KR100577205B1 - Ventilation Systems - Google Patents

Abstract

The present invention is to provide a ventilation system to reduce the size of the ventilation system, to provide a ventilation system to minimize the installation space in the ceiling and to easily modify the structure of the ventilation system suitable for the ventilation conditions.

To this end, the present invention is installed on the outdoor side, the air inlet for intake of the outdoor air is formed, the air supply fan case having an air supply fan for forcibly sucking the outdoor air, and supplies to the interior; An exhaust fan case installed at an indoor side and configured to suck an indoor pollution air, and an exhaust fan case having an exhaust fan configured to forcibly suck the indoor pollution air and discharge the indoor pollution air; An electric heat exchanger provided between the air supply fan case and the exhaust fan case and having a heat exchanger configured to mutually heat-exchange the outdoor air supplied to the room through the air supply fan case and the indoor air discharged to the outside through the exhaust fan case; case; An air supply unit connecting the air supply fan case and the heat exchanger case and connecting the heat exchanger case and the indoor side to form a flow path for supplying outdoor air to the room; In addition, a ventilation system including an exhaust part connected between the exhaust fan case and the heat exchanger case and connecting between the heat exchanger case and the outdoor side to form a flow path for discharging indoor air to the outside is provided.

Ventilation system, supply fan case, exhaust fan case

Description

Ventilation Systems

1 is a perspective view schematically showing the internal structure of a ventilation system according to the prior art

Figure 2 is a perspective view schematically showing the structure of a ventilation system according to an embodiment of the present invention

Figure 3 is a perspective view schematically showing an example of a modified structure of the ventilation system according to an embodiment of the present invention

4 is a perspective view schematically showing another example of a modified structure of the ventilation system according to the embodiment of the present invention.

** Explanation of symbols for main parts of drawings **

100: air supply fan case 101: air supply inlet

110: air supply fan 200: exhaust fan case

201: exhaust inlet 210: exhaust fan

310: first class doctor 320: second class doctor

330: supply passage 340: supply connection duct

410: the first exhaust duct 420: the second exhaust duct

430: exhaust passage 440: exhaust connection duct

500: total heat exchanger case 510: total heat exchanger

The present invention relates to a ventilation system, and more particularly to an improved structure of the ventilation system.

The air in an enclosed space increases the carbon dioxide content over time due to the breathing of living things, which interferes with the breathing of living things. Therefore, if many people stay in a narrow space such as an office or a vehicle, it is necessary to frequently replace the indoor air with fresh air. At this time, a commonly used ventilation system.

Most conventional ventilation systems employ a method of forcibly discharging only indoor air to the outside using a single blower. However, when forcibly discharging only the indoor air by using one blower, the indoor air is discharged to the outside without filtration and the outdoor air is introduced without the heat exchange through the door or window gap, and the room is heated. And the cost of cooling has become unnecessarily high.

In addition, due to the sudden inflow of cold air and heat from inside to outside people suddenly change the temperature of the interior people there is unpleasant feelings, especially in the state that the indoor window or door frame closed to discharge only the indoor air to the outside In this case, the inflow of external fresh air may be blocked and oxygen deficiency may occur, and the humidity of the indoor air is not controlled at all, and a problem of failing to maintain a comfortable indoor environment despite the ventilation system is provided. there was.

In order to solve this problem, a total heat exchange type ventilation system for exchanging outdoor air with indoor air discharged to the outside first and then supplying the indoor air has been proposed.

1 is a perspective view schematically showing the internal structure of a ventilation system according to the prior art.

As shown in FIG. 1, an air supply doc 10 is provided in a box-shaped case 1 to guide outdoor air to an interior, intersects with the air supply doc 10 at a predetermined position, and the indoor air is outdoors. Guided exhaust duct 20 is provided.

In addition, an electric heat exchanger (5) is provided in which heat is exchanged between the outdoor air that is supplied at the point where the air supply duct 10 and the exhaust duct 20 intersect with the indoor air that is exhausted.

One end of the air supply duct 10 is formed with an air supply inlet port 11 is in communication with the outside, the other end is formed with an air supply outlet 13 is in communication with the room, one end of the exhaust duct 20 is in communication with the room An exhaust inlet 21 is formed, and the other end is formed with an exhaust outlet 23 communicating with the outdoors.

On the air supply duct 10 installed inside the case 1, an air supply fan 15 for forcibly sucking outdoor air from the outside and supplying the air to the room is installed, and the indoor air is forced on the exhaust duct 20. Exhaust fan 25 is sucked into and discharged to the outside is installed.

Referring to the operation of the total heat exchange ventilation system configured as described above are as follows.

