KR200388903Y1 - Ventilating system for saving energy using thermal efficiency of indoor air - Google Patents

Abstract

A sensor for detecting indoor air pollution; A duct through which outside and inside air enters from the outside and the indoor, respectively, according to the value detected by the sensor; An electric damper installed at a predetermined position of the duct into which the bet is introduced and opened and closed so that the bet exhausted to the outside is introduced into the duct into which the outside air is introduced; Filtration filter for filtering the air and the air sucked along the inflow path by the electric damper; A total heat exchanger for heat-exchanging the outside air and the outside filtered by the filtration filter; And it provides a ventilation system for saving energy by using the thermal efficiency of the bet including a rotating fan that rotates so that the outside air and the bet is introduced into the duct.

Description

Ventilating system for saving energy using thermal efficiency of indoor air}

The present invention relates to a ventilation system, and more particularly, to a ventilation system for ventilating indoor polluted air and saving indoor heating and cooling energy by allowing the indoor air of a suitable temperature to be discharged to the inside to be re-introduced into the room. will be.

The air in an enclosed space increases the carbon dioxide content over time due to the breathing of living things, which interferes with the breathing of living things. Therefore, when many people, such as offices, stay in a narrow space, the indoor polluted air must be coped with fresh air from time to time. At this time, a commonly used ventilation system.

However, the conventional ventilation system adopts a method of forcibly discharging only indoor air to the outside by using one blower. Therefore, when the air is discharged to the outside using a single blower, the air or air in the room is discharged to the outside without filtration, and the cost of heating and cooling the room is increased by introducing outdoor air without heat exchange through the door or window opening. It took a lot of unnecessary.

In addition, the sudden cold air and heat flows from the outside to the inside of the air due to the rapid change in the temperature of the people who are inside of it feels unpleasant, especially the indoor air is discharged to the outside when the window or door frame is closed In this case, the inflow of fresh air may be blocked and oxygen deficiency may occur as well as the humidity control of the indoor air is not made at all, and thus there is a problem in that a comfortable indoor environment is not maintained even though a ventilation system is provided.

Therefore, an object of the present invention is to provide a ventilation system that can save energy by using the thermal efficiency of the indoor air by filtering the contaminated indoor air of the indoor proper temperature discharged to the outside and then re-introduced into the room.

According to the present invention, a sensor for detecting the air pollution of the room; A duct through which outside and inside air enters from the outside and the indoor, respectively, according to the value detected by the sensor; An electric damper installed at a predetermined position of the duct into which the bet is introduced and opened and closed so that the bet exhausted to the outside is introduced into the duct into which the outside air is introduced; Filtration filter for filtering the air and the air sucked along the inflow path by the electric damper; A total heat exchanger for heat-exchanging the outside air and the outside filtered by the filtration filter; And it provides a ventilation system for saving energy by using the thermal efficiency of the bet including a rotating fan that rotates so that the outside air and the bet is introduced into the duct.

Here, the sensor is preferably a semiconductor gas sensor for measuring the concentration of flammable gas, toxic gas and volatile organic compounds in the indoor air.

Here, the filtration filter, the pre-filter (Pre Filter) for removing a large dust of the outside air and the inside introduced into the duct; Antibacterial filter (Sanitary Filter) to remove the air pollution and airborne dirt and airborne bacteria; Hepa filter (High Efficiency Particle Air Filter) for filtering the fine dust of the outside air and the inside; Phosphate-deposited palm granular activated carbon filter (Active Carbon Fiber) for deodorization of the outside and the outside air; And a bird house syndrome filter (TVOC-HCHO filter) for filtering formaldehyde (HCHO) and volatile organic compounds (TVOC) of the outside air and the inside.

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

1 is a plan sectional view showing a configuration and an operation state in which all indoor air is exhausted to the outside in a ventilation system according to a preferred embodiment of the present invention, Figure 2 is a room air in a ventilation system according to a preferred embodiment of the present invention Is a plan sectional view showing a configuration and an operation state where the air is resupplied to the room.

