KR102307343B1 - Room ventilation system using electric diffuser - Google Patents

Abstract

According to the present invention, it is possible to control ventilation for each room to selectively ventilate only a room to be ventilated among a plurality of rooms, so that the quality of indoor air can be effectively improved and an energy saving effect can be improved. In addition, the lifespan of the filter or heat exchanger of the ventilation unit may be extended, and maintenance costs may be reduced. In addition, by controlling the opening rates of the electric supply air diffuser and the exhaust electric diffuser in the room to be ventilated, it is easy to control the supply air amount and the exhaust amount according to the ultrafine dust concentration or carbon dioxide concentration. In addition, since sensors are mounted on the electric supply air diffuser and the exhaust electric diffuser, there is an advantage in that the sensor can be easily replaced.

Description

Room ventilation system using electric diffuser

The present invention relates to a ventilation system for each room using an electric diffuser, and more particularly, to a ventilation system for each room using an electric diffuser capable of selectively providing clean ventilation for each room according to the concentration of ultrafine dust and carbon dioxide.

In general, a ventilation system installed in a building is a system for improving the quality of indoor air, including a heat exchanger for exchanging heat between indoor air discharged from the room and outdoor air introduced from the outdoors. Since the outside air can be warmed or cooled by the heat of the indoor air by the heat exchanger, heat energy loss can be minimized. In addition, a filter may be provided inside the heat exchanger to purify the outside air by the filter and then supply it to the room.

However, in the conventional ventilation system, since a plurality of rooms are connected by a single duct, there is a problem in that it is impossible to control ventilation for each room.

In addition, a variable air volume controller for controlling the air volume is installed inside the duct, so there is a problem in that inspection and maintenance are difficult.

Korean Patent No. 10-0851052

SUMMARY OF THE INVENTION It is an object of the present invention to provide a ventilation system for each room using an electric diffuser that can be controlled for each room differently depending on the degree of pollution of indoor air.

The ventilation system for each room using the electric diffuser according to the present invention comprises an indoor air supply space having an indoor air inlet, an indoor exhaust space having an indoor exhaust port, an outdoor air introduction space having an outdoor air inlet, and an outdoor exhaust space having an outdoor exhaust port. partitioned, an air supply fan installed in the indoor air supply space, an exhaust fan installed in the outdoor exhaust space, and each surface is arranged to be in communication with the indoor air supply space, the indoor exhaust space, the outdoor air introduction space, and the outdoor exhaust space, respectively a ventilation unit including a heat exchanger and an outdoor air inlet damper configured to open and close the outdoor air inlet; an air supply duct connecting the indoor air inlet and a plurality of rooms to supply air from the ventilation unit to at least one of the plurality of rooms; an exhaust duct connecting the plurality of rooms and the indoor exhaust port to exhaust air from at least one of the plurality of rooms to the ventilation unit; It is connected to the air supply duct and installed for each of the plurality of rooms, and the air supply diffuser cone is coupled to the air supply diffuser casing so as to be movable in the vertical direction, so that the opening rate of the air supply passage between the air supply diffuser casing and the air supply diffuser cone is adjusted. a plurality of possible supply air powered diffusers; It is connected to the exhaust duct and is installed in each of the plurality of rooms, and the exhaust diffuser cone is coupled to the exhaust diffuser casing so as to be movable in the vertical direction, so that the opening rate of the exhaust passage between the exhaust diffuser casing and the exhaust diffuser cone is adjusted. a plurality of possible exhaust electric diffusers; a plurality of ultra-fine dust sensors respectively provided for each of the plurality of exhaust electric diffusers to detect a concentration of fine dust (PM2.5, Pariculate Matter less than 2.5 μm) in the indoor air; a plurality of carbon dioxide sensors respectively provided for each of the plurality of exhaust electric diffusers to detect a concentration of carbon dioxide in indoor air; Among the plurality of rooms, a room in which the concentration of ultrafine dust detected by the ultrafine dust sensor exceeds a preset ultrafine dust reference value or in which the concentration of carbon dioxide detected by the carbon dioxide sensor exceeds a preset carbon dioxide reference value is set as a ventilation target room and a control unit configured to control an air supply amount and an exhaust amount in proportion to the ultrafine dust concentration and the carbon dioxide concentration by adjusting an opening rate of the electric supply air diffuser and an opening rate of the exhaust electric diffuser installed in the ventilation target room.

When the carbon dioxide concentration exceeds the carbon dioxide reference value, the outdoor air introduction damper is opened to perform an outdoor air introduction operation to introduce outdoor air, and when the carbon dioxide concentration is below the carbon dioxide reference value, the outdoor air introduction damper is shielded Internal circulation operation without introducing outside air is performed.

When the carbon dioxide concentration exceeds the carbon dioxide reference value and the ultrafine dust concentration exceeds the ultrafine dust reference value, the control unit adjusts the opening rates of the air supply electric diffuser and the exhaust electric diffuser according to the ultrafine dust concentration. Proportional control is performed at a different opening rate for a plurality of preset steps.