First, when the indoor air is contaminated to some extent, power is supplied to the exhaust fan 25, and the indoor pollution air enters the exhaust duct 20 through the exhaust inlet 21, and then passes through the heat exchanger 5 to the exhaust outlet. It is discharged to the outdoor through 23.

At the same time, while supplying power to the air supply fan 15, fresh outdoor air flows into the air supply duct 10 through the air supply inlet 11, and then passes through the heat exchanger 5 to the room through the air supply outlet 13. Supplied.

At this time, the indoor air and the outdoor air passing through the heat exchanger (5) are mutually heat exchanged to supply outdoor air having a temperature suitable for the room.

However, the ventilation system of the above-described structure has the following problems.

In the conventional ventilation system, the air supply fan 15 and the exhaust fan 25 are installed in both cases around the electric heat exchanger 5 in the case 1.

At this time, since the air supply fan 15 and the exhaust fan 25 are installed in a structure in which air is sucked in the axial direction and flows in the axial direction, the height H of the heat exchanger 5 must be made high. No, the height of each duct 10, 20 according to it was also made high.

For this reason, the size of the overall ventilation system can not only be manufactured large, there was a problem that a large number of installation space should be provided when installing the building ceiling.

In addition, since the ventilation system is manufactured to be integrated into one configuration, there is a problem that it is difficult to cope with a structure suitable for the ventilation conditions.

For example, when it is necessary to secure the amount of ventilation lost due to the flow resistance of each duct of the ventilation system or to ensure sufficient heat exchange, it is not simply changeable but needs to be redesigned to be suitable for the ventilation conditions. There was an accompanying problem.

The present invention is to solve the above-mentioned problems, the object of the present invention is to reduce the size of the ventilation system, to provide a ventilation system to minimize the installation space in the ceiling.

It is also an object of the present invention to provide a ventilation system that can easily modify the structure of the ventilation system suitable for the ventilation conditions.

In order to achieve the above object, the present invention is installed on the outdoor side, the air inlet for inlet air is formed, the inside of the air supply is provided with an air supply fan to forcibly suck the outdoor air, and supply the room Fan case; An exhaust fan case installed at an indoor side and configured to suck an indoor pollution air, and an exhaust fan case having an exhaust fan configured to forcibly suck the indoor pollution air and discharge the indoor pollution air; An electric heat exchanger provided between the air supply fan case and the exhaust fan case and having a heat exchanger configured to mutually heat-exchange the outdoor air supplied to the room through the air supply fan case and the indoor air discharged to the outside through the exhaust fan case; case; An air supply unit connecting the air supply fan case and the heat exchanger case and connecting the heat exchanger case and the indoor side to form a flow path for supplying outdoor air to the room; In addition, the exhaust fan case and the heat exchanger case is connected, and between the heat exchanger case and the outdoor side to provide a ventilation system comprising an exhaust unit for forming a flow path for discharging indoor air to the outside.

An embodiment of the present invention will be described in more detail with reference to the accompanying drawings 2 to 4.

2 is a perspective view schematically showing the structure of a ventilation system according to an embodiment of the present invention, Figure 3 is a perspective view schematically showing an example of a modified structure of the ventilation system according to an embodiment of the present invention, 4 is A perspective view schematically showing another example of a modified structure of the ventilation system according to the embodiment of the present invention.

That is, as shown in Figure 2, the ventilation system according to an embodiment of the present invention is installed on the outdoor side, the air supply intake port 101 for sucking the outdoor air is formed, therein forcibly sucked the outdoor air And an air supply fan case 100 having an air supply fan 110 for supplying the indoors, and an exhaust inlet 201 installed at an indoor side and suctioning indoor pollution air, and having the indoor pollution air therein. The exhaust fan 210 having a exhaust fan 210 for forcibly sucking and discharging it to the outside, and an air supply unit for supplying the indoor air sucked by the operation of the air supply fan 110 to the room; Is installed to intersect the air supply unit, the exhaust unit for discharging the indoor polluted air sucked by the operation of the exhaust fan 210 to the outside, and is provided at the intersection of the air supply unit and the exhaust unit, the outdoor air and indoor The total heat exchanger 510 that exchanges heat between contaminated air It is configured to include a total heat exchanger case 500 provided.

As shown in FIG. 2, the air supply unit includes a first air supply doctor 310, a second air supply doctor 320, and an air supply passage 330, and each component is modularized. It can be exchanged and converted selectively as needed.

Here, one end of the first air supply doctor 310 is connected to the air supply fan case 100, the other end is connected to one side of the heat exchanger case 500, the outdoor flows from the air supply fan case 100 Guide air to the total heat exchanger (510).

In addition, one end of the second air supply doctor 320 is connected to the other side of the heat exchange case 500, and the other end is connected to the room, and the outdoor air guided to the heat exchanger 510 is indoors. Supply.

