KR200493679Y1 - Air Supply System with Indoor Air Cleaning Function and Air Supply Pipe Cleaning Function - Google Patents

Abstract

The present invention selectively opens and closes the outdoor air supply system that supplies outdoor air to the inside of the air supply system and the discharge pipe that discharges foreign matters inside the indoor air supply pipe to the outside by a vacuum motor pump, and opens and closes the indoor exhaust air through the exhaust damper. Controls the operation of the air cleaning mode, which filters foreign substances in the indoor air introduced into the air supply system through the air supply system, simplifies the configuration of the air supply system for switching between air supply mode, air cleaning mode, or cleaning mode, and the measured concentration of carbon dioxide or dust in the indoor air. The present invention relates to an air supply system having an indoor air cleaning function and a supply pipe cleaning function capable of maintaining indoor air cleanliness in an optimized state by individually controlling the opening and closing of the exhaust damper and the switching damper according to the operation mode of the supply system.

Description

Air Supply System with Indoor Air Cleaning Function and Air Supply Pipe Cleaning Function

The present design relates to an air supply system that supplies outdoor air to the interior of a building, and more specifically, discharges foreign substances inside the indoor air supply pipe to the outside by an outdoor air supply device that supplies outdoor air to the inside of the air supply system and a vacuum motor pump. The exhaust pipe is selectively opened and closed by a switching damper, and the air cleaning mode operation is controlled to filter foreign substances in the indoor air introduced into the air supply system through the indoor exhaust through the exhaust damper to switch between supply mode, air cleaning mode, or cleaning mode. It simplifies the configuration of the air supply system and switches the operation mode of the air supply system by individually controlling the opening and closing of the exhaust damper and the conversion damper according to the measured concentration of carbon dioxide or dust in the indoor air, thereby maintaining the indoor air cleanliness in an optimized state. It relates to an air supply system having an indoor air cleaning function and a supply pipe cleaning function.

In general, buildings are equipped with an air supply system that introduces outdoor air into the room and an exhaust system that discharges indoor air to the outside in order to maintain the temperature, humidity, and cleanliness of indoor air in an optimal state. A filter is installed inside to prevent deterioration of indoor air cleanliness by foreign substances such as fine dust contained in the outdoor air.

However, there is a limit to the filtering of foreign matter by the filter. When the air supply system is operated for a long period, it accumulates in the air supply system and the piping connected to the room together with moisture contained in the air. As it flows into, the indoor air cleanliness gradually decreases.

In particular, the air supply system embeds the pipe in the ceiling, floor, or wall of the building for the purpose of saving space and aesthetics. Accordingly, it is practically impossible to clean the inside of the pipe unless construction such as a wall is performed at the same time.

In order to solve this problem, the Republic of Korea Utility Model Publication No. 20-0358104 (registered on July 27, 2004) connects the intake device between the external air supply pipe and the internal air supply pipe in parallel with the supply and exhaust system. By alternately operating the air intake system, a self-cleaning device for the ventilation air supply duct was developed in which foreign substances such as dust inside the air supply pipe are forcibly discharged to the outside when the air supply system is operated. Intake system and air supply/exhaust system are added to the 4 pipes of the indoor supply pipe and indoor exhaust pipe, so the volume of the supply air duct system increases, and production and installation costs also increase as the number of pipes constituting the system increases. Was done.

Therefore, in Korean Patent Publication No. 10-1208349 (registered on November 29, 2012), the discharge pipe is connected to the air supply system by bypass, and a cleaning fan is installed inside the discharge pipe to discharge foreign substances inside the supply pipe to the outside through the discharge pipe. An air supply system was developed.

However, in the above air supply system, the opening and closing of the inlet and the outlet of the discharge pipe through which outdoor air flows into the air supply system through two dampers must be individually controlled to switch between ventilation mode and cleaning mode. As foreign substances discharged from the city flow back into the air supply system, ventilation performance may deteriorate, and the production or maintenance cost of the air supply system may increase.

In addition, when the air supply system is operated at a time when the temperature difference between indoors and outdoors is large, if the indoor air is supplied directly to the room, the indoor temperature changes significantly and the cooling and heating efficiency may decrease. Therefore, the filter installed in the system is circulated while the indoor air is circulated. Through this, an air cleaning function to remove foreign substances in the indoor air is added. As such a supply system, a device similar to the air cleaning system of Korean Patent Publication No. 10-1808116 (registered on Dec. 6, 2017) was developed, but the air cleaning system was developed. The system had a problem that the system installation cost increased significantly because the piping installation work for connecting the exhaust system and the air supply system was performed, and the volume of the system device was increased, resulting in a decrease in indoor space utilization.

