KR100955326B1 - The Air-condition Controller And The Air-condition System Include Temperature Control Function - Google Patents

Abstract

The present invention provides a uniform indoor environment control by adding a heating device control function and a temperature control function according to the air quality management device for controlling the air environment while creating an atmospheric environment of the divided living space according to each set value. The present invention relates to an air quality controller and an air quality management system having a temperature control function for enabling the air quality control system. A plurality of sensors installed in each of the indoor, for sensing the environmental information including the temperature, humidity of the room; Each of the rooms individually installed, the environment information is provided from the sensor installed in the same room, the control for each of the independent environmental control by comparing the environment information and the user's setting information for the individual room A plurality of controllers for generating signals; A standby device electrically connected to the controller and controlling indoor air quality according to the control signal to supply the regulated air to a room where the controller where the control signal is generated is located; And a boiler for heating and supplying heating water according to the control signal of the controller.

Air quality, boiler, cooling, heating, air circulation

Description

The air-condition controller and the air-condition system include temperature control function

The present invention relates to an air quality controller and an air quality management system. In particular, the air quality control apparatus for controlling the air environment and the temperature control according to the air quality management device to create an atmosphere of the separated living space according to each set value, respectively The present invention relates to an air quality controller and an air quality management system having a temperature control function to enable a uniform indoor environment control by adding a control function.

Recently, as people's living environment is concentrated in the room, technologies, methods, and apparatuses for making the indoor environment comfortable are attracting attention. In addition, as the function of the device to create such an environment is developed and the price is low, various devices are installed and used in various places indoors and outdoors. These devices include a boiler and heater for heating, an air conditioner for cooling, a humidifier for humidity control, an anion generator for maintaining a more comfortable indoor air environment, a filter device and a circulator for purifying pollutants. In addition, since the current living environment is limited to areas where people and cars are concentrated, such as urban areas and urban center areas, it is more important to isolate the interior and exterior to make the indoor environment comfortable.

In particular, since the four seasons are distinct in Korea, and cold winters and hot summers are included in these four seasons, boilers and air conditioners are essential devices. Therefore, in recent years, homes, offices and workplaces are often installed with a boiler device capable of heating the floor and a cooling device that lowers the room temperature by air cooling. In addition, in the case of the air conditioner called an air conditioner or air conditioner, a method of heating by reversing the rotation direction of the motor and the refrigerant circulation is also devised, and a method of heating an indoor atmosphere is also used. In addition, in the case of the air conditioner, a lot of products having anion generating function, sterilization function and dehumidification function are also supplied and used as an important means for comforting the indoor environment.

However, this increases the user's discomfort, and the reality is that there is a difficulty in energy waste and control due to the overlapping and mixing operation of the devices. For example, in a typical home, a boiler for floor heating is installed in connection with a floor water pipe, and an air conditioner used as a cooling device is separately installed in a living room and each room. In addition, humidifiers and air purifiers are installed and used in places such as living rooms. These devices currently used are randomly operated when the user feels hot or cold, when the air is considered to be muddy, when the air is considered to be dry, and remains operational until stopped by the user. Because of this, the same function is often driven by different devices, which is often overdriven. Moreover, the only devices that control the indoor environment are the air conditioners and the boilers, which are only operated by measuring the temperature in the vicinity where the device or controller is installed.

There are many inconveniences caused by this operation method and installation method. First, when the boiler for heating is operated when the heating function of the air conditioner, the air is warmed quickly, the boiler is stopped before the temperature of the floor rises, thereby causing the floor to remain cold. In the case of cooling, if the air is dehumidified and the air is cooled, the room air is too dry. In the case of heating, when the humidifier is used to control the humidity of the dried indoor air, the vicinity of the humidifier is excessively humid, and the far away from the humidifier, there is a disadvantage that the indoor environment is not evenly comfortable. In addition, since the heating using the boiler and the cooling using the air conditioner are all controlled by one device or one controller, it is impossible to set the temperature of each room differently in the past, and this causes inconvenience. In addition, even though the environment for each person feels comfortable, there are frequent problems that some of the users feel uncomfortable because all spaces separated by walls have the same atmospheric environment.

Therefore, an object of the present invention is to create a separate atmosphere of the living space according to each set value, and to add a heating device control function and the temperature control function according to the air quality management device for controlling the atmospheric environment, It is to provide an air quality controller and an air quality management system having a temperature control function to enable indoor environment control.

