KR102087324B1 - Ventilation system - Google Patents

Abstract

The present invention relates to a ventilation system. One aspect of the ventilation system according to an embodiment of the present invention, ventilation to flow the bet and the outside air for circulation of the bet in the room and intake of outside air from the outside to the room so that the indoor is maintained at a relatively high air pressure compared to the outdoor Pan; A filter unit that removes contaminants contained in the bet and the outside air discharged to the room by the operation of the ventilation fan; And a duct defining a flow path through which at least one of the inside and outside air flows by the operation of the ventilation fan. It includes.

Description

Ventilation system

The present invention relates to a ventilation system.

In recent years, interest in the environment has increased due to an increase in pollution factors such as fine dust. Reflecting this, the use of products such as air cleaners capable of purifying indoor air is rapidly increasing. However, the air purifier can simply remove contaminants from indoor air, but it does not solve the problem of the outdoor contaminants entering the room.

Prior art documents 1 (Republic of Korea Patent No. 0555235, name: air pressure regulating ventilation system) and prior art documents 2 (Republic of Korea Utility Model No. 0422771, name: ventilation system using a non-power damper) have a ventilation system according to the prior art. It is disclosed. Referring to the prior art document 1, conventionally, by maintaining each region of the room at a positive pressure, it is prevented that unpurified outside air flows into the room. And referring to the prior art document 2, conventionally, the air pressure in each area of the room is formed as a relative positive pressure / negative pressure so that indoor and outdoor ventilation and indoor air circulation are achieved.

However, in the case of the prior art document 1, since the inflow and out of air between each area is made, it is impossible to control ventilation in each area in consideration of the presence of residents in each area or the occurrence of pollutants due to activity in each area. In addition, two fans for intake and exhaust must be provided to maintain positive pressure in each area of the room. In addition, in the case of the prior art document 2, air circulation is performed by opening and closing of the non-power damper without installing a separate duct, and thus it is impossible to control ventilation in each area, and both the external air suction device and the internal air exhaust device Should be installed.

On the other hand, in the case of a recently constructed building, a ventilation system for indoor ventilation is installed, but in the case of an old building, consideration has not been made. However, in order to install a ventilation system in an existing building, there is a hassle of installing a duct after removing a previously installed ceiling or floor surface.

Republic of Korea Registered Patent No. 0555235 (name: air pressure adjustment ventilation system) Republic of Korea Utility Model No. 0422771 (Name: Ventilation system using non-power damper)

The present invention is to solve the problems caused by the prior art as described above, and to provide a ventilation system configured to enable ventilation to prevent indoor inflow of contaminants due to a difference in air pressure with a simpler configuration.

Another object of the present invention is to provide a ventilation system configured to circulate air for each area of the room.

Another object of the present invention is to provide a ventilation system that is configured to allow simpler construction.

One aspect of the ventilation system according to an embodiment of the present invention for achieving the above object, for the circulation of the bet in the room and inhalation of the outside air from the outside to the room so that the interior is maintained at a relatively high air pressure compared to the outdoor A ventilation fan that flows inside and outside air; A filter unit that removes contaminants contained in the bet and the outside air discharged to the room by the operation of the ventilation fan; And a duct defining a flow path through which at least one of the inside and outside air flows by the operation of the ventilation fan. It includes.

In one aspect of the embodiment of the present invention, when the ventilation fan is operated, the inside air sucked through the indoor intake unit and the outside air sucked through the outdoor intake unit are discharged into the room through the indoor exhaust unit while the foreign matter is removed while passing through the filter unit. Part of the bet and the outside air discharged into the room is discharged to the outside through at least one of the openings and the gaps provided in the room.

In one aspect of the embodiment of the present invention, the indoor intake unit is disposed in a kitchen among a plurality of areas constituting the room, and the indoor exhaust unit includes a plurality of each disposed in a plurality of areas.

An aspect of an embodiment of the present invention, the first sensing sensor for detecting whether the occupants of the occupants (在 室) inside the area; And a plurality of first damper units for controlling internal and external air to be selectively discharged to each region through the indoor exhaust unit. Further comprising, the first damper unit, the first sensing sensor to control the exhaust air and the outside air through the indoor exhaust unit only to the area detected as occupants occupied by each area.