Republic of Korea Utility Model Publication No. 20-0358104 (registered on July 27, 2004) Korean Patent Publication No. 10-1208349 (registered on November 29, 2012) Republic of Korea Patent Publication No. 10-1808116 (registered on Dec. 6, 2017)

In an embodiment of the present invention, since it is buried in the ceiling, floor, or wall of a building, it is possible to remove foreign substances in the air supply system and pipes that are practically impossible to clean after installation, thereby improving the cleanliness of the air flowing into the room through the air supply system. It aims to improve.

In an embodiment of the present invention, the configuration of a device for removing foreign substances in the air supply system and the pipe is simplified, and the size of the air supply system for performing the indoor air cleaning function is reduced, thereby reducing the production cost and installation cost of the air supply system. It is aimed at.

According to an embodiment of the present invention, in an air supply system for ventilation inside a building, an outdoor air supply device formed on one side of a housing of the air supply system to supply outdoor air to the inside of the air supply system, and an outdoor air supply device that connects the outdoor air supply device and the outdoors. An indoor air supply pipe and an indoor air supply device that is formed on the other side of the housing of the air supply system and discharges the indoor air, indoor air, or a mixture of indoor and outdoor air introduced into the air supply system, and an indoor air supply pipe that connects the indoor air supply and the room. And, a filter that is installed inside the air supply system so as to be located between the outdoor air supply device and the indoor air supply system to remove foreign substances in the indoor and outdoor air flowing in from the outdoor air supply device or the indoor exhaust system, and the air supply system is installed between the indoor air supply device and the filter. An air supply fan that supplies outdoor air, indoor air, or a mixture of indoor/outdoor air introduced into the indoor air supply system, and is formed on the side of the housing of the air supply system so as to be located between the outdoor air supply system and the filter to supply indoor air into the air supply system. The indoor exhaust port, one end is connected to the space between the exhaust port of the air supply fan and the indoor supply port, and the other end is connected to the side of the outdoor supply pipe through a connection pipe and a connector, and a discharge pipe disposed on the side of the air supply system, and inside the discharge pipe. It is installed inside the outdoor supply pipe on the side of the connection port to selectively open and close the vacuum motor pump and the outdoor supply device or connector that sequentially pass through the discharge pipe, the connection pipe, and the outdoor supply pipe to discharge foreign matter inside the indoor supply pipe. Consisting of a switching damper, the supply air supply mode that supplies outdoor air to the room by the operation of the switching damper, the air cleaning mode operation that removes foreign substances from the indoor air, or the cleaning mode operation that discharges foreign substances inside the indoor supply pipe to the outside are optional. It is done with.

According to an embodiment of the present invention, the indoor exhaust pipe is connected to the room through the indoor exhaust pipe, and an exhaust damper is mounted on the indoor exhaust pipe to control the opening and closing of the indoor exhaust pipe.

According to an embodiment of the present invention, a plurality of indoor air supply devices are formed, and the indoor air supply pipes connected to each indoor air supply apparatus are in communication with each room. Supply air.

According to an embodiment of the present invention, a carbon dioxide sensor for measuring the concentration of carbon dioxide contained in indoor air is mounted in the supply system or indoor space, and when the measured carbon dioxide concentration is higher than the set reference value, the exhaust damper operates the indoor exhaust pipe by the operation of the control circuit. By closing it, the indoor air is blocked from recirculation when the air supply mode is operated, thereby reducing the indoor carbon dioxide concentration quickly.

According to an embodiment of the present invention, a dust sensor for measuring the concentration of dust contained in the indoor air is mounted in the air supply system or the indoor space, and when the measured dust concentration is higher than the set reference value, the exhaust damper operates the indoor exhaust pipe by the operation of the control circuit. By opening, the air supply system operates in the air cleaning mode, but foreign substances in the indoor air flowing into the air supply system through the indoor exhaust port are filtered by the filter to reduce the concentration of dust in the indoor air.

According to an embodiment of the present invention, the air supply system that is buried in the ceiling, floor, or wall of a building so that internal cleaning is impossible, and foreign substances such as dust accumulated in the pipe are discharged to the outside through a vacuum motor pump. There is an effect that can improve the cleanliness of the air flowing into the furnace.

