KR100623526B1 - Energy recovery ventilation and method for controlling ventilation the same - Google Patents

Abstract

The present invention relates to a waste heat recovery apparatus and method capable of automatic heat transfer and general ventilation according to the temperature difference of the indoor and outdoor air and the indoor air pollution degree. Air supply duct to allow the outdoor air to flow into the interior for this purpose; An exhaust duct crossing the air supply duct at a predetermined position and guiding indoor air to the outside; A heat exchanger configured to exchange heat between the outdoor air supplied into the room and the indoor air exhausted to the outside at a point where the air supply duct and the exhaust duct cross each other; A damper for selectively introducing outdoor air introduced into the air supply duct into the exhaust duct and the heat exchanger; A first temperature detector configured to detect a temperature of the outdoor air introduced into the air supply duct; A second temperature detector configured to detect a temperature of the indoor air introduced into the exhaust duct; And a controller for comparing the detected temperatures from the first and second temperature detectors and outputting a control signal to operate the damper according to the comparison result. Therefore, even in the spring or autumn when the use of the heat exchanger is not necessary, the heat exchanger does not necessarily pass through the temperature difference between the indoor and outdoor to prevent unnecessary contamination and can quickly ventilate the contaminated indoor.

Waste Heat Recovery, Ventilator, Heat Exchanger

Description

Waste recovery and ventilation control method {Energy recovery ventilation and Method for controlling ventilation the same}

1 is a cross-sectional view showing the configuration of a general waste heat recovery ventilator.

Figure 2 is a cross-sectional view showing a schematic configuration of the ventilation control of the waste heat recovery ventilator according to the present invention.

Figure 3 is a side cross-sectional view of the waste heat recovery ventilator for explaining the ventilation structure of the waste heat recovery ventilator of FIG.

Figure 4 is a block diagram showing the configuration of the waste heat recovery ventilator of FIG.

5 is a flow chart showing the ventilation process of the waste heat recovery ventilator according to the present invention.

(Explanation of symbols for the main parts of the drawing)

100: waste heat recovery ventilator 110: partition wall

120: air supply duct 121: air supply inlet

122: air supply outlet 130: exhaust duct

131: exhaust inlet 132: exhaust outlet

140: ventilation passage 200: heat exchanger

300: damper 310: damper drive unit

400: air supply fan 410: exhaust fan

500: first temperature detector 510: second temperature detector

600: contamination detection unit 700: control unit

The present invention relates to a waste heat recovery ventilator, and more particularly, to a waste heat recovery apparatus and method capable of automatically transferring heat and general ventilation according to a temperature difference between indoor and outdoor air and an indoor air pollution degree.

In general, the air in an enclosed space increases the content of carbon dioxide and various harmful substances with time by the breathing of the living being, which interferes with the breathing of the living.

Therefore, if many people stay in a confined space such as an office or a vehicle, the indoor polluted air should be replaced with fresh air from time to time.

At this time, a commonly used ventilation device. Most conventional ventilation apparatuses employ a method of forcibly discharging only indoor air to the outside using a single blower.

However, when forcibly discharging only the indoor air by using one blower, the indoor air is discharged to the outside without filtration and the outdoor air is introduced without heat exchange through a door or window gap, thereby heating and cooling the room. The cost of cooling was unnecessarily high.

In addition, due to the sudden inflow of cold air and heat from inside to outside people suddenly change the temperature of the interior people there is unpleasant feelings, especially in the state that the indoor window or door frame closed to discharge only the indoor air to the outside In this case, the inflow of fresh air may be blocked and oxygen deficiency may occur, and the humidity of the indoor air is not controlled at all. However, even though a ventilation device is provided, it does not maintain a comfortable indoor environment. there was.

In order to solve this conventional problem, a waste heat recovery ventilator has been proposed in which outdoor air is first heat-exchanged with indoor air discharged to the outside and then supplied to indoors.