When the carbon dioxide concentration exceeds the carbon dioxide reference value, and the ultrafine dust concentration is less than or equal to the ultrafine dust reference value, the control unit sets the opening rates of the air supply electric diffuser and the exhaust electric diffuser in advance step by step according to the carbon dioxide concentration Proportional control is performed with a plurality of set differently set opening rates.

When the carbon dioxide concentration is equal to or less than the carbon dioxide reference value and the ultrafine dust concentration exceeds the ultrafine dust reference value, the control unit sets the opening rates of the air supply electric diffuser and the exhaust electric diffuser in advance according to the ultrafine dust concentration. Proportional control is performed at a different opening rate for a plurality of set stages.

The exhaust diffuser cone has an open lower surface, and includes a body in which the ultrafine dust sensor and the carbon dioxide sensor are installed, and a cover detachably coupled to the opened lower surface of the body.

The exhaust diffuser cone includes an ultrafine dust concentration display unit for displaying the ultrafine dust concentration detected by the ultrafine dust sensor in stages, and a carbon dioxide concentration display unit for displaying the carbon dioxide concentration detected by the carbon dioxide sensor in stages.

In addition, the ventilation system for each room using an electric diffuser according to another aspect of the present invention includes an indoor air supply space having an indoor air inlet, an indoor exhaust space having an indoor exhaust port, an outdoor air introduction space having an outdoor air inlet, and an outdoor exhaust port. an outdoor exhaust space formed, and an air supply fan installed in the indoor air supply space, an exhaust fan installed in the outdoor exhaust space, and each side of the indoor air supply space, the indoor exhaust space, the outdoor air introduction space, and the outdoor exhaust space a ventilation unit including a heat exchanger disposed in communication with each other and an outdoor air introduction damper for opening and closing the outdoor air inlet; an air supply duct connecting the indoor air inlet and a plurality of rooms to supply air from the ventilation unit to at least one of the plurality of rooms; an exhaust duct connecting the plurality of rooms and the indoor exhaust port to exhaust air from at least one of the plurality of rooms to the ventilation unit; It is connected to the air supply duct and installed for each of the plurality of rooms, and the air supply diffuser cone is coupled to the air supply diffuser casing so as to be movable in the vertical direction, so that the opening rate of the air supply passage between the air supply diffuser casing and the air supply diffuser cone is adjusted. a plurality of possible supply air powered diffusers; It is connected to the exhaust duct and is installed in each of the plurality of rooms, and the exhaust diffuser cone is coupled to the exhaust diffuser casing so as to be movable in the vertical direction, so that the opening rate of the exhaust passage between the exhaust diffuser casing and the exhaust diffuser cone is adjusted. a plurality of possible exhaust electric diffusers; a plurality of ultra-fine dust sensors respectively provided for each of the plurality of exhaust electric diffusers to detect a concentration of fine dust (PM2.5, Pariculate Matter less than 2.5 μm) in the indoor air; a plurality of carbon dioxide sensors respectively provided for each of the plurality of exhaust electric diffusers to detect a concentration of carbon dioxide in indoor air; Among the plurality of rooms, a room in which the concentration of ultrafine dust detected by the ultrafine dust sensor exceeds a preset ultrafine dust reference value or in which the concentration of carbon dioxide detected by the carbon dioxide sensor exceeds a preset carbon dioxide reference value is set as a ventilation target room And, by adjusting the opening rate of the electric supply air diffuser installed in the ventilation target room and the opening rate of the exhaust electric diffuser to control the air supply and exhaust amount in proportion to the ultrafine dust concentration and the carbon dioxide concentration, When the carbon dioxide concentration exceeds the carbon dioxide reference value, the outdoor air introduction damper is opened to perform an outdoor air introduction operation to introduce outdoor air, and when the carbon dioxide concentration is below the carbon dioxide reference value, the outdoor air introduction damper is shielded When an internal circulation operation without introducing outside air is performed, the carbon dioxide concentration exceeds the carbon dioxide reference value, and the ultrafine dust concentration exceeds the ultrafine dust reference value, the opening rate of the electric supply air diffuser and the exhaust electric diffuser is proportionally controlled to an opening rate set differently in a plurality of stages preset according to the ultrafine dust concentration, the carbon dioxide concentration exceeds the carbon dioxide reference value, and the ultrafine dust concentration is less than or equal to the ultrafine dust reference value, the supply air The opening rates of the electric diffuser and the exhaust electric diffuser are proportionally controlled to the opening rates set differently in a plurality of steps preset according to the carbon dioxide concentration, the carbon dioxide concentration is below the carbon dioxide reference value, and the ultrafine dust concentration is the ultrafine When the dust reference value is exceeded, the opening rates of the air supply electric diffuser and the exhaust electric diffuser are proportionally controlled to the opening rates set differently in a plurality of steps preset according to the ultrafine dust concentration.

According to the present invention, it is possible to control ventilation for each room to selectively ventilate only a room to be ventilated among a plurality of rooms, so that the quality of indoor air can be effectively improved and an energy saving effect can be improved.

