KR20230032580A - System for controlling temperature and air quality of indoor of building and control method thereof - Google Patents

Abstract

The present invention relates to a system for controlling temperature and air quality of a building's interior and a control method thereof. The control method thereof comprises: a step of detecting the temperature of the interior and exterior environment surrounding a building; a step of, when the difference between the interior's temperature and the exterior environment's temperature is within a preset first temperature area, stopping an exhaust air blower of a ventilation unit, and operating only an air supply air blower, and supplying outdoor air, and maintaining the positive pressure status of the indoors by bypassing without going through a heat exchange element of the ventilation unit; a step of detecting the operation of an exhaust fan of a kitchen exhaust unit installed in a kitchen of the building; a step of, when the operation of the exhaust fan of the kitchen exhaust unit is detected, increasing the air volume of the air supply air blower of the ventilation unit as much as the air volume of the exhaust fan of the kitchen exhaust unit; and a step of, when the operation of the exhaust fan of the kitchen exhaust unit is stopped, reducing the air volume of the air supply air blower of the ventilation unit. According to the present invention, the interior of a building is ventilated, and the introduction of polluted air from outdoors through gaps in the window frames and doors is prevented. In addition, indoor temperature is controlled.

Description

Building indoor temperature and air quality control system and its control method

The present invention relates to a building indoor temperature and air quality control system and a control method thereof.

If you cook indoors or are active for a long time in a state where the interior of a building where people live, such as the kitchen and living room, is not well ventilated with the outside, it is difficult to maintain a comfortable condition due to contamination of the indoor air and increase in CO2. have to do it Ventilation by opening windows not only introduces yellow dust and air pollutants, but also causes indoor heat loss. In order to solve this problem, a ventilation device (aka, also referred to as a total heat exchanger) is installed to ventilate the interior (s) of the building. The ventilation system exhausts indoor air to the outdoors, filters outdoor air, and introduces it into the room, thereby exchanging heat between indoor air and outdoor air to minimize indoor heat loss.

In addition, an air conditioner is provided in the interior of the building, and the air conditioner adjusts the indoor temperature to a set temperature.

As described above, when the cooling and heating operation of cooling and heating the indoor air by the operation of the air conditioner proceeds in a building equipped with a ventilation device and an air conditioner, the carbon dioxide concentration of the indoor air increases and the ventilation operation of ventilating the indoor air proceeds. Energy loss occurs because warm air is discharged to the outdoors. Especially in spring or autumn, when the temperature difference between indoors and outdoors is not large, unnecessary cooling and heating operations are performed, resulting in energy loss. In addition, when cooking is to be done in an indoor kitchen, the kitchen exhaust unit operates, and by the operation of the kitchen exhaust unit, pollutants generated during cooking are discharged to the outdoors together with the indoor air. However, when the kitchen exhaust unit is operated, indoor air is discharged to the outdoors along with pollutants, and the indoor is maintained at a negative pressure, so that polluted air from the outside flows in through window frames or door cracks, contaminating the indoor air. Especially in winter or summer There is a problem in that polluted cold air or polluted hot air from outside flows into the room to contaminate the indoor air and cause heat loss inside the room.

An object of the present invention is a building indoor temperature and air quality control system and method for controlling indoor temperature while ventilating the interior of a building, preventing polluted air from outside from entering the room through window frames and door cracks, as well as controlling the indoor temperature. is to provide

Another object of the present invention is to ventilate indoor air in the process of exhausting pollutants generated during cooking in an indoor kitchen to the outdoors, and to prevent outdoor polluted air from entering the room through window frames and door cracks. It is to provide an indoor temperature and air quality control system and its control method.

