KR101272674B1 - Heat exchange of ventilating device - Google Patents

Abstract

The present invention relates to a heat exchange ventilator, wherein an air diffusion plate provided between a suction port of a housing in which indoor or outdoor air is sucked and a heat exchanger installed in a case is guided so that internal and external air sucked through the suction port is evenly distributed to the heat exchanger. The inside and the outside air sucked through the inlet of the housing are heat exchanged evenly inside the heat exchanger, thereby increasing the heat exchange efficiency.
In the heat exchange ventilator according to the present invention, the heat exchange efficiency is increased by uniformly flowing the internal and external air, and the temperature difference between the indoor and the outdoor is increased during cooling or heating, thereby reducing the load of the air conditioner and the heater. The energy consumption rate is significantly lowered.

Description

Heat exchange venting device

The present invention relates to a heat exchange ventilator, and more particularly, an air diffusion plate provided between a suction port of a housing in which indoor or outdoor air is sucked and a heat exchanger installed inside the housing is evenly sucked through the suction port to the inside and outside air to the heat exchanger. It relates to a heat exchange ventilator is guided to be distributed so that the inside and the outside air sucked through the inlet of the housing evenly heat exchange inside the heat exchanger.

In general, the heat exchange ventilator refers to a heat exchanger that adds a heat exchanger to a ventilation system that inhales outside air to ventilate the room and then discharges it to the outside. By supplying the outdoor air in a high temperature state to be introduced into the room.

Looking at the heat exchange ventilator of the prior art schematically, as shown in Figure 1, the outside air inlet 13 and the air outlet 14 are formed on the wall surface of the housing 10 exposed to the outside of the building, the building The outside air outlet 12 and the air intake 11 are respectively formed on the wall surface of the housing 10 exposed to the inside of the housing 10, the heat exchanger 30 is installed in the interior space of the housing 10, and the heat exchanger 30 is provided. Filter 40 is installed on the outer surface of the), and comprises an exhaust fan 20 for controlling the flow of the internal and external air.

Here, in the case of general ventilation, after the outdoor air is sucked through the outside air inlet 13 by the exhaust fan 20, the filter 40 and the heat exchanger 30 are sequentially passed through the exhaust fan 20 of the outside air outlet 12. 20) is discharged into the room.

In addition, the indoor air is sucked through the air inlet 11, and then sequentially passed through the filter 40 and the heat exchanger 30, and then discharged to the outside by the exhaust fan 20 of the air outlet 14.

At this time, the dust included in the outdoor air to be sucked and the indoor air to be discharged is filtered by the filter 40, and heat is sent to the outside air at low temperature where the hot bet is discharged through the heat exchanger 30. By supplying, the outside air is discharged into the room at a high temperature.

However, as the ventilation device is larger, the internal air or outdoor air sucked through the air inlet 11 and the air inlet 13 is passed through the heat exchanger 30, and then discharged to the outside through the exhaust fan 20. The internal and external air sucked into the housing 10 is not exhausted because the flow of the internal and external air introduced into the heat exchanger 30 is concentrated through a part of the heat exchanger, and the internal and external air are sucked into the exhaust fan ( There is a problem that the heat exchanger is not used efficiently because it is rapidly discharged to the outside in the state that the heat exchange is not possible due to the air volume of 20).

The present invention is to solve the above problems, an object of the present invention is the air diffusion plate provided between the intake port of the housing in which indoor or outdoor air is sucked and the heat exchanger installed in the case, the internal and external air It is to provide a heat exchange ventilator to increase the heat exchange efficiency by guiding the evenly distributed to the heat exchanger so that the inside and the outside air sucked through the inlet of the housing is heat exchanged evenly in the heat exchanger.

In order to achieve the object of the present invention as described above, the heat exchange ventilator according to the present invention, the air inlet and the air outlet are formed on the wall surface exposed to the interior of the building, respectively, the wall surface exposed to the outside of the building An air inlet and an air outlet are respectively formed in the housing, the housing having an inner space in the center thereof, and an exhaust fan installed inside the air outlet and the outside air outlet to discharge air introduced into the housing to the outside; A heat exchanger installed inside the housing to allow heat exchange between indoor air and outdoor air sucked through the internal air suction port and the external air suction port of the housing to cross each other; A filter installed on the outer surface of the heat exchanger to filter dust contained in the indoor and outdoor air sucked through the air inlet and the air inlet; And an air diffusion plate installed between any one of the outside air intake port or the inside air intake port of the housing in which the inside and outside air are sucked and the heat exchanger to distribute the air sucked through the intake port to the heat exchanger.