As shown in Figure 1 and 2, the ventilation system of the present invention, provided in the interior of the body 101, the air supply duct 110, the air supply duct 110, the outdoor air is supplied to the interior crosses at a predetermined position And the exhaust air duct 120 and the air supply duct 110, the exhaust air duct 110 and the exhaust air duct 120 is located at the intersection of the outdoor air and the heat exchanger 130 to heat exchange the indoor air exhausted with the outdoor air Include.

The air supply inlet 111 and the air supply outlet 112 are formed at both ends of the air supply duct 110, and the air exhaust inlet 121 and the air outlet 122 are formed at both ends of the air exhaust duct 120.

An air supply fan 141 is provided at the air supply outlet 112 of the air supply duct 110 to forcibly suck the outdoor air, and an exhaust fan 142 forcibly discharges the indoor air at the exhaust outlet 122 of the exhaust duct 120. Is provided.

Here, the air supply duct 110 and the exhaust duct 120 is divided so as not to interfere with each other by the inner partition 102 of the main body 101. In addition, the air supply outlet 112 of the air supply duct 110 and the air exhaust inlet 121 of the air exhaust duct 120 are indoors through a connection pipe (not shown) such as a PVC pipe so that air supply and exhaust can be easily performed throughout the room. It extends everywhere. In addition, outside the connection pipe (not shown) to the outside of the main body 101, flammable gases such as methane, propane and butane, toxic gases such as carbon monoxide, hydrogen sulfide and ammonia, volatile organic compounds, and tobacco smoke to measure indoor air pollution. Various sensors 150 including semiconductor gas sensors mainly applied for indoor air conditioning such as carbon dioxide and odor are installed.

In addition, the air supply duct 110, the first filter (Pre Filter) to remove the large dust in the outdoor air and the indoor air, the first filter (Pre Filter), the dust and dust of the first air filtered by the first filter and A second filter, which is an antibacterial filter (Sanitary Filter) for removing suspended bacteria, and a third filter, which is a high efficiency particle air filter (Filter) for filtering fine dust of the outside air and the air filtered secondarily by the second filter. And a fourth filter which is a phosphate-deposited palm granular activated carbon filter (Active Carbon Fiber) for deodorization of the outside air and the inside filtered by the third filter, and the form of the outside air and the inside filtered by the fourth filter A filter filter 160 including a fifth filter, a TVOC-HCHO filter, for filtering seven harmful substances such as aldehyde (HCHO) and total volatile organic compound (TVOC) is further installed to provide clean air. It's good to have a. In the fourth filter, the phosphate-deposited palm granular activated carbon filter (Active Carbon Fiber), palm granular activated carbon (KURARAYCOAL GG 16/35) and ethylene powder, phosphate-deposited activated carbon (KURARAYCOAL T-BFU 16/35) is 7: It has a blending ratio of 3, and it is preferable to use a polypropylene fabric as the substrate.

In addition, the partition wall 102 forming the boundary between the air supply duct 110 and the exhaust duct 120 is provided at the rear of the heat exchanger 130 based on the exhaust direction of the indoor air so that the indoor air to be exhausted flows back into the room. The damper 170 further includes.

The heat exchanger 130 includes a plurality of supply passages communicating with the air supply duct 110 and a plurality of exhaust passages communicating with the exhaust duct 120, and a heat exchange membrane having high heat conduction efficiency is provided at the boundary between the supply passage and the exhaust passage. do.

Hereinafter, the operation and effects of the ventilation system according to the preferred embodiment of the present invention will be described.

First, as shown in FIG. 1, a state in which all indoor air is exhausted to the outdoors will be described.

When the indoor air pollution degree is measured by the sensor 150, the indoor air is ventilated by the exhaust fan 142 and the air supply fan 141. At this time, the contaminated indoor air flows into the exhaust duct 120 by the operation of the exhaust fan 142 and is discharged through the exhaust heat exchanger 140 to the outside through the exhaust duct 120. At the same time, the fresh outdoor air is introduced into the air supply duct 110 by the operation of the air supply fan 141 and is introduced into the room through the air supply duct 110 through the heat exchanger 130.

Here, the indoor air and the outdoor air passing through the heat exchanger 130 are heat exchanged through the heat exchange membrane while passing through the heat exchanger 130, respectively, the outdoor air is introduced into the room having a temperature close to the room temperature.

