KR100946587B1 - Heat exchanger fan - Google Patents

Abstract

According to the present invention, a fan is provided between a front case and a rear case and a blower fan rotated by a motor, and the blower fan 130 including the motor 120 is provided inside the rear case 110. To be installed, the outdoor air outlet 115 is formed in the upper portion of the rear case 110, the indoor air inlet 114 is arranged in the lower portion, the front case 150, the front of the blowing fan 130 The indoor air outlet 154 is formed in the portion, and the outdoor air inlet 155 is formed at the lower portion, the outdoor air inlet 155 of the front case 150 and the outdoor air outlet of the rear case 110 ( The heat exchanger fan is configured such that the heat exchanger 140 is fixed between the coupling jaws 113, 153, and 163 between the 115 and between the upper edge of the heat exchanger 140 and the rear case 110. Thus, the present invention is to minimize the thickness of the fan by arranging the total heat exchanger in the lower or upper portion of the blower fan, the flow of outdoor and indoor air generated by the rotation of the blower fan is the heat exchanger It is a very useful invention that allows a significant saving of energy by allowing the heat exchange between the outdoor air and the indoor air to be simple while the structure is simple.

Heat exchanger, energy, saving, ventilator

Description

Heat exchanger fan {The fan device with heat exchanger}

The present invention relates to a heat exchange ventilator, and more particularly, by using only one blower fan and the total heat exchanger so as to minimize the thickness of the built-in heat exchanger by replacing the existing ventilator installed in the windows and ducts A heat exchange ventilator for saving energy.

In general, unlike the ventilation system installed in the ceiling or inside the duct, the ventilation fan for a window installation is simple and small in size, so that a blower fan (usually a propeller type fan) is usually installed for easy installation on one side of the window. However, this type of ventilation device does not have any means for heat exchange in a manner of forcibly exhausting the indoor air to the outside, so in winter the indoor air warmed by the heating means is discharged to the outside. In the summer, the indoor air cooled by the cooling means is forcibly discharged to the outside, which is a point of serious energy waste.

Therefore, in order to solve such drawbacks, the air supply fan and the exhaust fan are respectively installed in both compartments partitioned by longitudinal partitions in the casing, such as Utility Model Application No. 20-2000-0014766, a heat recovery ventilator, and a heat pipe type in front of them. In the arrangement of the total heat exchangers, a transverse bulkhead is provided between the air supply and the exhaust fan and the heat pipe type heat exchanger, and a plate type heat exchanger is positioned at the center portion intersecting the vertical bulkhead, and the plate type heat exchanger is provided with an air supply and an exhaust. The heat recovery ventilator "is characterized in that the furnace is formed in multiple stages to cross up and down to penetrate into the compartments of the diagonal positions.

However, the conventional ventilation apparatus as described above is not only provided with two blowing fans for supplying and exhausting, but also a structure in which the heat exchanger is located at the center portion where the vertical bulkhead intersects, that is, in front of the blowing fan. And a structure in which the upper and lower widths have to be thickened. This is because the manufacturing cost is increased because two blower fan should be installed, and if the front, rear width and upper and lower width of the ventilation device is thick, it is difficult to install inside the windows and ducts.

Like this, the ventilation fan installed inside the window and the duct has a big difference depending on whether the front, rear width, upper and lower widths can be made slim or thin according to the arrangement of the blower fan and the heat exchanger. Will occur.

In addition, the ventilation fan installed in the windows and ducts need a structure for obtaining an optimal heat exchange effect with one blower fan and one heat exchanger in order to save manufacturing costs.

The present invention is to arrange the heat exchanger in the lower or upper portion of the blower fan to make the thickness of the blower as thin as possible, the air flow is generated by the rotation of the blower fan by blocking the rear of the blower fan and the front of the heat exchanger. The outdoor air passes through the heat exchanger to the room, and the indoor air passes through the heat exchanger.

As such, the present invention minimizes the thickness of the fan by arranging the total heat exchanger in the lower part or the upper part of the blower fan, and the structure of the outdoor and indoor air generated by the rotation of the blower fan passes through the heat exchanger. It is a simple yet very useful invention that enables significant heat exchange between the outdoor air and the indoor air to achieve a significant energy saving.

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

2 is an exploded perspective view of the heat exchange ventilator 100 according to an embodiment of the present invention, the present invention is installed between the front case 150 and the rear case 110, the case (110, 150) In the fan made of the blowing fan 130 rotated by the motor 120, the blowing fan 130 having the motor 120 is installed in the rear case 110, the rear case 110 The outdoor air outlet 115 is formed at the upper part of the upper side, and the indoor air inlet 114 is disposed at the lower part thereof, and the indoor air outlet 154 is formed at the front part of the blower fan 130 at the front case 150. The outdoor air inlet 155 is formed at a lower portion thereof, and the heat exchanger 140 is disposed between the outdoor air inlet 155 of the front case 150 and the outdoor air outlet 115 of the rear case 110. Is fixed by the coupling jaw (113, 153, 163) Groups include, but are not limited to between the upper edge and the rear case 110 of the total enthalpy heat exchanger 140 is configured to form a guide plate (112).

At this time, the heat exchanger 140 is fixed so as not to move by the coupling jaw 113 of the rear case 110 and the coupling jaw 153 of the front case 150. The coupling jaws 113 and 153 have a structure protruding slightly from the case, and only have corners, but are difficult to interfere with the flow of indoor and outdoor air passing through the heat exchanger 140.

