KR200393256Y1 - a ventilating device of building - Google Patents

Abstract

An object of the present invention is to provide a heat exchanger inside the ventilator in which the outdoor air is sucked and discharged by the intake fan and the exhaust fan installed in one motor, and the indoor and outdoor air is contacted by the heat exchanger. It is to provide a ventilation device of the building to increase the recovery rate of.

Description

Ventilating device of building

The present invention relates to a ventilation device of a building configured to allow the intake of outdoor air and the discharge of indoor air by a single motor, and more particularly, when the outdoor air is inhaled and the indoor air is discharged. It relates to a building ventilation system to increase the recovery rate of energy by making contact to achieve.

In general, a ventilator for maintaining clean indoor air by forcibly discharging indoor contaminated air to the outside is a fan having a structure in which one fan is installed to induce one-way air flow to exhaust the indoor air to the outside. .

Such a fan is based on the premise of inflow of outdoor air due to the external discharge of indoor air, but recently, the building is newly constructed in a sealed structure to prevent the loss of heating and cooling and to block external noise. Weakening the density of the air will cause a very dangerous situation.

Therefore, recently, a double fan fan has been developed to allow both indoor inflow of outdoor air and external exhaust of indoor air.

The fan with this dual fan structure uses a single motor to install a fan on one or both motor shafts, intakes indoor air by each fan, and discharges it to the outside through a filter. It is provided in the passage to discharge has the effect that the intake and exhaust of the indoor air and outdoor air at the same time.

Such a double fan ventilator provides the advantage of keeping indoors fresh at all times by ventilating indoor and outdoor air in an enclosed space, and is very useful in spring and autumn when the indoor and outdoor temperature difference is not high due to simultaneous intake and exhaust. While there is an advantage that can be used, indoor and outdoor temperature difference is large, in the case of summer or winter heating and cooling to cause a waste of energy. In other words, since the heating is performed indoors in winter, the heating efficiency is deteriorated due to the loss of considerable heat during the ventilation process.In summer, the cold air flows into the outdoors while the air conditioner is in operation, and the outdoor hot air flows into the interior. There is a problem that the cooling efficiency is lowered.

An object of the present invention is to provide a heat exchanger inside a ventilator in which outdoor air is sucked out and indoor air is discharged by one motor, and the indoor and outdoor air is in contact with the outside air in the heat exchanger, thereby increasing energy recovery. To provide a device.

The present invention for achieving the above object is installed in the ventilation device of the building, protrudes to the indoor side and the outdoor side through the wall of the building and the indoor air suction hole on the upper surface protruding to the indoor side, the outdoor air exhaust hole on the lower surface A casing having an inner space having an indoor air discharge hole on the lower surface protruding toward the outdoor side and an outdoor air suction hole on the upper surface of the casing; By installing partition walls in the inner space of the casing, the inner space is divided into an indoor air movement path and an outdoor air movement passage, and by each motor to move the indoor and outdoor air through each of the movement paths to be intake and exhaust. Intake and exhaust means for installing a rotating intake fan and an exhaust fan in the casing; And installing heat exchange plates having a hollow structure in the inner space of the casing to move indoor air to the inside of the hollow structure of the heat exchange plates, and to move outdoor air to the outside of the heat exchange plates so that the inner and outer surfaces of the heat exchange plates are moved. It characterized in that it comprises a heat exchanger for heat exchange while the indoor air and outdoor air in contact with.

The heat exchanger plate is characterized in that formed in any one of the shape of the concave-convex bending or wave shape bending.

The heat exchange plate is preferably made of a special window material and activated carbon.

The indoor air suction hole and the indoor air discharge hole and the outdoor air suction hole and the outdoor air discharge hole may be formed in a grill shape having a plurality of holes.

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

1 is a cross-sectional view showing the structure of the ventilation device of the building according to the present invention, Figure 2 is a plan view showing an example of the installation of the ventilation device of the building according to the present invention, Figure 3 is a cross-sectional view II line of FIG. 4 is a perspective view for explaining the configuration of the heat exchange unit provided in the ventilation device of the building according to the present invention, Figure 5 is a view for explaining a state in which heat exchange is made by the flow of air during the intake and exhaust in the heat exchange unit according to Figure 4 shown. 6 is a view showing a modification of the heat exchanger for the display 5, Figure 7 is a perspective view showing another modification of the heat exchanger for the display 4.

