KR100613494B1 - A ventilating and heat-exchanging device - Google Patents

Abstract

The present invention relates to a ventilation heat recovery apparatus, and discharges contaminated indoor air to the outside to keep the indoor air clean, and recovers waste heat (heat of indoor air) discharged to the outside to supply the outdoor air introduced into the air conditioner. The aim is to be able to maintain the room temperature without further operation.

Ventilation heat recovery apparatus according to the present invention, the discharge port for discharging the indoor air (1); An inlet port 2 for introducing outdoor air; A discharge fan (10) / inlet fan (20) mounted to each of the outlet and the inlet to forcibly discharge / inflow air; Heat recovery means for maintaining indoor temperature while eliminating indoor odors by supplying heat from the indoor air discharged through the heat exchange medium to the incoming outdoor air when the indoor / outdoor air is discharged / introduced by the discharge fan / inlet fan It is configured to include.

Ventilation, heat exchanger, odor, boiler, air conditioner

Description

A ventilating and heat-exchanging device

1 is a block diagram of a ventilation heat recovery apparatus according to the present invention.

2 is a block diagram of a guide applied to the ventilation heat recovery apparatus according to the present invention.

Figure 3 is a block diagram of a grill applied to the ventilation heat recovery apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: outlet, 2: inlet

10: exhaust fan, 20: inflow fan

30: compressor, 31,33: heat exchanger

32: expansion valve, 34: four-way valve

40: guide, 50: grill

60,70,80: case,

The present invention relates to a ventilation heat recovery device, and more particularly, to a ventilation heat recovery device that can maintain the indoor temperature at an appropriate temperature without unnecessary operation of the air conditioner while keeping the indoor air clean.

Ventilation converts indoor polluted air into comfortable air, which changes its state due to human activities, combustion of fuel, and generation of harmful substances. The cleanliness of the air is judged by thermal conditions such as temperature and humidity, airflow conditions such as wind speed and wind direction, concentrations and odors of dust, carbon dioxide, carbon monoxide, nitrogen oxides, bacteria, and other harmful substances. Is called. The aim is to improve the air environment to meet human health and activities, to meet the needs of the thermal environment, and to preserve buildings and goods.

Ventilation methods include mechanical ventilation by blowers and ventilation fans, and natural ventilation by wind and buoyancy.

Among the ventilation methods described above, a ventilation fan is widely used. For example, indoors of restaurants have bad odors such as combustion gas and meat grilling odors generated when grilling meat. These odors can cause discomfort to indoor passengers, and can vent polluted indoor air to the outside. It is installed on the wall, ceiling or the like of this room.

According to the above ventilation fan, the indoor air contaminated by the ventilation fan is forcibly discharged to the outside to keep the room clean. And, the outdoor air flows into the door or window gap when the door is opened.

However, according to the prior art ventilation apparatus including a ventilation fan has the following problems.

When indoor air is discharged, both air and heat are exhausted. That is, since the heat of the indoor air is discharged along with the odor, in order to maintain the indoor air temperature at an appropriate temperature, the boiler or the air conditioner must be continuously driven, thereby causing waste of power. Specifically, since the outdoor air introduced from the outside is not maintained at an appropriate temperature by a boiler or an air conditioner, when the outdoor air enters the room, the temperature of the indoor air rises above the appropriate temperature in the summer, and the indoor air in the winter. The temperature is lower than the proper temperature and the unpleasant feeling of the temperature change is felt. Therefore, in order to keep the indoor temperature at a proper temperature, the boiler must be operated continuously in winter to raise the temperature of the indoor air, and in summer, the air conditioner must be continuously operated to lower the temperature of the indoor air. There is a problem that the maintenance cost is increased.

In order to solve this problem, techniques have been proposed to heat the indoor air and outdoor air to prevent a sudden temperature change when the outdoor air is introduced and to reduce the load of the air conditioner.

This prior art is generally provided with a total heat exchanger having a honeycomb flow path of indoor air and outdoor air, thereby controlling the temperature of the outdoor air by allowing the indoor air and outdoor air to flow along each flow path. In the prior art as described above, heat is exchanged between indoor air and outdoor air by conducting heat from indoor air passing through the flow path of the total heat exchanger to the outdoor air, but the heat exchanger simply passes the flow path between the indoor air and the outdoor air. Since the efficiency is reduced, the discomfort remains in the inflow of outdoor air and there is a limit in reducing the load of the air conditioner.

The present invention is to solve the above-mentioned conventional problems, to keep the indoor air clean by discharging the odor of the room, and compensates the temperature of the outdoor air introduced by using the waste heat of the discharged indoor air to the temperature level of the indoor air The purpose of the present invention is to provide a ventilation heat recovery device that reduces the load on air conditioners and eliminates the discomfort caused by temperature changes.

