KR101398897B1 - Ventilation unit and air conditioner having the same - Google Patents

Abstract

The present invention relates to a ventilation apparatus and an air conditioner having the ventilation apparatus. The ventilation device includes a ventilation duct for venting indoor air, a ventilation duct for ventilation of the outside air into the room, a humidification rotor for ventilation of air in the ventilation duct to one side and air in the ventilation duct to the other side, An exhaust fan provided downstream of the humidifying rotor of the exhaust passage, an air supply fan provided downstream of the humidification rotor of the air supply passage, and a supply fan provided downstream of the humidification rotor of the air supply passage. And a heater provided upstream of the humidifying rotor of the flow path.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ventilation apparatus,

1 is a perspective view showing an air conditioner to which a ventilator according to the present invention is applied.

2 is a perspective view showing the internal structure of a ventilator according to the present invention.

3 is a perspective exploded perspective view of the ventilation device according to the present invention.

4 is a schematic view showing a ventilator according to the present invention.

Description of the Related Art [0002]

1: indoor unit, 2: outdoor unit,

10: ventilation device, 11: cabinet,

12: humidifying chamber, 12a: regeneration space,

12b: absorption space, 13: feeding chamber,

14: exhaust chamber, 20: humidification rotor,

21: driving motor, 31: inflow inlet,

32: first outside air inlet port, 33: damper,

34: second outside air inlet port, 35: heater,

41: first communication passage, 42: exhaust fan,

43: exhaust fan casing, 44: exhaust duct,

51: second communication channel, 52: air supply fan,

53: air supply fan casing, 54: air supply duct.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilator and an air conditioner having the ventilator, and more particularly, to a ventilator capable of performing humidification of indoor air together with ventilation and an air conditioner having the ventilator.

Japanese Patent Laying-Open No. 2002-22246 discloses an air conditioner having a humidifier. The humidifying device of the air conditioner absorbs moisture from the outside air to the humidifying rotor, and again humidifies the moisture adsorbed by the humidifying rotor to generate humidified air, and then humidifying air is supplied to the room through the humidifying hose.

 However, since the air conditioner equipped with the humidifying device only supplies the humidifying air to the room through the humidifying hose, the pressure of the room air is increased, and the increase of the pressure causes a decrease in the amount of air introduced into the room through the humidifying hose Respectively. Therefore, the humidification of the indoor air could not be smooth. In addition, since the air conditioner performs only air supply through the humidifying hose, the indoor air can not be ventilated smoothly.

It is an object of the present invention to provide a ventilator and an air conditioner provided with the ventilator for facilitating the humidification and ventilation of the room.

In order to achieve the above object, the present invention provides a ventilator comprising: an exhaust passage for exhausting room air; an air supply passage for introducing the outside air into the room; an air supply passage for passing air from the air discharge passage to one side, A humidification rotor provided so as to allow air to pass therethrough; a driving motor for rotating the humidification rotor; an outside air inflow passage for introducing outside air into the upstream side of the humidification rotor of the exhaust passage; An air supply fan provided downstream of the humidification rotor of the air supply flow passage, and a heater provided upstream of the humidification rotor of the air supply flow passage.

Further, the ventilator of the present invention is characterized by further comprising a damper for opening and closing the outside air inflow passage.

Further, the ventilator of the present invention includes a central humidifying chamber and a cabinet having an air supply chamber and an air discharge chamber provided to be partitioned on both sides of the humidification chamber, wherein the humidification rotor is installed in the humidification chamber, And the air supply fan is installed in the air supply chamber.

Wherein the humidifying chamber includes an adsorption space divided into upper and lower portions and a regeneration space, and the exhaust passage includes an exhaust gas inlet for introducing indoor air into the adsorption space, and an air inlet for guiding the air on the downstream side of the humidification rotor in the adsorption chamber to the exhaust chamber A first communication passage, an exhaust fan casing installed in the exhaust chamber to receive the exhaust fan, and an exhaust duct for guiding air discharged from the exhaust fan casing to the outside, A second communication passage for guiding air downstream of the humidification rotor of the regeneration space to the air supply chamber, an air supply fan casing installed in the air supply chamber to receive the air supply fan, air discharged from the air supply fan casing And an air supply duct for guiding the indoor air toward the indoor space.