In order to achieve the object of the present invention, a ventilation unit installed in a building to ventilate indoor and outdoor air of the building; a kitchen exhaust unit installed in the indoor kitchen of the building to discharge pollutants generated during cooking to the outdoors; A bathroom exhaust unit installed in the bathroom of the building to discharge pollutants from the bathroom to the outside; an air supply duct line connected to the ventilation unit and piped to an indoor ceiling of the building, and guiding outdoor air introduced by the ventilation unit to be supplied to the room; air supply motorized diffusers connected to the air supply duct line and located in the indoor space, respectively, to selectively inject outdoor air supplied to the air supply duct line into the room when opening and closing; an exhaust duct line connected to the ventilation unit and piped to the ceiling of the indoor spaces of the building, and guiding the air of the indoor spaces to be exhausted to the outdoors; exhaust electric diffusers connected to the exhaust duct line, located in the rooms, and selectively exhausting indoor air of the rooms according to opening and closing; an indoor temperature sensing unit for sensing the indoor temperature; an outdoor temperature sensing unit that senses the outdoor temperature; A building indoor temperature and air quality control system including an integrated control unit that senses the conditions of the indoor and outdoor temperature sensing units, kitchen exhaust unit, and bathroom exhaust unit to control the ventilation unit, electric supply air diffusers, and electric exhaust diffusers. Provided.

In addition, detecting the indoor and outdoor temperatures of the building; When the temperature difference between the inside and outside of the building is set in the first temperature range, the exhaust blower of the ventilation unit is stopped and only the supply air blower is operated to supply outdoor air, but by bypassing the heat exchange element of the ventilation unit, the room is in a positive pressure state. maintaining as; detecting operation of an exhaust fan of a kitchen exhaust unit installed in a kitchen of the building; increasing the air volume of the air supply blower of the ventilation unit by the air volume of the exhaust fan of the kitchen exhaust unit when the operation of the exhaust fan of the kitchen exhaust unit is sensed; and reducing an air volume of an air supply blower of the ventilation unit when the operation of the exhaust fan of the kitchen exhaust unit is stopped.

In addition, detecting the indoor and outdoor temperatures of the building; operating the supply air blower and the exhaust blower of the ventilation unit to have the same air volume if the temperature difference between the inside and outside of the building is a set second temperature range; detecting operation of an exhaust fan of a kitchen exhaust unit installed in a kitchen of the building; When the operation of the exhaust fan of the kitchen exhaust unit is detected, the exhaust blower of the ventilation unit is stopped, only the electric air supply diffuser located around the kitchen exhaust unit is opened, the other electric air supply diffusers are closed, and only the air supply blower of the ventilation unit is operated. maintaining a pressure equilibrium between the outside and the outside; When the operation of the exhaust fan of the kitchen exhaust unit is stopped, opening all the indoor air supply electric diffusers and exhaust electric diffusers of the building and operating the same air volume of the air supply blower and the exhaust blower of the ventilation unit, A temperature and air quality control method is provided.

In the present invention, when the temperature difference between inside and outside of a building is a small first temperature range (0 to 5° C.), such as in spring and autumn, indoor air is not exhausted to the outside and outdoor air is filtered without passing through a smoke exchanger to be returned to the room. Pass to keep the room in a positive pressure state, not only regulate the room temperature without using a separate air conditioner, but also ventilate the room, and prevent polluted air from outside from entering the room through window frames or door cracks. When cooking or using the bathroom, the outside air is supplied to the room as much as the wind volume of the exhaust fan of the kitchen exhaust unit and/or the exhaust fan of the bathroom exhaust unit to keep the room in a positive pressure state, so pollutants generated during cooking are discharged to the outdoors while Contaminated air from the outside is prevented from entering the room through window frames or door gaps.

In addition, the present invention, when the temperature difference between the inside and outside of the building is large (more than 6 ℃) such as summer and winter, the amount of outside air supplied to the room and the amount of indoor air exhausted to the outside are equalized to improve the indoor Ventilation while maintaining equilibrium prevents cold or hot polluted outside air from entering the room, minimizing heat loss in the room, and also around the kitchen exhaust unit or/and bathroom exhaust unit when cooking in the kitchen or using the bathroom. Only open the air supply electric diffuser located in the air supply electric diffuser, close the other electric supply air diffusers, and operate only the air supply blower of the ventilation unit to maintain the indoor and outdoor pressure balance and discharge the pollutants generated indoors to the outdoors. In addition, it minimizes the inflow of polluted cold or hot air into the room through window frames or door gaps, thereby minimizing indoor heat loss and preventing indoor air from being polluted.