An aspect of the embodiment of the present invention, the second sensing sensor for detecting at least one of the pollutants and harmful gases generated in the cooking process in the kitchen and its concentration; And a second damper unit that adjusts a ratio of the amount of intake of outside air through the outdoor intake unit to the amount of intake air through the indoor intake unit. Further comprising, the second damper unit, except for the case where at least one of the pollutants and harmful gases is detected by the second sensing sensor, through the outdoor intake unit for the amount of intake of the bet through the indoor intake unit When the ratio of the intake amount of the outside air is controlled to be maintained at a preset ratio, and when at least one of the pollutants and harmful gases is detected by the second sensing sensor, the pollutants and harmful gases sensed by the second sensing sensor It controls to increase the ratio of the intake amount of the outside air through the outdoor intake portion to the intake amount of the bet through the indoor intake portion until at least one of the concentrations decreases below a predetermined first reference concentration.

An aspect of the embodiment of the present invention, an indoor temperature sensor for sensing the temperature of the bet; And an outdoor temperature sensor that senses the temperature of the outside air. Further comprising, the second damper unit, when the cooling or heating of the room is made, even if the concentration of at least one of the pollutants and harmful gases detected by the second detection sensor exceeds the first reference concentration, the Only the difference between the temperature of the bet detected by the indoor temperature sensor and the temperature of the outdoor air sensed by the outdoor temperature sensor reaches a predetermined temperature difference, and the amount of intake of outdoor air through the outdoor intake unit relative to the amount of intake of the bet through the indoor intake unit It is controlled so that the ratio of is increased.

In one aspect of the embodiment of the present invention, the second damper unit detects the second detection even if the difference between the temperature of the bet detected by the indoor temperature sensor and the temperature of the outdoor air detected by the outdoor temperature sensor reaches a preset temperature difference. When the concentration of at least one of the pollutants and harmful gases sensed by the sensor reaches a second reference concentration preset to a higher value than the first reference concentration, through the outdoor intake section to the intake amount of the bet through the indoor intake section Control so that the ratio of the amount of intake of outside air increases.

Another aspect of the embodiment of the present invention, a ventilation system for ventilation of a room composed of a plurality of areas including a kitchen: an indoor intake unit through which a bet is sucked from the kitchen; An outdoor intake unit through which outdoor air is sucked from the outside; An indoor exhaust unit for discharging the intake air sucked through the indoor intake section and the outside air sucked through the outdoor intake section to areas other than the kitchen; A ventilation fan for suctioning the bet through the indoor intake, suctioning outside air through the outdoor intake, and exhausting the bet and outside air through the indoor exhaust; A duct defining a flow path through which at least one of the bet and the outside air flows by the ventilation fan; A filter unit that removes contaminants contained in air discharged to each region through the indoor outlet; A first damper unit selectively opening and closing flow paths through which indoor and outdoor air is discharged to each region through the indoor discharge port; And a second damper unit controlling an opening degree of a flow path through which the intake air flowing through the indoor intake unit flows. Including, by the operation of the ventilation fan, the inside and outside air sucked through the indoor intake unit and the outdoor intake unit is discharged to each region through the indoor exhaust unit, so that each region is maintained at a relatively high air pressure compared to the outdoor , The first damper unit controls the bet and the outside air to be discharged through the indoor outlet only to the area where the occupants live in each area, and the second damper unit absorbs the amount of outside air through the outdoor intake unit The opening degree of the flow path through which the intake air flows through the indoor intake section is adjusted so as to have a predetermined ratio with respect to the intake amount of the indoor air through the indoor intake section, and when cooking is performed in the kitchen, contaminants generated in the cooking process in the kitchen And inhalation through the indoor intake section so that the ratio of the intake amount of outside air through the outdoor intake section to the intake amount of the indoor air through the indoor intake section gradually increases until the concentration of any one of the harmful gases decreases below the first reference concentration. The opening degree of the flow path through which the inside air flows or the flow path through which the outside air flows in through the outdoor intake portion flows is adjusted.