In the heat exchanging ventilator according to the present invention, the air diffusion plate is formed with a side plate formed to protrude vertically, orthogonal to the side plate, characterized in that it has a c-shape by forming a bottom plate protruding from one end of the side plate do.

In the heat exchange ventilator according to the present invention, the air diffusion plate is characterized in that it is formed in a vertical light narrowing structure inclined from the front to the rear.

In the heat exchange ventilator according to the present invention, the air diffusion plate is characterized in that the length of the side plate is formed longer than the length of the bottom plate.

In the heat exchange ventilator according to the present invention, the air diffusion plate is characterized in that the side plate and the bottom plate in contact with the curvature shape.

In the heat exchange ventilator according to the present invention, the air diffusion plate is characterized in that the blocking plate is formed on the front and rear surfaces of the side plate and the bottom plate.

In the heat exchanging ventilator according to the present invention, the air diffusion plate is characterized in that the upper portion of the side plate is formed in an upper and lower light structure.

In the heat exchange ventilator according to the present invention, the air diffusion plate is installed in each of the air intake air inlet and the outdoor air intake air sucked indoor air.

The heat exchange ventilator according to the present invention configured as described above has the advantage that the heat exchange efficiency is increased by uniformly flowing the internal and external air, and the energy consumption rate of operating the cold and the heater is significantly reduced.

1 is a schematic plan view showing the flow of internal and external air through the heat exchange ventilator according to the prior art.
Figure 2 is a perspective view of a heat exchange ventilator according to the present invention.
Figure 3 is a schematic plan view showing the flow of internal and external air through the heat exchange ventilator according to the present invention.
Figure 4 is a perspective view of the air diffusion plate of the heat exchange ventilator according to the present invention.

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

Figure 2 is a perspective view showing a heat exchange ventilator according to the present invention, Figure 3 is a schematic plan view showing the flow of internal and external air through the heat exchange ventilator according to the present invention, Figure 4 is a heat exchange ventilator of the present invention A perspective view showing an air diffusion plate.

The housing 10 has an air inlet 11 and an air outlet 12 formed on a wall surface exposed to the interior of the building, and an air inlet 13 and an air outlet 13 on the wall exposed to the outside of the building. 14) is formed, and has an inner space in the center.

The housing 10 includes a heat exchanger 30 in an internal space in which internal and external air exchange with each other.

The exhaust fan 20 is installed inside the air outlet 14 and the outside air outlet 12 to discharge the internal and external air introduced into the housing 10 to the outside.

The exhaust fan 20 discharges the inside and outside air inside the housing 10 through the outside air outlet 12 and the inside air outlet 14, and the inside air inlet 11 and the outside air inlet 13 of the housing 10. ) To induce internal and external air.

The heat exchanger 30 is installed inside the housing 10 so that the internal and external air sucked through the internal air suction opening 11 and the external air suction opening 13 of the housing 10 may exchange with each other.

The heat exchanger 30 heats the internal and external air sucked through the inlets 11 and 13 of the housing 10 to the inside.

The heat exchanger 30 reduces the temperature of the outdoor air introduced into the room by the heat exchange action inside the outdoor air and the heat exchanger 30 when the indoor air is being cooled.

The heat exchanger 30 increases the temperature of the outdoor air introduced into the room by the heat exchange between the indoor air and the heat exchanger 30 when the indoor air is heated.

The filter 40 is installed on the outer surface of the heat exchanger 30 to filter the dust contained in the internal and external air sucked through the internal air suction port 11 and the external air suction port 13.

The filter 40 may use a filter having a dual structure to finely filter dust contained in the inside and the outside air.

The air diffusion plate 50 is installed between any one of the air intake port 11 or the outside air intake port 13 of the housing 10 into which the inside and the outside air is sucked, and the heat exchanger 30. The air sucked through) is distributed to the heat exchanger 30.

The air diffusion plate 50 has a side plate 51 formed to protrude vertically, and forms a bottom plate 52 protruding from one end of the side plate 51 to be orthogonal to the side plate 51. Has

The air diffusion plate 50 has a vertical light narrowing structure inclined from the front to the rear.