1, the waste heat recovery ventilator is provided with an air supply duct 10 into which the outdoor air flows into the inside of the box-shaped duct 1, and intersects with the air supply duct at a predetermined position. The exhaust duct 20 is guided to the outdoor is provided.

A heat exchanger 30 is provided to exchange heat between the outdoor air that is supplied at the point where the air supply duct 10 and the exhaust duct 20 intersect and the indoor air that is exhausted.

At this time, the air supply duct 10 and the exhaust duct 20 are not interfered with each other by the partition wall 3 partitioning the inside of the duct 1 up and down.

An air supply suction opening 11 is formed at one end of the air supply duct 10 and an air supply outlet 13 is formed at the other end of the air supply duct 20. The inlet 21 is formed and the other end is formed with an exhaust outlet 23 in communication with the outdoors.

An air supply fan 15 for forcibly sucking outdoor air is provided at the air supply inlet 11 of the air supply duct 10, and an air exhaust fan for forcibly discharging indoor air at the exhaust outlet 23 of the air exhaust duct 20. 25 is provided.

On the other hand, the heat exchanger 30 has a hexahedral shape in which the upper and lower edges are supported by the duct 1 and the left and right edges are supported by the partition wall 3, and a plurality of air supply passages 37 communicating with the air supply duct 10 therein. ) And a plurality of exhaust passages 39 adjacent to the air supply passage 37 and communicating with the exhaust duct 20.

Although not separately shown in the drawings, a heat exchange plate having excellent heat conduction efficiency is provided at the boundary between the air supply passage 37 and the exhaust passage 39.

At this time, the portion shown by the solid line is the air supply passage 37, and the portion shown by the dotted line is the exhaust passage 39. The operation of the waste heat recovery ventilator having such a configuration is as follows.

First, when indoor air is contaminated to some extent, power is supplied to the exhaust fan 25 so that indoor air flows into the exhaust duct 20 through the exhaust inlet 21, and then the exhaust passage 39 of the heat exchanger 30. ) Is discharged to the outside through the exhaust outlet (23).

At the same time, while supplying power to the air supply fan 15, fresh outdoor air flows into the air supply duct 10 through the air supply inlet 11, and then passes through the air supply passage 37 of the heat exchanger 30. 13) is introduced into the room.

At this time, the indoor air and the outdoor air passing through the heat exchanger 30 will exchange heat through the heat exchange plate. In detail, the heat exchange in the heat exchanger 30 includes sensible heat exchange between the supplied outdoor air and the exhausted indoor air, and the dew point temp of the hot air in the indoor or outdoor air. It becomes the latent heat exchange by the condensate produced | generated while being in the following states.

In the case of the heat exchange type ventilation device, the outdoor air supplied when the room is cooled or heated is primarily heat-exchanged with the indoor air and then introduced into the room, thereby preventing a rapid rise or fall of the room temperature.

Waste heat recovery ventilator having the above configuration is further provided with a damper (not shown) between the heat exchanger 30 and the inner peripheral surface of the duct (1).

The damper is rotated about a hinge (not shown) by a motor (not shown) to open or close the heat exchanger 30 and the inner circumferential surface of the duct 1.

In other words, the damper does not need to be heated or cooled indoors, and it is for reliably opening the duct 1 for smooth indoor ventilation in the spring or autumn season, which does not need to worry about the temperature difference between the indoor and outdoor.

However, the conventional waste heat recovery ventilator is not only contaminated with the heat exchanger unnecessarily because the air flowing into or out of the room by the blower fan is designed to pass through the heat exchanger even in the spring or autumn season when the use of the heat exchanger is unnecessary. There was a problem in that unnecessary power consumption.

In addition, the waste heat recovery ventilator according to the prior art has a problem that consumes a lot of electricity by performing heat exchange unnecessarily even in the spring or autumn season requiring only simple ventilation due to the static pressure generated in the duct.

In order to solve the above problems, an object of the present invention is to provide a waste heat recovery apparatus and method capable of automatic heat transfer and general ventilation according to the temperature difference and the indoor air pollution degree of the indoor and outdoor air.

