KR101455212B1 - Preventing dew type ventilation system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation system, and more particularly, to a condensation prevention type ventilation system capable of preventing a condensation phenomenon caused by an indoor / outdoor temperature difference. The ventilation system according to the present invention is provided with a ventilation unit in a separate installation space formed between a room and an outside, and the air introduced into the room from outside the room and the air discharged from the room to the outside are heat exchanged with each other in the ventilation unit The air in the room is prevented from being transferred to the air conveyance path of the installation space, so that the temperature difference between the room air and the air in the installation space And a first condensation preventing damper for preventing condensation from occurring in the installation space due to the condensation.

Description

PREVENTING DEW TYPE VENTILATION SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation system, and more particularly, to a condensation prevention type ventilation system capable of preventing a condensation phenomenon caused by an indoor / outdoor temperature difference.

Generally, since the interior of the building has a closed structure, if the airtightness is maintained for a long time, the indoor air is polluted and adversely affects the health of residents, and in severe cases, it may cause diseases such as respiratory diseases.

The indoor air of a building is contaminated by dirt and various foreign substances generated by residents' activities, carbon dioxide due to breathing, and carbon monoxide due to incomplete combustion of gas equipment for cooking, and harms health when living in such a long time .

In recent years, various building interior materials used as interior finishing materials have generated a great amount of toxic substances such as volatile organic compounds (VOCs) and formaldehyde (HCHO) that are harmful to human health, which poses a serious threat to the health of residents. The so-called 'sick house syndrome' may be a complaint for residents.

In order to solve the above problems, a ventilation system for introducing fresh outside air while inducing the discharge of pollutants by appropriately ventilating indoor air has been developed and applied.

A conventional ventilation system is shown in Fig. As shown in the drawing, the conventional ventilation system includes a ventilation unit 200 installed on a ceiling of a veranda / machine room 100, a duct 500 connecting the ventilation unit 200 and the inside / Lt; / RTI > In the ventilation unit 200, heat is exchanged between the air flowing into the room 300 and the air discharged into the room 400.

During the winter season, a large temperature difference occurs between the room 300 and the room 400. In the case of the veranda / machine room 100, there is a large difference between the indoor temperature and the outdoor temperature. Due to such a temperature difference, condensation may occur in a section where air communicates between the room 300 and the ventilation unit 200, and a section where air communicates between the ventilation unit 200 and the room 400.

It is necessary to ventilate the indoor air. When the air is forcedly circulated by using the ventilation fan installed in the ventilation unit 200, the flow of the air is fast, so there is not much problem due to the condensation phenomenon, The air flow is slowed down and the condensation phenomenon is large, so that there is a large problem due to the condensation phenomenon.

Particularly, condensation is continuously generated in the duct section connecting the ventilation unit 200 with the indoor and the outdoor, the water drops continuously in the corresponding section, and the duct of the corresponding section is bent due to the weight of the water due to the condensation phenomenon .

As a result of this condensation, water droplets are generated, water droplets drop, and ducts bend cause many problems such as damages to the ventilation device, electricity shortage, wall and ceiling damage.

Korean Registered Patent No. 10-1193222 (issued on November 6, 2012)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a ventilation system of a condensation prevention type which can effectively prevent condensation from occurring due to a temperature difference between indoor and outdoor air.

Particularly, it is an object of the present invention to provide an air conditioner in which a ventilation unit is installed between a room and an outside, a temperature difference between the room and the room, and a temperature difference between the room and the room, Preventing type ventilation system that can effectively prevent condensation from occurring in the transfer path.

The ventilation system according to the present invention is provided with a ventilation unit in a separate installation space formed between a room and an outside, and the air introduced into the room from outside the room and the air discharged from the room to the outside are heat exchanged with each other in the ventilation unit The air in the room is prevented from being transferred to the air conveyance path of the installation space, so that the temperature difference between the room air and the air in the installation space And a first condensation preventing damper for preventing condensation from occurring in the installation space due to the condensation.

According to the present invention, there is provided a ventilation system for preventing condensation, which is installed in an air conveyance path that divides an outdoor space and an installation space, and blocks outdoor air from entering the air conveyance path of the installation space, And a second condensation preventing damper for preventing a condensation phenomenon from occurring in the installation space due to a temperature difference of the branch.