As shown in the drawings, the building ventilation apparatus 100 according to the present invention is provided with a casing 110. The casing 110 is formed of a substantially rectangular box having an empty space therein and is installed to penetrate the wall 10 of the building so as to protrude to the indoor side and the outdoor side separated by the wall 10.

The upper and lower surfaces of the casing 110 are formed with a plurality of holes for sucking and discharging the indoor and outdoor air. That is, the indoor air suction hole 112a is formed on the upper surface of the casing projecting toward the indoor side, and the outdoor air discharge hole 114b is formed on the lower surface of the casing. In addition, the lower surface of the casing protruding toward the outdoor side is the indoor air discharge hole (112b), and the upper surface of the outdoor air suction hole (114a) is formed.

As such, the intake holes 112a and 114a are formed on the upper surface of the casing 110 and the exhaust holes 112b and 114b are formed on the lower surface of the casing 110 to circulate the indoor and outdoor air forcibly. It is preferable to have a grill shape having a plurality of holes, which prevents foreign matter from easily entering the inside of the casing and prevents the hand part of the human body from entering the casing.

As shown in the drawings, the building ventilation apparatus 100 according to the present invention is provided with an intake and exhaust means 120. The intake and exhaust means 120 is for forcibly circulating the indoor and outdoor air by the intake and exhaust holes formed on the upper and lower surfaces of the casing 110, and partition walls 116a, 116b ... in the inner space of the casing 110. By installing them, the inner space of the casing 110 is partitioned into an indoor air movement path 112 and an outdoor air movement path 114.

The indoor air movement path 112 is a movement path for discharging indoor air to the outside through the inside of the casing 110, and the outdoor air movement path 114 passes the outdoor air through the inside of the casing 110. It is a moving path for discharge into the room.

An intake fan 124 and an exhaust fan 126 for forcibly moving indoor and outdoor air through each of the moving paths 112 and 114 are installed in the casing 110 by one motor 122. That is, as shown in FIG. 1, the intake fan 124 and the exhaust fan 126 are respectively provided on both sides of the motor 122 to forcibly circulate indoor and outdoor air.

As shown in the figure, the ventilation device 100 of the building according to the present invention is provided with a heat exchange unit (130). The heat exchange part 130 is a part constituting the features of the present invention, the heat exchange part 130 is installed in the inner space of the casing 110 heat exchange plate 132 having a hollow structure the heat exchange plate 132 The indoor structure is moved inside the hollow structure of the air, and the outdoor air is moved to the outside of the heat exchange plate 132 so that the indoor air and outdoor air contact through the inner and outer surfaces of the heat exchange plate 132 By performing heat exchange, the recovery rate of energy can be increased.

Such heat exchange plates 132 may be formed in any one of the shape forming the concave-convex curve 134 as shown in Figures 4 and 5 or the shape of the waveform curve 136 as shown in Figure 6, such concave-convex The heat exchange efficiency can be increased by increasing the contact surface area of the air sucked and exhausted by the bending 134 or the wave bending 136.

In addition, the heat exchanger 130 may be alternately installed in the direction orthogonal to the heat exchange plate 132 having a wavy curve as shown in FIG. 7 to allow heat exchange.

The heat exchange plate 132 is preferably made of paper in order to avoid the generation of moisture by the latent heat generated during heat exchange. It is preferable that the window and the activated carbon are made of a specially processed material, which is resistant to humidity, has excellent durability and resilience, excellent humidity control, and is suitable for domestic climate and is environmentally friendly. In addition, the use of specially processed paper and activated carbon material prevents the growth of bacteria such as mold, has a humidity control function, and has the advantage of generating negative ions.

8 is a view showing the flow of indoor and outdoor air in the ventilation device of the building according to the present invention.

As shown in the drawing, in order to suck the outdoor air and discharge the indoor air by the ventilation device 100 of the building according to the present invention, one motor 122 is driven to exhaust fan 126 and intake fan 124. Let it rotate

The intake fan 124 rotated as described above allows outdoor air to flow into the room as indicated by the white arrows in FIG. 8, and the indoor air as indicated by the black arrows in FIG. 8 by the exhaust fan 126. To be discharged, respectively.