In addition, another object of the present invention is to provide an air quality controller and an air quality management system having a temperature control function having a plurality of controllers installed in each space to facilitate setting of each divided living space.

In addition, another object of the present invention has a humidity control function that is sensitively changed according to temperature changes and a pollution control function that is sensitively changed according to humidity and temperature, by adjusting them collectively to maintain a comfortable indoor atmospheric environment It is to provide an air quality controller and an air quality management system having an adjustment function.

In order to achieve the above object, an air quality management system having a temperature control function according to the present invention is an air quality management system that individually controls each indoor environment independent of one living space, and is installed in each of the indoor rooms, A plurality of sensors for sensing the environmental information, including the temperature, humidity of the; Each of the rooms individually installed, the environment information is provided from the sensor installed in the same room, the control for each of the independent environmental control by comparing the environment information and the user's setting information for the individual room A plurality of controllers for generating signals; A standby device electrically connected to the controller and controlling the air quality according to the control signal to supply the regulated air to a room where the controller where the control signal is generated is located; And a boiler for heating and supplying heating water according to the control signal of the controller.

The waiting device includes a plurality of ducts that are individually installed in each of the independent rooms; And a plurality of electric dampers that are respectively installed at one end of the duct and selectively supply air, which is controlled by ventilation or heating or cooling, to any one of the respective ducts according to the control signal.

The boiler, the hot water pipes are installed separately in each of the independent rooms; A plurality of circulation pumps respectively installed at one end of the hot water pipe and selectively supplying hot water from the boiler to any one of the hot water pipes according to the control signal.

The atmospheric device is a humidity control device for controlling the humidity of the air circulated by the electric damper; A filter device for removing contaminants of the air; An anion generator for generating and adding negative ions to the air; And an oxygen generator for increasing the oxygen concentration of the air.

In addition, the air quality controller having a temperature control function according to the present invention is installed in each room independent in one living space, the environmental information including the temperature information detected from a plurality of sensors installed in each of the independent rooms and preset Comparing the setting information, to drive the atmospheric apparatus including any one of a cooling device, a humidity control device and a purifying device to adjust the indoor environment including any one of temperature, humidity and pollution degree for each independent room, It is distinguished from the standby device, and supplies heating water to the living space to control the operation of the boiler to control the temperature of the living space.

The waiting device includes a plurality of ducts that are individually installed in each of the independent rooms; And a plurality of electric dampers that are respectively installed at one end of the duct and selectively supply air, which is controlled by ventilation or heating or cooling, to any one of the respective ducts according to the control signal.

The boiler, the hot water pipes are installed separately in each of the independent rooms; A plurality of circulation pumps respectively installed at one end of the hot water pipe and selectively supplying hot water from the boiler to any one of the hot water pipes according to the control signal.

As described above, the air quality controller and the air quality management system having a temperature control function according to the present invention create an air environment of the separated living space according to each setting value, and heat the air quality management device for controlling the air environment. By adding a control function and a temperature control function accordingly, it becomes possible to adjust the indoor environment consistently.

In addition, the air quality controller and the air quality management system having a temperature control function according to the present invention provides a plurality of controllers are installed in each space to facilitate the setting of each of the separate living spaces, and through this operation state of the other space It is possible to increase the convenience of the user by enabling the confirmation of.

In addition, the air quality controller and air quality management system having a temperature control function according to the present invention has a humidity control function that changes sensitively according to temperature changes and a pollution degree control function that changes sensitively according to humidity and temperature, and control them in a batch It is possible to maintain the atmosphere comfortably, and to minimize the unnecessary operation, it is possible to save energy and extend the life of the device, thereby maintaining the low cost air conditioning equipment.

Other features and operations of the present invention in addition to the above objects will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

The detailed description set forth below in connection with the appended drawings is made with the intention of describing preferred embodiments of the invention, and does not represent the only forms in which the invention may be practiced. It should be noted that the same or equivalent functions included in the spirit or scope of the present invention may be achieved by other embodiments.

Certain features disclosed in the drawings are enlarged for ease of description, and the drawings and their components are not necessarily drawn to scale. However, those skilled in the art will readily understand these details.

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

1 to 3 is an exemplary view showing a schematic configuration and installation example for explaining the air quality controller and air quality management system having a temperature control function according to the present invention, Figure 1 shows the configuration of the control unit and the air quality management system 2 is a configuration example showing an arrangement example of the duct for air circulation of the circulation portion, Figure 3 is a configuration example showing an arrangement example of the hot water pipe for circulation of the hot water for heating in the circulation portion. to be. 4 is an exemplary configuration diagram for explaining the connection between the air quality management system and the circulation unit.