In one aspect of the embodiment of the present invention, when the second damper unit is cooled or heated in the room, the concentration of at least one of pollutants and harmful gases generated in the cooking process in the kitchen is the first reference concentration. Even if it exceeds, until the difference between the temperature of the bet detected by the indoor temperature sensor and the temperature of the outdoor air sensed by the outdoor temperature sensor reaches a predetermined temperature difference, through the outdoor intake unit for the intake amount of the bet through the indoor intake unit The opening degree of the flow path through which the inside air sucked through the indoor intake portion flows or the opening degree of the flow path through which the outside air flows through the outdoor intake portion flows is adjusted to increase the ratio of the amount of intake of outside air, and cooling or heating of the room is not performed. Even if, when the concentration of at least one of the pollutants and harmful gases generated in the cooking process in the kitchen reaches a preset second reference concentration with a higher value than the first reference concentration, the intake amount of the bet through the indoor intake unit Control so that the ratio of the amount of intake of outside air through the outdoor intake unit is increased.

According to the ventilation system according to the embodiment of the present invention, the following effects can be expected.

First, in the embodiment of the present invention, by controlling the intake amount and the exhaust amount to maintain the room at a positive pressure using one ventilation fan, it is possible to prevent the inflow of contaminants into the room. Therefore, according to the embodiment of the present invention, efficient ventilation of the room can be achieved with a simpler configuration.

In addition, in the embodiment of the present invention, if all areas of the room maintain a relatively positive pressure compared to the outdoor, each area of the room is selectively controlled with a relative positive pressure or a negative pressure. Therefore, according to the embodiment of the present invention, it is possible to prevent the propagation of contaminants between each area of the room.

And in an embodiment of the present invention, a duct through which air flows for ventilation is attached to the ceiling surface where it is constructed. Therefore, according to the embodiment of the present invention, it is possible to construct a ventilation system more simply.

1 is a plan view schematically showing a ventilation system according to an embodiment of the present invention.
Figure 2 is a cross-sectional view schematically showing an embodiment of the present invention.
3 and 4 are cross-sectional views showing main parts of a duct constituting an embodiment of the present invention.

Hereinafter, a configuration of a ventilation system according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a plan view schematically showing a ventilation system according to an embodiment of the present invention, FIG. 2 is a cross-sectional view schematically showing an embodiment of the present invention, and FIGS. 3 and 4 are ducts constituting an embodiment of the present invention. It is a sectional view showing the main part.

First, referring to FIGS. 1 and 2, the ventilation system according to the present embodiment is for ventilation of the room 1 composed of a plurality of areas, an indoor intake unit 10, an outdoor intake unit 20, It includes an indoor exhaust unit 30, a ventilation fan 40, a filter unit 50 and a duct 100.

More specifically, the indoor intake unit 10 is a room 1, substantially, where indoor air, that is, intake air is inhaled from any one of each region. In addition, the outdoor intake unit 20 is a place where outdoor air, that is, outside air is sucked in, from the outside 2. The indoor exhaust portion 30 is a place for discharging the inside air sucked through the indoor intake portion 10 and the outside air sucked through the outdoor intake portion 20 to each region. In this embodiment, the indoor intake unit 10 is installed in the kitchen of each area of the indoor (1), the outdoor intake unit 20, can be installed on one side of the veranda to communicate with the outdoor (2) have. In addition, the indoor exhaust unit 30 may be installed in areas excluding the kitchen among each area of the room 1. Practically, the indoor intake unit 10, the outdoor intake unit 20, and the indoor exhaust unit 30 may be defined by the first duct unit 110, which will be described later.

And the ventilation fan 40, the intake of the bet through the indoor intake unit 10, the intake of outside air through the outdoor intake unit 20 and the exhaust of the bet and the outside air through the indoor exhaust unit 30 It is for. Practically, as the bet and the outside air flow by the ventilation fan 40, the circulation of the bet in the indoor 1 and the suction of the outside air from the outdoor 2 to the indoor 1 are made, so that the indoor 1 is It can be maintained at a relatively high air pressure compared to the outdoor (2). In other words, when the ventilation fan 40 is operated, foreign matter is removed while the outside air sucked through the indoor intake part 10 and the outside air sucked through the outdoor intake part 20 passes through the filter part 50. By being discharged to the interior 1 through the indoor exhaust 30 in a state, the interior 1 is maintained at a positive pressure, and the outdoors 2 is maintained at a negative pressure. Therefore, when the ventilation fan 40 is operated, a portion of the bet and the outside air discharged into the indoor 1 is continuously discharged to the outdoor 2 through at least one of an opening and a gap provided in the indoor 1 , Inflow of contaminants from the outdoor (2) to the indoor (1) can be prevented.