1 is a piping diagram showing an embodiment of a building indoor temperature and air quality control system according to the present invention;
2 is a plan cross-sectional view showing an example of a ventilation unit constituting an embodiment of a building indoor temperature and air quality control system according to the present invention;
3 is a cross-sectional plan view showing a general operating state of a ventilation unit constituting an embodiment of a building indoor temperature and air quality control system according to the present invention;
4 is a cross-sectional plan view showing a bypass operation state of a ventilation unit constituting an embodiment of a building indoor temperature and air quality control system according to the present invention;
5 is a flowchart showing a first embodiment of a method for controlling indoor temperature and air quality in a building according to the present invention;
6 is a flowchart illustrating a second embodiment of a method for controlling indoor temperature and air quality in a building according to the present invention.

Hereinafter, an embodiment of a building indoor temperature and air quality control system and a control method according to the present invention will be described with reference to the accompanying drawings.

1 is a piping diagram showing an embodiment of a building indoor temperature and air quality control system according to the present invention.

As shown in FIG. 1, an embodiment of a building indoor temperature and air quality control system according to the present invention includes a ventilation unit 100, a kitchen exhaust unit 200, a bathroom exhaust unit 300, and an air supply duct 400. ), electric supply air diffusers 10, an exhaust duct line 500, electric exhaust diffusers 20, an indoor temperature sensing unit, an outdoor temperature sensing unit, and an integrated control unit 30.

The ventilation unit 100 is installed in a building to exchange heat between indoor air and outdoor air of the building, exhaust indoor air to the outdoors, and supply outdoor air to the indoor to ventilate the indoor air.

As an example of the ventilation unit 100, as shown in FIG. 2, the ventilation unit includes a housing 110, a heat exchange element M, an exhaust blower 120, an air supply blower 130, and a bypass damper 140. includes

The housing 110 has an outdoor air supply vent 1 and an outdoor exhaust vent 2 on one side and an indoor air supply vent 3 and an indoor exhaust vent 4 on the other side, and outdoor air is provided therein. An inflow passage P1 for guiding the air to flow into the room and a discharge passage P2 for guiding the indoor air to be discharged to the outdoors are provided. As an example of the housing 110, the housing 110 includes front, rear, left, and right side plates 111, 112, 113, and 114 connected to each other to form a rectangle, and the front, rear, left, and right side plates. It includes upper and lower plates (not numbered) that cover the top and bottom of the to form an internal space. The front, rear, left, and right positions of the housing 110 are set based on FIG. 2 for convenience of description. The left plate 113 has an outdoor air supply vent 1 and an outdoor exhaust vent 2, and the right plate 114 has an indoor air supply vent 3 and an indoor exhaust vent 4. The outdoor air supply port 1 and the indoor air outlet 4 are positioned facing each other, and the outdoor air outlet 2 and the indoor air outlet 3 are positioned facing each other. The inflow passage P1 is formed to communicate the outdoor air supply port 1 of the left plate 113 and the indoor air supply port 3 of the right plate 114, and the discharge passage P2 is formed to communicate with the left plate 113. It is formed so that the outdoor exhaust port 2 of the right plate 114 communicates with the indoor exhaust port 4.

The heat exchange element M is mounted inside the housing 110 to exchange heat between indoor air and outdoor air. The heat exchange element (M) is mounted inside the housing 110 so that the inflow passage (P1) and the discharge passage (P2) are connected to each other, and outdoor air flowing into the inflow passage (P1) and indoor air being discharged through the discharge passage (P2) exchange heat with air. The heat exchange element M has a hexahedral shape, and the four corners of the heat exchange element M are located in the middle of the front, rear, left, and right plates 111, 112, 113, and 114 of the housing 110, respectively. It is located inside the housing 110 so as to be positioned. A partition wall (W) is provided at each intermediate portion of the front, rear, left, and right side plates 111, 112, 113, and 114, and each corner of the heat exchange element (M) is supported by the partition wall (W). As the heat exchange element M is located inside the housing 110, four compartment spaces are provided inside the housing 110. The partitioned space communicating with the outdoor air supply vent 1 of the left plate 113 of the housing 110 is the first partitioned space S1, and the divided space communicating with the indoor exhaust vent 2 of the left plate 113 is The second compartment space S2 and the compartment space communicating with the indoor exhaust port 4 of the right side plate 114 communicate with the third compartment space S3 and the indoor air supply port 3 of the right board 114. The fourth partitioned space S4 is the partitioned space, and the first and fourth partitioned spaces S1 and S4 located in the diagonal direction form the inflow passage P1 and the second and third partitions located in the diagonal direction. Spaces S2 and S3 form a discharge passage P2. A filter unit (F) is provided on the inflow passage side of the heat exchange element (M) for filtering supplied outdoor air.