1 to 4, the air quality management system according to the present invention includes a control unit 1, a circulation unit 11 and 12, and an air quality management system 200.

The control unit 1 is individually configured in each of the chambers 103, 105, 107, and 109, which are independently partitioned, and controls the air quality management system 200 according to the user's setting to control each chamber 10A: 103, 105, and 107. , 109). To this end, the control unit 1 is a sensor (1AA: 132, 133, 134, 142, 143, 152, 162) for detecting the environmental state of each room (10A) and the controller (1A1) for controlling the air quality management system 200: 131, 141, 151, and 161. Here, in describing the embodiment of the present invention, a building composed of four rooms, that is, the first to fourth rooms 10A has been taken as an example, and thus the controller 1A1 is also installed in each of the rooms 10A. The case of the first to fourth controllers 1A1 to be mounted will be described as an example. The number of controllers 1A1 can be installed in a number corresponding to a desired space for independent control of the building, in particular, an indoor environment, and the present invention is not limited to four controllers as shown. The controller 1A1 may be accommodated and installed in the control panel 300 installed in each chamber 10A, and control the operation of the air quality management system 200 according to a user's set value input through the control panel. In particular, the controller 1A1 checks the indoor environment state through the sensor 1AA in order to adjust and maintain the indoor environment according to the user's set value. To this end, the controller 1A1 is connected to the sensor 1AA through wire or wirelessly, and when a change in a predetermined cycle or environmental state is detected, the controller 1A1 obtains information on the indoor environment state from the sensor 1AA.

One or more sensors 1AA are installed in each chamber 10A independently, and each sensor 1AA installed in each chamber 10A is connected to the controller 1A1 installed in each chamber 10A. Provide information. That is, the sensor 1AA installed in the first chamber 103 may be the first to third sensors 132, 133, and 134, as shown in FIG. 1, and the first to first to first sensors 103. The -3 sensors 132, 133, and 134 provide indoor environment status information to the first controller 131. In addition, each controller 1A1 is electrically connected to the controllers 220 and 259 of the air quality management system 200, respectively, thereby controlling the operation of the air quality management system 200. Here, each controller 1A1 is not connected to the controllers 220 and 259 of the air quality management system 200, but is connected to one of the controllers 1A1 and one controller 1A1 to which all the controllers 1A1 are connected. May be connected to the controllers 220 and 259 as a representative, but the present invention is not limited by the connection method. Sensors installed in each chamber 10A may be a temperature sensor, a humidity sensor, a pollutant detection sensor and an equivalent sensor thereof, and the sensors 10A to be installed may vary depending on the function of the air quality management system 200. Here, the contaminant detection sensor may include a dust sensor that detects a lot of dust and a small amount of dust, a sensor that detects a measurement of volatile contaminants. In addition, the sensor of the same end can be installed in more than one place for accurate measurement of the indoor environmental conditions. That is, in the conventional case, since the temperature sensor is installed only on the controller panel or the indoor device, it is difficult to uniformly control the indoor environment by measuring only the temperature of the local space. Therefore, in order to solve this problem, the present invention has attempted to solve this problem by installing the same type of sensor 1AA at a plurality of locations. In more detail, in the present invention, the boiler system 210 which performs the floor heating is subjected to the collective control depending on the air quality management system 200. Therefore, when heating is performed for the indoor space, the floor heating by the boiler 210 and the indoor air heating by the air quality management device 260 may be performed together. In this case, if the temperature sensor is installed only in the control panel, the operation of the boiler 200 may be stopped before the floor becomes hot due to the increase in the temperature of the indoor air by the indoor air heating. Because of this, a sensor for measuring the temperature of the indoor floor as well as the control panel may be set aside, thereby driving the boiler 200 by measuring the temperature of the floor. In this way, when indoor air heating and floor heating are performed together, the user who has returned home after a long winter cold winter feels more comfortable as the house warms up quickly, and the indoor floor is heated to an appropriate temperature by the controller 1A1. By doing so, there is an advantage of avoiding cold due to boiler malfunction. In addition, the air quality management system of the present invention can install a humidity sensor for each indoor space to make the indoor environment more comfortable. Humidity is affected by temperature. If the room temperature rises under the same environment, the humidity will be lower. In this case, the user may feel dry and, in some cases, prone to a disease such as a cold. Therefore, in the air quality management system 200 of the present invention, when the heating function is operated, the humidity control device 270 of the air quality management system 200 is driven together to perform a humidification function, and the humidified and heated air is ducted (175: 175-1, 175-2, 175-3, 175-4) to prevent the room from drying can maintain a proper humidity.

