KR20120137984A - Green ventilation system - Google Patents

Abstract

PURPOSE: An environment-friendly ventilating system is provided to maintain a pleasant indoor air because a control unit received singles from a sensor sensing for 24 hours when ventilation is needed and how long the ventilation is needed selects ventilation fans in front and rear sides of a building. CONSTITUTION: An environment-friendly ventilating system comprises two sets of ventilation ducts, a splitting unit, a heat exchanging duct(4), and a control unit. The control unit receives information from a power source transmitting the energy of a solar cell, a sensor sensing temperature and moisture in the air, and a CO2 sensor sensing the contaminated extent of indoor air, thereby selecting and operating an exhaust fan and drying grill. The control unit inhales hot outdoor air of a front side of a building in winter time and cool outdoor air in a rear side of the building in summer time so that the air in the building is pleasantly ventilated. The control unit can reduce indoor air conditioning loads through an efficient heat exchange between air supply and exhaustion. [Reference numerals] (AA) Living room; (BB) Kitchen; (CC) Front veranda; (DD) Rear veranda

Description

Green Ventilation System

The present invention discloses an eco-friendly ventilation system that closely analyzes natural phenomena and the flow of air, and keeps indoor air pleasant by introducing fresh air, which has a significantly different atmospheric temperature depending on the season. Since there should be no power consumption in the maintenance operation, the air-conditioning load in the room can be reduced by constructing a duct that serves as an exhaust and intake passage so that the heat exchange function works effectively. In addition, when entering the outside air of the front and rear of the building according to the temperature of the atmosphere, it is connected to the rear of the building instead of using the forced air supply fan, and controls a pair of exhaust fans that run in different directions to control the polluted interior. It is a ventilation system that is circulated in a refilled manner so that forced discharge of air flows through an exhaust fan that does not operate cool or warm seasonal outdoor air.

In general, the best way to ventilate a house or office building that is blocked from outside by walls and windows is to ventilate the windows naturally. However, in cold winters or hot summers, windows should be sealed and air-conditioned. Therefore, it is not always necessary to operate the ventilation system, but only when it is necessary to seal the windows and air-condition and to discharge the polluted air from the blocked room. This is a necessary and sufficient condition for an eco-friendly ventilation system to be simple and easy to structure.

1 is a schematic diagram of a conventional ventilation system. In a device that operates the exhaust fan or air supply fan for ventilation, a complicated heat exchanger is installed in the ventilation duct or an air purifier is installed to maintain the comfort of indoor air. These devices have a large and large installation area, which inevitably leads to low ceilings and troublesome maintenance. In addition, since the air conditioning function is installed in a separate air-conditioning facility, the same function device is often operated twice, which not only increases the power consumption but also generates noise when the forced exhaust or air supply fan is operated. The discomfort of the discharge air flowing into the face of the face was painful. The present invention closely analyzes natural phenomena and the flow of the air and introduces fresh air into the outside air where the atmospheric temperature of the front and rear of the building varies significantly depending on the season. It is to open an eco-friendly ventilation system to keep it. Since there should be no power consumption in the maintenance operation, the air-conditioning load in the room can be reduced by constructing a duct that serves as an exhaust and intake passage so that the heat exchange function works effectively. In addition, when entering the outside air of the front and rear of the building according to the temperature of the atmosphere, it is connected to the rear of the building instead of using the forced air supply fan, and controls a pair of exhaust fans that run in different directions to control the polluted interior. It is a ventilation system that is circulated in a refilled manner so that forced discharge of air flows through an exhaust fan that does not operate cool or warm seasonal outdoor air.

Background art of the present invention is a technology for using a solar cell power based on the technology for manufacturing heat exchange duct and a technology for controlling the exhaust fan and drying grill by receiving a signal sent from the sense of detecting air temperature, humidity and indoor air pollution

Air-Cleaning Ventilation System (10-0577254) Building ventilation system (10-0652146) PV system and method (10-0702223) Solar cell charging system for electronic products (publication number 10-2011-0019047)

In the present invention, the natural phenomena to be noticed in order to start the eco-friendly ventilation system is that the outdoor temperature of the front and rear of the seasonal building shows a significant difference, when the warm or cool outdoor air inflows, as well as the seasonal indoor air and temperature difference less efficient heat The control unit receives a signal from the sense that senses the need for ventilation and the ventilation time for 24 hours by minimizing the heating and cooling load by creating the exchange duct structure and using solar cells as a power source. It is to provide a deep and easy-to-maintain eco-friendly ventilation system that maintains a pleasant indoor air by selecting and exhausting the exhaust fan.