The exhaust blower 120 is provided in the discharge passage P2 so as to be adjacent to the outdoor exhaust port 2 to generate an exhaust flow. Specifically, the exhaust blower 120 is installed inside the housing 110 so as to be positioned in the second compartment space S2 communicating with the outdoor exhaust vent 2 . The exhaust blower 120 is a bypass blower. The bypass blower is disclosed in Korean Registered Patent No. 10-1841953 (2018.03.6. Publication date) filed and registered by the present applicant.

The air supply blower 130 is provided in the inflow passage P1 so as to be adjacent to the indoor air supply outlet 3 to generate air supply flow. Specifically, the air supply blower 130 is installed inside the housing 110 to be located in the fourth compartment space S4 communicating with the indoor air supply vent 3.

The bypass damper 140 is provided between the exhaust blower 120 and the supply air blower 130 to open and close the inflow passage P1 and the discharge passage P2. As an example of the bypass damper 140, the bypass damper 140 includes an opening and closing plate 141 for opening and closing a passage for communicating the inflow passage P1 and the discharge passage P2, and the opening and closing plate 141 is a passage It includes a damper motor (not shown) that rotates the opening and closing plate 141 to open and close. That is, a bypass passage is provided in the partition wall W located between the first and fourth partition spaces S1 and S4, and the bypass damper 140 opens and closes the bypass passage. A bypass filter for filtering air passing through the bypass passage is provided.

In the ventilation unit 100, when the exhaust blower 120 and the supply air blower 130 are operated, as shown in FIG. 3, outdoor air flows through the outdoor air supply vent 1 of the housing 110 into the housing ( 110), the outdoor air is filtered through the inflow passage (P1), the filter unit (F), and the heat exchange element (M), and is introduced into the indoor side through the indoor air supply port (3). It flows into the housing 110 through the side exhaust port 4, passes through the discharge passage P2 and the heat exchange element M, and is exhausted to the outdoors through the outdoor exhaust port 2. Indoor air and outdoor air are heat-exchanged while passing through the heat exchange element M at the same time, and outdoor air introduced into the room is heat-exchanged with the indoor air and introduced into the room. As this process continues, indoor air is ventilated, and such operation is referred to as general operation.

On the other hand, in the case of bypass operation in which outdoor air flows directly into the room without passing through the heat exchange element M, the bypass damper 140 is opened and the flow path conversion damper 121 of the exhaust blower 120 opens the air flow path. With the bypass passage open while blocking, the exhaust blower 120 is stopped and only the supply air blower 130 is operated. When only the supply air blower 130 is operated, as shown in FIG. 4, outdoor air is supplied from the outdoor exhaust port 2 - the bypass passage of the exhaust blower 120 - the bypass passage and filter 142 - the supply air blower ( 130) - Flows into the room through the indoor air supply (3).

The kitchen exhaust unit 200 is installed in an indoor kitchen of a building to discharge pollutants generated during cooking to the outdoors. The kitchen exhaust unit 200 includes an exhaust fan generating an exhaust flow. The kitchen exhaust unit 200 is a known technology and can be implemented in various ways.

The bathroom exhaust unit 300 is installed in a bathroom of a building to discharge pollutants from the bathroom to the outdoors. The bathroom exhaust unit 300 includes an exhaust fan generating an exhaust flow. The bathroom exhaust unit 300 is a known technology and can be implemented in various ways.

The air supply duct line 400 is connected to the ventilation unit 100 and is piped to an indoor ceiling of a building, and guides outdoor air supplied by the ventilation unit 100 to be supplied to the room. The air supply duct line 400 includes a main air supply duct 410 having one end connected to an air supply vent inside the housing of the ventilation unit 100, and branch air supply ducts 420 branched to the main air supply duct 410. do.