The air diffusion plate 50 is formed such that the length of the side plate 51 is longer than the length of the bottom plate (52).

The air diffusion plate 50 may allow the internal and external air sucked through the inlets 11 and 13 of the housing 10 to flow to the ends of the heat exchanger 30 according to the length of the side plate 51. have.

The air diffusion plate 50 has a curvature shape at a portion where the side plate 51 and the bottom plate 52 contact each other.

The air diffusion plate 50 may adjust the flow range of the internal and external air flowing to the heat exchanger 30 according to the radius of curvature of the portion where the side plate 51 and the bottom plate 52 contact.

The air diffusion plate 50 is formed with a blocking plate 53 before and after the side plate 51 and the bottom plate 52.

The blocking plate 50 prevents some of the internal and external air sucked through the inlets 11 and 13 of the housing 10 from escaping to the side of the air diffusion plate 50.

The air diffusion plate 50 has an upper portion of the side plate 51 having an upper and lower light structure.

The upper part of the side plate 51 is formed in the upper and lower light structure so that the internal and external air sucked through the inlets 11 and 13 of the housing 10 by the side wall 51 of the air diffusion plate 50. When flowing in the direction of the heat exchanger (30) prevents the internal and external air to be dispersed.

The air diffusion plate 50 is installed in the air intake port 11 through which indoor air is sucked and the air intake port 13 through which the outdoor air is sucked.

The heat exchange ventilator according to the present invention configured as described above is operated as follows.

First, the air inlet 13 and the air outlet 14 of the housing 10 are exposed to the outside of the building, the air inlet 11 and the air outlet 12 are installed to be exposed to the interior of the building, the outlet ( An exhaust fan 20 for discharging internal and external air inside the housing 10 is installed inside the 12 and 14, and a heat exchanger in which internal and external air sucked through the suction ports 11 and 13 flows in and exchanges heat. 30 is installed inside the housing 10, and an outer surface of the heat exchanger 30 is provided with a filter 40 for filtering dust from internal and external air, and an air intake port of the housing 10. (11) or the exhaust fan 20 installed in the outlets 12 and 14 with the air diffusion plate 50 installed between any one of the outside air intake ports 13 and the heat exchanger 30, Internal and external air flows into the housing 10 through the suction ports 11 and 13 of the housing 10 by the suction force of the exhaust fan 20. The internal and external air flows by the side plate 51 of the gas diffusion plate 50 in a curved direction toward the heat exchanger 30, and flows by the side plate of the air diffusion plate 50 to the filter 40. While passing through the heat exchanger (30) inside the heat exchanger 30 in the state of filtering dust, the internal and external air inside the heat exchanger (30) by the suction force of the exhaust fan 20 of the outlet (12, 14) Flows and is discharged to the outside. At this time, the internal and external air introduced into the housing 10 is upwardly lifted by the air diffusion plate 50, and the suction force of the exhaust fan 20 installed at the outlets 12 and 14 of the housing 10 is increased. It descends to the bottom by the flow in a curved shape.

On the other hand, the heat exchanger (30) when the room is cooling, the inside of the heat exchanger and the inside of the heat exchanger heat exchanger to transfer the cold air to the outside air to reduce the temperature of the outside air discharged into the room through the outside air outlet (12) Let's go.

In addition, when the interior is heating, the heat exchanger 30 transfers the heat of the bet to the outside by exchanging heat inside the air and the heat exchanger 30 to the outside to discharge the indoor air through the outside air outlet 12. It will raise the temperature.

On the other hand, the filter 40 may use a double filter having a double structure in order to filter out the fine dust of the internal, external air.

Subsequently, the air diffusion plate 50 includes a side plate 51 for changing the flow direction of internal and external air, and a bottom plate 52 protruding from the lower side of the side plate 51 to be orthogonal to the side plate 51. It consists of c-shaped.

In addition, the air diffusion plate 50 is formed in a curvature shape of the portion in which the side plate 51 and the bottom plate 52 abut, so that the side plate (inside and outside the flow direction is changed by the curvature portion) 51) to the heat exchanger (30).

In this case, the air diffusion plate 50 may adjust the flow radius of the internal and external air flowing to the heat exchanger 30 by changing the radius radius of the curvature portion.

In addition, the air diffusion plate 50 forms the length of the side plate 51 longer than the length of the bottom plate 52, the internal and external air flowing through the air diffusion plate 50, the heat exchanger ( 30) to the end of the flow.