In addition, the filter unit 50 removes contaminants contained in air discharged into the room through the indoor exhaust unit 30. That is, substantially, the inside air sucked through the indoor intake unit 10 and the outside air sucked through the outdoor intake unit 20, the contaminants contained therein are removed by the filter unit 50 After that, it is discharged to the room 1 through the room exhaust section 30. As the filter unit 50, various known types may be used.

Meanwhile, the duct 100 defines a flow path through which the inside and outside air flows by the ventilation fan 40. In this embodiment, the interior of the room is controlled by adjusting the flow cross-sectional area of the flow path through which the inside air sucked through the indoor intake section 10 flows and the flow cross-sectional area of the flow path through which the outside air sucked through the outdoor intake section 20 flows. The ratio of the intake amount of the inside air through the intake unit 10 and the intake amount of outside air through the outdoor intake unit 20 is set. In this embodiment, the flow cross-sectional area of the flow path through which the inside air sucked through the indoor intake unit 10 flows and the flow cross-sectional area of the flow channel through which the outside air sucked through the outdoor intake section 20 flows are the outdoor intake section The intake amount of outside air through 20 is set to be a predetermined ratio with respect to the intake amount of bet through the indoor intake unit 10. For example, the intake amount of the bet through the indoor intake unit 10 and the intake amount of the outside air through the outdoor intake unit 20 may be set to 9: 1.

Meanwhile, the ventilation system according to the present embodiment may further include first and second sensing sensors S1 and S2 and first and second damper parts 60 and 70. The first and second sensing sensors (S1) (S2) and the first and second damper units (60, 70), in addition to the above-described basic ventilation, ventilation for each area and ventilation when contaminants are generated in the kitchen It is for.

More specifically, the first detection sensor S1 detects whether the occupants are present inside each area. In addition, the second detection sensor S2 detects whether at least one of contaminants and harmful gases generated in the cooking process in the kitchen is generated and its concentration. In addition, the first damper unit 60 controls air and air to be selectively discharged to each region through the indoor exhaust unit 30. In other words, substantially, the first damper unit 60 selectively opens and closes a flow path through which the inside and outside air discharged through the indoor exhaust unit 30 is guided. In addition, the second damper unit 70 adjusts the ratio of the amount of intake of outside air through the outdoor intake unit 20 to the amount of intake of air through the indoor intake unit 10. Practically, the second damper unit 70 controls the opening degree of the flow path through which the intake air flowing through the indoor intake unit 10 flows, so that the intake amount of outside air through the outdoor intake unit 20 is within the indoor It is controlled to be a predetermined ratio with respect to the intake amount of the bet through the intake unit 10.

In the present embodiment, when the first sensing sensor S1 detects that the occupant is occupied only in a specific area of each area, the first damper unit 60 is controlled by the first sensing sensor S1. It is controlled so that the bet and the outside air are discharged through the indoor exhaust unit 30 only to the area detected by the occupants. That is, the first damper unit 60 is opened through the indoor exhaust unit 30 by opening a flow path through which bet and outside air flow to an area detected by the occupant by the first sensing sensor S1. It controls the bet and the outside air to be discharged. And the first damper unit 60, through the indoor exhaust unit 30 by blocking the flow path of the bet and the outside air flows to the area detected by the first sensing sensor (S1) that the occupant is not present. Control to prevent exhaustion of bet and outside air.