The present invention to achieve the above object,
An air supply duct for allowing outdoor air to flow into the room;
An exhaust duct crossing the air supply duct at a predetermined position and guiding indoor air to the outside;
A heat exchanger configured to exchange heat between the outdoor air supplied into the room and the indoor air exhausted to the outside at a point where the air supply duct and the exhaust duct cross each other;
A damper for discharging the outdoor air introduced into the air supply suction port of the air supply duct to the room via a ventilation passage or a heat exchanger included in the air supply duct;
A first temperature detector configured to detect a temperature of the outdoor air introduced into the air supply duct;
A second temperature detector configured to detect a temperature of the indoor air introduced into the exhaust duct;
A pollution degree detector configured to detect a pollution level of the indoor air introduced into the exhaust duct; And
Compare the detected temperatures from the first and second temperature detectors and output a control signal to operate the damper according to the comparison result, and the outdoor air introduced through the air supply duct according to the detection result of the pollution degree detector. Provides a waste heat recovery ventilator comprising; a control unit for adjusting the inflow of the air and the amount of indoor air exhausted through the exhaust duct.

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In addition, the present invention is a ventilation control method of the waste heat recovery ventilator,
a) the control unit sucking the indoor and outdoor air through the air supply duct and the exhaust duct, and detecting a temperature difference between the indoor and outdoor air through a temperature sensor installed in the air supply duct and the exhaust duct;
b) comparing the temperature difference of the indoor and outdoor air detected in step a) with a reference temperature for electrothermal ventilation determination; And
c) in step b), when the temperature difference between the indoor and outdoor air is equal to or greater than the reference temperature for the electrothermal ventilation determination, the controller sets an inflow path of the outdoor air so that the outdoor air flows into the indoor through a heat exchanger, and the electrothermal ventilation Setting a path so that the outdoor air flowing into the air supply inlet of the air supply duct flows directly into the room via a ventilation passage when the temperature is lower than the reference reference temperature;
d) the control unit is installed in the exhaust duct to detect the pollution of the indoor air from the pollution detection unit;
e) comparing the detected pollution level from step d) with a reference value for determining whether the room is polluted;
f) when the detected pollution degree exceeds the reference value for determining whether the indoor air is polluted as a result of the comparison in step e), the controller is exhausted through the inflow amount of the outdoor air introduced through the air supply duct and the exhaust duct. Increasing the exhaust volume of the indoor air and maintaining the current amount of the outdoor air introduced through the air supply duct and the exhaust air amount of the indoor air exhausted through the exhaust duct if the indoor air is less than the reference value for determining whether the indoor air is contaminated; It provides a ventilation control method of the waste heat recovery ventilator comprising.

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Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. First, the repeated description of the same configuration as the prior art will be omitted and the components for achieving the object of the present invention will be described.

2 is a cross-sectional view showing a schematic configuration of the ventilation control of the waste heat recovery ventilator according to the present invention, Figure 3 is a side cross-sectional view of the waste heat recovery ventilator for explaining the ventilation structure of the waste heat recovery ventilator of FIG. 4 is a block diagram showing the configuration of the waste heat recovery ventilator of FIG.

Referring to Figures 2 to 4 the waste heat recovery ventilator 100 according to the present invention.

The waste heat recovery ventilator 100 according to the present invention has an air supply duct 120 to allow outdoor air to flow into the interior of the duct and an air supply duct 120 to cross the air supply duct 120 at a predetermined position and to guide the indoor air to the outside. A heat exchanger 200 for exchanging the outdoor air supplied to the room and the indoor air exhausted to the outside at a point where the duct 130 and the air supply duct 120 and the exhaust duct 130 intersect, and the air supply duct Damper 300 and the air supply duct 120 to be discharged to the indoor air via the ventilation passage 140 or the heat exchanger 200 selectively through the air supply suction inlet 121 of 120 (120) A first temperature detector 500 for detecting the temperature of the outdoor air, a second temperature detector 510 for detecting the temperature of the indoor air introduced into the exhaust duct 130, and a first and second temperature detector ( Compare the respective detected temperatures from 500 and 510 and According to the result T comprises a controller 700 which outputs a control signal so that the damper 300 is in operation. The solid line shows the path of the outdoor air and the dotted line shows the path of the outdoor air.