First, the outdoor air is sucked into the outdoor air through the outdoor air suction hole 114a formed on the upper surface of the casing 110 located at the outdoor side by rotating the intake fan 124. It is introduced into the outdoor air movement path 114 is moved along the path indicated by the white arrow in Figure 8 is introduced into the room through the outdoor air discharge hole 114b formed on the lower surface of the casing 110 located on the indoor side.

In addition, the indoor air is discharged through the indoor air suction hole 112a formed on the upper surface of the casing 110 located at the indoor side by rotating the exhaust fan 126. It is introduced into the indoor air movement path 112 is provided is moved along the path shown by the black arrow in Figure 8 discharged to the outside through the indoor air discharge hole 112b formed on the lower surface of the casing 110 located on the outdoor side do.

The indoor and outdoor air that is intake and exhaust along the path is heat-exchanged by the heat exchanger 130 installed inside the casing 110, thereby increasing the recovery rate of the energy. That is, the outdoor air sucked through the outdoor air suction hole 114a and the indoor air sucked through the indoor air suction hole 112a may mutually exchange heat by the heat exchange plate 132, thereby increasing energy efficiency. .

In addition, the heat exchange is performed by contacting each other with the air by the heat exchange plate 132 to allow the indoor air to move inside the heat exchange plate 132 having the hollow structure and to the outside of the heat exchange plate 132. The outdoor air is moved to allow heat exchange. At this time, the indoor and outdoor air is contacted with a large surface area by the uneven bending 134 or the wavy bending 136 of the heat exchange plate 132, thereby increasing the efficiency thereof.

As can be seen from the above description, according to the present invention, a single heat exchanger is provided inside the ventilator in which the outdoor air is sucked and discharged by the single motor so that the outdoor and outdoor air is in contact with the outdoor air in the heat exchanger. There is an advantage to increase the recovery rate of energy.

1 is a cross-sectional view showing the structure of a ventilation device for a building according to the present invention,

2 is a plan view showing an installation example of a ventilation device of a building according to the present invention,

3 is a cross-sectional view taken along the line I-I of FIG.

Figure 4 is a perspective view for explaining the configuration of the heat exchanger provided in the ventilation device of the building according to the present invention,

5 is a view for explaining a state in which heat exchange is made by the flow of air during intake and exhaust in the heat exchanger according to FIG. 4;

6 is a view showing a modification of the heat exchanger for the display of FIG.

FIG. 7 is a perspective view showing another modified example of the heat exchanger of FIG. 4;

8 is a view showing the flow of indoor and outdoor air in the ventilation device of the building according to the present invention.

Explanation of symbols on the main parts of the drawings

100-Ventilation 110-Casing

112-Indoor Air Moveway 112a-Indoor Air Suction

112b-Indoor Air Vent 114-Outdoor Air Travel Path

114a-Outdoor air suction 114b-Outdoor air exhaust

120-intake and exhaust means 122-motor

124-Intake Fan 126-Exhaust Fan

130-heat exchanger 132-heat exchanger

Claims (4)

In the ventilation of the building, It is installed to protrude to the indoor side and the outdoor side through the wall of the building, and the indoor air suction hole on the upper surface protruding to the indoor side, the outdoor air exhaust hole on the lower surface and the indoor air exhaust hole on the lower surface protruding to the outdoor side The upper surface of the casing having an inner space having an outdoor air suction hole; By installing partition walls in the inner space of the casing, the inner space is divided into an indoor air movement path and an outdoor air movement passage, and by each motor to move the indoor and outdoor air through each of the movement paths to be intake and exhaust. Intake and exhaust means for installing a rotating intake fan and an exhaust fan in the casing; And By installing heat exchange plates having a hollow structure in the inner space of the casing, indoor air is moved into the hollow structure of the heat exchange plates, and outdoor air is moved to the outside of the heat exchange plates, through the inner and outer surfaces of the heat exchange plates. Ventilation device of the building comprising a heat exchange unit for heat exchange while the indoor air and the outdoor air contacts. According to claim 1, wherein the heat exchange plate is a ventilation device of the building, characterized in that formed in any one of the shape of the concave-convex bend or the wave form bend. The ventilation device of claim 1, wherein the heat exchange plates are made of a window paper and activated carbon. The ventilation system of claim 1, wherein the indoor air suction hole and the indoor air discharge hole, and the outdoor air suction hole and the outdoor air discharge hole are formed in a grill shape having a plurality of holes.