And the outside air inflow passage communicates with the space on the upstream side of the humidification rotor in the adsorption space.

The ventilation device of the present invention is characterized in that a direction of flow of the air flowing through the adsorption space is opposite to a direction of flow of the air flowing through the regeneration space.

The exhaust duct extends from the exhaust fan casing to pass through the regeneration space and the air supply chamber, and the air supply duct extends from the air supply fan casing to pass through the absorption space and the exhaust chamber.

Further, the air conditioner according to the present invention includes an indoor unit and an outdoor unit, and the ventilator is installed in the outdoor unit.

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

1, an air conditioner to which a ventilator according to the present invention is applied includes an indoor unit 1 installed in a room and an outdoor unit 2 installed outdoors. Although not shown, the indoor unit 1 includes an indoor heat exchanger and an indoor air blowing fan, and the outdoor unit 2 includes an outdoor heat exchanger, an outdoor air blowing fan, and a compressor for compressing the refrigerant. The indoor unit (1) and the outdoor unit (2) are interconnected by refrigerant pipes.

The ventilator (10) is mounted on the top of the outdoor unit (2). The ventilator 10 is connected to the indoor unit 1 through the air supply passage A and the air discharge passage B. Although the air supply flow path A and the air flow path B are not specifically shown in the drawings, they may be formed of a normal hose or a duct. The air supply passage A guides the air passing through the ventilator 10 to the indoor unit 1 and the exhaust passage B guides the indoor air to the ventilator 10. So that ventilation of the room can be performed by the operation of the ventilator (10).

2, the ventilator 10 includes a cabinet 11 having a feed chamber 13 and an exhaust chamber 14 on both sides of a central humidification chamber 12 and a humidification chamber 12, Respectively. The air supply chamber 13 and the exhaust chamber 14 are partitioned from the humidification chamber 12 by the partition plates 15 and 16. The humidifying chamber 12 is partitioned into a lower adsorption space 12b and an upper regeneration space 12a by a partition plate 17. [

A humidifying rotor (20) is installed in the center of the humidifying chamber (12). The humidification rotor 20 is installed to rotate in a state in which the upper portion is exposed in the regeneration space 12a and the lower portion is exposed in the adsorption space 12b. As shown in Fig. 3, a drive motor 21 for slowly rotating the humidification rotor 20 is provided in the adsorption space 12b. The humidification rotor 20 and the drive motor 21 are connected to the driven gear 22 on the outer surface of the humidification rotor 20 by the drive gear 23 provided on the shaft of the drive motor 21.

The humidifying rotor 20 is made of silica gel, zeolite, alumina, or the like as a honeycomb, and air can pass therethrough. When the air passes through the humidifying rotor 20, the moisture contained in the air is adsorbed, and the adsorbed moisture is vaporized again and included in the air.

In this configuration, the moisture contained in the outside air is adsorbed by the humidifying rotor 20 in the course of the outside air flowing into the adsorption space 12b passing through the lower portion of the humidifying rotor 20, and the outside air introduced into the regeneration space 12a (Regenerate) moisture through vaporization of the moisture adsorbed by the humidifying rotor 20 in the course of passing through the upper portion of the humidifying rotor 20. [ More specific details regarding this operation will be described later.

2 and 3, an inflow inlet 31 through which the air discharged from the indoor unit 1 flows in the side (cabinet side) of the adsorption space 12b, A first outside air inflow port 32 is formed. The first outside air inflow port 32 is provided with a damper 33 which can open and close the first outside air inflow port 32 as required. A second outside air inflow opening 34 into which the outside air flows into the regeneration space 12a is formed on the side of the opposite side regeneration space 12a (cabinet side). A heater 35 is provided on the upstream side of the humidification rotor 20 in the regeneration space 12a for heating the air flowing into the second outside air inlet port 34.