In addition, the lifespan of the filter or heat exchanger of the ventilation unit may be extended, and maintenance costs may be reduced.

In addition, by controlling the opening rates of the electric supply air diffuser and the exhaust electric diffuser in the room to be ventilated, it is easy to control the supply air amount and the exhaust amount according to the ultrafine dust concentration or carbon dioxide concentration.

In addition, since sensors are mounted on the electric supply air diffuser and the exhaust electric diffuser, there is an advantage in that the sensor can be easily replaced.

1 is a schematic diagram showing a ventilation system for each room using an electric diffuser according to an embodiment of the present invention.
2 is a view showing an exhaust electric diffuser according to an embodiment of the present invention.
3 is a control block diagram of a ventilation system for each room using an electric diffuser according to an embodiment of the present invention.
4 is a flowchart illustrating a control method of a ventilation system for each room using an electric diffuser according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a schematic diagram showing a ventilation system for each room using an electric diffuser according to an embodiment of the present invention.

Referring to FIG. 1 , the ventilation system according to an embodiment of the present invention includes a ventilation unit 10 , an air supply duct 100 , an exhaust duct 200 , electric supply air diffusers 110 , and electric exhaust diffusers 210 . , an ultrafine dust sensor 220 , a carbon dioxide sensor 230 and a control unit 300 .

The ventilation unit 10, the inside of the main body 10a is divided into four spaces with the heat exchanger 30 as the center. The interior of the main body 10a is divided into an indoor air supply space 11 , an indoor exhaust space 12 , an outdoor air introduction space 13 , and an outdoor exhaust space 14 .

The indoor air supply space 11 and the indoor exhaust space 12 are positioned from the main body 10a to face the indoor, and the outdoor air introduction space 13 and the outdoor exhaust space 14 are positioned to face the outdoors. do.

An indoor air supply port 11a for supplying air into the room is formed on the surface of the indoor air supply space 11 facing the room.

An indoor exhaust port 12a for supplying air into the room or discharging air from the room is formed on the surface of the indoor exhaust space 12 facing the room.

An outside air inlet 13a for introducing outside air is formed in the outside air introduction space 13 .

An outdoor exhaust port 14a for discharging air to the outdoors is formed on the surface facing the outdoors in the outdoor exhaust space 14 .

An air supply fan 40 for supplying air into the room through the indoor air supply port 11a is installed in the indoor air supply space 11 .

An exhaust fan 50 for discharging air to the outdoors through the outdoor exhaust port 14a is installed in the outdoor exhaust space 14 .

The heat exchanger 30 is disposed so that each side communicates with the indoor air supply space 11 , the indoor exhaust space 12 , the outdoor air introduction space 13 , and the outdoor exhaust space 14 , respectively. The inside of the heat exchanger 30 connects the first flow path connecting the indoor air supply space 11 and the outdoor air introduction space 13 to the indoor exhaust space 12 and the outdoor exhaust space 14 . The second flow passages are formed to be perpendicular to each other, so that the air passing through the first flow passage and the air passing through the second flow passage are not mixed and only exchange heat while crossing each other. A filter (not shown) is installed on a surface facing at least one of the indoor air supply space 11 and the outdoor air introduction space 13 inside the heat exchanger 30 .

The ventilation unit 10 includes an indoor air supply damper (not shown) installed at the indoor air supply port 11a to open and close the indoor air supply port 11a, and an indoor air supply damper (not shown) installed at the indoor exhaust port 12a to open and close the indoor air supply port 11a. 12a), an indoor exhaust damper (not shown), an outdoor air inlet damper 13b installed at the outdoor air inlet 13a to open and close the outdoor air inlet 13a, and the outdoor exhaust 14a It further includes an outdoor exhaust damper (not shown) for opening and closing the outdoor exhaust port 14a.

The air supply duct 100 connects the indoor air inlet 11a and the plurality of rooms ROOMS to guide the air from the ventilation unit 10 to be supplied to at least one of the plurality of rooms.

The air supply electric diffusers 110 are connected to the air supply duct 100 and are respectively installed in the plurality of rooms. The air supply electric diffusers 110 include a supply air diffuser casing (not shown) and a supply air diffuser cone (not shown). The air supply diffuser casing (not shown) is coupled to the end of the air supply duct (100). The supply air diffuser cone (not shown) is coupled to the supply air diffuser casing (not shown) to be movable in the vertical direction, so that an air supply flow path is formed between the supply air diffuser casing (not shown) and the supply air diffuser cone (not shown). is formed

The air supply electric diffuser 110 is connected to a motor installed on the supply air diffuser cone (not shown), and a rotation shaft of the motor (not shown), and is provided to protrude outwardly from the upper portion of the supply air diffuser cone (not shown). A lead screw (not shown) that moves linearly in the vertical direction when the motor (not shown) rotates, and a screw coupling part (not shown) installed in the air supply diffuser casing (not shown) and coupled to the lead screw (not shown) includes When the controller controls the operation of the motor (not shown), the opening rate of the air supply flow path may be controlled according to the vertical movement distance of the lead screw (not shown).