The damper 300 is hinged to the waste heat recovery device 100 and rotated around the hinge by a damper driver 310 installed at one side of the air supply duct 120, and the damper driver 310 is controlled from the controller 700. It is driven according to the transmitted control signal.

The first temperature detector 500 is installed in the air supply inlet 121 of the air supply duct, and the second temperature detector 510 is installed in the air exhaust inlet 131 of the exhaust duct. The temperatures detected by the first and second temperature detectors 500 and 510 are transmitted to the controller 700.

In addition, the waste heat recovery ventilator 100 is installed in the exhaust inlet 131 of the exhaust duct 130 is provided with a pollution degree detection unit 600 for detecting the pollution of the indoor air flowing from the room, the pollution degree detection unit 600 is detected Pollution degree information of the indoor air is transmitted to the control unit 700.

The control unit 700 compares the respective temperature information transmitted from the first and second temperature detectors 500 and 510 to obtain a temperature difference, and the outdoor unit is introduced through the air supply inlet 121 of the air supply duct according to the comparison result. The air is discharged through the heat exchanger 200 to the air supply outlet 122 of the air supply duct or through the ventilation passage 140 without passing through the heat exchanger 200 to the air supply outlet 122 of the air supply duct damper ( A control signal for setting 300 is output.

In addition, the control unit 700 to increase the intake air flow rate of the air supply fan 400 in order to increase the flow rate of the outdoor air flowing through the air supply duct 120 in accordance with the pollution detection result transmitted from the pollution degree detection unit 600 and In order to increase the amount of exhaust air of the indoor air exhausted through the exhaust duct 130, the control signal is output so that the amount of intake air of the exhaust fan 410 is increased. Reference numeral 110 denotes a partition wall separating the air supply duct 120 and the exhaust duct 130 in the waste heat recovery ventilator 100 to support the heat exchanger 200.

Next, the ventilation process of the waste heat recovery ventilator according to the present invention will be described with reference to FIGS. 2, 4 and 5.

The control unit 700 sucks indoor / outdoor air through the air supply duct 120 and the exhaust duct 130 (S100), and exhausts the air supply suction port 121 and the exhaust duct 130 of the air supply duct 120 in step S100. Detecting the temperature of the indoor and outdoor air sucked through the first and second temperature sensors 500 and 510 installed at the suction port 131 (S110), and determining the temperature difference between the indoor and outdoor air detected at step S110. Compare with the reference temperature (S120).

When the temperature difference between the indoor and outdoor air is greater than or equal to the reference temperature for the electrothermal ventilation determination in step S120, the controller 700 controls the outdoor air to be damped by the damper driving unit 310 so that the outdoor air flows into the room through the heat exchanger 200. The damper 300 outputs a control signal for setting the inflow path so that the outdoor air flows into the room through the heat exchanger 200 to perform electrothermal ventilation (S130).

In addition, when the temperature difference between the indoor and outdoor air is less than the reference temperature for the electrothermal ventilation determination in step S120, the control unit 700 outputs a control signal for setting the inflow path of the outdoor air to the damper driving unit 310 so that the damper 300 The outdoor air is introduced into the air supply outlet 122 from the air supply inlet 121 through the ventilation passage 140 without passing through the heat exchanger 200 to perform general ventilation (S131).

After performing the steps S130 and S131, the control unit 700 detects the pollution degree of the inhaled indoor air from the pollution degree detection unit 600 installed in the exhaust duct 130 (S140), and the pollution degree detected in the step S140. To compare with a reference value for determining whether the indoor pollution (S150).