Ventilation heat recovery apparatus according to the present invention for achieving the object as described above, to create a comfortable room by discharging the contaminated indoor air and inflow of clean outdoor air, and to remove the indoor pollutants by the heat recovery means It is characterized in that to recover the temperature of the outdoor air to match the temperature of the indoor air.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

As shown in Figure 1, the ventilation heat recovery apparatus according to the present invention, the indoor air / outdoor air discharge / inlet air inlet (1) / outdoor air inlet (2), the internal air outlet (1) / outdoor air inlet (2) Installed in each of the discharge fan 10 / inlet fan 20 for forced circulation of indoor / outdoor air through the internal air inlet (1) / outdoor air inlet (2), and is discharged through the outlet (1) And heat recovery means for discharging only the indoor air contaminated by heat exchange with the indoor air and supplying heat exchanged from the indoor air to the outdoor air introduced through the inlet port 2 to maintain the outdoor air temperature at the indoor air temperature. do.

The heat recovery means is to heat-exchange the heat exchange medium phase-changed by the heat of the polluted indoor air discharged with the clean outdoor air introduced, the compressor 30 for compressing the low-temperature / low-pressure gas heat exchange medium to high temperature / high pressure, bet Expansion valve mounted on the outlet (1) for reducing the phase change heat exchange medium while passing through the first heat exchanger (31), the first heat exchanger (31) to heat exchange the heat exchange medium passing through the compressor (30) with the indoor air (32), a second heat exchanger (33) mounted to the outside air inlet (2) and configured to heat exchange the heat exchange medium passing through the expansion valve (32) with outdoor air. Here, since the compressor 30 and the expansion valve 32 are not directly related to the heat exchange of indoor / outdoor air, the compressor 30 and the expansion valve 32 are installed in separate machine rooms so as not to disturb the flow of air, and the first and second heat exchangers 31 and 33. Are respectively disposed in the outlet 1 through which the indoor air is discharged and the inlet 2 through which the outdoor air is introduced.

The heat recovery means is further provided with a four-way valve 34 for controlling the flow of the heat exchange medium so that both the winter operating the boiler and the summer operating the air conditioner can be used. According to the four-way valve 34, during the winter, the heat exchange medium of the compressor 30-the second heat exchanger (condenser) 33-the expansion valve 32-the first heat exchanger (evaporator) 31-of the compressor 30 By circulating through the route to recover the heat of indoor air that is hotter than the outdoor air and supplying it to the outdoor air of low temperature, the temperature of the outdoor air is increased.In contrast, in the summer, the heat exchange medium is a compressor (30)-a first heat exchanger (condenser) ( 31)-Expansion valve (32)-Second heat exchanger (evaporator) (33)-Circulates to the root of compressor (30) and deprives heat of indoor air which is lower than outdoor air and recovers heat from high temperature outdoor air. It is to lower the temperature of the air.

The discharge fan 10, the inlet fan 20 and the heat recovery means may be turned on or off through a single switch, and each switch (not shown) may be driven by a difference between an indoor temperature and an outdoor temperature. May be operated independently. If there is little difference between the indoor temperature and the outdoor temperature, there is no need to adjust the temperature of the outdoor air by recovering the heat of the indoor air, but since the odor must be removed, the heat recovery means does not operate and the discharge fan 10 / inflow This is because the fan 20 must be operated.

It is preferable that the outlet 1 and the inlet 2 are spaced at a predetermined interval so that the indoor air discharged through the outlet 1 does not flow back into the inlet 2 and the incoming outdoor air does not flow back into the outlet 1. The installation position varies freely in consideration of the conditions of the installation space, the flow of air, and the like.

In addition, as shown in FIG. 2, the guide 40 may be further installed to smoothly flow toward the outlet 1 without the backflow of the indoor air and the outdoor air. The guide 40 is formed in a plate shape, for example, and installed at an inlet side of the outlet 1 so that the angle can be adjusted so that indoor air is collected. Although the guide 40 has been described and illustrated as being applied to the outlet 1, the guide may be equally applied to the inlet 2.

As shown in FIG. 3, the grille 50 may be further installed to control the opening degree and the wind direction of the inlet 2 while opening and closing the inlet 2, respectively. The grille 50 is coupled to the frame 52 (e.g., rectangular frame) with a plurality of vanes 51 is adjustable angle to open and close, open and wind direction inlet 2 while being angled by manual and / or automatic Adjust

In addition, it is preferable that the filter 35 is provided at the inlet port 2 so that foreign matters such as dust included in the outdoor air do not enter the room when the outdoor air is introduced. The filter 35 may be disposed at all positions of the inlet 2, such as the inlet and the outlet of the inlet 2.

