KR20150138678A - A ventilating apparatus with heat exchanger and a ventilating method therewith - Google Patents

Abstract

The present invention relates to a ventilating device using a total enthalpy heat exchanger. To achieve the purpose, the ventilating device using a total enthalpy heat exchanger according to the present invention comprises: a total enthalpy heat exchanger; an intake duct and an exhaust duct communicating with the total enthalpy heat exchanger to extend to multiple preset regions; and diffusers installed on the exhaust duct and the intake duct in each of the regions. The intake duct includes: an intake branching pipe branching from a position before a first intake diffuser and connected to the exhaust duct at a position before the first exhaust diffuser; and an intake valve provided for the intake branching pipe to selectively open and close an intake flow path from the total enthalpy heat exchanger to the intake duct and a branching flow path from the total enthalpy heat exchanger to the intake branching pipe. The ventilating device using a total enthalpy heat exchanger according to the present invention is efficient and can be applied easily to an existing ventilating device as an exhaust branching pipe and an intake branching pipe are formed between an exhaust pipe and an intake pipe to enable the exhaust pipe and the intake pipe to be used simultaneously for exhaust or intake, and air can be supplied to or exhausted from preset regions rapidly even without an increase in the capacity of a fan.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation apparatus using a total enthalpy heat exchanger and a ventilation method using the ventilation apparatus.

[0001] The present invention relates to a ventilation system using an enthalpy heat exchanger, and more particularly, to a ventilation system for ventilation using an enthalpy heat exchanger for exchanging heat between polluted air discharged from an outside air roll and fresh air from the outside, And more particularly, to a ventilator using an improved total enthalpy heat exchanger so that air supply can be performed more quickly.

The present invention also relates to a method for ventilation by a ventilator using the total enthalpy heat exchanger.

In the apartment house or residential complex building, a ventilation system is installed to discharge polluted air from the room to the outside and to supply fresh air outdoors to the room. In this ventilator, when the polluted air is exhausted to the outside, heat exchange with fresh air introduced from the outside is performed so that the total heat exchanger is installed as a waste heat recovering means for minimizing energy loss.

As an example of a ventilator using such an all-pass heat exchanger, a domestic ventilating system and its control method disclosed in Korean Patent Application No. 10-2005-16065, schematically shown in FIG. 1, includes a heat exchanger, An exhaust duct 1 for exhausting polluted air generated from the indoor space (the room, the room 1, the living room) except for the kitchen, and the range hood to the outside, And outdoor air supplied to the room and outdoor air discharged to the outside are heat-exchanged at a point where the air supply duct 1 and the air discharge duct 3 intersect, that is, above the range hood 5 And a heat exchanger (7) is provided so as to simultaneously supply the exhaust gas and the exhaust gas.

In the case of using the total enthalpy heat exchanger, 75 to 80% of the heat is recovered even in the case of being sold in the domestic market, so that the heating cost due to the heat loss during the discharge of the indoor air due to the ventilation can be reduced.

In the conventional ventilating apparatus using the total enthalpy heat exchanger, a duct is always installed in a predetermined space of a plurality of indoor spaces, for example, when the indoor floor height is low, a flat duct is sucked from a diffuser into predetermined indoor spaces, The air is supplied from the side. However, when the supply or exhaust needs to be changed more quickly in the entire room, the capacity of the fan must be increased on the basis of the maximum supply or exhaust capacity, and thus the duct size must also be increased in the case of increasing the capacity of the fan The installation cost of the ventilator is increased.

In addition, since the air supply and exhaust are performed at the same time, the entire indoor space can not be supplied or exhausted quickly, and a blind spot may exist at the time of supplying and exhausting the air.

Korean Patent Application No. 10-2005-16065

SUMMARY OF THE INVENTION It is an object of the present invention to improve a ventilation system using a conventional total enthalpy heat exchanger so as to be able to supply or exhaust air with a variable capacity without increasing the capacity of the fan, The present invention provides an improved ventilation system using an all-air heat exchanger.

It is another object of the present invention to provide a ventilation method that can ventilate more quickly and efficiently without using a dead zone by using the total enthalpy heat exchanger.

In order to attain the above object, the ventilating apparatus using the total enthalpy heat exchanger according to the present invention is characterized in that the ventilating apparatus using the total enthalpy heat exchanger comprises a total enthalpy heat exchanger, A ventilation system using an air-conditioning duct, an exhaust duct, and an exhaust heat exchanger having diffusers installed in respective exhaust ducts and air supply ducts in the respective zones,

The air supply duct includes an air supply bifurcation branching at a position prior to the first air supply diffuser and connected to the exhaust duct at a position ahead of the first exhaust diffuser,

The supply air distribution mechanism includes an air supply valve provided to selectively open and close a supply flow path from the total enthalpy heat exchanger to the supply duct and a branch flow path from the total enthalpy heat exchanger to the supply air distribution duct.