The exhaust duct 200 connects the plurality of rooms and the indoor exhaust port 12a to guide air from at least one of the plurality of rooms to be exhausted to the ventilation unit 10 .

The exhaust electric diffusers 210 are connected to the exhaust duct 200 and installed in each of the plurality of rooms.

Referring to FIG. 2 , the exhaust electric diffusers 210 include an exhaust diffuser casing 211 and an exhaust diffuser cone 212 . The air supply diffuser casing (not shown) is coupled to an end of the exhaust duct 200 . The exhaust diffuser cone 212 is vertically movably coupled to the exhaust diffuser casing 211 to form an exhaust flow path between the exhaust diffuser casing 211 and the exhaust diffuser cone 212 .

The exhaust electric diffusers 210 are connected to a motor installed in the exhaust diffuser cone 212 and a rotation shaft of the motor (not shown), and are provided to protrude outwardly from the upper portion of the exhaust diffuser cone 212 . A lead screw (not shown) that moves linearly in the vertical direction during rotation (not shown) and a screw coupling part (not shown) installed in the exhaust diffuser casing (not shown) to which the lead screw (not shown) is coupled include When the controller controls the operation of the motor (not shown), an opening rate of the exhaust passage may be controlled according to a vertical movement distance of the lead screw (not shown).

2 is a view showing an exhaust electric diffuser according to an embodiment of the present invention.

Referring to FIG. 2 , the exhaust diffuser cone 212 includes a body 212a having an open lower surface and a sensor mounted therein, and a detachable lower surface of the body 212a. It includes a coupled cover portion (212b).

The ultrafine dust sensor 220 and the carbon dioxide sensor 230 are installed in the body portion 212a, respectively. However, the present invention is not limited thereto, and in addition to the ultrafine dust sensor 220 and the carbon dioxide sensor 230 , any sensor capable of detecting indoor air pollution may be installed.

The exhaust diffuser cone 212 is provided with a display unit 240 that displays sensing information detected by at least one of the ultrafine dust sensor 220 and the carbon dioxide sensor 230 .

The display unit 240 includes an ultrafine dust concentration display unit that displays the ultrafine dust concentration detected by the ultrafine dust sensor 220 step by step, and the carbon dioxide concentration detected by the carbon dioxide sensor 230 step by step. A carbon dioxide concentration display unit may be separately installed, and it is also possible to display both the ultrafine dust concentration and the carbon dioxide concentration through one display unit 240 . In this embodiment, both the ultrafine dust concentration and the carbon dioxide concentration are displayed through one display unit 240 as an example, and a concentration higher than a preset reference value among the ultrafine dust concentration and the carbon dioxide concentration It will be described as an example by indicating .

The display unit 240 includes a plurality of light emitting diodes (LEDs) 240a installed in the body unit 212a, and an opening formed in the cover unit 212a to display light from the light emitting diodes 240a. and a hole 240b.

In the display unit 240 , the lighting color or number of lighting of the light emitting diodes 240a may be set differently according to the concentration. In this embodiment, the light emitting diodes 240a are made of four, and the number of lighting of the light emitting diodes 240a is set differently according to the concentration to indicate good, normal, bad and very bad. for explanation.

In addition, the display unit 240 may further include a communication state display unit 241 that notifies the wireless communication state between the exhaust diffuser cone 212 and the control unit 300 .

The ultrafine dust sensor 220 is a sensor that detects a concentration of fine dust (PM2.5, Pariculate Matter less than 2.5 μm) in indoor air and transmits the detected concentration to the controller 300 . The ultrafine dust sensor 220 may be installed for each of the exhaust electric diffusers 210 to detect the ultrafine dust concentration of indoor air exhausted through the exhaust electric diffusers 210 . The ultrafine dust sensor 220 is installed on the body portion 212a of the exhaust diffuser cone 212 .

The carbon dioxide sensor 230 is a sensor that detects the concentration of carbon dioxide in the indoor air and transmits the detected concentration to the controller 300 . The carbon dioxide sensor 230 may be installed in each of the electric exhaust diffusers 210 to detect a carbon dioxide concentration of indoor air exhausted through the electric exhaust diffusers 210 . The carbon dioxide sensor 230 is installed in the body portion 212a of the exhaust diffuser cone 212 .

However, the present invention is not limited thereto, and a sensor 250 for detecting the concentration of form in the indoor air may be further installed in the body portion 212a of the exhaust diffuser cone 212 .

The control unit 300 is installed in at least one of the plurality of rooms, and wirelessly communicates with the ventilation unit 10, the air supply electric diffuser 11, and the exhaust electric diffuser 210, for example. Explain.

The control unit 300 sets a room to be ventilated according to the concentrations respectively detected by the ultrafine dust sensor 220 and the carbon dioxide sensor 230 among the plurality of rooms.

In addition, the control unit 300 controls the operation of the air supply fan 40 , the exhaust fan 50 , and the outside air introduction damper 13b according to the ultrafine dust concentration and the carbon dioxide concentration.

