KR101255637B1 - Ventilation system - Google Patents

Abstract

The present invention relates to a ventilator that can prevent the deterioration of the air supply and exhaust units and improve the total heat exchange efficiency.

Ventilation apparatus according to the present invention forms an appearance, the case having an indoor inlet and an indoor air inlet at one end and an outdoor exhaust and an outdoor inlet at the other end, an air supply unit and an exhaust unit provided in the case, and the inside of the case. Including a total heat exchanger for the total heat exchange of the indoor air and the outdoor air flows, and the air flow control member provided on one side of the heat exchanger formed to increase the cross-sectional area of the inlet hole through which the air can pass as the distance from the air supply unit; There is an effect to prevent performance degradation of the air supply unit and the exhaust unit and improve the total heat exchange efficiency.

Description

Ventilation system {Ventilation system}

1 is an exploded perspective view of the ventilation device and the airflow control member included in the same according to the present invention.

Figure 2 is a state diagram showing the air flow of the ventilator according to the present invention.

Figure 3 is a schematic plan view showing the air flow direction of the ventilator according to the present invention.

Description of the Related Art [0002]

10: case, 15: outdoor suction duct,

16: indoor suction duct, 20: exhaust unit,

21: exhaust inlet, 22: exhaust fan case,

30: air supply unit, 40: total heat exchanger,

50: air volume control member, 51: inlet hole.

The present invention relates to a ventilator, and to a ventilator for minimizing heat loss in an indoor space through heat exchange between air discharged to the outside and air introduced from the outside.

In general, the ventilator is a device for discharging the indoor polluted air to the outside to supply new air to the indoor space. Korean Patent Laid-Open Publication No. 2005-98398 discloses a ventilation system having a total heat exchanger.

The ventilation system disclosed in the above publication includes a main body case forming an exterior, an external air air supply fan for blowing external air into the room, and an indoor air exhaust fan installed at one side of the external air supply fan for blowing indoor air to the outside; It comprises a total heat exchanger for the external air and the indoor air is sucked into the inside of the main body case by the external air supply fan and the indoor air exhaust fan and the heat exchanged with each other.

In the ventilation system, the external air is sucked into the main body case through the external air intake roll and the inside air is exchanged into the heat exchanger. The indoor air is sucked through the indoor air intake vent according to the operation of the indoor air exhaust fan. And is sucked into the total heat exchanger. At this time, the outside air and the indoor air can pass through the inside of the heat exchanger without intermixing and mutually heat exchange, thereby minimizing the heat loss in the room to perform indoor ventilation.

 However, such a ventilation system is formed by biasing the airflow passing through the inside of the heat exchanger because the external air supply fan and the indoor air exhaust fan are located at the corners of the main body case. Due to the airflow bias, there is a problem in that the width of the airflow is small so that air does not pass through a predetermined section of the total heat exchanger, thereby deteriorating the total heat exchange efficiency.

In order to solve this problem, an external air supply fan and an indoor air exhaust fan are arranged on the center side of the total heat exchanger to form an even flow distribution of air, thereby improving the heat exchange efficiency. However, when the external air supply fan and the indoor air exhaust fan are arranged in the center side of the heat exchanger in this manner, the flow path changes rapidly in the vicinity of the outdoor exhaust and the indoor air supply, thereby degrading the performance of the fan. There is a problem in that performance degradation increases power consumption and generates noise.

The present invention is to solve such a problem, it is an object of the present invention to provide a ventilation device having a structure that can prevent the performance degradation of the fan and improve the total heat exchange efficiency.

In order to achieve the above object, the present invention provides an exterior and an air inlet and an indoor air inlet at one end and an outdoor exhaust port and an outdoor air inlet at the other end, and an air supply unit provided in the case to introduce outdoor air into the room. And an exhaust unit provided in the case to exhaust indoor air to the outside, a heat exchanger for pre-heating and exchanging indoor air and outdoor air introduced into the case, and dispersing the airflow introduced into the heat exchanger. It characterized in that it comprises a flow rate control member provided on one side of the total heat exchanger.

In addition, the air volume control member is characterized in that it is provided in a plate shape formed with a plurality of inlet holes through which air can pass.

