KR102302864B1 - Air clean ventilation system - Google Patents

Abstract

The present invention relates to a ventilation facility for good management of indoor air quality in a residential facility. In normal times, outdoor air is introduced to discharge indoor pollutants or gases. Keep the indoor air clean by passing it through a filter. In addition, it is about an air cleaning ventilation system that automatically detects when food is being cooked in the kitchen and operates the range hood to automatically discharge food odors and gases, as well as synchronize ventilation systems to maximize exhaust performance. .

Description

Air cleaning ventilation system {AIR CLEAN VENTILATION SYSTEM}

In apartment houses of a certain size or larger, it is stipulated that ventilation equipment be installed according to the Indoor Air Quality Management Act. The ventilation equipment is manufactured so that the energy contained in the indoor air can be recovered while exchanging heat with the indoor air that is discharged when outdoor air is introduced and supplied to the room. . Recently, as the problem of fine dust has become serious, ventilation facilities are being developed and distributed in various ways to not only introduce fresh outdoor air, but also to recirculate indoor air to exhibit air cleaning functions through filtering and sterilization.

The present invention relates to a ventilation system in a residential space as described above, and provides a ventilation unit with greatly enhanced air cleaning function as well as simple ventilation, and to automatically exhaust from kitchen cookware, which is a major source of pollution in a residential space. It is about a ventilation system that can improve indoor air quality.

Ventilation equipment currently installed in apartment houses consists of a ventilation unit installed with a fan that exhausts indoor air and supplies outdoor air to the room, and supplies and ventilates air to each room in the room through a duct connected to the ventilation unit. Most of the ventilation unit has the structure shown in FIG. 1, and an air supply fan capable of supplying outside air to the room and an exhaust fan discharging indoor polluted air to the outside are installed. A heat exchanger capable of recovering the energy of the indoor air is installed.

In addition, the ventilation unit is configured to prevent the heat exchanger from being contaminated by dust and to perform basic filtering of the air supplied to the room by installing an air filter on the inlet side to which the outside air is introduced and the inlet shaft through which the indoor air is sucked. Recently, as the pollution of ultrafine dust in the atmosphere has become serious and common, the cases of installing the air filter of the ventilation unit with a product with excellent filtering performance or installing it with a HEPA filter are increasing. In some cases, pipes and electric dampers are installed to recirculate indoor air on days when outdoor air quality is not good, so that it can be filtered and supplied back to the room.

The performance of the ventilation system specified in the current legislation is to be installed at an air volume that can replace the indoor air with fresh outdoor air at least 0.5 times per hour. It is considered to be insufficient to maintain. As a result, many homes use a separate air purifier installed indoors due to insufficient airflow and insufficient air purifying performance even though ventilation facilities are installed.

In addition, the air quality of the living space is mainly deteriorated by the discharge of pollutants due to occupants' breathing and physical activity, moisture and odors from using the toilet, and a large amount of exhaust gas and the smell of food generated while cooking food in the kitchen. Among them, the toilet is equipped with a separate exhaust fan, which can be adequately dealt with if only the exhaust fan is operated properly. management is possible

However, the range hood must be operated in order to discharge a large amount of exhaust gas and food odor generated during cooking in the kitchen. Many people are reluctant to actively operate air conditioners, which is a factor that deteriorates indoor air quality. In addition, even if the range hood is operated, it is difficult to exhaust the intended amount of air if an appropriate amount of supply air is not supplied to the room as much as the amount of air exhausted through the range hood. Recently, as the airtightness of architectural windows improves, the above phenomenon is getting worse.

In the meantime, the related industry has applied a method of installing a temperature sensor on the range hood or installing an exhaust gas (carbon dioxide, carbon monoxide, etc.) sensor to automatically operate the range hood during cooking. However, the method of detecting pollutants by installing a sensor in the part where the exhaust gas is discharged is not widely used in the public due to its lack of durability or accuracy. Because.

In order to solve the above problems, the present invention can exhibit a practical air purifier function by recirculating indoor air with twice as much air volume than before, even after installing a high-performance filter capable of filtering ultra-fine dust in a ventilation unit of a ventilation facility. We would like to provide a ventilation unit with

In addition, when food is cooked using cooking utensils in the kitchen, it automatically detects this so that the range hood is automatically operated. We want to provide a ventilation system.

In order to achieve the above object, in the ventilation unit of the present invention, a high-performance air filter is installed at the air inlet supplied to the room, and the exhaust fan as well as the air supply fan are arranged in a position to recirculate the indoor air to recirculate the indoor air. When operating in air cleaning mode, the supply air volume should be doubled.

In addition, a meter that can measure the consumption of primary energy such as gas or electricity in real time is installed in the cooking equipment in the kitchen. make it At the same time, the ventilation unit air supply fan of the ventilation system is automatically operated to supply air to the room, so that exhaust from the range hood is performed according to the original performance.