According to an embodiment of the present invention, by selectively opening and closing the connection port of the air supply system and the discharge pipe that discharges foreign substances inside the pipe through the outdoor air supply system and the vacuum motor pump, By preventing the discharged foreign matter from flowing back to the outdoor air supply, there is an effect of extending the usable period of the filter and further improving the cleanliness of the air supplied to the room.

According to an embodiment of the present invention, the process of supplying outdoor air to the interior and the process of discharging and cleaning foreign substances accumulated in the air supply system and the pipe to the outside occur in the same outdoor air supply engine, thereby reducing the size and production cost of the air supply system. There is an effect that can reduce the installation cost of the supply system piping.

According to an embodiment of the present invention, by removing foreign substances in the outdoor or indoor air flowing into the air supply system when the air supply mode and the air cleaning mode are operated through a single filter, the size and production cost of the air supply system of the air supply system can be reduced. There is an effect.

According to an embodiment of the present invention, the exhaust damper and the switching damper are individually controlled according to the concentration of carbon dioxide or dust in the indoor air, and when the supply mode or the air cleaning mode is operated, outdoor air inflow or circulation of only indoor air is generated to improve indoor air cleanliness. It has the effect of keeping it in an optimal state.

According to an embodiment of the present invention, by operating the air cleaning mode through circulation of only indoor air at a time when the temperature difference between indoors and outdoors is large, there is an effect of suppressing changes in indoor air temperature and improving cooling and heating efficiency.

1 is a diagram showing a side cross-sectional structure and a planar cross-sectional structure of an air supply system according to an embodiment of the present invention.
FIG. 2 is a view showing an operation of a switching damper and a flow of air in the air supply system when the air supply system operates in an air supply mode according to an embodiment of the present invention.
3 is a view showing the operation of the switching damper and air flow in the air supply system when the air supply system operates in the air cleaning mode according to an embodiment of the present invention.
4 is a view showing the air flow in the air supply system when the air supply system operates in a cleaning mode according to an embodiment of the present invention.
5 is a view showing the air flow in the air supply system in a state in which recirculation of indoor air is blocked due to the closing of the exhaust damper when the air supply system operates in an air supply mode according to an embodiment of the present invention.

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

It will be described in detail focusing on the parts necessary to understand the operation and operation according to the present invention.

While describing the embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention belongs and are not directly related to the present invention will be omitted.

This is to convey more clearly without obscuring the gist of the present invention by omitting unnecessary description.

In addition, in describing the constituent elements of the present invention, different reference numerals may be assigned to the constituent elements of the same name according to the drawings, and the same reference numerals may be denoted even in different drawings.

However, even in such a case, it does not mean that the corresponding component has different functions according to the embodiment, or that it has the same function in different embodiments, and the function of each component is the corresponding embodiment. It should be judged based on the description of each component in.

In addition, the technical terms used in the present specification should be interpreted as generally understood by those of ordinary skill in the technical field to which the present invention belongs, unless otherwise defined in this specification, and is excessively comprehensive. It should not be construed as a meaning or an excessively reduced meaning.

In addition, the singular expression used in the present specification includes a plurality of expressions unless the context indicates otherwise.

In the present application, terms such as “consisting of” or “comprising” should not be construed as necessarily including all of the various elements or various steps described in the specification, and some of the elements or some steps It may not be included, or it should be interpreted that it may further include additional components or steps.

In the air supply system 100 according to the embodiment of the present invention, as shown in FIG. 1, an outdoor air supply device for supplying outdoor air to the inside of the air supply system 100, respectively, on one side and the other side of the housing of the air supply system 100 ( 110 and an indoor air supply device 120 for discharging outdoor air or indoor air introduced into the air supply system 100 to the interior are formed.

A filter 130 is mounted between the outdoor air supply unit 110 and the indoor air supply unit 120 to remove foreign substances contained in the air flowing into the air supply system 100, and the indoor air supply unit 120 and the filter 130 A supply fan 140 for supplying the air introduced into the air supply system 100 to the indoor air supply device 120 is mounted between the air supply system 100, and the air supply system 100 between the outdoor air supply device 110 and the filter 130 An indoor exhaust port 150 for supplying indoor air into the air supply system 100 is formed on the side of the housing.

The outdoor supply unit 110 and the indoor supply unit 120 include an outdoor supply unit 111 connecting the outdoor supply unit 110 and the outdoor unit, respectively, and an indoor supply unit 121 connecting the indoor supply unit 120 and the indoor unit. ) Is installed.