The present invention is based on a heat exchange duct, the exhaust fan receiving the sense information including the two exhaust fan and the filter installed on the rear of the exhaust fan and drying grill, temperature sense humidity sense CO2 sense based on the heat exchange duct And a control unit for controlling the drying grill and an inverter for collecting and charging the solar cell as an energy source of the entire system and converting the direct current into alternating current.

As is well known, the temperature of the atmosphere depends on the rotation and revolution of the Sun and Earth. Sunlight increases the temperature of the atmosphere with radiant heat. When sunlight is blocked by plants or buildings, the temperature drops significantly above 3 ℃. The warmth of the sunny places of winter and the coolness of the shades of the trees in summer are the natural phenomena experienced.

However, the ventilation of the interior space of a house or work building that is blocked from outside by windows or walls is the best way to open the windows and perform natural ventilation. However, in cold winters or hot summers, windows should be sealed and heated. Therefore, the operation of the ventilation system is not always necessary, but ventilation is necessary when airtightly enclosed windows and heating and cooling, or when contaminated air in a blocked room must be discharged.

To this end, in the present invention, as shown in FIG. 2, two sets of ventilation ducts having different directions on the front and rear sides of the building communicate with the exhaust fans 3a and 3b at one end, and the other end of the building is connected to a ventilation section of the building. Example: In the living room and kitchen) to form a heat exchange duct (4) by joining each other in the shape of "b" and "a". The heat exchange duct of this structure operates the exhaust fan 3a at the rear of the building in winter to introduce warm air from the front of the building, and conversely, operates the exhaust fan 3b at the front of the building to introduce cool air from the back of the building in summer. By introducing the outside air can reduce the air conditioning load in the room. The structure of the environmentally friendly heat exchange duct is a combination of the exhaust passage (9) and the air supply passage (8). In winter, the warm outside air in front of the building enters the air supply passage (8) to remove the membrane (7). Through the heat exchange to absorb the heating temperature of the room going to the exhaust vent (9) through, and in the summer cool air from the rear of the building enters the air supply passage (9) while absorbing the cooling air temperature exiting the exhaust vent (8) Heat exchange takes place. Thus, the manufacturing method of this duct which expanded the heat exchange contact area to the maximum is shown in FIG.

First, the center portion of the iron plate is bent in S-shape to form a separator film 7 having a maximum contact area, and both ends thereof are folded and welded together with the edge of the separator film so that the exhaust passage and the air supply passage are joined with the separator film in between. If the heat exchange duct 4 is formed and the gap between the air supply gallery 5 and the exhaust gallery 6 is opened as far as possible, the convection range of the indoor air is spread and the length of the heat exchange contact surface inside the duct is also extended. However, depending on the season, even if the direction of the supply and exhaust passages are different, only the location of the gallery and the exhaust fan changes, but the ventilation method is the same.

And the cylindrical cover (17) is installed on the spring lag on the front of the exhaust fan in the rear of the building, the ventilation opening is closed by wind pressure during strong wind or heavy rain, and the ventilation opening opens when the exhaust fan is turned or the wind pressure disappears. Block the flow into the room through. Easily removable filters 3a and 3b are provided at the rear of the exhaust fan to prevent dust or insects from entering the air and to be sometimes removed and washed. Dry grills (10a, 10b) installed in contact with the filter removes moisture to maintain a comfortable humidity range (50% ~ 70%) when the humid outdoor air is introduced.

In addition, since air-conditioning devices installed separately in the room are equipped with an air purifying function on their own, it is true that there is little need to provide a redundant system in the ventilation system. Therefore, the eco-friendly ventilation system is to reduce the maintenance burden by simply laying a filter or a dehumidification grill that filters dust in the air by faithfully breathing.

As an auxiliary facility to ensure proper operation at the right time as described above, any exhaust fan can be driven at any time and how much according to the CO2 sense (15) and the temperature and humidity (14) of the atmosphere. And a solar panel 13 for collecting renewable energy.