In addition, the air flow rate control member is characterized in that it is formed so as to increase the overall cross-sectional area of the plurality of inlet holes away from the air supply fan.

In addition, the air volume control member is provided between the outdoor suction port and the heat exchanger, it is characterized in that it is provided adjacent to the heat exchanger.

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

1 is an exploded perspective view of a ventilator according to the present invention and the air flow control member included therein, FIG. 2 is a state diagram showing an air flow of the ventilator according to the present invention, and FIG. This is a schematic flat view.

Ventilation device according to the present invention is the case 10 and the exhaust unit 20 for guiding the indoor air and the outdoor air to the inside and the inside of the case 10, the interior of the case 10 and the interior to form a case 10 and The air supply unit 30, the heat exchanger 40 for mutual heat exchange between the indoor air and the outdoor air introduced into the case 10, and the air introduced into the heat exchanger 40 at one side of the heat exchanger 40 It comprises a air volume control member 50 for uniformly dispersing the air volume of the.

The case 10 forms an exterior in a substantially rectangular parallelepiped shape, supports the installation of the internal structure, and serves to block foreign matter from entering the interior.

In addition, one side of the case 10 includes an outdoor suction port 11 for sucking outdoor air and an outdoor exhaust port 12 for discharging indoor air to the outside, and the other side surface provided at a position corresponding to one side of the case 10. It includes an indoor suction port 13 for sucking indoor air and an indoor air supply unit 14 for introducing outdoor air into the room.

On the rear side of the outdoor suction opening 11 formed in the case 10, outdoor suction between the outdoor suction opening 11 and the heat exchanger 40 so that the outdoor air sucked into the outdoor suction opening 11 can reach the heat exchanger 40. A duct 15 is provided, and likewise between the indoor suction port 13 and the heat exchanger 40 at the rear side of the indoor suction port 13 so that indoor air sucked into the indoor suction port 13 can reach the heat exchanger 40. The indoor suction duct 16 is provided. The indoor and outdoor suction ducts 15 and 16 serve as a suction passage for guiding the air sucked into the case 10 to smoothly flow into the heat exchanger 40.

In addition, an inspection door 17 is provided at one side of the case 10, and when the internal parts including the heat exchanger 40 need to be inspected or replaced, the internal doors can be taken out by opening the inspection door 17. Make sure

In addition, a heat exchanger (40) is provided inside the case (10). The heat exchanger (40) generally has a high-efficiency of forming layers of different flow paths by allowing each air having a temperature difference to pass through different flow paths. Electrothermal exchange is caused by moisture exchanging latent heat and heat exchanging sensible heat by the heat exchange membrane. The heat exchanger 40 is preferably formed of a plurality of valley-shaped panels and a flat panel repeatedly stacked, and formed in a substantially rectangular pillar shape. In addition, a panel in which a plurality of valleys are formed is laminated to cross the directions of the valleys and is provided to allow mutual heat exchange while passing through the indoor air and the outdoor air without intermixing.

Exhaust unit 20 is formed on both sides of the exhaust inlet (21a, 21b) and the exhaust outlet (not shown) in communication with the outdoor exhaust port 12 is introduced into the indoor suction port 13, the heat exchanged indoor air is introduced An exhaust fan case 22, an exhaust fan 23 provided inside the exhaust fan case 22, and an exhaust driving motor 24 provided on one side of the exhaust fan 23 to drive the exhaust fan 23. )

The air supply unit 30 is formed on both sides of the air inlet port (31a, 31b) and the air supply outlet (not shown) communicating with the indoor air supply unit 14 and the outdoor air inlet 11 is introduced to the outdoor heat exchanged The supplied air supply fan case 32, the air supply fan 33 provided inside the air supply fan case 32, and the air supply drive motor 34 provided on one side of the air supply fan 33 to drive the air supply fan 33. )

1 and 2, the ventilation device according to the present invention is provided on one side of the total heat exchanger 40, the air volume control member 50 for uniformly dispersing the air volume of the outdoor air flowing into the total heat exchanger (40) It includes.