The electric air supply diffusers 10 are respectively connected to the air supply duct line 400 and are located indoors, respectively, and selectively spray outdoor air supplied to the air supply duct line 400 into the room according to opening and closing. The electric air supply diffusers 10 are preferably connected to the branch supply ducts 420 of the air supply duct line 400, respectively.

The exhaust duct line 500 is connected to the ventilation unit 100 and is piped to the ceiling of the rooms of the building, and guides the air of the rooms to be exhausted to the outdoors. The exhaust duct line 500 includes a main exhaust duct 510 having one end connected to an exhaust port on the inside of the housing of the ventilation unit 100, and branch exhaust ducts 520 branching off the main exhaust duct 510. .

The electric exhaust diffusers 20 are respectively connected to the exhaust duct line 500 and located in the rooms, respectively, and selectively exhaust indoor air of the rooms according to opening and closing. The exhaust electric diffusers 20 are preferably connected to the branch exhaust ducts 520 of the exhaust duct line 500, respectively.

An indoor temperature sensing unit (not shown) senses the indoor temperature. The indoor temperature sensing unit includes a temperature sensor.

An outdoor temperature sensing unit (not shown) senses the outdoor temperature. The outdoor temperature sensing unit includes a temperature sensor.

The integrated control unit 30 detects the conditions of the indoor and outdoor temperature sensing unit, the kitchen exhaust unit 200, and the bathroom exhaust unit 300, and then the ventilation unit 100, the electric supply air diffuser 10, the electric exhaust diffuser ( 20) to control them. The integrated control unit 30 is preferably provided in the ventilation unit 100 .

5 is a flowchart illustrating a first embodiment of a method for controlling indoor temperature and air quality in a building according to the present invention.

As shown in FIG. 5 , in the first embodiment of the method for controlling indoor temperature and air quality in a building according to the present invention, a step of sensing indoor and outdoor temperatures of a building is performed. The indoor temperature of the building is sensed by the indoor temperature sensing unit, and the outdoor temperature is sensed by the outdoor temperature sensing unit.

When the temperature difference between the inside and outside of the building is set in the first temperature range, the exhaust blower 120 of the ventilation unit 100 is stopped and only the supply air blower 130 is operated to supply outdoor air, but the heat exchange element of the ventilation unit 100 A step of maintaining the room in a positive pressure state by bypassing (bypass operation) proceeds. The first temperature range is preferably 0 to 5°C.

After maintaining the interior of the building in a positive pressure state, a step of detecting the operation of the exhaust fan of the kitchen exhaust unit 200 installed in the kitchen of the building is performed.

When cooking is done in the kitchen and the operation of the exhaust fan of the kitchen exhaust unit 200 is detected, the air volume of the air supply blower 130 of the ventilation unit 100 is increased by the air volume of the exhaust fan of the kitchen exhaust unit 200. It goes on. The air volume of the air supply blower 130 is increased by the air volume of the exhaust fan of the kitchen exhaust unit 200 by increasing the number of revolutions of the air supply blower 130 .

When cooking is finished in the kitchen and the operation of the exhaust fan of the kitchen exhaust unit 200 is stopped, a step of reducing the air volume of the air supply blower 130 of the ventilation unit 100 is performed. The air volume reduction of the air supply blower 130 is reduced by the increased air volume due to the operation of the exhaust fan of the kitchen exhaust unit 200 .

Meanwhile, the operation of the exhaust fan of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 may be sensed at the same time in a state in which the indoor air is maintained in a positive pressure state. When the operation of the exhaust fan of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 are simultaneously detected and the operation of only the exhaust fan of the kitchen exhaust unit 200 is detected, the exhaust fan of the kitchen exhaust unit 200 When the air volume of the air supply blower 130 of the ventilation unit 100 is increased as much as the air volume of When the air volume of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 are simultaneously operated, the air volume of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 are detected. A step of increasing the air volume of the air supply blower 130 of the ventilation unit 100 by the air volume plus the fan air volume is performed.