In addition, the control unit 300, by adjusting the opening rate of the electric supply air diffuser 110 and the electric exhaust electric diffuser 210 according to the ultrafine dust concentration and the carbon dioxide concentration, the air supply amount of the room to be ventilated and control the exhaust.

In addition, the control unit 300 controls the operation of the display unit 240 according to the ultrafine dust concentration and the carbon dioxide concentration.

A control method of a ventilation system for each room using an electric diffuser according to an embodiment of the present invention configured as described above will be described as follows.

4 is a flowchart illustrating a control method of a ventilation system for each room using an electric diffuser according to an embodiment of the present invention.

Referring to FIG. 4 , the control unit 300 operates the air supply fan 40 and the exhaust fan 50 for a preset time, and operates the air supply electric diffuser 110 and the exhaust electric diffuser 210 for a preset time. By opening for the set time, information on the degree of pollution of the indoor air exhausted from the plurality of rooms through the exhaust electric diffuser 210 is collected.

The ultrafine dust sensor 220 detects the concentration of ultrafine dust (PM2.5) in the indoor air, and the carbon dioxide sensor 230 _{detects the concentration of carbon dioxide (CO 2} ) in the indoor air. (S1)

Since the ultrafine dust sensor 220 and the carbon dioxide sensor 230 are installed in each of the plurality of rooms, the ultrafine dust concentration and the carbon dioxide concentration of the indoor air of the plurality of rooms are respectively sensed.

The control unit 300 determines whether the ultrafine dust concentration detected by the ultrafine dust sensor 220 exceeds a preset ultrafine dust reference value, and determines whether the carbon dioxide concentration detected by the carbon dioxide sensor 230 is preset. It is determined whether the carbon dioxide reference value is exceeded. (S2)

The control unit 300 sets, among the plurality of rooms, a room in which the ultrafine dust concentration exceeds the ultrafine dust reference value or the carbon dioxide (CO ₂ ) concentration exceeds the carbon dioxide reference value as a ventilation target room. When any one of the ultrafine dust concentration and the carbon dioxide concentration exceeds each reference value, the corresponding room is set as a ventilation target room requiring ventilation. A plurality of rooms to be ventilated may be set at a time, and when a plurality of rooms are set, the opening rate of the electric supply air diffuser 110 and the electric exhaust electric diffuser 210 for each room according to the ultrafine dust concentration and carbon dioxide concentration of each room. By controlling the air conditioner differently, the ventilation amount can be controlled differently for each room.

Here, the ultrafine dust reference value is ^{set to 15 μm/m 3} , and the carbon dioxide reference value is described as 700 ppm as an example. However, the present invention is not limited thereto, and it is of course possible for a user or an administrator to set the reference value differently for each yarn according to the purpose or characteristics of the yarn.

When at least one of the plurality of rooms to be ventilated is set, the control unit 300 operates the air supply fan 40 and the exhaust fan 50 to operate the ventilation unit 10. (S3) )

The control unit 300 determines whether to introduce outdoor air according to the carbon dioxide concentration when the ventilation unit 10 is operated.

The control unit 300 compares the carbon dioxide concentration in the ventilation target room with the preset carbon dioxide reference value (S4).

When the concentration of carbon dioxide in the room to be ventilated is equal to or less than the carbon dioxide reference value, the external air introduction damper 13b is shielded to perform an internal circulation operation in which external air is not introduced. At this time, in the room to be ventilated, since the carbon dioxide concentration is less than the carbon dioxide reference value, but the ultrafine dust concentration exceeds the ultrafine dust reference value, a stage control operation is performed according to the ultrafine dust concentration. ( S5)

Accordingly, when the carbon dioxide concentration is equal to or less than the carbon dioxide reference value, but the ultrafine dust concentration exceeds the ultrafine dust reference value, a step-down control operation according to the ultrafine dust concentration is performed without introducing outside air.

In the stage control operation, the opening rates of the air supply electric diffuser 110 and the exhaust electric diffuser 210 are proportionally controlled at the opening rates set differently in a plurality of steps preset according to the ultrafine dust concentration or the carbon dioxide concentration. is driving

The number of stages control operation according to the ultrafine dust concentration is an operation time of the air supply fan 40 , an operation time of the exhaust fan 50 , and an opening degree of the air supply electric diffuser 110 according to the increase in the ultrafine dust concentration. The rate and the opening rate of the exhaust electric diffuser 210 are set to increase. Therefore, as the ultrafine dust concentration is higher, the operating time of the air supply fan 40 , the operating time of the exhaust fan 50 , and the opening rates of the supply electric diffuser 110 and the electric exhaust diffuser 210 increase. Thus, the air volume of the room to be ventilated, that is, the supply air amount and the exhaust amount can be increased. Hereinafter, the stage control operation according to the ultrafine dust concentration will be described in detail later with reference to the following table.

On the other hand, in the step (S4), when the carbon dioxide concentration in the room to be ventilated exceeds the carbon dioxide reference value, the control unit 300 opens the outdoor air introduction damper 13b to introduce the outdoor air to perform the operation. (S6)

While performing the outdoor air introduction operation, it is determined whether the ultrafine dust concentration exceeds the ultrafine dust reference value (S7).