And the first condensation preventing damper is provided in a mold releasing member or a sleeve provided in a part partitioning the room and the installation space.

A rainwater flow-preventing protrusion for preventing the rainwater flowing from the outside from flowing further is formed in an inner lower portion of the air conveyance path for partitioning the outdoor space and the installation space.

The second condensation preventing damper is inclined downward so that the lower end of the second condensation preventing damper easily flows out from the outside while the lower end of the second condensation preventing damper is directed toward the outdoor side and the lower end of the second condensation preventing damper is located on the outdoor side with respect to the rainwater flow preventing jaw.

And a damper for controlling the flow of air is installed at the air inlet and outlet of the ventilation unit.

The first and second condensation preventing dampers and dampers are a counter-current damper (BDD) or an electric damper (MD).

According to the ventilation system of the present invention, there are the following effects.

First, if both the damper provided on the ventilation unit side and the first and second condensation prevention dampers are shut off, the airflow will be almost zero and the heat transfer will not be performed. Thus, in the ducts provided in the ventilation unit and the installation space, It is possible to completely block the occurrence of the problem.

Specifically, by providing a first condensation preventing damper for interrupting the transfer of air to the air transfer path for partitioning the room and the installation space, it is possible to prevent the indoor air from being discharged to the installation space when the ventilation of the room air is not necessary It is possible to effectively prevent condensation from occurring in the air conveyance path of the installation space.

Furthermore, by providing a second condensation preventing damper for blocking the transfer of air to the air transfer path for partitioning the outdoor space and the installation space, it is possible to prevent the outdoor air from flowing into the installation space when ventilation of the room air is not necessary It is possible to effectively prevent condensation from occurring in the air conveyance path of the installation space.

Furthermore, in addition to the first and second condensation preventing dampers, the air flow is further interrupted once more by using the dampers provided on the ventilation unit side, so that there is almost no air flow into the ventilation unit. Therefore, the condensation phenomenon inside the ventilation unit can be completely blocked.

Secondly, a rainwater flow prevention tuck that prevents the rainwater flowing from the outside from flowing out is formed on the lower side of the air conveyance path which divides the outdoor space and the installation space, and the rainwater is prevented from flowing by the second condensation prevention damper, So that rainwater can be prevented from being completely introduced into the apparatus. In this case, when the rainwater flows through the ventilation cap due to the rising airflow generated in a high-rise apartment or the like, the rainwater flowing into the room can not flow to the room and is discharged again to the outside. .

Third, since the first and second condensation prevention dampers are provided on the partition wall dividing the room and the installation space and the partition wall partitioning the outdoor space and the installation space, it is easy to manage after repair such as repair or replacement.

1 schematically shows a ventilation system according to the prior art;
FIG. 2 is a schematic view of a condensation-proof ventilation system according to a preferred embodiment of the present invention, viewed from above; FIG.
Fig. 3 schematically shows a side view of the ventilation system shown in Fig. 2; Fig.
FIG. 4 is a schematic view showing a state in which a mold release reducer is installed in place of the first sleeve in FIG. 3 and a first condensation preventing damper is installed in the mold release reducer.

Hereinafter, a condensation prevention type ventilation system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic view of a condensation-proof ventilation system according to a first embodiment of the present invention viewed from above.

According to the ventilation system of the present invention, a separate installation space 3 such as a veranda or a machine room is formed between the outdoor 1 and the indoor 2, and the indoor air And a ventilation unit (10) for performing heat exchange between outdoor air flowing into the room and the outdoor air.

Two ducts 20 and 21 for air communication with the room 2 are connected to one side of the ventilation unit 10 and two ducts 20 and 21 for air communication with the outside 1 are connected to the other side of the ventilation unit 10. [ (22) and (23), respectively.

In the ventilation unit 10, a blowing fan 11 for forced flow of air and an electric heat exchanger 12 for heat exchange between outdoor air and room air are installed.

The first wall 4 for partitioning the indoor space 2 and the installation space 3 cuts off the air flow between the indoor space 2 and the installation space 3 to control the temperature difference between the room air and the air in the installation space 3. [ And a first condensation preventing damper 30 for preventing condensation from occurring due to the condensation.