The circulation sections 11 and 12 are configured independently in each chamber 10A so that any one of hot water, cooling air, heating air, humidified air, and purified air from the air quality management system 200 is supplied to each chamber 10A. to provide. To this end, the circulation units 11 and 12 are installed for floor heating as shown, and the hot water pipes 180 for circulating the heated hot water from the boiler 210 (180: 180-1, 180-2, 180-3, 180). -4) and duct 175 and electric damper 261 independently configured in each chamber 10A for circulation of air with the circulation pumps 211: 211-1, 211-2, 211-3, 211-4 261-1, 261-2, 261-3, and 261-4).

The hot water pipe 180 is configured to have different hot water flows for each chamber 10A. The hot water pipes installed in each chamber 10A are directly connected to the boiler 210, and hot water is circulated according to the operation of the circulation pump 211 installed at one end of the hot water pipe 180. That is, when floor heating of the second chamber 105 is performed according to the user's setting, first, the boiler 210 is operated to generate hot water. Subsequently, the warm water heated by only the second circulation pump 211-2 is circulated along the hot water pipe 180-2 installed in the second chamber 105. As the hot water circulates, the sensors 142 and 143 installed in the second chamber 105 detect the temperature change of the room and the floor, and notify the second controller 141 of the status information. The state information is compared to control whether the second circulation pump 211-2 and the boiler 210 operate.

The duct 175 is installed to enable the air inlet and outlet independently of each chamber 10A for air circulation, and the end of the duct 175 is a standby device 250 such as a ventilation fan, an air conditioner, and an additional device 299. ) Referring to FIG. 2, the duct 175 is illustrated as being simply installed as one pipe in each chamber 10A. However, two or more pipes for entering and discharging may be installed in one chamber 10A. The duct 175 controls the state of indoor air by supplying or discharging air to the room through the ventilation hole 176. In addition, the electric damper 261 is provided for each duct 175 at the connection portion of the duct 175 and the standby device 250 for the circulation of the air through the duct 175. Like the hot water pipe 180, the electric damper 261 also operates independently according to the air control of each chamber (10A) to supply air. The duct 175 distributes heated air, cooled air, dehumidified or humidified air, dust removal, or clean air from which contaminants have been removed.

The air quality management system 200 basically includes an air quality management device 260 and an additional device 299 for controlling the condition of indoor air, and additionally includes a boiler 210 for floor heating. The air quality management system 200 may be centrally installed in the management room 110 that is separately provided as shown in FIG. 4, but this does not limit the present invention, and is illustrated as FIG. 4 for convenience of description. It was. The air quality management system 200 operates in accordance with the control information provided from the controller 1A1 installed in each chamber 10A to adjust the indoor environment in an integrated or individually divided manner. To this end, the air quality management system 200 includes a boiler 210 and a standby device 250 for heating, and the standby device 250 is an air quality management device 260 and an additional device 299 for air quality management. It is configured to include.

The boiler 210 is electrically connected to the controller 1A1 and the controller of the boiler 220 to operate according to the setting information or the control information provided from the controller 1A1, thereby increasing the temperature of the room. The boiler 210 heats a fluid, such as water, using a medium such as oil, gas, and electricity, and circulates through the hot water pipe 180 using a circulation pump 211 to increase the temperature of the room. The boiler 210 supplies a heated fluid by driving all or part of the circulation pump 211 connected to each hot water pipe 180 according to the setting information or control information transmitted through the controller 1A1.