The control unit 300, when the concentration of carbon dioxide in the room to be ventilated exceeds the reference value of carbon dioxide and the concentration of ultrafine dust exceeds the reference value of ultrafine dust, the ultrafine dust concentration is prioritized over the carbon dioxide concentration to perform a stage control operation according to the ultrafine dust concentration. (S8)

Therefore, when the concentration of carbon dioxide in the room to be ventilated exceeds the reference value of carbon dioxide and the concentration of ultrafine dust exceeds the reference value of ultrafine dust, outside air is introduced and a step control operation is performed according to the concentration of ultrafine dust .

The stage control operation according to the ultrafine dust concentration will be described in detail later.

On the other hand, when the concentration of carbon dioxide in the ventilation target room exceeds the reference value of carbon dioxide, but the concentration of ultrafine dust is less than or equal to the reference value of ultrafine dust, a stage control operation is performed according to the concentration of carbon dioxide. .(S9)

In the stage control operation according to the carbon dioxide concentration, the operating time of the air supply fan 40, the operating time of the exhaust fan 50, the opening rate of the supply electric diffuser 110 and the exhaust according to the increase in the carbon dioxide concentration are performed. The opening rate of the electric diffuser 210 is set to increase. Accordingly, as the carbon dioxide concentration increases, the operating time of the air supply fan 40, the operating time of the exhaust fan 50, and the opening rate of the air supply electric diffuser 110 and the exhaust electric diffuser 210 increase, The air volume of the room to be ventilated, that is, the supply air amount and the exhaust amount may be increased. Hereinafter, the stage control operation according to the carbon dioxide concentration will be described in detail later with reference to the following table.

During the stage control operation as described above, the ultrafine dust sensors 220 detect the ultrafine dust concentration in real time, and the carbon dioxide sensors 230 detect the carbon dioxide concentration in real time.

The controller 300 compares the ultrafine dust concentration with the ultrafine dust reference value, compares the carbon dioxide concentration with the carbon dioxide reference value, and determines whether there is a change in the ultrafine dust concentration and the carbon dioxide concentration. (S10)

When it is determined that the concentration of carbon dioxide in the room to be ventilated falls below the carbon dioxide reference value and the concentration of ultrafine dust also falls below the reference value of ultrafine dust, the air supply fan 40 and the Stop all the operation of the exhaust fan 50 to stop the operation of the ventilation unit 10. (S11)

On the other hand, when any one of the concentration of carbon dioxide and the concentration of ultrafine dust in the room to be ventilated exceeds a reference value, the control unit 300 maintains the operation of the ventilation unit 10 and performs the steps S3 to S9 ) is repeated.

Hereinafter, the water stage control operation according to the ultrafine dust concentration and the water stage control operation according to the carbon dioxide concentration will be described as follows.

Referring to Table 1, in the present embodiment, the stage number control operation will be described as an example of a total of four stages including a stop, a first stage, a second stage, and a third stage.

The step is divided according to the ultrafine dust concentration or the carbon dioxide concentration, and the ventilation amount of the ventilation target room is set differently for each step.

The ventilation amount of the ventilation target room is set to the number of times of ventilation for ventilating the air in the ventilation target room per hour for each step.

In this embodiment, the first-stage ventilation rate is 0.3 times/hr, the second-stage ventilation is 0.5 times/hr, and the third-stage ventilation is 0.7 times/hr.

Here, the number of ventilation is set to 1 when all the air in the room to be ventilated is replaced. Therefore, 0.3 times/hr means that assuming that the total amount of air in the room to be ventilated is 100, the hourly air supply or exhaust amount is set to 30.

First, a step-by-step control operation according to the ultrafine dust concentration will be described.

Referring to Table 1, when the detected value of the ultrafine dust concentration is 15 μm/m ³ or less, a good state is displayed through the display unit 240 and the operation of the ventilation unit 10 is stopped. That is, the air supply fan 40 and the exhaust fan 50 are stopped, and both the air supply electric diffuser 110 and the exhaust electric diffuser 210 are shielded.

In this case, while the detected value of the ultrafine dust concentration is 15 μm/m ³ or less, the controller 300 may detect and monitor changes in the ultrafine dust concentration and the carbon dioxide concentration at a predetermined time interval.

When the detected value of the ultrafine dust concentration is 15 to 35 μm/m ³ or less, the ventilation amount of the ventilation target room is set as the first-stage ventilation amount.

The control unit 300 controls the opening rates of the air supply electric diffuser 110 and the exhaust electric diffuser 210 so that the air supply amount and the exhaust amount are controlled by the first-stage ventilation amount, and the display unit 240 controls the normal state. indicated as The operating times of the air supply fan 40 and the exhaust fan 50 and the opening rates of the air supply electric diffuser 110 and the electric exhaust electric exhaust diffuser 210 are preset according to the first-stage ventilation amount. The opening rate includes at least one of an opening time and an opening amount.

When the detected value of the ultrafine dust concentration is 35 to 75 μm/m ³ or less, the ventilation amount of the ventilation target room is set as the second-stage ventilation amount.