At this time, the air supply passage 330 is formed in the heat exchanger case 500, one end of which is connected to the first air supply doctor 310, the other end is connected to the second air supply doctor 320, The outdoor air guided to the first air supply doctor 310 passes through the heat exchanger 510, and then is guided to the second air supply doctor 320.

The exhaust unit includes a first exhaust duct 410, a second exhaust duct 420, and an exhaust passage 430, and each configuration is modular in the same manner as the air supply unit, and is optionally selected as necessary. Exchange and conversion are possible.

Here, one end of the first exhaust duct 410 is connected to the exhaust fan case 200 and the other end is connected to one side of the total heat exchanger case 500 to guide indoor pollution air to the heat exchanger 510. do.

In addition, one end of the second exhaust duct 420 is connected to the other side of the heat exchanger case 500, and the other end of the second exhaust duct 420 is discharged to the outdoor air guided to the heat exchanger 510. .

At this time, the exhaust passage 430 is formed in the heat exchanger case 500, one end thereof is connected to the first exhaust duct 410, the other end is connected to the second exhaust duct 420, After the outdoor air guided to the first exhaust duct 410 passes through the heat exchanger 510, the outdoor air is guided to the second exhaust duct 420.

In the embodiment of the present invention, it is proposed that the air supply fan 110 and the exhaust fan 210 use a centrifugal fan to suck outdoor air in the axial direction of the air supply fan 110 to discharge in the radial direction. .

Here, the use of the air supply fan 110 and the exhaust fan 210 as the centrifugal fan is to reduce the height of the ventilation system. When using a low centrifugal fan, for example, the height of the conventional ventilation system H Compared to), the ventilation system can be manufactured at a low height (H ') of about 1/2.

Referring to the operation of the ventilation system having such a structure is as follows.

First, the air supply fan 110 is operated to suck outdoor air through the air supply inlet 101 of the air supply fan case 100.

At this time, the outdoor air sucked in the axial direction of the air supply fan 110 flows in the radial direction of the air supply fan 110 and is sent to the first air supply doctor 310.

Next, the outdoor air sent to the first air supply doctor 310 flows through the air supply passage 330 to the second air supply doctor 320 and is then supplied to the room.

At this time, the outdoor air passes through the heat exchanger 510 while passing through the air supply passage 330.

In addition, the exhaust fan 210 is operated to suck indoor polluted air through the exhaust inlet 201 of the exhaust fan case and to flow to the first exhaust duct 410.

Next, the indoor pollution air flowed to the first exhaust duct 410 flows through the exhaust passage 430 to the second exhaust duct 420.

Next, the indoor polluted air flowing to the second exhaust duct 420 is discharged to the outside through the second exhaust duct 420.

On the other hand, the outdoor air and indoor polluted air are interconnected while passing through the heat exchanger 510 and the outdoor air is supplied to the outdoor when the outdoor air is supplied to the outside, and is supplied at a suitable temperature for the room.

In this way, the operation is performed when the heat transfer ventilation of the ventilation system.

On the other hand, in the embodiment of the present invention, the configuration of each of the air supply portion and the exhaust portion is modularized to change the ventilation system in various structures according to the ventilation conditions.

For example, when the ventilation system is installed, the loss due to the flow resistance of the air supply and the exhaust is small, so that the air supply of the outdoor air and the exhaust air of the indoor polluted air are secured, but the heat loss is large, as follows. You can change the structure of.

Figure 3 schematically shows an example of a modified structure of the ventilation system according to an embodiment of the present invention.

That is, as shown in Figure 3, in order to make the heat exchange as much as necessary to the heat exchanger 510, after installing a plurality of heat exchanger 510, the air supply unit connected to each heat exchanger (510) The first air supply duct 310, the second air supply duct 320, and the number of the air supply passages 330 are increased, and the first exhaust duct 410, the second exhaust duct 420, and The number of exhaust passages 430 is increased.

At this time, outdoor air and indoor polluted air flow through the increased air supply and exhaust.

At this time, an air supply connecting duct 340 is installed to flow outdoor air sucked through the air supply inlet 101 of the air supply fan case to the first air supply duct 310, and an exhaust air inlet of the exhaust fan case. Exhaust connection duct 440 is preferably installed to flow the indoor pollution air sucked through 201 to each of the first exhaust duct 410.

At this time, one end of the air supply connection duct 340 is connected to the air supply fan case 100, the other end is connected to each first air supply duct 310.

In addition, one end of the exhaust connection duct 440 is connected to the exhaust fan case 200, the other end is connected to each of the first exhaust duct 410.