Of course, the outdoor air inlet 155 is formed in the front case 150 that faces the indoor air inlet 114 of the rear case 110, which is formed by the heat exchanger 140 standing in a lozenge to the coupling jaw 113 and 153. Because it is supported by.

That is, a blocking plate 151 is formed in the front case 150 facing the outdoor air outlet 155 of the rear case 110 so that the blower fan 130 has the indoor air passing through the heat exchanger 140. It is configured to exit through the indoor air outlet 154 through.

3, the heat exchanger 140 has a hexahedral shape in which plate-shaped heat transfer plates 141 having both ends bent at right angles are repeatedly stacked horizontally and vertically, wherein the heat transfer plate ( 141 is preferably a copper plate or an aluminum plate with good thermal conductivity.

Of course, the heat exchanger 140 as described above may be installed in the lower portion of the blower fan 130 as shown in the drawing, but may be installed in the upper portion in the same structure, and may be installed in the upper and lower portions. Do.

That is, as shown in [7] to [9], the present invention is a blowing fan that is rotated by the motor 220 is installed between the front case 250 and the rear case 210, the case (210, 250) In the ventilator 230, a blower fan 230 having a motor 220 is installed up and down inside the rear case 210, and an outdoor air outlet at the top of the rear case 210. 215 is formed, and the indoor air inlet 214 is disposed on the lower portion, the outdoor air inlet 255 is formed on the upper portion of the front case 250 and the indoor air outlet 254 is disposed on the lower portion, The heat exchanger 240 may be configured to be fixed by the coupling step 213 between the blower fan 230.

In this case, the heat exchanger 240 is fixed in a stacked structure of two, so that the air purified by the heat exchanger 240 also performs a role of a filter is introduced into the room.

In addition, the blower fan 230 is installed above and below, so that one blower fan 230 discharges the air introduced from the outside into the room, and the other blower fan 230 discharges the air introduced from the room into the outside. By doing so, the indoor air can be purified quickly.

In addition, in the present invention, a propeller type fan may be used as a means for forcibly discharging indoor air to the outside. However, since the upper and lower widths of the case become larger, a cylindrical sirocco fan that can make the most of the internal space is used. It will be preferred to use.

In addition, the present invention has a structure in which the indoor air inlet (114,214) and the outdoor air outlet (115,215), the indoor air outlet (154,254) and the outdoor air inlet (155,255) has an adjacent structure, in order to prevent the mixing of air and induce flow It is preferable to form the guide plate 112 and the air guide plate 210a inside the cases 110 and 210 and the air guide plate 250a inside the front case 250.

Therefore, the present invention heat exchange ventilator (100,200) is introduced into the indoor air through the indoor air inlet (114,214) by the drive of the blower fan (130,230), and then to the outside through the indoor air outlet (154,254) through the heat exchanger (140,240). The outdoor air is introduced through the outdoor air inlets (155, 255) by the amount of the indoor air discharged, and then discharged into the room through the outdoor air outlets (115, 215) through the heat exchangers (140, 240), and the heat is transferred at the same time. It is possible to save energy by exchange of.

As described above, the technical idea of the present invention has been described in detail by the specification and the drawings, but the above-described embodiments are not intended to limit the description of the technology and are not intended to be limiting. It should be considered that various modifications are possible within the scope of the spirit.

1-A cross-sectional view of a fan installed in a conventional window.

2-an exploded perspective view according to an embodiment of the present invention.

3 is a perspective view of a total heat exchanger among the components of the present invention.

4-perspective view of the combination of FIG.

5-4 are longitudinal cross-sectional views.

6-an operational state diagram according to an embodiment of the present invention.

7-An exploded perspective view according to another embodiment of the present invention.

8-7 a perspective view of the combination.

9-7 are longitudinal cross-sectional views.

10-operational state diagram according to another embodiment of the present invention.

11-Reference state of use of the present invention.

* Explanation of symbols for main parts of the drawings

100,200: ventilator of the present invention

110,210: rear case 111: blocking plate

112: guide plate 113,213: coupling jaw

114,214: Indoor air inlet 115,215: Outdoor air outlet

120,220: motor 130,230: blowing fan

140,240: heat exchanger 141,241: heat transfer plate

150,250: Front case 151: Block plate

152: guide jaw 153, 160: coupling jaw

154,254: Indoor air outlet 155,255: Outdoor air inlet

210a, 250a: air guide plate

Claims (3)

Between the front case and the rear case, the case is made of a blowing fan that is rotated by a motor, the blower fan 130 having a motor 120 is installed in the rear case 110, the An outdoor air outlet 115 is formed at an upper portion of the rear case 110, an indoor air inlet 114 is disposed at a lower portion thereof, and an indoor air outlet is formed at a front portion of the blower fan 130 at the front case 150. 154 is formed, and the outdoor air inlet 155 is formed at a lower portion thereof, and is formed between the outdoor air inlet 155 of the front case 150 and the outdoor air outlet 115 of the rear case 110. In the heat exchange fan consisting of a total heat exchanger 140 having two heat transfer plates 141 having a hexahedral shape, The heat exchanger 140 is to support both edges by the coupling jaw 113 of the rear case 110 and the coupling jaw 153 of the front case 150, the upper edge and the lower edge is the guide plate 112 And while being supported by the coupling jaw 160 and the indoor air and the outdoor air to pass through the interior of the heat exchanger 140, the indoor air passing through the heat exchanger 140 is guided by the guide jaw 151 Heat exchange fan, characterized in that configured to be discharged to the outside by a cylindrical sirocco fan. delete delete

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