The control unit 300 controls the opening rates of the air supply electric diffuser 110 and the electric exhaust electric diffuser 210 so that the air supply amount and the exhaust amount are controlled by the two-stage ventilation amount, and the display unit 240 controls the bad state. indicated as The operating times of the air supply fan 40 and the exhaust fan 50 and the opening rates of the air supply electric diffuser 110 and the electric exhaust electric exhaust diffuser 210 are preset according to the two-stage ventilation amount.

When the detected value of the ultrafine dust concentration ^{exceeds 76 μm/m 3} , the ventilation amount of the ventilation target room is set as the three-step ventilation amount.

The control unit 300 controls the opening rates of the air supply electric diffuser 110 and the exhaust electric diffuser 210 so that the air supply amount and the exhaust amount are controlled by the three-stage ventilation amount, and the display unit 240 is very poor. displayed in status The operating times of the air supply fan 40 and the exhaust fan 50 and the opening rates of the air supply electric diffuser 110 and the electric exhaust electric exhaust diffuser 210 are preset according to the three-stage ventilation amount.

Hereinafter, the stage control operation according to the carbon dioxide concentration will be described.

Referring to Table 1, when the sensed value of the carbon dioxide concentration is 700 ppm or less, the display unit 240 displays a good state and stops the operation of the ventilation unit 10 . That is, the air supply fan 40 and the exhaust fan 50 are stopped, and the air supply electric diffuser 110 and the exhaust electric diffuser 210 are both shielded.

In this case, while the detected value of the carbon dioxide concentration is 700 ppm or less, the controller 300 may detect and monitor the ultrafine dust concentration and the change in the carbon dioxide concentration at a predetermined time interval.

When the sensed value of the carbon dioxide concentration is 700 to 1000 ppm or less, the ventilation amount of the room to be ventilated is set as the first-stage ventilation amount.

The control unit 300 controls the opening rates of the air supply electric diffuser 110 and the exhaust electric diffuser 210 so that the air supply amount and the exhaust amount are controlled by the first-stage ventilation amount, and the display unit 240 displays a normal state. indicated as The operating times of the air supply fan 40 and the exhaust fan 50 and the opening rates of the air supply electric diffuser 110 and the exhaust electric diffuser 210 are preset according to the first-stage ventilation amount.

When the sensed value of the carbon dioxide concentration is 1000 to 1500 ppm or less, the ventilation amount of the room to be ventilated is set to the second-stage ventilation amount.

The control unit 300 controls the opening rates of the air supply electric diffuser 110 and the electric exhaust electric diffuser 210 so that the air supply amount and the exhaust amount are controlled by the two-stage ventilation amount, and the display unit 240 controls the bad state. indicated as The operating times of the air supply fan 40 and the exhaust fan 50 and the opening rates of the air supply electric diffuser 110 and the electric exhaust electric exhaust diffuser 210 are preset according to the two-stage ventilation amount.

When the sensed value of the carbon dioxide concentration exceeds 1500 ppm, the ventilation amount of the room to be ventilated is set to the three-step ventilation amount.

The control unit 300 controls the opening rates of the air supply electric diffuser 110 and the exhaust electric diffuser 210 so that the air supply amount and the exhaust amount are controlled by the three-stage ventilation amount, and the display unit 240 is very poor. displayed in status The operating times of the air supply fan 40 and the exhaust fan 50 and the opening rates of the air supply electric diffuser 110 and the electric exhaust electric exhaust diffuser 210 are preset according to the three-stage ventilation amount.

display Ultrafine dust (PM2.5) concentration (μm/m ³ ) Carbon dioxide (CO ₂ ) concentration (ppm) sensed value ventilation sensed value ventilation good ~ 15 stop ~ 700 stop commonly ~ 35 Stage 1 (internal circulation) ~ 1,000 1st stage (ventilation) bad ~ 75 2nd stage (internal circulation) ~ 1,500 2nd stage (ventilation) very bad 76 ~ 3 stage (internal circulation) 1501 ~ 3 stage (ventilation)

As described above, the control unit 300 proportionally controls the air supply amount and the exhaust amount of the ventilation target room according to the ultrafine dust concentration or the carbon dioxide concentration. The air supply amount and exhaust amount of the ventilation target room can be adjusted according to the operating time of the air supply fan 40 and the exhaust fan 50, and the opening rate of the air supply electric diffuser 110 and the exhaust electric diffuser 210. do.

Accordingly, in the present invention, it is possible to control the ventilation for each room to selectively ventilate only the room to be ventilated among the plurality of rooms, so that the quality of the indoor air can be effectively improved and the energy saving effect can be improved.

In addition, the lifespan of the filter or heat exchanger of the ventilation unit may be extended, and maintenance costs may be reduced.

In addition, since the air supply electric diffuser 110 and the exhaust electric diffuser 210 can respectively adjust the air supply amount and the exhaust amount according to the control of the controller 300, the air supply according to the ultrafine dust concentration or the carbon dioxide concentration It is easy to control the power and displacement.