On the other hand, as shown in Figure 2, when explaining the state that the indoor air is re-introduced into the room as follows.

When the indoor air pollution degree is measured by the sensor 150 in a case where the temperature difference between the indoor and the outdoor is severe, the contaminated indoor air is introduced into the exhaust duct 120 by the operation of the exhaust fan 142 and the indoor air is introduced. Pass the heat exchanger (130). Thereafter, the indoor air is guided to the air supply duct 110 by the damper 170 without being discharged to the outside through the exhaust outlet 122. The indoor air guided to the air supply duct 110 is re-introduced into the room through the air supply outlet 112 through the heat exchanger 130, passing through the filtration filter 160 through the operation of the air supply fan 141. At the same time, the fresh outdoor air flows into the air supply duct 110 by the operation of the air supply fan 141. The introduced outdoor air is introduced into the room through the air supply outlet 112 through the heat exchanger 130 and the filtration filter 160 together with the indoor air.

Here, the indoor air and the outdoor air passing through the heat exchanger 130 are heat exchanged through the heat exchange membrane of the heat exchanger 130, and since the entire amount of indoor air passes through the heat exchanger 130, the temperature of the outdoor air is room temperature. It has a temperature somewhat similar to, which is much more advantageous for maintaining the temperature of the room.

Therefore, according to the present invention as described above, by measuring the dust, odor and toxic gas, etc. in the indoor bet through the sensor, and if the room is contaminated by inhaling the contaminated bet to filter dust, odor and toxic gas in the bet After that, the fresh air may be exchanged with fresh air, thereby supplying fresh air having a temperature similar to that of the room temperature.

In the preferred embodiment of the present invention has been described for compensating the temperature of the outside air by the temperature of the internal air using the heat exchanger 130, a damper that can block the air supply of the outside air without the heat exchanger is further installed By using only the thermal efficiency of the bet without temperature compensation for the outside air may save the heating and cooling energy.

Although the present invention has been described with respect to specific embodiments, various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the invention should not be defined by the described embodiments, but by the equivalents of the claims and claims.

According to the present invention as described above, by allowing the indoor air of the indoor proper temperature discharged to the outside to be re-introduced into the room, it is possible to save the heating and cooling energy using the thermal efficiency of the indoor air.

1 is a plan sectional view showing a configuration and an operating state in which all indoor air is exhausted to the outside in a ventilation system according to a preferred embodiment of the present invention;

Figure 2 is a plan sectional view showing a configuration and operation state that the indoor air is re-supplied to the room in the ventilation system according to a preferred embodiment of the present invention.

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

110: air supply duct 120: exhaust duct

130: heat exchanger 150: sensor

160: filtration filter 170: damper

Claims (3)

A sensor for detecting indoor air pollution; A duct through which outside and inside air enters from the outside and the indoor, respectively, according to the value detected by the sensor; An electric damper installed at a predetermined position of the duct into which the bet is introduced and opened and closed so that the bet exhausted to the outside is introduced into the duct into which the outside air is introduced; Filtration filter for filtering the air and the air sucked along the inflow path by the electric damper; A total heat exchanger for heat-exchanging the outside air and the outside filtered by the filtration filter; And Ventilation system for saving energy by using the thermal efficiency of the bet, characterized in that it comprises a rotating fan to rotate the outside air and bet in the duct. The ventilation system of claim 1, wherein the sensor is a semiconductor gas sensor for measuring the concentrations of flammable gas, toxic gas, and volatile organic compounds in the indoor air. . The method of claim 1, wherein the filtration filter, A pre-filter for removing large dust from outside air and inside air flowing into the duct; Antibacterial filter (Sanitary Filter) to remove the air pollution and airborne dirt and airborne bacteria; Hepa filter (High Efficiency Particle Air Filter) for filtering the fine dust of the outside air and the inside; Phosphate-deposited palm granular activated carbon filter (Active Carbon Fiber) for deodorization of the outside and the outside air; And Ventilation system for saving energy by using the thermal efficiency of the bet, including a bird house syndrome filter (TVOC-HCHO Filter) for filtering the formaldehyde (HCHO) and volatile organic compounds (TVOC) of the outside air and bet .