When the ventilation system according to the present invention is operated in the air cleaning mode, both the supply and exhaust fans of the ventilation unit operate to recirculate the indoor air. will increase

In addition, rather than using exhaust gas to detect whether or not cooking utensils such as gas stoves or induction stoves are operating in the kitchen, the consumption of primary energy sources (heating sources) such as gas or electricity is measured and judged in real time. By automatically operating the hood, it is possible to increase the reliability of the kitchen exhaust control. This is because gas or electricity can be accurately measured using a meter, and there is little risk of corrosion or malfunction of the meter, enabling stable control.

1 is a general structure of a ventilation unit that is currently widely used.
2 is a perspective view of a ventilation unit according to the present invention;
3 is a cross-sectional view of a ventilation unit according to the present invention;
4 is a side view of the ventilation unit according to the present invention;
5 is an internal air flow when the ventilation unit according to the present invention is operating in the usual ventilation mode.
6 is an internal air flow diagram when the ventilation unit according to the present invention is operated in the outdoor air bypass operation mode;
7 is an internal air flow diagram when the ventilation unit according to the present invention is operated in an air cleaning mode;
8 is a schematic diagram showing automatic interlocking of the kitchen range hood and ventilation equipment;

Hereinafter, an air cleaning ventilation system according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a ventilation unit according to the present invention, the air supply port (2) and the ventilation port (3) are installed on the indoor side, the exhaust port (4) and the outdoor port (5) are installed on the outdoor side, each duct is connected. A heat exchanger (8) is installed in the middle of the ventilation unit to save energy by exchanging heat with the outside air introduced when the indoor air is discharged to the outside. A ventilation air filter (10) is installed inside the ventilation port (3), an outdoor air filter (9) is installed inside the outside air port (4), and a high-performance air filter (11) is installed inside the air supply port (2). It filters out contaminants in the air.

A horizontal partition 12 is installed in the portion where the supply fan 6 and the exhaust fan 7 are installed so as to be divided into upper and lower sections, so that the air supply fan 6 and the exhaust fan 7 are installed in horizontal compartments (air passages) of different heights. ) to be installed. In addition, a plurality of vertical partitions 13 are installed in the part where the fan is installed, and a plurality of electric dampers 14 to 18 are installed in the vertical partition 13, so that the air by the supply fan 6 and the exhaust fan 7 is installed. Allows you to change the direction of flow.

3 is a cross-sectional view of a ventilation unit according to the present invention, in which the supply fan 6 and the exhaust fan 7 are installed in different air passages partitioned by a horizontal partition 12, and are positioned indoors from the heat exchanger 8. each installed.

4 is a side view of a ventilation unit according to the present invention, wherein a high-performance air filter 11 is installed inside the air supply port 2 and a ventilation air filter 10 is installed inside the ventilation port 3 .

5 is a diagram showing the direction of air flow and the opening and closing state of each electric damper when the ventilation unit according to the present invention is normally operated in the ventilation mode. First, where the air supply fan (6) at the top of the horizontal partition is located, outside air enters through the outside port (4), passes through the outside air filter (9) and the heat exchanger (8), and then passes through the open outside electric damper (16). The air sucked in by the air supply fan 6 and discharged while the air supply fan 6 is operated is supplied into the room through the air supply port 2 through the high-performance air filter 11 . At this time, the external air bypass electric damper 15 is closed.

The exhaust fan (7) installed at the bottom of the horizontal partition sucks the air in the room through the ventilation hole (3) and the ventilation air filter (10). Through the heat exchanger (8), it is discharged to the outside through the exhaust port (5). At this time, the ventilation recirculation electric damper 17 is closed.

6 is a diagram showing the internal air flow when the ventilation unit according to the present invention is operated in the outdoor air bypass operation mode. The air supply fan (6) at the top of the horizontal partition directly sucks in the outside air through the open outside air bypass electric damper (15), and the air discharged by the air supply fan (6) uses the high-performance air filter (11) and the air inlet (2). It is supplied into the room through the air, and at this time, since the outside air does not go through the heat exchanger 8, it does not exchange heat with the indoor air discharged from the room.

The air flow toward the exhaust fan 7 installed at the bottom of the horizontal partition is the same as during the ventilation mode operation in FIG. 5 .

7 is a diagram showing the internal air flow when the ventilation unit according to the present invention is operated in the air cleaning mode. The air supply fan (6) at the top of the horizontal partition sucks the indoor air through the open air supply recirculation electric damper (14), and then supplies it back to the room through the high-performance air filter (11) and the air supply port (2).

The exhaust fan (7) at the bottom of the horizontal partition also discharges the indoor air sucked in through the ventilation port (3) toward the high-performance air filter (11) through the open ventilation recirculation electric damper (17), and then back into the room through the air supply port (2). supply At this time, all indoor air passing through the top and bottom of the horizontal partition passes through the ventilation air filter 10 and the high-performance air filter 11 to filter out foreign substances or ultrafine dust, and is re-supplied into the room as clean air.

