KR100624708B1 - Ventilating apparatus - Google Patents

Abstract

The present invention relates to a ventilation device having a dehumidification unit to perform dehumidification of air.

Ventilation apparatus according to the present invention is an intake flow path for guiding the outdoor air to the indoor, the exhaust flow path for guiding the indoor air to the outside, the heat transfer unit for the heat passing through the air passing through the intake flow path and the exhaust flow path to each other And a dehumidifying unit disposed on the outdoor side flow path of the total heat exchange unit to adsorb moisture in the air sucked into the room, wherein air passing through the exhaust passage bypasses the heat exchange unit to the suction side of the dehumidifying unit of the intake flow path. The bypass flow path to be guided is provided so that the dehumidification of the indoor air can be performed without ventilation.

Description

Ventilation device {VENTILATING APPARATUS}

1 is a schematic view showing a ventilation dehumidification operation mode of the ventilation apparatus according to the present invention.

Figure 2 is a schematic diagram showing the ventilation alone operation mode of the ventilation apparatus according to the present invention.

Figure 3 is a schematic diagram showing a dehumidification alone operation mode of the ventilation apparatus according to the present invention.

4 is a schematic diagram of a ventilation device according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: main body 11: intake flow path

11a: outdoor intake vent 11b: indoor exhaust vent

11c: intake fan 12: exhaust flow path

12a: indoor intake 12b: outdoor exhaust

12c: exhaust fan 13: communication hole

20: electrothermal exchange unit 30: dehumidification unit

31: heater 32: dehumidification damper

33: regenerative damper 40: bypass flow

41: opening and closing damper

The present invention relates to a ventilator, and more particularly to a ventilator having a dehumidification unit to perform dehumidification of air.

In general, the ventilator is used as a part of the building's air conditioning system, and the device is configured to ventilate the indoor space by discharging the indoor air to the outside and inhaling the outdoor air into the room to ventilate the building.

The conventional ventilation device is provided with a total heat exchange unit for heat exchange between the outdoor air sucked into the room and the indoor air discharged to the outside, and included in the outdoor air sucked into the room on the outdoor side flow path of the heat exchange unit. It contains components such as a dehumidification unit for absorbing the moisture present and then supplied to the room.

However, since the conventional ventilation device is capable of dehumidifying only outdoor air sucked from the outside through a dehumidifier, there is a problem in that a separate dehumidifier is required when only dehumidification of indoor air is performed without performing ventilation. .

The present invention is to solve such a problem, it is an object of the present invention to provide a ventilation device that can dehumidify the indoor air through the dehumidification unit included therein.

In order to achieve the above object, the present invention provides an intake passage for guiding outdoor air to an interior, an exhaust passage for guiding indoor air to the outdoors, and an air passing through the intake passage and an air passing through the exhaust passage A ventilator having a total heat exchange unit for exchanging heat and a dehumidifying unit disposed on an outdoor flow path of the total heat exchange unit to adsorb moisture in the air sucked into the room, wherein at least part of the air passing through the exhaust flow path is provided. Bypass the heat exchange unit and characterized in that it comprises a bypass passage to be guided to the suction side of the dehumidification unit of the intake passage.

In addition, one end of the bypass passage may be connected to the suction side of the total heat exchange unit of the exhaust passage, and the other end of the bypass passage may be connected to the suction side of the dehumidification unit of the intake passage.

The bypass passage may include an open / close damper that opens the bypass passage in a dehumidification only operation mode in which only indoor air is dehumidified.

In addition, the opening and closing damper is characterized in that for selectively opening any one of the bypass passage and the outdoor air inlet for allowing the outdoor air to be sucked into the interior.

In addition, the dehumidification unit is formed in a disk shape and rotatably installed in the main body, a part of which is disposed in the intake passage to adsorb moisture in the air passing through, and a portion of the dehumidification unit is disposed in the exhaust passage to pass the adsorbed moisture. It characterized in that it comprises a dehumidifying rotor for discharging into the air.

Hereinafter, one preferred embodiment of the present invention will be described in detail with reference to the drawings.

Ventilation apparatus according to the present invention is installed to be embedded in the ceiling or wall of the building, as shown in Figure 1, the intake passage 11 and the indoor air to guide the outdoor air to the interior in the main body 10 forming the appearance as shown in FIG. The exhaust passage 12 for guiding the outdoor to the compartment is provided, the indoor intake port (12a) for the indoor air is sucked on one side of the main body 10 and the indoor exhaust port (11b) for discharging the outdoor air to the interior is provided and the main body ( 10) On the other side, an outdoor intake port 11a through which outdoor air is sucked and an outdoor exhaust port 12b through which indoor air is discharged to the outside are provided, respectively, and the outdoor intake port 11a and the indoor exhaust port 11b are formed by the intake flow passage 11. The outdoor air inlet 12a and the outdoor exhaust port 12b are connected to each other by the exhaust passage 12 so as to suck the outdoor air into the room.