The air volume control member 50 is provided in a plate shape in which a plurality of inlet holes 51 are formed so that air introduced from the outside can flow to the heat exchanger 40 side, and the lower left surface 41 of the heat exchanger 40 is formed. Installed in front of the outdoor air inlet 11 to the outdoor air flow through the plurality of inlet holes 51 of the airflow control member 50 to be introduced into the heat exchanger (40).

In addition, the inflow hole 51 formed in the airflow control member 50 is preferably provided in plurality in the same size. The overall cross-sectional area of the inlet 51 is larger as it is farther from the air supply unit, as shown in FIG.

At this time, the area close to the air supply unit 30 of the lower left surface 41 into which the outdoor air flows from the heat exchanger 40 is relatively strong, and the area far from the air supply unit 30 is relatively high in wind speed. It becomes weak, because the cross-sectional area of the inlet hole 51 of the airflow control member 50 is arranged to be larger as the distance from the air supply unit 30, the negative pressure formed by the operation of the air supply fan 33, the heat exchanger 40 Since it can be distributed uniformly over the entire area of the lower left surface 41 of the), it is possible to maintain a uniform air flow rate of the outdoor air flowing into the heat exchanger (40).

In addition, the air volume control member 50 may be installed in front of the lower right surface 42 of the total heat exchanger 40 in the same manner as described above. The installation of the air volume control member 50 is such that the indoor air introduced into the indoor suction port 13 passes through the plurality of inlet holes 51 of the air volume control member 50 and flows into the heat exchanger 40. It is possible to improve the total heat exchange efficiency by uniformly dispersing the air volume of the indoor air flowing into the 40).

Hereinafter, the operation of the ventilation device according to the present invention will be described with reference to FIGS. 2 and 3.

As the exhaust fan 23 operates during the operation of the ventilation device, indoor air is introduced into the case 10 through the indoor suction port 13, and the introduced indoor air is guided by the indoor suction duct 16 to exchange the heat exchanger. It is sucked into the total heat exchanger (40) through the lower right side (42) of the (40).

In addition, as the air supply fan 33 is operated, outdoor air is introduced into the case 10 through the outdoor suction opening 11, and the introduced outdoor air is guided by the outdoor suction duct 15 to the left side of the heat exchanger 40. It is sucked into the total heat exchanger (40) through the lower surface (41).

At this time, the air volume control member 50 is provided in front of the lower left surface 41 of the total heat exchanger 40 so that the sound pressure generated by the operation of the air supply fan 33 is uniformly distributed over the entire left lower surface 41. Therefore, the air volume of the outdoor air introduced into the total heat exchanger 40 can be uniformly dispersed. Therefore, the airflow passing through the heat exchanger 40 is widened due to the installation of the air volume control member 50, so that the heat exchange area is enlarged.

In addition, by installing the air flow rate regulating member without changing the positions of the air supply fan and the exhaust fan according to the prior art, it is possible to improve the heat exchange efficiency without a sudden change in the air supply inlet and the exhaust inlet, and the air supply fan due to the rapid flow change And deterioration of the exhaust fan.

As described in detail above, the ventilator according to the present invention is provided with a flow rate control member that can disperse the airflow flowing into the total heat exchanger to prevent performance degradation of the air supply unit and the exhaust unit and improve the total heat exchange efficiency. It works.

Claims (4)

A case having an indoor inlet and an indoor air inlet at one end and an outdoor exhaust and an outdoor inlet at the other end; An air supply unit provided in the case to introduce outdoor air into the room; An exhaust unit provided in the case to exhaust indoor air to the outside; An electrothermal exchanger for electrothermally exchanging indoor air and outdoor air introduced into the case; Is provided on at least one side of the total heat exchanger, a plurality of inlet holes through which air can pass is formed, the total area of the inlet hole is formed so as to be larger away from the air supply unit or the exhaust unit is passed through the inlet hole Ventilation apparatus comprising a flow rate control member for uniformly dispersing the air volume of the air. The ventilation device according to claim 1, wherein the air volume adjusting member is provided in a plate shape. delete The ventilation device of claim 1, wherein the air volume control member is provided between the outdoor suction port and the heat exchanger and is adjacent to the heat exchanger.

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