The exhaust chamber 14 communicates with the downstream side of the humidification rotor 20 of the adsorption space 12b through the first communication passage 41 and the feed chamber 13 communicates with the regeneration space 13 via the second communication passage 51 12a on the downstream side of the humidification rotor 20. [ At this time, the flow direction of the air flowing through the adsorption space 12b and the regeneration space 12a are opposite to each other, so that the first communication passage 41 and the second communication passage 51 are located in the diagonal direction of the humidifying chamber 12 .

The exhaust chamber (14) is provided with an exhaust fan (42) formed of a multi-rotor centrifugal fan. The exhaust fan 42 is accommodated in an exhaust fan casing 43 provided in the exhaust chamber 14. The air blown by the operation of the exhaust fan (42) is discharged to the outside of the cabinet (11) through the exhaust duct (44). The exhaust duct 44 extends from the exhaust fan casing 43 through the downstream side of the humidification rotor 20 of the regeneration space 12a and the air supply chamber 13.

In the air supply chamber 13, an air supply fan 52, which is a multi-air centrifugal fan, is installed. The air supply fan 52 is accommodated in an air supply fan casing 53 installed in the air supply chamber 13 and the air blown by the operation of the air supply fan 52 is supplied to the outside of the cabinet 11 through the air supply duct 54 . The air supply duct 54 extends from the air supply fan casing 53 to the downstream side of the humidification rotor 20 of the absorption space 12b and the exhaust chamber 13. [ The outlet 54a of the air supply duct 54 is connected to the indoor unit 1 through an air supply passage A formed through a separate duct or a hose as shown in FIG. Fig. 4 is a schematic diagram showing the configuration of such a ventilator 10. Fig.

According to this configuration, the exhaust passage in the ventilator 10 is connected to the inside air inlet 31 or the first outside air inlet 32, the suction space 12b, the first communication passage 41, the exhaust chamber 14, The fan casing 43, and the exhaust duct 44. The air supply passage in the ventilator 10 is connected to the second outdoor air inlet 34, the regeneration space 12a, the second communication passage 51, the air supply chamber 13, the air supply fan casing 53, the air supply duct 54 .

This configuration allows the air passing under the humidifying rotor 20 to pass through the adsorption space 12b and the air passing through the upper side of the humidifying rotor 20 through the regeneration space 12a to flow in the direction opposite to the humidifying rotor 20, So that the pressure of the air applied to both sides (the adsorption space side and the regeneration space side) of the adsorbent 20 can be substantially equalized. This minimizes the phenomenon that the air flowing into the room and the air discharged into the room are mixed in the humidifying chamber (12).

 In this configuration, the heat exchange between the air exhausted from the room to the outside by the exhaust duct 44 through the air supply chamber 13 and the air supply duct 54 passing through the exhaust chamber 14 and the air introduced into the room from outside the room . That is, heat can be recovered to minimize heat loss in the room.

The operation of the ventilator will be described below.

The air supply fan 52 and the exhaust fan 42 operate when the damper 33 opens the first outside air inflow opening 32. In this case, In addition, the heater 35 is operated and the humidifying rotor 20 is gradually rotated by the operation of the drive motor 21. [

At this time, the air introduced into the adsorption space 12b through the first outside air inflow port 32 passes under the humidifying rotor 20, so that the moisture contained in the outside air is adsorbed to the humidifying rotor 20. [ The air is passed through the first communication passage 41, the exhaust chamber 14, the exhaust fan casing 43, and the exhaust duct 44 by the operation of the exhaust fan 42, and is then discharged to the outside. This air flow is for adsorbing moisture to the humidifying rotor 20. [ At this time, the air on the side of the indoor unit (1) is sucked into the adsorption space (12b) through the inflow inlet (31), and this air is also discharged to the outside through the same route by the operation of the exhaust fan (42).