Next, when the operation of the exhaust fan of the kitchen exhaust unit 200 or the exhaust fan of the bathroom exhaust unit 300 is stopped, a step of reducing the air volume of the air supply blower 130 of the ventilation unit 100 is performed. That is, when only the exhaust fan of the kitchen exhaust unit 200 is stopped, the air volume of the air supply blower 130 is reduced by an air volume corresponding to the air volume of the exhaust fan, and when only the exhaust fan of the bathroom exhaust unit 300 is stopped, the air volume of the air supply blower 130 is reduced. When the air volume of the air supply blower 130 is reduced by an air volume corresponding to the air volume of the exhaust fan, and both the exhaust fan of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 are stopped, the kitchen exhaust unit 200 The air volume of the air supply blower 130 is reduced by an air volume corresponding to the air volume of the exhaust fan and the exhaust fan of the bathroom exhaust unit 300 .

In the first embodiment, when the temperature difference between the inside and outside of the building is 0 to 5° C., which is a small first temperature range, such as in spring and autumn, indoor air is not exhausted to the outside and outdoor air is not passed through the smoke exchanger (M). It is filtered and bypassed to the room to keep the room in a positive pressure state, so it not only controls the room temperature without using a separate air conditioner, but also ventilates the room, and polluted air from the outside flows into the room through the window frame or the door gap. When cooking in the kitchen or using the bathroom, external air is supplied to the room as much as the air volume of the exhaust fan of the kitchen exhaust unit 200 and/or the exhaust fan of the bathroom exhaust unit 300, so the interior is maintained at a positive pressure. As a result, contaminants generated during cooking are discharged to the outdoors while polluted air from the outside is prevented from entering the room through window frames or door gaps.

6 is a flowchart illustrating a second embodiment of a method for controlling indoor temperature and air quality in a building according to the present invention.

As shown in FIG. 6 , in the second embodiment of the method for controlling indoor temperature and air quality in a building according to the present invention, the step of sensing indoor and outdoor temperatures of a building is performed. The indoor temperature of the building is sensed by the indoor temperature sensing unit, and the outdoor temperature is sensed by the outdoor temperature sensing unit.

When the temperature difference between the inside and outside of the building is set in the second temperature range, a step of operating the air supply blower 130 and the exhaust blower 120 of the ventilation unit 100 to have the same air volume is performed. The second temperature range is larger than the first temperature range. The second temperature range is preferably 6°C or higher. At this time, the operation of the ventilation unit 100 is a general operation, and heat exchange is performed between outdoor air and indoor air through a heat exchange element.

A step of detecting the operation of the exhaust fan of the kitchen exhaust unit 200 installed in the kitchen of the building is performed while normal operation is performed while the pressure inside the building is in equilibrium with the outside.

When cooking is done in the kitchen and the operation of the exhaust fan of the kitchen exhaust unit 200 is detected, the exhaust blower 120 of the ventilation unit 100 is stopped and the air supply electric diffuser 10 located around the kitchen exhaust unit 200 A step of opening the bay, closing the other air supply electric diffusers 10 and operating only the air supply blower 130 of the ventilation unit 100 to maintain pressure balance between indoor and outdoor air proceeds. The air volume generated by the supply air blower 130 generates an air volume corresponding to that of the exhaust fan of the kitchen exhaust unit 200 .

When cooking is finished in the kitchen and the operation of the exhaust fan of the kitchen exhaust unit 200 is stopped, all of the indoor air supply motorized diffusers 10 and exhaust motorized fusers in the building are opened, and the air supply blower 130 of the ventilation unit 100 and the exhaust fan 130 are exhausted. A step of operating the blower 120 with the same air volume is performed.