A discharge pipe 200 is disposed on the side of the air supply system 100, and the discharge pipe 200 is accumulated inside the air supply system 100 and the indoor air supply pipe 121 through the operation of the vacuum motor pump 210 installed therein. Discharge foreign substances such as dust to the outdoors.

One end of the discharge pipe 200 is connected to the space between the exhaust port of the air supply fan 140 and the indoor air supply unit 120, and a connection pipe 220 formed at the other end of the discharge pipe 200 is the outdoor supply pipe 111 ) It is connected through the connector 112 formed on the side, so that the filter 130 and the air supply fan 140 inside the air supply system 100 form a bypass structure with the discharge pipe 200.

Inside the outdoor supply pipe 111, a switching damper 221 is mounted on the side of the connector 112, and the outdoor supply unit 110 or the connector 112 is selectively opened and closed by the operation of the switching damper 221.

In addition, the air supply system 100 and the room communicate with each other through the indoor exhaust pipe 151 connected to the indoor exhaust pipe 150, and the indoor exhaust pipe 151 has an exhaust damper 152 that controls the opening and closing of the indoor exhaust pipe 151. ) Can be installed.

In addition, the indoor supply unit 120 may be formed in plural according to the number of connected indoor spaces, and the indoor supply unit 121 is an indoor supply unit connected to each indoor supply unit 120 in communication with each room. It is possible to supply air to each room through (121).

In addition, a carbon dioxide sensor or a dust sensor is mounted in the air supply system 100 or the indoor space, and the carbon dioxide sensor and the dust sensor are connected to a control circuit, so that the exhaust damper 152 is opened or closed according to the measured carbon dioxide or dust concentration in the indoor air. It can be configured to adjust.

A method of operating the air supply system 100 according to an embodiment of the present invention configured as described above will be described as follows.

The operation of the air supply system 100 according to the embodiment of the present invention is largely divided into an air supply mode, an air cleaning mode, and a cleaning mode. In the air supply mode, the switching damper 221 is operated by a control circuit as shown in FIG. Accordingly, the connection port 112 is closed, the outdoor air supply unit 110 is opened, and the air supply fan 140 operates to supply outdoor air and indoor air from the outdoor supply unit 110 and the indoor exhaust unit 150, respectively. 100) inside the housing.

The indoor and outdoor air supplied to the inside of the air supply system 100 through the outdoor air supply device 110 and the indoor exhaust air supply 150 passes through the filter 130 to remove foreign substances contained in the air. It is introduced into the air supply port 120 and supplied to the room.

At this time, the indoor exhaust pipe 151 may be equipped with an exhaust damper 152. As shown in FIG. 5, the exhaust damper 152 is closed to block recirculation of indoor air through the indoor exhaust port 150 to prevent outdoor air. Inflow of the bay can be made.

In addition, a plurality of the indoor air supply devices 120 are formed, and the indoor air supply pipes 121 connected to each of the indoor air supply devices 120 communicate with each room to supply purified air to each room. .

In the air cleaning mode, as shown in FIG. 3, the switching damper 221 is operated by the control circuit to close the outdoor air supply device 110, open the exhaust damper 152, and at the same time, the air supply fan 140 operates. Indoor air is supplied from the indoor exhaust port 150 to the inside of the housing of the air supply system 100.

Foreign substances such as dust contained in the indoor air supplied into the air supply system 100 are removed by the filter 130, and the filtered indoor air is discharged to the indoor air supply unit 120 by the air supply fan 140 It is resupplied to.

In the cleaning mode, the switching damper 221 is operated by the control circuit as shown in FIG. 4 to close the outdoor supply pipe 111, open the connector 112, and the vacuum motor pump 210 is operated. , Accordingly, foreign substances such as dust accumulated in the air supply system 100 and the indoor supply pipe 121 are bypassed in the order of the discharge pipe 200, the connection pipe 220, the connector 112, and the outdoor supply pipe 111. As it passes, it is discharged outdoors.

In an embodiment of the present invention, by selectively opening and closing the connector 112 of the outdoor supply device 110 and the discharge pipe 200 through one switching damper 221 to switch the operation mode, the supply system 100 and the pipe It is possible to reduce the size of the air supply system 100 and the production and installation cost of the piping.

In addition, when the cleaning mode is operated, the switching damper 221 blocks the outdoor air supply device 110 and prevents foreign substances discharged to the outside through the discharge pipe 200 from flowing back into the housing of the air supply system 100, thereby preventing the filter 130 ) Can be extended and the cleanliness of the air supplied to the room can be improved.