In FIG. 3, the direct current electric current collected by the solar cell 13 is charged to the storage battery 12 via the output controller 16, and the direct current electric current is converted into the alternating current electric current by the invert 17. According to the detected information, the selected exhaust fan was turned and the selected drying grill was heated to ventilate the indoor air.

Sense 14 for measuring the air temperature was set on the basis of 20 ℃ in order to catch the temperature range that requires cooling and heating. When the atmospheric temperature is 20 ℃ is considered winter and the control unit 11 drives the exhaust fan at the back of the building, when the atmospheric temperature is 20 ℃ or more it is regarded as summer and the controller drives the exhaust fan in front of the building. The humidity sensor 14 sets the comfort humidity to 60% and removes moisture from the incoming outdoor air by heating the drying grill installed at the rear of the filter of the air supply duct when the humidity in the rainy season or the cloudy day is 70% or more.

When the CO2 sense 15 measuring the pollution level of the indoor air detects that the carbon dioxide gas content is 400 ppm or more in the indoor air, the controller 11 selects and operates the exhaust fan to operate in consideration of the information of the atmospheric temperature sense, and thus, fresh air. When the CO2 sense is lowered to less than 350 ppm of carbon dioxide, the exhaust fan stops operation and continues charging the battery in the standby state. After 7 pm when the current collection voltage is low or on a cloudy day, by controlling the switching of the charging terminal of the battery to prevent the charge voltage of the battery by increasing the number of relief days.

The present invention which has advanced the structure and ventilation of the deep heat exchange duct as described above is based on natural phenomena and providence, and has two sets of different directions on the rear of the building to introduce warm or cool air from the front and rear of the building. The power supply unit which collects the solar cell 13 based on the heat exchange duct (4) where the ventilation duct is contacted to maximize the heat exchange contact area within the ventilation section of the building, and heat exchange between the air supply and the exhaust gas is efficiently performed. Inflow of warm outside air in front of the building in winter by the control unit 11 which selects and operates the exhaust fan and the drying grill by receiving information of the sense 14 for detecting humidity and the CO 2 sense 15 for detecting air pollution in the room. On the contrary, in summer, the air-conditioning load of the room can be reduced by inflowing cool outside air at the back of the building to provide a comfortable ventilation. It is an eco-friendly ventilation system.

The eco-friendly ventilation system according to the present invention described above allows efficient heat exchange by ventilating the exhaust and the air to the front and rear sides of the building seasonally through heat exchange ducts, and has a simple structure, which makes it possible to raise the floor height as much as possible. By collecting and driving the battery, there is no consumption of commercial power, and it minimizes the load of the air-conditioning and heating system installed and operated separately, and also removes noise and discomfort of forced discharge airflow.

1 is a schematic configuration diagram of the prior art
2 is a cross-sectional view of the ventilation system of the apartment building according to the embodiment of the present invention
3 functional block diagram of the eco-friendly ventilation system of the present invention
4 is a manufacturing example of the heat exchange duct of the present invention

1 Building front exhaust fan 2 Building rear exhaust fan 3a, 3b Filter and dry grill 4 Heat exchange duct 5 Rear grill 6 Side grill 7 Separating film 8, 9 Exhaust vent 10a, 10b Exhaust fan cover 11 Control unit 12 Storage battery 13 Solar cell 14 Standby Temperature, Humidity Sense 15 CO2 Sense 16 Output Controller 17 Inverter

Claims (1)

Two sets of ventilation ducts with different directions across the rear of the building are connected to each exhaust fan (1, 2) at one end and the other end is blocked to make contact with the heat exchange contact area in the ventilation section of the building to maximize. Bend the central part of the steel plate to be manufactured in S-shape to form a separator, and fold both ends to weld the ends to the edge of the separator to weld the separator with the separator between the exhaust and air supply passages in the form of “b” and “a”. Based on the heat exchange duct (4) formed to be attached to each other, the exhaust fan and the drying grill are selected based on the power unit that collects the solar cell, the sense of sensing temperature and humidity in the air, and the CO2 sense of sensing air pollution in the room. By the control unit to operate and operate the warm air from the front of the building in winter and the cool air from the back of the building in summer Eco-friendly ventilation system, which allows for comfortable ventilation and reduces the air conditioning load in the room by efficient heat exchange between exhaust and rapid periods.

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