The second wall 5 separating the outdoor 1 and the installation space 3 blocks the air flow between the outdoor 1 and the installation space 3 to control the temperature difference between the outdoor air and the air in the installation space 3 And a second condensation preventing damper 40 for preventing condensation from occurring due to the condensation.

As the first and second condensation preventing dampers 30 and 40, a back draft damper (BD) or a motorized damper (MD) may be used.

On the other hand, the air inlet and outlet of the ventilation unit 10 are provided with dampers 13, respectively, so that the flow of air can be controlled. Like the first and second condensation preventing dampers 30 and 40, the damper 13 may be a backward blowing damper (BDD) or an electric damper (MD).

FIG. 3 is a schematic view of the ventilation system shown in FIG. 2 viewed from the side, and FIG. 4 is a sectional view of the ventilation system shown in FIG. 3 in which a mold release reducer is installed in place of the first sleeve and a first condensation prevention damper Fig.

As shown in FIG. 3, cylindrical first and second sleeves 50 and 60 for air communication are embedded in the first and second walls 4 and 5, respectively.

One end of the first sleeve 50 is connected to a duct 20 in the form of a corrugated pipe at the side of the installation space 3 and the duct 20 is connected to the ventilation unit 10. The other end of the first sleeve 50 is connected to a duct (not shown) installed in the room on the side of the room 2. Meanwhile, as shown in FIG. 4, the first wall 4 may be provided with a release reducer 70 instead of the first sleeve 50. The mold releaser 70 is connected to the duct 20 connected to the ventilation unit 10 at one end having a different diameter at both ends and having a larger diameter, and a duct in the room is connected to the other end having a smaller diameter.

One end of the second sleeve 60 is connected to a duct 23 having a corrugated pipe shape on the installation space 3 side and the duct 23 is connected to the ventilation unit 10. The ventilation cap 80 is connected to the other end of the second sleeve 60 outdoors.

A first condensation preventing damper (30) is installed in the first sleeve (50) or the deforming reducer (70) to selectively block indoor air from being discharged to the installation space. That is, when ventilating the room air by operating the ventilating fan 11 of the ventilating unit 10, the first condensation preventing damper 30 is opened for communicating the air, and ventilation of the room air is not necessary, 11 is stopped, the first condensation preventing damper 30 is cut off so that room air is not discharged to the installation space.

A second condensation preventing damper (40) is installed in the second sleeve (60) to selectively block outdoor air from entering the installation space. That is, when ventilating the room air by operating the ventilating fan 11 of the ventilating unit 10, the second condensation preventing damper 40 is opened for communicating the air, and ventilation of the room air is not necessary, 11 is stopped, the second condensation preventing damper 40 is blocked so that the outdoor air does not flow into the installation space.

The second condensation preventing damper 40 is inclined downward to the outdoor side so that the rainwater flowing out from the outside easily flows down. In addition, a rainwater flow preventing tuck 61 is formed on the lower side of the second sleeve 60 to prevent the rainwater flowing from the outside from flowing to the inside of the room. By thus providing the second condensation preventing damper 40 and the rainwater flow restricting tails 61, it is possible to effectively prevent the rainwater flowing out from the outside from flowing to the room side. In particular, in a high-rise apartment or the like, the rain water flows in through the ventilation cap 80 due to the rising air current. Due to the second anti-condensation damper 40 and the rainwater flow protector 61, It is possible to effectively prevent the foreign matter from being introduced into the apparatus.

Hereinafter, the operation of the ventilation system of the present invention constructed as described above will be specifically described by dividing the case where ventilation is required and the case where ventilation is required.

When ventilation is required

The outdoor air is introduced into the ventilation unit 10 and then heat exchanged through the total enthalpy heat exchanger 12 by operating the ventilation fan 11 installed in the ventilation unit 10 when the room air needs to be ventilated, The outdoor air whose temperature has risen through the heat exchanger is supplied to the room, and the room air whose temperature is lowered through the heat exchange is discharged to the outside.

In order to smoothly flow the air in the ventilation process, the damper 13 provided on the side of the ventilation unit 10 and the first and second condensation preventing dampers 30 40 are all opened. In the case of ventilation, since the flow of air is fast, the amount of condensed water generated is small or even if the indoor air is discharged to the installation space 3 and the outdoor air flows into the installation space 3, Problems due to condensation may not be considered.