As a result of the comparison in step S150, when the detected pollution degree exceeds a reference value for determining whether the indoor pollution is present, the controller 700 controls the inflow amount of the outdoor air and the exhaust duct 130 introduced through the air supply duct 120. The air volume of the air supply fan 400 and the exhaust fan 410 is increased to increase the amount of exhaust of the indoor air exhausted through the air (S160). The air volume in the step S160 is preferably increased in proportion to the reference value for determining whether the indoor pollution.

In addition, when the detected pollution level is less than a reference value for determining whether the indoor pollution is a result of the comparison of S150, the control unit 700 through the intake amount of the outdoor air introduced through the air supply duct 120 and the exhaust duct 130 The air volume of the air supply fan 400 and the exhaust fan 410 is adjusted to maintain the exhaust amount of the indoor air exhausted at the present state.

As described above, the present invention has an advantage of preventing the heat exchanger from being contaminated unnecessarily by not necessarily passing through the heat exchanger according to the temperature difference between the indoor and outdoor even in the spring or autumn when the use of the heat exchanger is unnecessary.

In addition, there is an advantage that can efficiently use the waste heat recovery ventilator by blocking the heat exchange unnecessarily even in the spring or autumn, which requires only simple ventilation.

In addition, it is possible to quickly adjust the ventilation amount according to the degree of pollution of the indoor air, there is an advantage that can always keep the room comfortable.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains can vary as many as possible without departing from the spirit of the present invention as set forth in the claims below. Changes may be made.

Claims (6)

An air supply duct for allowing outdoor air to flow into the room; An exhaust duct crossing the air supply duct at a predetermined position and guiding indoor air to the outside; A heat exchanger configured to exchange heat between the outdoor air supplied into the room and the indoor air exhausted to the outside at a point where the air supply duct and the exhaust duct cross each other; A damper for discharging the outdoor air introduced into the air supply suction port of the air supply duct to the room via a ventilation passage or a heat exchanger included in the air supply duct; A first temperature detector configured to detect a temperature of the outdoor air introduced into the air supply duct; A second temperature detector configured to detect a temperature of the indoor air introduced into the exhaust duct; A pollution degree detector configured to detect a pollution level of the indoor air introduced into the exhaust duct; And Compare the detected temperatures from the first and second temperature detectors and output a control signal to operate the damper according to the comparison result, and the outdoor air introduced through the air supply duct according to the detection result of the pollution degree detector. And a control unit for adjusting the inflow amount of the indoor air exhausted through the exhaust duct. delete As a ventilation control method of the waste heat recovery ventilator, a) the control unit sucking the indoor and outdoor air through the air supply duct and the exhaust duct, and detecting a temperature difference between the indoor and outdoor air through a temperature sensor installed in the air supply duct and the exhaust duct; b) comparing the temperature difference of the indoor and outdoor air detected in step a) with a reference temperature for electrothermal ventilation determination; And c) in step b), when the temperature difference between the indoor and outdoor air is equal to or greater than the reference temperature for the electrothermal ventilation determination, the controller sets an inflow path of the outdoor air so that the outdoor air flows into the indoor through a heat exchanger, and the electrothermal ventilation Setting a path so that the outdoor air flowing into the air supply inlet of the air supply duct flows directly into the room via a ventilation passage when the temperature is lower than the reference reference temperature; d) the control unit is installed in the exhaust duct to detect the pollution of the indoor air from the pollution detection unit; e) comparing the detected pollution level from step d) with a reference value for determining whether the room is polluted; f) when the detected pollution degree exceeds the reference value for determining whether the indoor air is polluted as a result of the comparison in step e), the controller is exhausted through the inflow amount of the outdoor air introduced through the air supply duct and the exhaust duct. Increasing the exhaust volume of the indoor air and maintaining the current amount of the outdoor air introduced through the air supply duct and the exhaust air amount of the indoor air exhausted through the exhaust duct if the indoor air is less than the reference value for determining whether the indoor air is contaminated; Ventilation control method of the waste heat recovery ventilator comprising. delete delete delete

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