An exhaust duct connected to the air supply duct of the air supply duct in front of the first exhaust diffuser at a position downstream of the position where the air supply / distribution pipe is connected and in front of the first air supply diffuser; and an exhaust flow path and a branch flow path to the total heat exchanger, And an exhaust valve provided to open and close the exhaust valve.

In addition, in the simultaneous operation mode of the air supply and exhaust, the contaminated indoor air which is sucked in through the exhaust channel is exhausted, and the supply air supplied through the branch channel of the exhaust pipe connected to the air supply channel is exhausted, The air supply valve in the mood unit blocks the branch flow path to the air supply duct so that the air supply through the total enthalpy heat exchanger is directed to the air supply duct of the air supply duct, while the exhaust valve in the air distribution duct is branched from the air distribution duct branching from the air supply duct Thereby blocking the flow path.

In the rapid exhaust operation mode, the contaminated air in the room is sucked through the diffuser of the exhaust pipes and the exhaust pipes of the respective zones, and the exhaust gas introduced into the exhaust gas is passed through the branch flow path of the exhaust branch pipe, The exhaust valve in the air distribution duct is branched from the air supply duct so that the air supply through the total enthalpy heat exchanger is directed only to the air supply duct of the air supply duct, And is located at the neutral position so as to open both the branch flow path of the exhaust pipe and the exhaust flow path of the exhaust pipe.

In the rapid air supply operation mode, the air supply through the total enthalpy heat exchanger is supplied through the air supply duct and the air supply diffuser, and at the same time, the supply air is supplied to the room through the exhaust pipe and the exhaust diffuser through the open branching flow path of the air supply / The air supply valve of the air supply distribution mechanism is positioned at the neutral position while the exhaust valve blocks the branch flow path of the exhaust air flow branching from the air supply duct.

The ventilation system using the total enthalpy heat exchanger according to the present invention can form an exhaust duct and an air supply duct between the exhaust pipe and the air supply duct so that the exhaust duct and the air supply duct can be used for exhaust or air supply at the same time, The predetermined zones can be supplied or discharged quickly, which is efficient and can be easily applied to existing ventilation devices.

1 is a schematic view showing a schematic structure of a ventilator using a conventional total enthalpy heat exchanger.
FIG. 2 is a configuration diagram of a ventilator using an enthalpy heat exchanger according to the present invention, and is a schematic configuration diagram of a ventilator in a simultaneous supply and exhaust mode of operation. FIG.
Fig. 3 is a configuration diagram of the ventilation device of Fig. 2 in the exhaust operation mode for rapid exhaust. Fig.
Fig. 4 is a configuration diagram of the air supply operation mode for rapid supply in the ventilator of Fig. 2; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2, the ventilator using the total enthalpy heat exchanger includes an total enthalpy heat exchanger 100 and a plurality of sections 101, 102, 103 and 104 communicated with the total enthalpy heat exchanger and set in advance The air supply duct 105 and the exhaust duct 106, and the diffusers 107 and 108 installed in the respective exhaust ducts and the air supply ducts in the respective zones.

According to the present invention, the ventilator includes a supply air distributor 110 branched from the air supply duct 105 at a position preceding the first air supply diffuser 107 and connected to the exhaust duct 106 at a position ahead of the first exhaust diffuser 108 And the air supply duct is provided at the branching position with an air supply duct 131 for supplying air from the total enthalpy heat exchanger 100 to the air supply duct 105 and a supply duct 111 for selectively opening and closing the branch duct 111 from the air supply duct 110 to the air supply duct. A valve 115 is provided.

The first air supply diffuser 107 is connected to the air supply duct 131 of the air supply duct 105 at a position ahead of the first exhaust diffuser 108 on the downstream side of the position where the air supply distribution mechanism 110 is connected to the exhaust duct 106. [ The exhaust air flow path 109 to the total enthalpy heat exchanger 100 and the branch flow path 117 of the exhaust branch pipe 116 are selectively opened and closed in the exhaust branch pipe 116, A valve 118 is provided.