On the other hand, with the air volume of the supply air blower 130 and the exhaust blower 120 of the ventilation unit 100 being operated at the same level, the operation of the exhaust fan of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 is controlled. can be detected at the same time. When the operation of the exhaust fan of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 are simultaneously detected and the operation of only the exhaust fan of the kitchen exhaust unit 200 is detected, the exhaust blower of the ventilation unit 100 ( 120) is stopped, only the electric air supply diffuser 10 located around the kitchen exhaust unit 200 is opened, the other electric air supply diffusers 10 are closed, and only the air supply blower 130 of the ventilation unit 100 is operated to operate indoors and outdoors. maintains pressure equilibrium. In addition, when the operation of only the exhaust fan of the bathroom exhaust unit 300 is detected, the exhaust blower 120 of the ventilation unit 100 is stopped and only the air supply electric diffuser 10 located around the bathroom exhaust unit 300 is opened and other The air supply electric diffusers 10 are closed and only the air supply blower 130 of the ventilation unit 100 is operated to maintain pressure balance between indoor and outdoor air. In addition, when it is detected that the exhaust fan of the kitchen exhaust unit 200 and the exhaust fan of the bathroom exhaust unit 300 operate simultaneously, the exhaust blower 120 of the ventilation unit 100 is stopped and the surroundings of the kitchen exhaust unit 200 are stopped. Open only the air supply electric diffuser 10 located in the vicinity of the bathroom exhaust unit 300, close the other electric supply electric diffusers 10, and operate only the air supply blower 130 of the ventilation unit 100 It maintains the pressure balance between indoor and outdoor.

Subsequently, when the operation of the exhaust fan of the kitchen exhaust unit 200 or the exhaust fan of the bathroom exhaust unit 300 is stopped, all the indoor air supply electric diffusers 10 and the electric exhaust exhaust fusers of the building are opened and the ventilation unit 100 A step of operating the supply air blower 130 and the exhaust blower 120 to have the same air volume is performed.

In the second embodiment, when the temperature difference between the inside and outside of the building is greater than 6° C., which is the second temperature range, which is large, such as in summer and winter, the amount of outside air supplied to the room and the amount of indoor air exhausted to the outside are equalized to keep the room in an equilibrium state. Since it ventilates while maintaining it, it prevents cold or hot polluted outside air from entering the room, preventing heat loss inside the room, and also, when cooking in the kitchen or using the bathroom, around the kitchen exhaust unit or / and bathroom exhaust unit Only open the air supply electric diffuser located in the air supply electric diffuser, close the other electric supply air diffusers, and operate only the air supply blower of the ventilation unit to maintain the indoor and outdoor pressure balance and discharge the pollutants generated indoors to the outdoors. In addition, it minimizes the inflow of polluted cold or hot air into the room through window frames or door gaps, thereby minimizing indoor heat loss and preventing indoor air from being polluted.

100; ventilation unit 200; kitchen exhaust unit
300; bathroom exhaust unit 400; air supply duct line
10; Air supply electric diffuser 500; exhaust duct line
20; Exhaust electric diffuser 30; integrated control unit

Claims (5)