The air introduced into the regeneration space 12a through the second outside air inlet port 34 is heated by the heater 35 and then passes through the upper side of the humidification rotor 20. At this time, the moisture adsorbed by the humidifying rotor 20 is vaporized and included in the air, so that the humidity of the air passing through the humidifying rotor 20 becomes high. This air is supplied to the indoor unit 1 through the second communication passage 51, the air supply chamber 13, the air supply fan casing 53 and the air supply duct 54 in order by the operation of the air supply fan 52 .

As described above, the ventilator 10 discharges the indoor air to the outside and also supplies the outside air to the indoor space, so that it is possible to smoothly ventilate the indoor space without increasing the pressure of the indoor space. In addition, since the humidification of the air introduced into the room during the ventilation process can be performed, the humidity of the room can be controlled.

On the other hand, when only the ventilation is performed without performing the humidification in the summer, the damper 33 closes the first outside air inlet 32 and the heater 35 does not operate. In this state, when the air supply fan 52 and the exhaust fan 42 operate, ventilation of the room can be performed.

As described above in detail, the ventilator according to the present invention is capable of discharging indoor air to the outside and supplying outdoor air to the indoor space, so that indoor ventilation can be smoothly performed. Also, since the air introduced into the room through the humidifying rotor can be humidified, the humidification can be performed simultaneously with the ventilation.

Further, since the damper can close the first outside air inlet, the present invention has an effect that only ventilation can be performed without humidifying operation.

Claims (9)

A humidification chamber including an adsorption space and a regeneration space which are partitioned from each other, a cabinet having an air supply chamber and an exhaust chamber each of which is partitioned with respect to the humidification chamber, An exhaust passage for discharging indoor air to the outside, An air supply duct for introducing outside air into the room, A humidification rotor provided in the humidifying chamber so that the air of the exhaust passage passes through one side and the air of the air supply passage flows to the other side; A driving motor for rotating the humidifying rotor; An outside air inflow passage for introducing outside air to the upstream side of the humidification rotor of the exhaust passage, An exhaust fan provided in the exhaust chamber downstream of the humidification rotor of the exhaust passage; An air supply fan provided in the air supply chamber downstream of the humidification rotor of the air supply passage, And a heater provided upstream of the humidification rotor of the air supply passage, Wherein the exhaust flow path includes an inflow inlet through which the air discharged from the room flows into the adsorption space, a first communication flow path through which the room air having flowed through the inflow inlet and passed through the humidifying rotor flows into the exhaust chamber, An exhaust fan casing installed in the exhaust chamber to receive the exhaust fan, and an exhaust duct for guiding air discharged from the exhaust fan casing to the outside. The method according to claim 1, And a damper for opening and closing the outside air inflow passage. delete The method according to claim 1, Wherein the air supply flow path includes an outside air inlet for introducing outside air into the regeneration space, a second communication flow path for guiding air downstream of the humidification rotor in the regeneration space to the air supply chamber, an air supply fan casing And an air supply duct for guiding the air discharged from the air supply fan casing toward the indoor space. The method according to claim 1, Wherein the outside air inflow passage communicates with the space on the upstream side of the humidification rotor in the adsorption space. The method according to claim 1, Wherein a flow direction of air flowing through the adsorption space and a flow direction of air flowing through the regeneration space are opposite to each other. 5. The method of claim 4, Wherein the exhaust duct extends from the exhaust fan casing to pass through the regeneration space and the feed chamber, Wherein the air supply duct extends from the air supply fan casing to pass through the adsorption space and the exhaust chamber. An air conditioner comprising a ventilator according to any one of claims 1, 2 and 4 to 7. 9. The method of claim 8, Wherein the air conditioner includes an indoor unit and an outdoor unit, Wherein the ventilator is installed in the outdoor unit.

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