Ventilation heat recovery apparatus according to the present invention is largely divided into a machine room, an internal air discharge chamber and an external air inlet chamber from the functional point of view. The machine room, the indoor air discharge chamber and the outdoor air inlet chamber are divided by independent cases for easy handling. A compressor 30, an expansion valve 32, and a four-way valve 34 are installed inside the machine room case 60, and a discharge fan 1 and a first heat exchanger 31 are installed inside the discharge chamber case 70. This is accommodated, and the inflow chamber case 80 receives the inflow fan 2 and the second heat exchanger 33. That is, each component is integrated through each case (60, 70, 80) to store for each case (60, 70, 80), and can insert the case (60, 70, 80) in the installation place of the building After the space is provided, the case 60, 70, 80 can be installed, and the power can be easily installed by connecting the power supply and the heat recovery means. .

The operation by the ventilation heat recovery apparatus according to the present invention configured as described above will be described.

1. Winter season

In winter, the boiler is heated to adjust the room temperature to an appropriate temperature (eg 18 ° C.).

On the other hand, indoor air is contaminated by activities of indoor occupants / participants, foreign substances flowing in and out, combustion gas, food smells, and the like, and operate the ventilation heat recovery device of the present invention to ventilate the room. During the winter, the four-way valve 34 causes the heat exchange medium to supply the compressor 30-the second heat exchanger (condenser) 33-the expansion valve 32-the first heat exchanger (evaporator) 31-the compressor 30. Circulate continuously.

Before the start of the operation of the discharge fan 10, the inlet fan 20 and the heat recovery means, the angle of the guide 40 and the angle of the vanes 51 of the grill 50 are set. Of course, the angle of the guide 40, the angle of the vanes 51 of the grill 50 is not limited to the initial setting and may be arbitrarily adjusted by the user during the ventilation operation.

The indoor air is guided by the guide 40 and the vane 51 by the blowing force of the discharge fan 10 while the heat recovery means is operated, and is discharged to the outside via the discharge port 1, and the inlet fan 20 The outdoor air flows into the inlet 2 by the blowing force and is guided by the guide 40 and the vane 51. As such, contaminated indoor air is discharged and clean outdoor air is introduced to ventilate the room.

In this process, the heat of the indoor air is transferred to the outdoor air by the heat recovery means, and the outdoor air substantially introduced into the indoor air is introduced from the outside, but is maintained at the same temperature or more as the indoor air, and the detailed description is as follows.

The heat exchange medium compressed by the compressor 30 of the heat recovery means at high temperature and high pressure deprives heat from the outdoor air introduced into the inlet 2 when it passes through the second heat exchanger (condenser) 33. As you condense, you increase the temperature of the outdoor air. That is, the clean outdoor air (lower in temperature than the indoor air) passes through the second heat exchanger 33 and the temperature rises to about room temperature and flows into the room.

Subsequently, the heat exchange medium passing through the second heat exchanger (condenser) 33 flows into the first heat exchanger (evaporator) 31 after passing through the expansion valve 32 and flows through the first heat exchanger 31. The heat is recovered from the indoor air passing through the first heat exchanger 31 in the middle, and the water is evaporated. In other words, the contaminated indoor air is discharged in a contaminated state, but is deprived of heat that has been raised to an appropriate temperature by the boiler.

The heat exchange medium recovering the heat of the indoor air while passing through the first heat exchanger (31) passes through the compressor (30) again, is phase-changed, and then flows back into the second heat exchanger (condenser) 33, and the second heat exchange. The temperature of the outdoor air introduced while passing through the air (condenser) 33 is raised above the room temperature. (The heat exchange medium which recovers heat of the indoor air through the first heat exchanger 31 has its own heat and indoor air. Heat is added, and thus, when the heat is exchanged with the outdoor air through the second heat exchanger 33, the outdoor air recovers its own heat from the heat exchange medium and the heat recovered from the indoor air. Heat is raised above the temperature of the room air). As described above, when the contaminated indoor air is discharged, the heat of the indoor air is recovered and the temperature of the outdoor air is adjusted to the temperature of the indoor air through the heat exchange medium phase-changed by the recovered heat. Therefore, the indoor air temperature is almost unchanged because the indoor air temperature is room temperature, but the indoor air is removed. Therefore, it is not necessary to operate the boiler to adjust the room temperature to an appropriate temperature.