If ventilation is not required

When ventilation of the indoor air is not required, the ventilation fan 11 installed in the ventilation unit 10 is stopped. When the first and second condensation preventing dampers 30 and 40 are not provided in a state where the blowing fan 11 is stopped and the room air flows into the installation space 3 and the outdoor air flows into the installation space 3 , A temperature difference occurs between the room air and the air in the installation space 3 and between the outdoor air and the air in the installation space 3. When the room air and the outdoor air flow into the installation space 3, The condensation phenomenon is generated so as to interfere with the operation of the ventilation system.

If the condensation phenomenon is severe or continues to occur, water droplets will continue to fall on the duct located in the installation space (3), and the duct will be bent downward in the process. These problems lead to various problems such as breakage of the ventilation unit 10, electric leakage due to water contact with electric wires, and damage to the wall and ceiling.

The damper 13 is installed at the air inlet and the outlet of the ventilation unit 10 to divide the room and the installation space 3 as well as the part for partitioning the outdoor space and the installation space 3 The first and second condensation preventing dampers 30 and 40 are installed in the air transfer path of the indoor space 3 to prevent the indoor air from entering the installation space 3 when the ventilation is not necessary, It is possible to prevent the condensation phenomenon from occurring in the installation space 3 completely. The air flow is firstly blocked by the first and second condensation preventing dampers 30 and 40 and once more blocked by the dampers 13 provided on the ventilation unit 10 side. The inside of the openings 20, 21, 22, and 23 is in a state in which there is almost no air flow. Therefore, since no heat transfer occurs, the occurrence of condensation inside the ventilation unit 10 and the ducts 20, 21, 22, and 23 can be completely prevented.

In addition, even if the ventilation cap 80 is installed so as to face downward, the rainwater often flows in the high-rise apartments through the ventilation cap 80 due to the rising air flow. The inflow water flows into the second condensation preventing damper 40 And the rainwater flow restricting tails 61, and is discharged to the outside through the ventilation cap 80 again.

As described above, the condensation-proof ventilation system according to the present invention has been described on the basis of the preferred embodiments. However, the present invention is not limited to the specific embodiments, Can be changed.

10: ventilation unit 11: blowing fan
12: total heat exchanger 13: damper
20, 21, 22, 23: duct 30: first condensation preventing damper
40: a second condensation preventing damper 50: a first sleeve
60: second sleeve 61:
70: Molding reducer 80: Ventilation cap

Claims (7)

A ventilation system in which a ventilation unit is installed in a separate installation space formed between a room and an outside, and the air introduced into the room from outside the room and the air discharged from the room to the room outdoors are heat exchanged with each other in the ventilation unit,
The indoor air is prevented from being transferred to the air conveyance path of the installation space by being installed in the air conveyance passage for partitioning the room and the installation space, A first condensation preventing damper for preventing the first condensation preventing damper from being generated; And
The air conditioner according to any one of claims 1 to 3, wherein the air conditioner is installed in an air conveyance path that divides the outdoor space and the installation space, thereby preventing outdoor air from entering the air conveyance path of the installation space, And a second condensation preventing damper for preventing the first condensation damper from being generated,
And a rainwater flow preventing jaw for preventing the rainwater flowing from the outside from flowing further is formed in an inner lower portion of the air conveyance path which is partitioned by the outdoor space and the installation space. delete The method according to claim 1,
Characterized in that the first condensation preventing damper is installed in a mold releasing member or a sleeve provided in a part partitioning the room and the installation space. delete The method according to claim 1 or 3,
Wherein the second condensation preventing damper is inclined downward to the outdoor side so that the rainwater flowing from the outside can easily flow down and the lower end of the second condensation preventing damper is positioned on the outdoor side with respect to the rainwater flow preventing jaw Characterized by a condensation-proof ventilation system. The method according to claim 1 or 3,
And a damper for controlling the flow of air is installed on an air inlet and a discharge port side of the ventilation unit. The method according to claim 6,
Wherein the first and second condensation preventing dampers and the damper are a backward flow preventing damper (BDD) or an electric damper (MD).

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