On the other hand, the second damper unit 70, when the pollutants and harmful gases generated in the cooking process in the kitchen is not detected, as described above, the amount of intake of outside air through the outdoor intake unit 20 It is controlled to be a predetermined ratio with respect to the intake amount of the bet through the indoor intake unit (10). In addition, when the second damper unit 70 detects at least one of contaminants and harmful gases generated in the cooking process in the kitchen by the second sensing sensor S2, the second sensing sensor ( It is controlled so that the intake amount of the outside air through the outdoor intake unit 20 is relatively increased until the concentrations of pollutants and harmful gases sensed by S2) reach a predetermined first reference concentration or less. In other words, when the pollutants and harmful gases are generated in the cooking process in the kitchen, the second damper unit 70 may include the indoor exhaust unit until the concentration reaches a predetermined first reference concentration or less. 30) is controlled so that the ratio of the bet is gradually increased in the total amount of the bet and the outside air discharged to the room (1). In summary, when the contaminants and harmful gases are generated by cooking in the kitchen, the second damper unit 70 compares the outdoor intake unit 20 with respect to the intake amount of the bet through the indoor intake unit 10. By adjusting the opening degree of the flow path through which the inside air sucked through the indoor intake portion 10 flows or the opening degree of the flow path through which the outside air suctioned through the outdoor intake portion 20 flows so as to increase the suction amount of the outside air through, relatively It is to control a large amount of outside air to be sucked into the room (1).

In addition, the present embodiment may further include an indoor temperature sensor S3 and an outdoor temperature sensor S4. The indoor temperature sensor (S3) detects the temperature of the bet, and the outdoor temperature sensor (S4) senses the temperature of the outdoor air. In addition, when the cooling or heating of the room 1 is performed, the second damper unit 70 has a concentration of any one of pollutants and harmful gases detected by the second sensing sensor S2. Even if the standard concentration is exceeded, the indoor intake is performed until the difference between the temperature of the bet detected by the indoor temperature sensor S3 and the temperature of the outdoor air detected by the outdoor temperature sensor S4 reaches a predetermined temperature difference. The opening degree of the flow path through which the bet sucked through the indoor intake portion 10 flows or the air so that the ratio of the suction amount of outdoor air through the outdoor intake portion 20 to the suction amount of the bet through the portion 10 is gradually increased or the The opening degree of the flow path through which the outside air sucked through the outdoor intake unit 20 flows is adjusted. However, the second damper unit 70, the second of which the concentration of any one of the pollutants and harmful gases sensed by the second detection sensor (S2) is set to a relatively high value compared to the first reference concentration When the reference concentration is reached, the ratio of the amount of suction of the outside air through the outdoor intake unit 20 to the amount of suction of the bet through the indoor intake unit 10 is gradually sucked through the indoor intake unit 10 The opening degree of the flow path through which the inside air flows or the flow path of the outside air flowing through the outdoor intake unit 20 is adjusted.

In other words, when the cooling or heating of the indoor 1 is performed, the second damper unit 70 increases the amount of outside air flowing into the indoor 1 to a certain level in consideration of energy efficiency. However, the second damper unit 70, when the concentration of any one of the pollutants and harmful gases in the room (1) reaches a level that harms the health of the residents, the cooling or heating of the room (1) Even if the consumption of energy is increased, the amount of outside air flowing into the room 1 is increased. For example, the 'first reference concentration' may be set to a concentration at which the occupant can recognize pollutants and harmful gases, and the 'second reference concentration' may be adjacent to a level that impairs the health of the residents. Concentration may be set.

Meanwhile, referring to FIGS. 3 and 4, the duct 100 includes a plurality of duct units attached to a ceiling surface and a flow path defined therein. In other words, the duct 100 is not located between the ceiling and the upper floor, but is attached to the finished ceiling. The duct unit according to the present embodiment includes a plurality of first and second duct units.

The first duct unit 110 includes intake / exhaust ports 111A and 111B in which the inside air is sucked from the indoor 1, the outside air is sucked from the outdoor 2, and the bet and outside air are discharged into the indoor 1. (111C), the first flow path 112 is defined therein. Therefore, the first duct unit 110 performs the functions of the indoor intake unit 10, the outdoor intake unit 20, or the indoor exhaust unit 30 according to the installed position.