An intake fan 11c and an exhaust fan 12c are respectively disposed in the intake flow passage 11 and the exhaust flow passage 12 to generate a blowing force so that air can flow along the intake flow passage 11 and the exhaust flow passage 12. According to the operation of the intake fan 11c and the exhaust fan 12c, the outdoor air and the indoor air flow along the intake passage 11 and the exhaust passage 12, respectively, to allow ventilation.

The intake passage 11 and the exhaust passage 12 intersect with each other, and at the intersection thereof, the outdoor air sucked into the interior through the intake passage 11 and the indoor air discharged to the outside through the exhaust passage 12 are mutually different. The total heat exchange unit 20 which arranges heat exchange is arrange | positioned. The total heat exchange unit 20 is alternately stacked such that a flow path through which the air sucked into the room through the intake flow passage 11 passes and a flow path through which the air discharged to the outside through the exhaust flow passage 12 passes at right angles to each other, The air passing through the intake passage 11 and the air passing through the exhaust passage 12 intersect and exchange heat without mixing with each other.

On the outdoor side flow path of the total heat exchange unit 20 is provided a dehumidification unit for absorbing the moisture contained in the air sucked into the room through the intake passage 11 to lower the humidity of the room. In the present embodiment, the dehumidification unit includes a dehumidification rotor 30 formed in a disk shape and rotatably installed on the intake passage 11 and the exhaust passage 12, and the dehumidification rotor 30 has a part of the intake passage. It is disposed in the (11) to adsorb the moisture contained in the air passing through the intake passage (11), the remaining portion is disposed in the exhaust passage (12) is adsorbed while being heated by a heater 31 that generates heat Existing water is discharged into the air passing through the exhaust passage 12 to be regenerated. Therefore, the dehumidification rotor 30 is periodically rotated and regenerated by a driving motor (not shown), etc., so that the dehumidification rotor 30 can be used for a long time without replacing the dehumidification rotor 30.

In addition, a dehumidification damper 32 and a regeneration damper 33 are provided at an adjacent portion of the dehumidifying rotor 30 to selectively perform dehumidification of air by the dehumidifying rotor 30 and regeneration of the dehumidifying rotor 30. have.

The dehumidification damper 32 opens and closes a space between the dehumidification rotor 30 and the wall of the intake passage 11, and when it is necessary to dehumidify the sucked air, the dehumidification rotor 30 and the intake passage 11 The space between the walls is closed to allow all air passing through the intake passage 11 to pass through the dehumidification rotor 30. When dehumidification is unnecessary, the space between the dehumidification rotor 30 and the intake passage 11 is opened. The air passing through the intake passage 11 can bypass the dehumidifying rotor 30 and pass therethrough.

The regeneration damper 33 opens and closes the space between the dehumidification rotor 30 and the wall of the exhaust passage 12, and when the dehumidification rotor 30 needs to be regenerated, the dehumidification rotor 30 and the exhaust passage 12 are provided. To close the space between the walls of the exhaust passage 12 so that all the air passing through the dehumidification rotor 30 passes through the dehumidification rotor 30 and when the regeneration is unnecessary, the space between the walls of the dehumidification rotor 30 and the exhaust passage 12 is opened. Thus, the air passing through the exhaust passage 12 can bypass the dehumidifying rotor 30 and pass therethrough.

Therefore, when the ventilator according to the present invention operates in a ventilation dehumidification operation mode in which the ventilation and dehumidification of indoor air are performed simultaneously, the dehumidification damper 32 opens a space between the dehumidification rotor 30 and the wall of the intake passage 11. A part of the air sucked into the opening passes through the dehumidification rotor 30 and is dehumidified, and the other part is sucked into the room as it is through the space between the wall of the dehumidification rotor 30 and the exhaust passage 12, and the regeneration damper 33 By closing the space between the wall of the dehumidification rotor 30 and the exhaust passage 12 so that the indoor air is discharged to the outside through the dehumidification rotor 30, the ventilation and dehumidification by the ventilator is performed. At this time, the power is applied to the heater 31 to heat the dehumidification rotor 30 of the portion disposed on the exhaust passage 12 to evaporate the moisture adsorbed in the dehumidification rotor 30, the dehumidification rotor 30 Moisture adsorbed in the evaporation is discharged to the outdoor with indoor air, the regeneration of the dehumidification rotor 30 is made so that the dehumidification rotor 30 can continuously perform dehumidification.

