50, and the first discharge port 66 and the second suction port 74 are formed on the front surface of the main body 50, respectively, and the second discharge port 76 is formed on the side of the main body 50.

In addition, the suction part 60 guides a flow path of the outside air to be discharged to the first discharge port 66 after the outside air sucked into the first suction port 64 passes through the desiccant wheel 54. A flow guide 68 is provided, and the regeneration unit 70 has external air sucked into the second suction port 74 so as to be discharged to the second discharge port 76 after passing through the desiccant wheel 54. A second flow guide 78 for guiding the flow path is provided.

That is, the first flow guide 68 is formed to partition the first suction port 64 side and the first discharge port 66 side, the second flow guide 78 is the second suction port 74 side And the second discharge port 76 side.

On the other hand, the second suction port 74 side in the regeneration unit 70 is the outside air sucked into the second suction port 74 before the moisture-proof portion of the desiccant wheel 54 is rotated to the suction unit 60. It has the cooling part 80 partitioned so that it may cool by.

That is, the regeneration unit 70 is partitioned upward and downward by a third flow guide 56 disposed horizontally between the barrier 52 and the second flow guide 78, and the second suction port 74 The lower side located in front of the to form the cooling unit 80, the upper side is to form a moisture-proof unit to damp moisture to the outside air passed through the cooling unit (80).

Meanwhile, the desiccant wheel 54 penetrates the barrier 52 and is inclined at a predetermined angle, and the portion located in the adsorption part 60 absorbs moisture from the air passing through the adsorption part 60. The portion located in the regeneration unit 70 is a portion that moisture-proof moisture with air passing through the regeneration unit 70.

The desiccant wheel 54 is rotated after a predetermined time has elapsed, such as a motor for rotating the desiccant wheel 54 so that the portion absorbed by the adsorption unit 60 can be reproduced in the regeneration unit 70, etc. Rotating means (not shown) is mounted.

The rotating means (not shown) may be a motor in which a rotating shaft is formed at the center of rotation of the desiccant wheel 54, and the motor is connected by a belt wound around an outer circumference of the desiccant wheel 54. It is also possible.

On the other hand, the bypass means is a bypass passage 90 formed in the barrier 52, the bypass passage 90 is the air bypassed by the suction unit 60 is sucked into the regeneration unit 70 It is preferably formed on the air intake side of the regeneration unit 70 to be combined with the outside air.

That is, the bypass passage 90 is a passage formed in the barrier 52 so that the adsorption part 60 and the cooling part 80 communicate with each other.

Looking at the operation of the humidifier according to the present invention configured as described above are as follows.

First, when the first blower 62 is operated in the adsorption unit 60, outside air is sucked through the first suction port 64, and passes through the desiccant wheel 54.

At this time, the desiccant wheel 54 absorbs moisture from the outside air, and the outside air is dehumidified by the desiccant wheel 54.

Some of the air dehumidified through the desiccant wheel 54 is discharged to the outside through the first discharge port 66, and the rest is introduced into the cooling unit 80 through the bypass passage 90. do.

On the other hand, when the second blower 72 is operated in the regeneration unit 70, outside air is sucked into the cooling unit 80 through the second suction opening 74.

Therefore, in the cooling unit 80, the dehumidified air introduced into the bypass passage 90 and the outside air sucked into the second suction opening 74 are combined.

The air combined in the cooling unit 80 is heated by the heater (not shown), and then passes through the upper side of the desiccant wheel 54, thereby drying the desiccant wheel 54.

The desiccant wheel 54 dried by the heated air discharges moisture into the air, and the air is humidified by the desiccant wheel 54 and then discharged into the room through the second discharge port 76. Thus, humidification of the room is achieved.

Here, since the air dehumidified in the adsorption part 60 increases in temperature while dehydrating the desiccant wheel 54, the temperature is higher than that of the outside air.

Therefore, since the temperature of the outside air is increased while the dehumidified air having a higher temperature than the outside air is mixed with the outside air sucked into the second intake port 74, the air is operated to heat the outside air sucked into the second intake port 74. It is possible to reduce the load of the heater (not shown).

Meanwhile, when the desiccant wheel 54 is rotated after a predetermined time has elapsed, a portion of the desiccant wheel 54 positioned in the regeneration unit 70 to moisture-proof the cooling unit 80 After passing through the second suction port 74 is cooled by the outside air is sucked into the adsorption unit 60, it is possible to smoothly absorb the moisture from the outside air in the adsorption unit (60). .

The humidifier according to the present invention configured as described above is provided with a bypass passage so that some of the air dehumidified in the adsorption unit is bypassed to the regeneration unit, so that the temperature of the air in the regeneration unit is increased, so that the air sucked into the regeneration unit There is an effect that can reduce the power consumption to drive the heater for heating the.

Claims (4)

The barrier 52 is divided into an adsorption part 60 and a regeneration part 70, and a first suction port 64 and a first discharge port 66 are formed in the suction part 60, and the regeneration part 70 is formed in the suction part 60. A main body 50 having a second suction port 74 and a second discharge port 76; A desiccant wheel 54 which penetrates the barrier 52 and is installed to be rotatable, one side of which is located at the adsorption unit 60 and is absorbed and the other side of which is located at the regeneration unit 70; A bypass passage 90 through which the dehumidified air passing through the desiccant wheel 54 in the adsorption unit 60 is combined with the outside air sucked into the second suction port 74; And a heater mounted on the regeneration unit (70) to heat the outside air sucked into the second suction port (74) and the air bypassed to the bypass passage (90). The method of claim 1, The bypass passage (90) is a humidifier formed in the barrier (52). delete The method of claim 1, The regeneration unit 70 is partitioned so that the moisture-proof part of the desiccant wheel 54 is cooled by the outside air sucked into the second suction port 74 before being rotated by the adsorption unit 60 and the bypass passage. And a cooling unit (80) into which the dehumidified air introduced into (90) is combined with the outside air sucked into the second suction port (74).

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