2. Summer season

In summer, the air conditioner is operated to cool the room in order to adjust the room temperature to an appropriate temperature (for example, 18 ° C).

On the other hand, indoor air is contaminated by activities of indoor occupants / entrants, foreign matters that enter and exit, combustion gas, and food smells, and discharge fans 10 and inflow fans to discharge polluted indoor air and supply clean outdoor air. And operation of the heat recovery means. In summer, the four-way valve 34 causes the heat exchange medium to supply the compressor 30-the first heat exchanger (condenser) 31-the expansion valve 32-the second heat exchanger (evaporator) 33-the compressor 30. Circulate continuously.

As described in the winter season, as the polluted indoor air is discharged to the outside, the odor existing in the room can be removed to ventilate the room, and in this process, the heat of the indoor air is transferred to the outdoor air by the heat recovery means, thereby substantially. The outdoor air introduced into the room is introduced from the outside but maintains the same temperature as the indoor air, and the detailed description is as follows.

The heat exchange medium compressed at high temperature and high pressure by the compressor 30 of the heat recovery means flows into the first heat exchanger (condenser) 31 and flows through the first heat exchanger (condenser) 31. Heat is deprived of the room air passing through the (31) and condenses itself. That is, the indoor air is taken away from the heat exchange medium inside the first heat exchanger (condenser) 31 to rise and is discharged with a bad smell.

The heat exchange medium exiting the first heat exchanger (condenser) 31 passes through the second heat exchanger (evaporator) 33 after passing through the expansion valve 32, and is introduced by the inlet fan 20 in this process. The heat is exchanged with the outdoor air to evaporate to lower the outdoor air to a lower temperature. That is, the clean outdoor air (higher in temperature than the indoor air) passes through the second heat exchanger (evaporator) 33 and the temperature is increased by the heat exchange medium heat-exchanged with the indoor air through the first heat exchanger (condenser) 31. It is lowered to the temperature of indoor air and flows into the room.

The heat exchange medium that recovers the heat of the outdoor air passes through the compressor 30 again, is phase-changed, and then supplied to the first heat exchanger (condenser) 31 and passes through the first heat exchanger (condenser) 31. Heat is taken away by the indoor air discharged in the air and flows into the expansion valve 32. As described above, when the contaminated indoor air is discharged, heat is removed from the indoor air to adjust the temperature of the outdoor air to the temperature of the indoor air through the phase-changed heat exchange medium. Therefore, the indoor air temperature is almost unchanged since the indoor air temperature is lower than the room temperature, although indoor polluted air (odor) is removed. Therefore, it is not necessary to operate the air conditioner to adjust the room temperature to an appropriate temperature.

As described above, according to the ventilation heat recovery apparatus according to the present invention, when the indoor air is discharged and the outdoor air is introduced, odors, which are pollutants, are discharged from the polluted indoor air, but the temperature of the indoor air is not emitted. Since the indoor air can be kept clean by passing on the incoming outdoor air, the indoor air can be ventilated, and in particular, it is not necessary to operate an additional air conditioner to adjust the room temperature to an appropriate temperature, thereby reducing the cost of operating the air conditioner.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (3)

delete A discharge port 1 for discharging indoor air; An inlet port 2 for introducing outdoor air; A discharge fan (10) / inlet fan (20) mounted to each of the outlet and the inlet to forcibly discharge / inflow air; Heat recovery means for maintaining indoor temperature while eliminating indoor odors by supplying heat from the indoor air discharged through the heat exchange medium to the incoming outdoor air when the indoor / outdoor air is discharged / introduced by the discharge fan / inlet fan In the ventilation heat recovery device configured to include, The heat recovery means, A compressor (30) for compressing a heat exchange medium at a high temperature and high pressure, and a first heat exchange medium mounted on the outlet and circulating the heat exchange medium compressed by the compressor therein to exchange heat with indoor air discharged through the outlet through the heat exchange medium; A heat exchanger 31, an expansion valve 32 for depressurizing the heat exchange medium passing through the first heat exchanger, and a heat exchange medium mounted on the inlet and depressurized by the expansion valve therein circulate through the first heat exchanger. A second heat exchanger 33 for exchanging the temperature of the outdoor air to the temperature of the indoor air by exchanging heat with the outdoor air introduced through the inlet through a heat exchange medium exchanged with the indoor air, and a four-way valve for switching the flow of the heat exchange medium. Ventilation heat recovery apparatus characterized in that it comprises a (34). 3. The ventilation heat recovery apparatus according to claim 2, wherein the discharge fan, the inflow fan, and the heat recovery means are housed in and separated from the machine room case (60), the discharge room case (70), and the inlet room case (80).

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