Subsequently, when the ventilation apparatus according to the present invention operates in the ventilation alone operation mode for performing indoor ventilation only, the dehumidification damper 32 is the dehumidification rotor 30 and the intake passage 11 as shown in FIG. 2. The space between the walls of the regeneration damper 33 opens the space between the wall of the dehumidification rotor 30 and the exhaust passage 12 so that the air can flow by bypassing the dehumidification rotor 30, so that only indoor ventilation is allowed. It can be done. At this time, a part of the outdoor air sucked out and the indoor air discharged flows through the dehumidification rotor 30, respectively, but in the ventilation alone operation mode, power is not applied to the heater 31 so that the regeneration of the dehumidification rotor 30 is prevented. Since it is not made, dehumidification by the dehumidification rotor 30 is hardly achieved.

In addition, the ventilator 40 according to the present invention, the bypass air passage 40 to guide the indoor air sucked through the indoor inlet 12a bypasses the heat exchange unit 20 to the suction side of the dehumidifying rotor 30 where the outdoor air is sucked. ) Is provided. In this embodiment, the bypass passage 40 has one end connected to the suction side of the heat exchange unit 20 of the exhaust passage 12, and the other end thereof is connected to the suction side of the dehumidification rotor 30 of the intake passage 11. Air sucked from the bypass heat transfer unit 20 is to be delivered to the suction side of the dehumidification rotor (30).

In addition, the bypass passage 40 is provided with an opening and closing damper 41 to open the bypass passage 40 only when the dehumidification alone operation mode in which only the dehumidification of the indoor air. In this embodiment, the opening and closing damper 41 is disposed adjacent to the outdoor air intake port 11a to selectively open any one of the bypass passage 40 and the outdoor air intake port 11a. Reference numeral 12d denotes an outdoor exhaust port opening / closing member 12d for opening and closing the outdoor exhaust port 12b.

Accordingly, when the ventilation device according to the present invention performs the ventilation dehumidification operation mode or the ventilation alone operation mode, the bypass passage 40 is kept closed by the opening / closing damper 41, but only the dehumidification of the room is independent. In the case of the dehumidification alone operation mode performed as shown in FIG. 3, the opening / closing damper 41 operates to open the bypass passage 40, and close the outdoor air intake port 11a. Accordingly, at least a part of the indoor air sucked in the room through the indoor intake port 12a and moved along the exhaust flow path 12 flows into the intake side of the dehumidifying rotor 30 of the intake flow path 11 along the bypass flow path 40. Subsequently, the dehumidification is continued while passing through the dehumidification rotor 30 and then discharged into the room through the intake air passage 11 to dehumidify the room.

In the present embodiment, the opening and closing damper 41 selectively opens any one of the bypass passage 40 and the outdoor intake port 11a. However, the opening and closing damper 41 is not limited thereto, as shown in FIG. 4. It is also possible to provide an outdoor intake opening / closing member 11d for opening and closing the outdoor intake opening 11a separately.

As described above in detail, the ventilator according to the present invention is provided with a bypass passage for guiding at least a portion of the indoor air moving along the exhaust passage to the dehumidification unit suction side can be sucked into the dehumidification unit through the bypass passage. Since there is an effect that can be performed to dehumidify the indoor air without performing ventilation.

Claims (5)

An intake flow passage for guiding outdoor air to the interior, an exhaust flow passage for guiding indoor air to the outside, an electrothermal heat exchange unit for causing heat exchange between the air passing through the intake passage and the air passing through the exhaust passage, and the electrothermal exchange A ventilator provided with a dehumidification unit disposed on an outdoor side flow path of a unit to adsorb moisture in the air sucked into an interior, And a bypass passage through which at least a portion of the air passing through the exhaust passage passes the bypass heat exchange unit to be guided to the suction side of the dehumidification unit of the intake passage. The method of claim 1, And one end of the bypass passage is connected to the suction side of the total heat exchange unit of the exhaust passage, and the other end of the bypass passage is connected to the suction side of the dehumidification unit of the intake passage. The method of claim 1, The bypass passage includes an opening and closing damper for opening the bypass passage in the dehumidification only operation mode that performs only dehumidification of the indoor air. The method of claim 3, wherein The opening / closing damper selectively opens any one of the bypass flow path and the outdoor air inlet for allowing the outdoor air to be sucked into the inside. The method of claim 1, The dehumidification unit is formed in a disc shape and rotatably installed in the main body, a part of which is disposed in the intake passage to adsorb moisture in the air passing through, and a part of which is disposed in the exhaust passage and passes through the adsorbed moisture. Ventilation apparatus comprising a dehumidifying rotor for discharging into the air.

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