The control circuit may control the opening and closing of the exhaust damper 152 or the conversion damper 221 according to the carbon dioxide or dust concentration of the indoor air measured by the air supply system 100 or the carbon dioxide sensor or dust sensor mounted in the indoor space.

At this time, when a carbon dioxide sensor or a dust sensor is installed in the air supply system 100, indoor air flows into the air supply system 100 in order to prevent the indoor carbon dioxide or dust concentration measurement value from becoming inaccurate as the indoor air is mixed with outdoor air. It is preferable to mount it near the indoor exhaust pipe 150 or the indoor exhaust pipe 151.

When the dust concentration of the indoor air measured by the dust sensor is greater than or equal to the set value, the exhaust damper 152 is opened as shown in FIG. 3 to filter the foreign substances of the indoor air flowing into the air supply system 100 from the room (130). ), and then resupply to the room through the indoor supply pipe 121 is operated.

At this time, when the outdoor air supply unit 110 is closed by operating the switching damper 221 during the operation of the air cleaning mode, only recirculation of indoor air occurs through the indoor exhaust port 150. By operating the air cleaning mode while the air supply port 110 is closed, the indoor air temperature change due to the inflow of outdoor air is minimized, thereby minimizing the loss of cooling and heating energy.

When the carbon dioxide concentration of the indoor air measured by the carbon dioxide sensor is higher than the set value, the exhaust damper 152 is closed during the supply mode operation as shown in FIG. As indoor air is introduced, recirculation of indoor air can be prevented. By maximizing the amount of outdoor air inflow by blocking indoor air recirculation, the concentration of carbon dioxide in the indoor air can be lowered more quickly.

In addition, if the air supply mode is operated when the temperature difference between indoors and outdoors is large, indoor air temperature changes according to the inflow of outdoor air, and indoor cooling and heating energy efficiency may decrease. By mixing the indoor air cooled and heated with the outdoor air, it is possible to improve indoor cooling and heating energy efficiency by minimizing the range of changes in indoor temperature when operating in the air supply mode.

Although the embodiments of the present invention have been described with reference to the above contents, those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, the above-described embodiments are to be understood as illustrative and non-limiting in all respects, and the scope of the present invention described in the detailed description is indicated by the claims to be described later, and the meaning of the claims and All changes or modifications derived from the scope and its equivalent concept should be construed as being included in the scope of the present invention.

100: air supply system
110: outdoor air supply
111: outdoor supply institution
112: connector
120: indoor air supply
121: indoor supply engine
130: filter
140: air supply fan
150: indoor exhaust
151: indoor exhaust pipe
152: exhaust damper
200: discharge pipe
210: vacuum motor pump
220: connector
221: switching damper

Claims (5)