The atmospheric apparatus 250 performs temperature control, humidity control, pollution control, and ventilation of indoor air. To this end, the standby device 250 includes an air quality management device 260 for air quality management and an additional device 299 that performs additional functions such as humidity and pollution control. The air quality management device 260 may supply the regulated air through the duct 175, and supply the heated air by driving the inverter. The air quality management device 260 circulates, cools, or heats air by operating in accordance with the control information or setting information from the controller 1A1 installed indoors through the air conditioner control unit 259, wherein the circulated, cooled, and heated air Is supplied to each chamber 10A through the specific duct 175 or the entire duct 175 by the operated electric damper 261. Here, in the case of an air conditioner sold in general, there is a product having a dehumidifying function, a sterilizing function, an anion generating function, and an equivalent function thereof, but in the present invention, it is assumed that such a function is implemented through an additional device 299. It is not intended to limit. The additional device 299 is composed of various devices having a function for maintaining indoor air in a comfortable state. In general, the additional device 299 includes a humidity controller 270 having a humidifying and dehumidifying function, a filter device 280 for removing dust, mites, volatile contaminants and equivalent contaminants contained in the air, and refreshing the air by increasing its activity. It may be configured to include a negative ion generating device 290 to feel, and additionally, a device such as an oxygen generating device may be further installed. However, this does not limit the present invention. The additional device 299 operates during circulation of air due to the operation of the electric damper 261 or during circulation of air by the operation of the air quality management device 260 to maintain indoor air in a comfortable state. In addition, the additional device 299 also operates according to setting information or control information provided through the standby device controller 259. In addition, the air conditioner 260 is configured to further include an outdoor unit 251 for cooling and heating the air. In addition, the atmospheric apparatus 250 does not only perform cooling, heating, purifying, humidifying, dehumidifying, and equivalent operations by sucking indoor air, but also by using an external duct (175-O) connected to the outside air. It can also perform a ventilation function that replaces air.

5 is an exemplary view showing an example of a control panel of the air quality management system of the present invention.

Referring to FIG. 5, the control panel 300 in which the controller 1A1 is embedded includes a dial 310 and a button 311 for setting indoor environment conditions and a display window 360 for displaying an indoor environment to be controlled. Can be configured.

As shown in FIG. 5, the control panel 300 may include a plurality of dials 310 or buttons 311. In the embodiment of the present invention, the room temperature is shown as being performed by the temperature control dial 310 of the control panel 300, but can be formed in a button shape, the drawings shown are presented as an example. When the temperature is set by adjusting the temperature control dial 310, the controller mounted in the control panel 300 transmits the set information to each control unit 220 or 259 of the air quality management system 200. In this case, the controller compares the set temperature with the current indoor temperature and the external temperature measured by the sensor, and transmits setting information to each device of the air quality management system 200 according to the comparison result. That is, when the set temperature is lower than the current room temperature, the controller transmits the set information to the standby control unit 259 of the air quality management system 200. Accordingly, the standby device control unit 259 operates the air quality management device 260 of the air quality management system 200 to cool the air and operates the electric damper 261 of the duct 175 connected to the room where the controller is installed. Allow the cooled air to be delivered to the room.

Similarly, an additional function button 311 may be provided to adjust the additional device 299 of the standby device. The additional function button 311 may vary depending on the configuration of the additional device 299, and is provided to control each additional device 299. That is, it comprises a dehumidification / humidification / stop button 321 for setting the humidity control, air purification operation / stop button 331 for the air purification operation setting and negative ion generation / stop button 341 for the negative ion operation setting Can be. In addition, the LED 350 may be added to the additional function button 311 so as to check the operation state, but the present invention is not limited thereto.

The control panel 300 is provided with a display window 360 for checking the operation of such a device. The display window 360 may display only the state of the individual room 10A in which the control panel 300 is installed. However, it is possible to increase the convenience of the user by providing an area for checking the adjustment state of each room 10A so as to confirm the operation of the other room 10A. For example, the control panel 300 illustrated in FIG. 5 includes a main display area 361 indicating a state of the room 10A in which the control panel 300 is installed and a sub-display area displaying a state of another room 10A. The display window 360 divided by 363 is illustrated as an example. The display window 360 may display room temperature, inflow air temperature, humidity, hot water temperature, operation of additional functions, and the like.

Air quality controller and air quality management system having a temperature control function of the present invention as described above can be applied to a wide range, such as office environment and workplace as well as general home. In particular, it is possible to easily improve the comfort of the room by using the temperature control function in addition to the air conditioning system as described above. In addition, the biggest advantage is that the efficient operation and environment creation can be achieved by controlling and utilizing the redundant functions of each device.

In addition, the air quality controller and the air quality management system of the present invention can be used by applying to the existing cooling device and heating device. That is, it is possible to enable the air quality management system to control the boiler by adding the signal processing and operation control algorithm for boiler control to the air quality controller described above. Moreover, it is not restricted by the type or type of boiler, and can be easily implemented by only slightly modifying the operation algorithm according to the type or type of boiler. Therefore, by using the existing equipment as it is, it is possible to reduce the re-installation cost and increase the efficiency of the existing equipment, and as a result, to reduce the cost of heating and cooling, and to reduce the burden on the user and environmental pollution.