In this way, when the ventilation system is installed, the heat loss is reduced by the plurality of heat exchangers 510, so that outdoor air of a suitable temperature can be provided indoors at the time of the heat transfer ventilation.

As another example, when the ventilation system is installed, when the air supply amount of the outdoor air and the exhaust amount of the indoor polluted air are large due to the flow resistance of the air supply and the exhaust part, the structure of the ventilation system may be changed as follows.

Figure 4 schematically shows another example of a modified structure of the ventilation system according to the embodiment of the present invention.

That is, as shown in Figure 4, in order to ensure the air supply amount of the outdoor air flows to the air supply and the exhaust portion and the amount of indoor polluted air, the air supply fan case and exhaust fan 210, the air supply fan 110 is installed ) Is installed in addition to the exhaust fan case 200 is installed according to the conditions of the ventilation system.

At this time, the air supply connection duct 340 is installed to connect the respective air supply fan case 100 and the first air supply doctor 310 to allow the outdoor air flow, and each of the exhaust fan case 200 and Exhaust connection duct 440 is preferably installed to connect the first exhaust duct 410 to each other so that indoor polluted air flows.

At this time, one end of the air supply connecting duct 340 is connected to each of the air supply fan case 100, the other end is connected to the first air supply duct 310.

In addition, one end of the exhaust connection duct 440 is connected to each exhaust fan case 200, and the other end is connected to the first exhaust duct 410.

In this way, when the ventilation system is installed, the air supply amount of the outdoor air and the air discharge amount of the indoor polluted air lost due to the flow path resistance of the air supply part and the exhaust part are secured to provide suitable outdoor air to the outdoors, or Can be discharged outdoors.

As described above, the ventilation system according to the embodiment of the present invention changes the installation position of the air supply fan 110, the exhaust fan 210, and the total heat exchanger 510, and the air supply fan 110 and the exhaust fan. By using 120 as a centrifugal fan, the height H 'of the ventilation system can be reduced.

Accordingly, by reducing the height of the ventilation system, there is an advantageous effect on space utilization and economical for installing the ventilation system.

In addition, the ventilation system is made so that each configuration is made of a modular, it can be easily transformed into a suitable structure according to the ventilation conditions, and can respond.

As described above, the present invention changes the installation positions of the air supply fan and the exhaust fan, and the heat exchanger installed in the ventilation system, and reduces the height of the ventilation system by using the air supply fan and the exhaust fan as centrifugal fans. Has the effect.

By reducing the height of the ventilation system, it is advantageous to utilize space and economically for installing the ventilation system.

In particular, the ventilation system is manufactured so that each configuration is made into a module (module), thereby easily transformed into a suitable structure according to the ventilation conditions, it has an effect that can respond.

Claims (5)

An air supply air inlet formed on an outdoor side, and an air intake port for inhaling outdoor air is provided, and an air supply fan case having an air supply fan for forcibly sucking the outdoor air and supplying it to the room; An exhaust fan case installed at an indoor side and configured to suck an indoor pollution air, and an exhaust fan case having an exhaust fan configured to forcibly suck the indoor pollution air and discharge the indoor pollution air; An electric heat exchanger provided between the air supply fan case and the exhaust fan case and having a heat exchanger configured to mutually heat-exchange the outdoor air supplied to the room through the air supply fan case and the indoor air discharged to the outside through the exhaust fan case; case; An air supply unit connecting the air supply fan case and the heat exchanger case and connecting the heat exchanger case and the indoor side to form a flow path for supplying outdoor air to the room; And, And an exhaust portion connecting between the exhaust fan case and the heat exchanger case and connecting between the heat exchanger case and the outdoor side to form a flow path for discharging indoor air to the outside. The method of claim 1, The air supply unit A first air supply duct having one end connected to the air supply fan case and the other end connected to one side of the heat exchanger case; A second air supply duct having one end connected to the other side of the heat exchanger case and the other end connected to communicate with the room; And an air supply passage formed in the pre-heat exchanger case, one end of which is connected to the first air supply duct, and the other end of which is connected to the second air supply duct. The method of claim 1, The exhaust part A first exhaust duct having one end connected to the exhaust fan case and the other end connected to one side of the heat exchanger case; A second exhaust duct whose one end is connected to the other side of the heat exchanger case and the other end is installed outdoors; And an exhaust passage formed in the total heat exchanger, one end of which is connected to the first exhaust duct and the other end of which is connected to the second exhaust duct. The method of claim 1, The air supply fan And a centrifugal fan for allowing outdoor air to flow in the axial direction of the air supply fan and flow in the radial direction. The method of claim 1, The exhaust fan is And a centrifugal fan for allowing indoor pollution air to flow in the axial direction of the air supply fan and flow in the radial direction.

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