In this embodiment, the intake / exhaust ports 111A, 111B, and 111C include a plurality of first to third intake / exhaust ports 111A, 111B, and 111C. The first to third intake / exhaust ports 111A, 111B, and 111C are defined according to the distance from the ventilation fan 40. That is, the second intake / exhaust port 111B is relatively spaced from the ventilation fan 40 compared to the first intake / exhaust port 111A, and the third intake / exhaust port 111C is the Compared to the second intake / exhaust port 111B, it is arranged to be relatively spaced from the ventilation fan 40.

In addition, the first flow path 112 includes an upstream section 112A, a midstream section 112B, and a downstream section 112C. The upstream section 112A extends from one end of the first duct unit 110 to the first intake / exhaust port 111A, and the midstream section 112B is at one end of the upstream section 112A. It extends to the second intake / exhaust port 112B, and the downstream section 112C extends from one end of the midstream section 112B to the third intake / exhaust port 111C. At this time, the middle section 112B has a relatively small flow cross-sectional area compared to the upstream section 112A, and the downstream section 112C has a relatively small flow cross-section compared to the middle section 112B. Therefore, at least one of the bet and the outside air flowing through the first flow path 112, the flow rate will increase while sequentially flowing the upstream section 112A, the middle section 112B and the downstream section 112C. In other words, the flow velocity of at least one of the inside air and the outside air flowing through the first flow path 112 is increased from the first intake / exhaust port 111A toward the third intake / exhaust port 111C. Therefore, the amount of the bet or / and the outside air sucked / discharged through the first to third intake / exhaust ports 111A, 111B, and 111C gradually increasing in distance from the ventilation fan 40 is relatively increased. It can be maintained uniformly.

Meanwhile, the second duct unit 120 has a second flow path 122 defined therein. In practice, the second duct unit 120, one or two or more connected to each other will connect any one of the first duct unit 110 and the ventilation fan 40.

In this embodiment, the duct unit may further include at least one third duct unit 130. The third duct unit 130, the third flow path 132 is defined therein, the first duct unit 110 or the ventilation fan 40 and the second duct unit 120 connected to it The second duct unit 120 is disposed between the two duct units 120.

In this embodiment, the third duct unit 130 removes foreign substances contained in at least one of the inside and outside air flowing through the third flow path 132. Substantially, the flow rate of at least one of the inside air and the outside air flowing through the third flow path 132 is variable, so that foreign matters contained therein are collected. To this end, a collection space 133 is formed in the third duct unit 130. Practically, the collecting space 133 is a place where foreign substances contained in at least one of the inside and outside air flowing through the third flow path 132 are collected, and the flow cross-section of a part of the third flow path 132 is It can be defined as relatively increased compared to the rest of the third flow path (132). For example, the collection space 133 may be defined by a portion of the third flow path 132 protruding downward.

In addition, the third duct unit 130 further includes a collection tray 134. The collection tray 134 is introduced into and out of the third duct unit 130, substantially the collection space 133, for the removal of foreign substances collected in the collection space 133.

In this embodiment configured as described above, contaminants contained therein by the filter unit 50, the inside air circulating by the operation of the ventilation fan 40 and the outside air sucked in by the outdoor 2 After this is removed, it is discharged to the room (1). Therefore, in this embodiment, by using one fan to keep the indoor (1) at a relatively high air pressure compared to the outdoor (2), to prevent the phenomenon of contaminants flowing into the indoor (1) from the outdoor (2) Can be.

In addition, in the present embodiment, the first detection sensor (S1) by the occupants and only the area occupied by the indoor exhaust unit 30 through the indoor and outdoor air discharge is made. Therefore, according to the present embodiment, by maintaining a relatively high air pressure with respect to other areas in the area occupied by the occupants of each area constituting the interior (1), the contaminants from the interior (1) to the area inhabited Flow can be prevented.

And in this embodiment, when cooking is performed in the kitchen, the amount of outside air flowing into the room 1 is relatively increased. Therefore, according to the present embodiment, pollutants and harmful gases generated in the cooking process in the kitchen can be discharged more efficiently. Particularly, in the present embodiment, when cooling or heating is performed in the room 1, the amount of outside air flowing into the room 1 is adjusted according to the concentration of pollutants and harmful gases and the temperature difference between the inside and outside air, thereby controlling Ventilation to the room 1 may be made in consideration of energy required for cooling and heating of (1).