In addition, since sensors are mounted on the electric supply air diffuser 110 and the exhaust electric diffuser 210 , there is an advantage in that the sensor can be easily replaced.

Although the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: ventilation unit 30: heat exchanger
100: supply air duct 110: electric supply air diffuser
200: exhaust duct 210: exhaust electric diffuser
220: ultrafine dust sensor 230: carbon dioxide sensor
240: display unit 300: control unit

Claims (10)

An air supply fan partitioned into an indoor air supply space having an indoor air inlet, an indoor exhaust space having an indoor exhaust port, an outdoor air inlet space having an outdoor air inlet, and an outdoor exhaust space having an outdoor exhaust port, installed in the indoor air supply space; An exhaust fan installed in the outdoor exhaust space, a heat exchanger having each side communicating with the indoor air supply space, the indoor exhaust space, the outdoor air introduction space, and the outdoor exhaust space, respectively, and outdoor air introduction for opening and closing the outdoor air inlet a ventilation unit including a damper;
an air supply duct connecting the indoor air inlet and a plurality of rooms to supply air from the ventilation unit to at least one of the plurality of rooms;
an exhaust duct connecting the plurality of rooms and the indoor exhaust port to exhaust air from at least one of the plurality of rooms to the ventilation unit;
It is connected to the air supply duct and installed for each of the plurality of rooms, and the air supply diffuser cone is coupled to the air supply diffuser casing so as to be movable in the vertical direction, so that the opening rate of the air supply passage between the air supply diffuser casing and the air supply diffuser cone is adjusted. a plurality of possible supply air powered diffusers;
It is connected to the exhaust duct and installed in each of the plurality of rooms, and the exhaust diffuser cone is coupled to the exhaust diffuser casing so as to be movable in the vertical direction, so that the opening rate of the exhaust passage between the exhaust diffuser casing and the exhaust diffuser cone is adjusted. a plurality of possible exhaust electric diffusers;
a plurality of ultra-fine dust sensors respectively provided for each of the plurality of exhaust electric diffusers to detect a concentration of fine dust (PM2.5, Pariculate Matter less than 2.5 μm) in the indoor air;
a plurality of carbon dioxide sensors respectively provided for each of the plurality of exhaust electric diffusers to detect a concentration of carbon dioxide in indoor air;
It is installed in at least one of the plurality of rooms to wirelessly communicate with the ventilation unit, the electric supply air diffuser, and the exhaust electric diffuser, and the ultrafine dust concentration detected by the ultrafine dust sensor among the plurality of rooms is preset. A room exceeding the ultrafine dust reference value or the carbon dioxide concentration detected by the carbon dioxide sensor exceeding a preset carbon dioxide reference value is set as a ventilation target room, and the opening rate of the electric supply air diffuser installed in the ventilation target room and the exhaust electric diffuser A control unit for controlling the air supply and exhaust amount in proportion to the ultrafine dust concentration and the carbon dioxide concentration by adjusting the opening rate of the
The exhaust diffuser cone,
a body part having an open lower surface and having the ultrafine dust sensor and the carbon dioxide sensor installed therein;
a cover part detachably coupled to the open lower surface of the body part;
A plurality of light emitting diodes installed in the body portion and an opening hole formed in the cover portion to display the light of the light emitting diodes, according to the concentration detected by at least one of the ultrafine dust sensor and the carbon dioxide sensor a display unit in which the number of lighting of the light emitting diodes is set differently to display the detection density in stages;
and a communication state display unit notifying the wireless communication state of the exhaust diffuser cone and the control unit,
The control unit is
When the carbon dioxide concentration exceeds the carbon dioxide reference value and the ultrafine dust concentration exceeds the ultrafine dust reference value, an outdoor air introduction operation is performed to introduce outdoor air by opening the outdoor air introduction damper, and the supply air electric diffuser and the Performs a stage control operation according to the ultrafine dust concentration, which proportionally controls the opening rate of the exhaust electric diffuser to the opening rate set differently in a plurality of steps preset according to the ultrafine dust concentration,
When the carbon dioxide concentration exceeds the carbon dioxide reference value and the ultrafine dust concentration is less than or equal to the ultrafine dust reference value, an outdoor air introduction operation is performed to introduce outdoor air by opening the outdoor air introduction damper, and the supply air electric diffuser and the exhaust performing a stage control operation according to the carbon dioxide concentration, which proportionally controls the opening rate of the electric diffuser to a plurality of differently set opening rates preset for each step according to the carbon dioxide concentration;
When the carbon dioxide concentration is less than the carbon dioxide reference value and the ultrafine dust concentration exceeds the ultrafine dust reference value, the external air introduction damper is shielded to perform an internal circulation operation in which external air is not introduced, and the supply air electric diffuser and the A ventilation system for each room using an electric diffuser that performs a step control operation according to the ultrafine dust concentration, which proportionally controls the opening rate of the exhaust electric diffuser to an opening rate set differently in a plurality of stages preset according to the ultrafine dust concentration. delete delete delete delete delete delete delete delete delete

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