In addition, when increasing the function sharing of the air quality controller, it is possible to implement the above system by having the control function of the air conditioner, humidifier, air purifier, oxygen generator and boiler sold separately. This can be easily applied to those skilled in the art by modifying the present invention, it will be understood by those skilled in the art even if not described in detail.

For example, in the case of a separately sold product, the boiler may be connected to the air quality controller in a wired manner and may be controlled by adding a logic algorithm as described above. In addition, since the air conditioner generally operates by a wireless remote control, the air quality controller and the control unit of the air conditioner may control the air conditioner by performing wireless communication. In addition, the air conditioner may have additional functions such as dehumidification, air purification, and negative ion generation, and in this case, it is easily controlled through a level algorithm that controls each device. In the case of the accessory device without the control device, it is also possible to connect the power supply device or the power switching device controlled by the air quality controller and the power supply unit of the accessory device, and control the operation by the power supply control of the air quality controller.

1 to 3 is an exemplary view showing a schematic configuration and installation example for explaining the air quality management system according to the present invention,

1 is a configuration example showing the configuration of the control unit and the air quality management system,

Figure 2 is a configuration example showing an example of the arrangement of the duct for air circulation of the circulation portion,

3 is an exemplary configuration diagram showing an arrangement example of hot water piping for circulation of hot water for heating in a circulation portion.

4 is a configuration example for explaining the connection between the air quality management system and the circulation unit.

5 is an exemplary view showing an example of a control panel of the air quality management system of the present invention.

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

100: building 101: wall

103, 105, 107, and 109: first to fourth rooms

110: management room 1A1, 131, 141, 151, 161: controller

1AA, 132, 133, 134, 142, 143, 152, 162

200: air quality management system 175: duct

180: hot water pipe 210: boiler

211: circulation pump 220: boiler control unit

250: standby device 259: standby device control unit

260: air quality management device 270: humidity control device

280: filter device 290: ion generating device

299: additional device 300: control panel

310: temperature control dial 311: additional function button

360: display window

Claims (7)

In the air quality management system to individually control each indoor environment independent of one living space, A plurality of sensors installed in each of the rooms to detect environmental information including temperature and humidity of the room; Each of the rooms individually installed, the environment information is provided from the sensor installed in the same room, the control for each of the independent environmental control by comparing the environment information and the user's setting information for the individual room A plurality of controllers for generating signals; A standby device electrically connected to the controller and controlling the indoor air quality according to the control signal to supply the regulated air to a room where the controller where the control signal is generated is located; And And a boiler for heating and supplying heating water according to the control signal of the controller. The boiler, Hot water pipes individually installed in each of the independent rooms; A plurality of circulation pumps installed at one end of each of the hot water pipes and selectively supplying hot water from the boiler to any one of the hot water pipes according to the control signal. Air Quality Management System The method of claim 1, The standby device, A plurality of ducts individually installed in each of the independent rooms; And a plurality of electric dampers that are respectively installed at one end of the duct and selectively supply air controlled by ventilation or heating or cooling to any one of the respective ducts according to the control signal. Air Quality Management System delete The method of claim 2, The standby device, Humidity control device for controlling the humidity of the air circulated by the electric damper; A filter device for removing contaminants of the air; An anion generator for generating and adding negative ions to the air; And Air quality management system having a temperature control function, characterized in that further comprising any one of the oxygen generating device for increasing the oxygen concentration of the air. Installed in separate rooms in one living space, By comparing preset information with environmental information including temperature information detected from a plurality of sensors installed in each of the independent rooms, Driving an atmospheric apparatus including any one of a cooling device, a humidity control device, and a purifying device to control the indoor environment including any one of temperature, humidity, and pollution degree for each independent room; Distinguished from the standby device, by supplying heating water to the living space to control the operation of the boiler to control the temperature of the living space, The boiler, Hot water pipes individually installed in each of the independent rooms; A plurality of circulation pumps respectively installed at one end of the hot water pipe and selectively supplying hot water from the boiler to any one of the hot water pipes according to a control signal. Air quality controller to have. The method of claim 5, The standby device, A plurality of ducts individually installed in each of the independent rooms; And a plurality of electric dampers installed at one end of each of the ducts and selectively supplying air adjusted by ventilation, heating, or cooling to any one of the respective ducts according to a control signal. Air quality controller with adjustment function. delete

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