Many other modifications are possible to those skilled in the art within the scope of the basic technical idea of the present invention, and of course, the scope of the present invention should be interpreted based on the appended claims. .

10: indoor intake unit 10: outdoor intake unit
30: indoor exhaust 40: ventilation fan
50: filter unit 60: first damper unit
70: second damper unit 100: duct
110: first duct unit 120: second duct unit
130: third duct unit

Claims (9)

Ventilation to flow the bet and the outside air for circulation of the bet in the indoor (1) and intake of the outside air from the outdoor (2) to the indoor (1) so that the indoor (1) is maintained at a relatively high air pressure compared to the outdoor (2). Fan 40;
A filter unit 50 for removing contaminants contained in the inside and outside air discharged into the room by the operation of the ventilation fan 40; And
A duct (100) defining a flow path through which at least one of bet and outside air flows by the operation of the ventilation fan (40); Including,
When the ventilation fan 40 is operating,
As the inside air sucked through the indoor intake part 10 passes through the filter part 50, the foreign matter is removed into the room 1 through the indoor exhaust part 30 in a state in which foreign matter is removed, and thus Circulating, or
Indoors through the indoor exhaust unit 30 in a state in which foreign matter is removed while the inside air sucked through the indoor intake unit 10 and the outside air sucked through the outdoor intake unit 20 pass through the filter unit 50. At the same time as being vented to (1) and ventilating the interior (1), part of the bet and outside air discharged to the interior (1) is transferred to the outdoor (2) through at least one of the openings and gaps provided in the interior (1). Discharged,
A second sensing sensor (S2) for detecting at least one of pollutants and harmful gases generated in the cooking process in the kitchen and its concentration; And
A second damper unit (70) for adjusting a ratio of the amount of intake of outside air through the outdoor intake unit (20) to the amount of intake air through the indoor intake unit (10); Further comprising,
The second damper unit 70, if the at least one of the pollutants and harmful gases generated in the cooking process in the kitchen is detected by the second sensing sensor (S2), the indoor intake unit ( 10) the ratio of the intake amount of the outside air through the outdoor intake unit 20 to the intake amount of the bet through the control to maintain a predetermined ratio,
If at least one of pollutants and harmful gases generated in the cooking process in the kitchen is detected by the second sensing sensor S2, among the pollutants and harmful gases detected by the second sensing sensor S2 The ratio of the intake amount of the outside air through the outdoor intake unit 20 to the intake amount of the bet through the indoor intake unit 10 is gradually increased until at least one concentration is reduced below a predetermined first reference concentration. Controlled ventilation system.
delete According to claim 1,
The indoor intake unit 10 is disposed in the kitchen among a plurality of areas constituting the interior (1),
The indoor exhaust unit 30, a ventilation system including a plurality of each disposed in a plurality of areas.
The method of claim 3,
A first sensing sensor (S1) that detects whether the occupants are present inside each area; And
A plurality of first damper units 60 for controlling internal and external air to be selectively discharged to each region through the indoor exhaust unit 30; Further comprising,
The first damper unit 60 controls the exhaust and the outside air to be discharged through the indoor exhaust unit 30 only to an area in which each occupant is found to be occupied by the first sensing sensor S1. Ventilation system.
delete According to claim 1,
Indoor temperature sensor (S3) for sensing the temperature of the bet; And
Outdoor temperature sensor (S4) for sensing the temperature of the outside air; Further comprising,
When the cooling or heating of the room 1 is performed, the second damper unit 70 has a concentration of at least one of pollutants and harmful gases detected by the second sensing sensor S2, the first reference concentration. Even if it exceeds, the indoor intake unit 10 only until the difference between the temperature of the bet detected by the indoor temperature sensor S3 and the temperature of the outdoor air detected by the outdoor temperature sensor S4 reaches a preset temperature difference. Ventilation system for controlling such that the ratio of the intake amount of the outside air through the outdoor intake unit 20 to the intake amount of the bet through.
The method of claim 6,