A ventilation unit installed in a building to ventilate indoor and outdoor air of the building;
a kitchen exhaust unit installed in the indoor kitchen of the building to discharge pollutants generated during cooking to the outdoors;
A bathroom exhaust unit installed in the bathroom of the building to discharge pollutants from the bathroom to the outside;
an air supply duct line connected to the ventilation unit and piped to an indoor ceiling of the building, and guiding outdoor air introduced by the ventilation unit to be supplied to the room;
air supply motorized diffusers connected to the air supply duct line and located in the indoor space, respectively, to selectively inject outdoor air supplied to the air supply duct line into the room when opening and closing;
an exhaust duct line connected to the ventilation unit and piped to the ceiling of the indoor spaces of the building, and guiding the air of the indoor spaces to be exhausted to the outdoors;
exhaust electric diffusers connected to the exhaust duct line, located in the rooms, and selectively exhausting indoor air of the rooms according to opening and closing;
an indoor temperature sensing unit for sensing the indoor temperature;
an outdoor temperature sensing unit that senses the outdoor temperature;
A building indoor temperature and air quality control system comprising an integrated control unit for controlling the ventilation unit, electric supply air diffusers, and electric exhaust diffusers by detecting conditions of the indoor and outdoor temperature detection units, kitchen exhaust units, and bathroom exhaust units. Sensing indoor and outdoor temperatures of the building;
When the temperature difference between the inside and outside of the building is set in the first temperature range, the exhaust blower of the ventilation unit is stopped and only the supply air blower is operated to supply outdoor air, but by bypassing the heat exchange element of the ventilation unit, the room is in a positive pressure state. maintaining as;
detecting operation of an exhaust fan of a kitchen exhaust unit installed in a kitchen of the building;
increasing the air volume of the air supply blower of the ventilation unit by the air volume of the exhaust fan of the kitchen exhaust unit when the operation of the exhaust fan of the kitchen exhaust unit is sensed; and
and reducing an air volume of an air supply blower of the ventilation unit when the operation of the exhaust fan of the kitchen exhaust unit is stopped. Sensing indoor and outdoor temperatures of the building;
When the temperature difference between the inside and outside of the building is set in the first temperature range, the exhaust blower of the ventilation unit is stopped and only the supply air blower is operated to supply outdoor air, but by bypassing the heat exchange element of the ventilation unit, the room is in a positive pressure state. maintaining as;
detecting operation of an exhaust fan of a kitchen exhaust unit and an exhaust fan of a bathroom exhaust unit installed in a kitchen of the building;
When the operation of only the exhaust fan of the kitchen exhaust unit is detected, the air volume of the air supply blower of the ventilation unit is increased by the air volume of the exhaust fan of the kitchen exhaust unit, and when the operation of only the exhaust fan of the bathroom exhaust unit is detected, the air volume of the exhaust fan is increased. When the air volume of the supply air blower of the ventilation unit is increased and it is detected that the exhaust fan of the kitchen exhaust unit and the exhaust fan of the bathroom exhaust unit are simultaneously operated, the air volume of the kitchen exhaust unit and the bathroom exhaust unit are added. increasing the air volume of the air supply blower of the ventilation unit by the air volume; and
and reducing an air volume of an air supply blower of the ventilation unit when the operation of the exhaust fan of the kitchen exhaust unit or the exhaust fan of the bathroom exhaust unit is stopped. Sensing indoor and outdoor temperatures of the building;
operating the supply air blower and the exhaust blower of the ventilation unit to have the same air volume if the temperature difference between the inside and outside of the building is a set second temperature range;
detecting operation of an exhaust fan of a kitchen exhaust unit installed in a kitchen of the building;
When the operation of the exhaust fan of the kitchen exhaust unit is detected, the exhaust blower of the ventilation unit is stopped, only the electric air supply diffuser located around the kitchen exhaust unit is opened, the other electric air supply diffusers are closed, and only the air supply blower of the ventilation unit is operated. maintaining a pressure equilibrium between the outside and the outside;
When the operation of the exhaust fan of the kitchen exhaust unit is stopped, opening all the indoor air supply electric diffusers and exhaust electric exhaust fusers of the building and operating the air supply blower and the exhaust blower of the ventilation unit to have the same air volume. and air quality control methods. Sensing indoor and outdoor temperatures of the building;
operating the supply air blower and the exhaust blower of the ventilation unit to have the same air volume if the temperature difference between the inside and outside of the building is a set second temperature range;
detecting operation of an exhaust fan of a kitchen exhaust unit and an exhaust fan of a bathroom exhaust unit installed in a kitchen of the building;
When the operation of only the exhaust fan of the kitchen exhaust unit is detected, the exhaust blower of the ventilation unit is stopped, only the electric air supply diffuser located around the kitchen exhaust unit is opened, the other electric air supply diffusers are closed, and only the air supply blower of the ventilation unit is operated. and outdoor pressure balance, and when the operation of only the exhaust fan of the bathroom exhaust unit is detected, the exhaust blower of the ventilation unit is stopped, and only the air supply electric diffuser located around the bathroom exhaust unit is opened, and other air supply electric diffusers are closed and ventilated Only the supply air blower of the unit is operated to maintain the pressure balance between indoor and outdoor air, and when it is detected that the exhaust fan of the kitchen exhaust unit and the exhaust fan of the bathroom exhaust unit operate simultaneously, the exhaust fan of the ventilation unit is stopped and the kitchen exhaust unit Maintaining indoor and outdoor pressure balance by opening only the electric air supply diffuser located around the air supply diffuser and the electric air supply diffuser located around the bathroom exhaust unit, closing the other electric air supply diffusers, and operating only the air supply blower of the ventilation unit;
When the operation of the exhaust fan of the kitchen exhaust unit or the exhaust fan of the bathroom exhaust unit is stopped, all of the indoor air supply electric diffusers and exhaust electric diffusers of the building are opened and the air volume of the air supply blower and the exhaust blower of the ventilation unit are the same. Building indoor temperature and air quality control method comprising the step.

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