In the total enthalpy heat exchanger 100, outside air flows in the inlet 121 and is discharged to the air supply mechanism 122 to supply fresh air to the room through the air supply flow path 131. The contaminated air in the room is discharged through an exhaust port 125 and is discharged to the discharge port 126. An air supply flow path 131 between the air supply port 121 and the air supply mechanism 122 and an air discharge flow path 109 between the air discharge port 125 and the discharge port 126, Is provided with an exhaust heat recovery device (150) for exchanging heat between outdoor air to be supplied and indoor air to be exhausted, so that the supply air temperature is raised by heat from the exhaust air. For this purpose, the heat exchanger constituting the exhaust heat recovery apparatus 150 is composed of a heat plate having an excellent thermal conductivity, so that indoor air can be cleaned and energy can be saved at the same time.

Hereinafter, a ventilation method using the ventilator of the present invention will be described. The ventilation method according to the present invention can operate the entire area to be ventilated by selecting the simultaneous operation modes of the air supply and exhaust, the quick exhaust operation mode and the quick supply operation mode.

The simultaneous operation mode of the air supply and exhaust process shown in FIG. 2 is a mode in which fresh air is supplied to the room through the air supply duct 131 through a diffuser using a conventional total enthalpy heat exchanger, So that the exhaust is simultaneously performed.

In the simultaneous operation mode of the air supply and exhaust, the air supply valve 115 in the air supply distribution mechanism 110 guides the air supply through the total enthalpy heat exchanger to the air supply duct 131 of the air supply duct 105, Thereby blocking the flow path 111. On the other hand, the exhaust valve 118 in the exhaust branch pipe 116 blocks the branch passage 117 of the exhaust branch pipe 116 branched from the air supply duct 105, So that the supply air supplied through the branch flow path 117 of the exhaust branch pipe 116 connected to the air supply flow path 131 is not exhausted. As a result, fresh outside air is supplied to each room through the air supply duct in the total heat exchanger, while contaminated air in the room is disposed in the total heat exchanger to perform heat exchange.

In the quick exhaust operation mode, in a state in which the supply air valve 115 in the air supply distribution mechanism 110 blocks the branch flow path 111 such that the air supply through the total enthalpy heat exchanger is directed only to the air supply flow path 131 of the air supply duct 105 So that the exhaust valve 118 in the exhaust air distribution pipe 116 opens both the branch flow path 117 of the exhaust branch pipe 116 branched from the air supply duct 105 and the exhaust flow path 109 of the exhaust pipe, The exhausted air flowing into the air supply duct flows through the branch flow path 117 of the exhaust branch pipe 116 and through the exhaust flow path of the exhaust pipe, So that the contaminated air in the room is simultaneously exhausted in all the zones without a dead zone.

In this way, the indoor air can be discharged to the outside through the air intake pipe and the exhaust pipe at the same time, so that the exhaust of the building can be expedited by opening all the windows of the building without increasing the capacity of the fan. For example, It can be quickly removed from all areas of the room.

In the rapid air supply operation mode, in a state in which the exhaust valve 118 in the exhaust air distribution pipe 116 cuts off the branch flow passage 117 of the exhaust air distribution pipe 116 branched from the air supply duct 105, The air supply valve 115 of the air supply duct 110 is positioned at the neutral position so that the air supply through the total enthalpy heat exchanger is supplied through the air supply duct and the air supply diffuser and the supply air is supplied through the open branching flow passage 111 of the air supply / To the indoor.

In this quick air supply mode, fresh air can be supplied quickly to all areas of the room through the air supply line and the exhaust pipe without any blind spots, so that the same effect as supplying air quickly through all the windows of the building without increasing the capacity of the fan .

As described above, according to the present invention, it is possible to rapidly supply the indoor unit without blind spot by using the exhaust pipe for the air supply through the air distribution system together with the air supply unit, and at the same time, It is possible to quickly and efficiently exhaust the indoor full-width zone without using a dead zone by using it as an exhausting device, so that the air supply and exhaust can be performed efficiently and promptly without increasing the capacity of the fan.

The ventilator of the present invention can be used to quickly perform the intake and exhaust of the room and can be easily applied to the existing ventilation structure by installing only the air supply and exhaust air distribution system.