The second damper unit 70, even if the difference between the temperature of the bet detected by the indoor temperature sensor (S3) and the temperature of the outside air detected by the outdoor temperature sensor (S4) reaches a predetermined temperature difference, the second When the concentration of at least one of pollutants and harmful gases sensed by the detection sensor S2 reaches a preset second reference concentration with a higher value than the first reference concentration, the bet through the indoor intake unit 10 Ventilation system to control the ratio of the intake amount of the outside air through the outdoor intake unit 20 to the intake amount is increased.
A ventilation system for ventilation of a room (1) consisting of multiple areas including a kitchen:
An indoor intake unit 10 through which a bet is sucked from the kitchen;
An outdoor intake unit 20 through which outdoor air is sucked from the outdoors 2;
An indoor exhaust unit (30) for discharging internal air sucked through the indoor air intake unit (10) and external air sucked through the outdoor air intake unit (20) to areas other than the kitchen;
A ventilation fan (40) for suctioning the bet through the indoor intake unit (10), suctioning outside air through the outdoor intake unit (20), and exhausting air and exhaust air through the indoor exhaust unit (30);
A duct (100) defining a flow path through which at least one of the inside and outside air flows by the ventilation fan (40);
A filter unit 50 for removing contaminants contained in air discharged to each region through the indoor exhaust unit 30;
A first damper unit 60 for selectively opening and closing flow paths through which indoor and outdoor air is discharged to each region through the indoor exhaust unit 30; And
A second damper unit (70) for adjusting the opening degree of the flow path through which the inside air sucked through the indoor intake unit (10) flows; Including,
As the inside air sucked through the indoor intake unit 10 by the operation of the ventilation fan 40 passes through the filter unit 50, foreign matter is removed while the indoor air is exhausted through the indoor exhaust unit 30 (1 ), The circulation of the bet in the indoor (1) is made, or the inside and outside air sucked through the indoor intake part 10 and the outdoor intake part 20 passes through the filter part 50. In this removed state, a part of the bet and the outside air discharged into the room 1 is discharged into the room 1 through the room exhaust 30, and at the same time, a part of the bet and outside air discharged to the room 1 is provided in the room 1 By being discharged to the outdoor (2) through at least one of the openings and gaps, each area is maintained at a relatively high air pressure compared to the outdoor (2),
The first damper unit 60 controls air and exhaust air to be discharged through the indoor exhaust unit 30 only to an area occupied by residents among each area,
The second damper unit 70, the indoor intake unit 10 so that the amount of intake of outside air through the outdoor intake unit 20 is a predetermined ratio with respect to the intake amount of the bet through the indoor intake unit 10 Adjust the opening degree of the flow path through which the intake air flows, and when cooking is performed in the kitchen, until the concentration of any one of the pollutants and harmful gases generated in the cooking process in the kitchen is reduced below the first reference concentration. The flow path through which the bet sucked through the indoor intake part 10 flows so that the ratio of the amount of suction of the outside air through the outdoor intake part 20 to the suction amount of the bet through the indoor intake part 10 gradually increases, or Ventilation system for adjusting the opening degree of the flow path through which the outside air sucked through the outdoor intake unit (20) flows.
The method of claim 8,
The second damper portion 70,
In case of cooling or heating of the room 1, the bet detected by the room temperature sensor S3 even if the concentration of at least one of pollutants and harmful gases generated in the cooking process in the kitchen exceeds the first reference concentration Until the difference between the temperature of the outside temperature and the temperature detected by the outdoor temperature sensor S4 reaches a preset temperature difference, through the outdoor intake unit 20 for the intake amount of the bet through the indoor intake unit 10 Adjust the opening degree of the flow path through which the inside air sucked through the indoor intake portion 10 flows or the opening degree of the flow path through which the outside air suctioned through the outdoor intake portion 20 flows so that the ratio of the amount of intake of outside air increases,
Even if cooling or heating of the room 1 is performed, the concentration of at least one of pollutants and harmful gases generated in the cooking process in the kitchen reaches a preset second reference concentration with a higher value than the first reference concentration If it is, the ventilation system for controlling so that the ratio of the intake amount of the outside air through the outdoor intake unit 20 to the intake amount of the bet through the indoor intake unit 10 is increased.

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