At this time, the flow radius of the inner and outer air forming a curved shape in the housing 10 is adjusted according to the length of the side plate (51).

In addition, the air diffusion plate 50 is increased in the flow rate of the internal and external air flowing to the heat exchanger 30 due to the upper and lower narrow structure formed inclined from the front to the rear.

In addition, the air diffusion plate 50 forms a blocking plate 53 on both side surfaces of the side plate 51 and the bottom plate 52, and is sucked through the inlets 11 and 13 of the housing 10. Some of the internal and external air can be prevented from being separated to the side while passing through the air diffusion plate 50.

In addition, the air diffusion plate 50 is the upper portion of the side plate 51 is formed in the upper and lower light structure, the internal and external air sucked through the inlet (11, 13) of the housing 10, the air diffusion plate When passing through the 50 to the heat exchanger 30 to prevent the internal and external air is dispersed.

In addition, the air diffusion plate 50 may be installed at each of the air intake port 11 through which indoor air is sucked in and the air intake port 13 through which the outdoor air is sucked, thereby adjusting the flow radius of the internal and external air.

As such, the air diffusion plate 50 installed between the inlets 11 and 13 of the housing 10 and the heat exchanger 30 flows the internal and external air evenly so as to flow into the heat exchanger 30. In the internal and external heat exchange structure inside, the heat exchange efficiency of internal and external air is increased, the temperature difference between indoor and outdoor increases during cooling or heating, and the load of cooling and heater is reduced, and energy consumption rate is remarkably lowered. Cost can be reduced.

The heat exchange ventilator according to the present invention described above is not limited to the above-described embodiment, and those skilled in the art to which the present invention pertains without departing from the gist of the present invention claimed in the following claims. It will be said that there is a technical spirit of the present invention to the extent that it can be variously changed.

10 housing 11: air intake
12: outside air outlet 13: outside air intake
14: bet outlet 20: exhaust fan
30: heat exchanger 40: filter
50: air diffusion plate 51: side plate
52: bottom plate 53: blocking plate

Claims (8)

The air inlet 11 and the air outlet 12 are respectively formed on the wall surface exposed to the inside of the building, and the air inlet 13 and the air outlet 14 are respectively formed on the wall exposed to the outside of the building. The housing 10 has an inner space in the center; And
An exhaust fan 20 installed inside the air outlet 14 and the outside air outlet 12 for discharging air introduced into the housing 10 to the outside;
A heat exchanger (30) installed inside the housing (10) such that indoor air or outdoor air sucked through the internal air suction port (11) and the external air suction port (13) of the housing (10) can exchange heat with each other;
A filter (40) installed on an outer surface of the heat exchanger (30) to filter dust contained in indoor and outdoor air sucked through the air inlet (11) and the outside air inlet (13); And
The side plate 51 is formed to protrude vertically from the bottom surface or the top surface of the housing 10, is formed orthogonal to the side plate 51, and forms a bottom plate 52 extending from one end of the side plate 51. It has a b-shape, and is installed between any one of the air intake port 11 or the air intake port 13 of the housing 10, the inside and outside air is sucked in and the heat exchanger 30 is the intake port (11, 13) In the heat exchange ventilator consisting of; air diffusion plate 50 for dispersing air sucked through the heat exchanger 30;
The air diffusion plate 50 is a heat exchange ventilator, characterized in that the length of the side plate 51 is formed longer than the length of the bottom plate (52). delete The method of claim 1,
The air diffusion plate 50 is a heat exchange ventilator, characterized in that it is formed in the upper and lower narrow structure inclined from the front to the rear. delete The method of claim 1,
The air diffusion plate 50 is a heat exchange ventilator, characterized in that the side plate 51 and the bottom plate 52 is in contact with the curvature shape. The method of claim 1,
The air diffusion plate 50 is a heat exchange ventilator, characterized in that the blocking plate 53 is formed on the front and rear surfaces of the side plate 51 and the bottom plate (52). The method of claim 1,
The air diffusion plate (50) is a heat exchange ventilator, characterized in that the upper portion of the side plate 51 is formed in an upper and lower light structure. The method of claim 1,
The air diffusion plate (50) is a heat exchange ventilator, characterized in that installed in each of the air intake vent (11) and the outdoor air suction port (13) where the indoor air is sucked.

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