In the air supply system for ventilation inside the building,
An outdoor air supply device 110 formed on one side of the housing of the air supply system 100 to supply outdoor air into the air supply system 100;
An outdoor supply pipe 111 connecting the outdoor supply device 110 and the outside;
An indoor air supply device 120 formed on the other side of the housing of the air supply system 100 to discharge outdoor air, indoor air, or a mixture of indoor and outdoor air introduced into the air supply system 100 to the interior;
An indoor air supply pipe 121 connecting the indoor air supply device 120 and the interior;
A filter that is mounted inside the air supply system 100 so as to be located between the outdoor air supply device 110 and the indoor air supply device 120 to remove foreign substances in the indoor and outdoor air introduced from the outdoor air supply device 110 or the indoor exhaust device 150 ( 130) and;
An air supply fan 140 that is mounted between the indoor air supply unit 120 and the filter 130 to supply the mixture of outdoor air, indoor air, or indoor/outdoor air introduced into the air supply system 100 to the indoor air supply unit 120, and ;
An indoor exhaust port 150 formed on the side of the housing of the air supply system 100 so as to be positioned between the outdoor air supply device 110 and the filter 130 to supply indoor air into the air supply system 100;
Air supply so that one end is connected to the space between the exhaust port of the air supply fan 140 and the indoor air supply unit 120, and the other end is connected to the side of the outdoor supply pipe 111 through the connection pipe 220 and the connection unit 112 A discharge pipe 200 disposed on the side of the system 100;
A vacuum motor pump 210 that is mounted inside the discharge pipe 200 and discharges foreign substances inside the indoor supply pipe 121 to the outside by sequentially passing through the discharge pipe 200 and the connection pipe 220 and the outdoor supply pipe 111 ; And
A switching damper 221 mounted inside the outdoor supply pipe 111 on the side of the connector 112 to selectively open and close the outdoor supply device 110 or the connector 112;
Consisting of, the air supply mode for supplying outdoor air to the room by the operation of the switching damper 221 and the air cleaning mode operation to remove foreign substances in the indoor air, or cleaning to discharge foreign substances inside the indoor supply pipe 121 to the outside Mode operation is performed selectively,
The indoor exhaust pipe 150 is connected to the room through the indoor exhaust pipe 151, and an exhaust damper 152 is mounted on the indoor exhaust pipe 151 to control the opening and closing of the indoor exhaust pipe 151,
The air supply system 100 or the indoor space is equipped with a carbon dioxide sensor that measures the concentration of carbon dioxide contained in the indoor air, and when the measured carbon dioxide concentration is higher than the set reference value, the exhaust damper 152 is activated by the operation of the control circuit. A supply system having an indoor air cleaning function and a supply pipe cleaning function, characterized in that the indoor air concentration is quickly lowered by blocking the recirculation of indoor air when the supply mode is operated by closing ). In the air supply system for ventilation inside the building,
An outdoor air supply device 110 formed on one side of the housing of the air supply system 100 to supply outdoor air into the air supply system 100;
An outdoor supply pipe 111 connecting the outdoor supply device 110 and the outside;
An indoor air supply device 120 formed on the other side of the housing of the air supply system 100 to discharge outdoor air, indoor air, or a mixture of indoor and outdoor air introduced into the air supply system 100 to the interior;
An indoor air supply pipe 121 connecting the indoor air supply device 120 and the interior;
A filter that is mounted inside the air supply system 100 so as to be located between the outdoor air supply device 110 and the indoor air supply device 120 to remove foreign substances in the indoor and outdoor air introduced from the outdoor air supply device 110 or the indoor exhaust device 150 ( 130) and;
An air supply fan 140 that is mounted between the indoor air supply unit 120 and the filter 130 to supply the mixture of outdoor air, indoor air, or indoor/outdoor air introduced into the air supply system 100 to the indoor air supply unit 120, and ;
An indoor exhaust port 150 formed on the side of the housing of the air supply system 100 so as to be positioned between the outdoor air supply device 110 and the filter 130 to supply indoor air into the air supply system 100;
Air supply so that one end is connected to the space between the exhaust port of the air supply fan 140 and the indoor air supply unit 120, and the other end is connected to the side of the outdoor supply pipe 111 through the connection pipe 220 and the connection unit 112 A discharge pipe 200 disposed on the side of the system 100;
A vacuum motor pump 210 that is mounted inside the discharge pipe 200 and discharges foreign substances inside the indoor supply pipe 121 to the outside by sequentially passing through the discharge pipe 200 and the connection pipe 220 and the outdoor supply pipe 111 ; And
A switching damper 221 mounted inside the outdoor supply pipe 111 on the side of the connector 112 to selectively open and close the outdoor supply device 110 or the connector 112;
Consisting of, the air supply mode for supplying outdoor air to the room by the operation of the switching damper 221 and the air cleaning mode operation to remove foreign substances in the indoor air, or cleaning to discharge foreign substances inside the indoor supply pipe 121 to the outside Mode operation is performed selectively,
The indoor exhaust pipe 150 is connected to the room through the indoor exhaust pipe 151, and an exhaust damper 152 is mounted on the indoor exhaust pipe 151 to control the opening and closing of the indoor exhaust pipe 151,
The air supply system 100 or the indoor space is equipped with a dust sensor that measures the concentration of dust contained in the indoor air, and when the measured dust concentration is greater than or equal to a set reference value, the exhaust damper 152 is moved to the indoor exhaust pipe 151 by operation of the control circuit. ) Is opened to operate the air supply system 100 in the air cleaning mode, but foreign substances in the indoor air flowing into the air supply system 100 through the indoor exhaust port 150 are filtered by the filter 130 to prevent dust in the indoor air. An air supply system having an indoor air cleaning function and a supply pipe cleaning function, characterized in that the concentration is lowered. The method according to claim 1 or 2,
A plurality of indoor supply units 120 are formed, and the indoor supply pipes 121 connected to each indoor supply unit 120 are in communication with each of the indoor units, so that the indoor supply unit 121 can be used to provide the indoor air supply system. An air supply system having an indoor air cleaning function and a supply pipe cleaning function, characterized in that supplying air or purified indoor air. delete delete

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