100: total heat exchanger 101, 102, 103, 104: (ventilation) area
105: air supply duct 106: exhaust duct
107: Supply Diffuser 108: Exhaust Diffuser
110: Air supply / distribution system 111, 117:
116; Vessel 118: Exhaust valve

Claims (6)

An exhaust heat exchanger 100 and an exhaust duct 105 and an exhaust duct 106 extending from the exhaust heat exchanger and extending to a plurality of predetermined zones 101, 102, 103 and 104, And diffusers (107, 108) installed in an air supply duct, the ventilation device comprising:
The air supply duct 105 is connected to the air supply duct 110 branched from the position prior to the first air supply diffuser 107 and connected to the exhaust duct 106 at a position ahead of the first exhaust diffuser 108,
The air supply distribution mechanism is provided with an air supply valve (115) provided to selectively open and close the branch air flow path (111) from the total enthalpy heat exchanger (100) to the air supply duct (105) Wherein the ventilator is a ventilator. The air conditioner according to claim 1, wherein the first air supply diffuser (108) is connected to the first air supply diffuser (107) in a position upstream of the first air supply diffuser (108) A ship mover 116,
Further comprising an exhaust valve (118) provided to selectively open and close the exhaust passage (109) and the branch passage (117) to the total enthalpy heat exchanger (100) . The air conditioner according to claim 2, wherein in the simultaneous operation mode of air supply and exhaust, contaminated indoor air which is sucked in through the exhaust path is exhausted from the room, The air supply valve 115 of the air supply distribution mechanism 110 is controlled so that the air supply through the total enthalpy heat exchanger is directed to the air supply duct 131 of the air supply duct 105 so that the air supply supplied through the air supply duct 110 The exhaust valve 118 in the exhaust branch pipe 116 cuts off the branch flow path 117 of the exhaust branch pipe 116 branched from the air supply duct 105 Wherein the ventilating device is a ventilating device using an total enthalpy heat exchanger. 3. The exhaust gas purification apparatus according to claim 2, wherein in the rapid exhaust operation mode, the contaminated air in the room is drawn through the diffuser of the exhaust pipes and the exhaust pipes of the respective zones, And the air supply valve 115 is branched from the air supply branch pipe 110 so that the air supply through the total enthalpy heat exchanger is directed to the air supply duct 131 of the air supply duct 105 so as to be simultaneously exhausted through the exhaust duct of the air supply duct The exhaust valve 118 of the exhaust branch pipe 116 is branched from the branch pipe 117 of the exhaust branch pipe 116 branched from the air supply duct 105 and the exhaust pipe 118 of the exhaust pipe, So as to open all of the ventilation openings. The air conditioner according to claim 2, wherein, in the quick supply operation mode, the air supply through the total enthalpy heat exchanger is supplied through the air supply duct and the air supply diffuser, and the air supply is supplied through the open branching flow path (111) The exhaust valve 118 of the exhaust branch pipe 116 is connected to the branch pipe 117 of the exhaust branch pipe 110 branched from the air supply duct 105 so as to be supplied And the air supply valve (115) is located at a neutral position. The air supply valve 115 in the air supply distribution mechanism 110 cuts off the branch flow path 111 to the air supply branch pipe 110 so that the air supply through the total enthalpy heat exchanger is directed to the air supply flow path 131 of the air supply duct 105 On the other hand, the exhaust valve 118 in the air conditioner 116 cuts off the branching flow path 117 of the exhaust branch pipe 116 branched from the air supply duct 105, so that fresh outside air flows through the air supply duct in the total heat- A simultaneous operation mode of the air supply and exhaust, which is supplied to each of the zones and in which the contaminated air in the room is arranged as the total enthalpy heat exchanger to perform heat exchange,
The supply air is supplied from the air supply duct 110 to the air supply duct 111 while the air supply valve 115 cuts off the branch flow passage 111 so that the air supply through the total enthalpy heat exchanger is directed to the air supply duct 131 of the air supply duct 105 The exhaust valve 118 in the exhaust duct 105 is located at the neutral position so as to open both the branch passage 117 of the exhaust branch pipe 116 branched from the air supply duct 105 and the exhaust passage of the exhaust pipe, The exhaust gas is sucked through the diffuser of the exhaust pipes and the exhaust pipes of the respective sections in the respective zones and the exhaust gas introduced into the exhaust gas pipes is exhausted simultaneously through the branch passage 117 of the exhaust branch pipe 116 and the exhaust passage of the exhaust pipe Exhaust operation mode,
The air supply valve 118 of the air distributing boom tube 116 closes the branch air flow path 117 of the air exhausting duct 116 branched from the air supply duct 105, (115) is located at the neutral position, and the air supply through the total enthalpy heat exchanger is supplied through the air supply duct and the air supply diffuser, and the air supply is also supplied to the room through the exhaust pipe and the exhaust diffuser through the open branching flow path (111) And a ventilating method using the total enthalpy heat exchanger including a quick supply operation mode.

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