7, when the ventilation unit is operated in the air cleaning mode, not only the supply fan 6 but also the exhaust fan 7 filters the indoor air and then supplies it back to the room. This will be doubled, and thus the air cleaning performance may be doubled.

8 is a schematic diagram showing automatic interlocking of the kitchen range hood and ventilation equipment, and a meter 19 is installed in the primary energy supply facility 22 supplied to the cooking appliance 20 such as a gas stove or an induction stove in the kitchen. . When the cookware 20 is used, the meter 19 measures the amount of primary heating energy source such as gas or electricity in real time, and the control panel 26 generates a measured value from the meter 19 and inputs it. Accordingly, the range hood 21 is automatically operated. When the range hood 21 is operated in this way, exhaust gas or food smell generated during cooking is discharged to the outside through the range hood exhaust duct 23 .

In addition, the control panel 26 operates the range hood 21 while simultaneously operating the air supply fan 6 installed in the ventilation unit main body 1 and opens the outdoor air bypass electric damper 15 so that outdoor air is supplied into the room. At this time, the exhaust fan 7 of the ventilation unit is not operated.

As above, when the range hood 21 and the air supply fan 6 of the ventilation unit are operated at the same time, the supply air flows into the room as much as the exhausted air volume, so that the exhaust from the range hood 21 is efficiently performed, and the indoor air flow is reduced to the kitchen. It also has the effect of suppressing the diffusion of exhaust gases or food odors into the room.

1: body
2: air inlet
3: ventilation hole
4: exhaust port
5: external device
6: air supply fan
7: ventilation fan
8: heat exchanger
9: outdoor air filter
10: ventilation air filter
11: high-performance air filter
12: horizontal partition
13: vertical partition
14: supply air recirculation electric damper
15: outdoor air bypass electric damper
16: external air electric damper
17: ventilation recirculation electric damper
18: exhaust electric damper
19: meter
20: cookware
21 : Range Hood
22: Primary energy supply facility
23: range hood exhaust duct
24: ventilation duct
25: air supply duct
26: control panel

Claims (2)

a main body (1) of a ventilation unit having an air supply port (2) and a ventilation port (3) installed on the indoor side and an outdoor port (4) and an exhaust port (5) installed on the outdoor side;
an outdoor air filter (9) installed inside the outdoor port (4) of the ventilation unit body (1);
a ventilation air filter (10) installed inside the ventilation hole (3) of the ventilation unit body (1);
a high-performance air filter (11) installed inside the air inlet (2) of the ventilation unit body (1);
a heat exchanger (8) capable of exchanging energy between the outside air and the exhaust passing through the inside of the ventilation unit body (1);
A plurality of horizontal partitions 12 and vertical partitions 13 are installed on a part of the ventilation unit body 1 to form two air passages partitioned from each other;
an air supply fan (6) installed in one air passage among the two partitioned air passages and an exhaust fan (7) installed in the other air passage;
The vertical partition 13 installed inside the ventilation unit body 1 has a supply air recirculation electric damper 14, an outdoor air bypass electric damper 15, an outdoor air electric damper 16, a ventilation recirculation electric damper 17, and an exhaust electric damper 18 is installed;
In a state in which the supply fan 6 and the exhaust fan 7 are operated, the external air electric damper 16 and the exhaust electric damper 18 are opened, and the supply air recirculation electric damper 14 and the outdoor air bypass electric damper 15 are opened. When the ventilation and recirculation electric damper 17 is sealed, the outdoor air flowing in from the outdoors recovers the energy of the indoor air discharged to the outdoors through the heat exchanger 8, and then it is supplied into the room through the high-performance air filter 11. ;
In a state in which the supply fan 6 and the exhaust fan 7 are operated, the external air bypass electric damper 15 and the exhaust electric damper 18 are opened, and the supply air recirculation electric damper 14 and the outdoor air electric damper 16 are opened. When the air and ventilation recirculation electric damper 17 are sealed, the air flowing in from the outdoors does not pass through the heat exchanger 8, so it does not exchange heat with the indoor air discharged to the outdoors, and is directly supplied to the room through the high-performance air filter 11 become;
In a state in which the supply fan 6 and the exhaust fan 7 are operated, the supply air recirculation electric damper 14 and the ventilation recirculation electric damper 17 are opened, and the outdoor air bypass electric damper 15 and the outdoor air electric damper 16 are opened. ) and the exhaust electric damper 18 are sealed, the air sucked from the room is supplied back to the room through the ventilation air filter 10 and the high-performance air filter 11, so that the recirculation air volume of the indoor air is doubled and supplied. become;
When the air supply fan 6 is operated by inputting an operation signal from the control panel 26 , the control panel 26 reads the usage amount from the meter 19 installed in the primary energy supply facility 22 of the kitchen cooking appliance 20 . A ventilation system, characterized in that it is configured to simultaneously operate the range hood (23) and the air supply fan (6) of the ventilation unit body (1) to discharge exhaust gas and odors from the kitchen to the outside. delete

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