KR102278858B1 - Intelligent air conditioner control system and method for improving indoor air quality - Google Patents

Abstract

The present invention relates to a system for controlling an air conditioner including an exhaust damper for controlling an exhaust flow rate and an outdoor air damper for controlling an outdoor air flow rate, receiving indoor air quality information and outdoor air quality information from an indoor air quality meter and an outdoor air quality meter, respectively a control server that determines an operating condition of the air conditioner by using the received indoor air quality information and the outdoor air quality information; and an air conditioning controller for controlling an operation of the air conditioner in response to the operating condition determined by the control server. including, wherein the air conditioning controller controls the exhaust damper and the outside air damper to operate in any one of a fully open state, a fully closed state, and a plurality of partially open states each having a different opening rate in response to the operating condition It is possible to provide an intelligent air conditioner control system for improving indoor air quality, characterized in that.

Description

INTELLIGENT AIR CONDITIONER CONTROL SYSTEM AND METHOD FOR IMPROVING INDOOR AIR QUALITY

The present invention relates to an intelligent air conditioner control system and control method for improving indoor air quality in multi-use facilities and residential spaces, and more particularly, to improve indoor air quality deterioration caused by air pollutants introduced and generated from outside and inside To this end, it relates to an intelligent air conditioner control system and control method that can automatically control the damper opening rate of an air conditioner through a series of control algorithm procedures that monitor air quality in real time and diagnose indoor air quality conditions.

As the time spent indoors increases, it is necessary to continuously manage harmful air pollutants such as fine dust and radon existing indoors.

In particular, air conditioners (or air conditioners) installed in libraries, daycare centers, department stores, and underground shopping centers such as multi-use facilities are generally installed for the purpose of controlling indoor temperature and removing indoor carbon dioxide to create a comfortable indoor environment. and is operated However, there is no operating plan for purifying indoor air by reflecting the concentration conditions of fine dust, formaldehyde, and radon, which are air pollutants that are recently an issue.

In addition, in the actual field, the operating conditions of the air conditioner are still managed depending on the field experience knowledge of the manager of the multi-use facility, and in particular, the operating conditions of the installed air conditioner are applied and operated regardless of the indoor air quality of the space. However, there was a problem in that it was difficult to improve the indoor air quality.

An object of the present invention, which was devised to solve the above-mentioned problems, is to continuously monitor indoor air quality and link the air conditioner control system with the air conditioner to suggest operating condition information related to the damper opening rate of the air conditioner. An object of the present invention is to provide an intelligent air conditioner control system and control method that can improve the air quality of an indoor space.

The intelligent air conditioner control system for improving indoor air quality according to an embodiment of the present invention is a system for controlling an air conditioner including an exhaust damper for controlling an exhaust flow rate and an outdoor air damper for controlling an outdoor air flow rate, and includes an indoor air quality meter and an outdoor air quality meter. A control server that receives indoor air quality information and outdoor air quality information from an air quality meter, respectively, and determines an operating condition of the air conditioner using the received indoor air quality information and the outdoor air quality information, and the operation determined by the control server an air conditioning controller for controlling an operation of the air conditioner in response to a condition, wherein the air conditioning controller sets the exhaust damper and the outside air damper to a fully open state, a fully closed state, and a different opening degree, respectively, in response to the operating condition It can be controlled to operate in any one of a plurality of partial open states having a rate.

In addition, the indoor air quality information may include indoor fine dust concentration, indoor carbon dioxide concentration, indoor temperature, and indoor humidity, and the outdoor air quality information may include outdoor fine dust concentration, outdoor temperature, and outdoor humidity.

In addition, when the indoor carbon dioxide concentration and the indoor fine dust concentration are below a reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature exceeds a reference value, the exhaust damper and the outdoor air damper are in a completely closed state, respectively. the operating conditions are set to operate, and the indoor carbon dioxide concentration and the indoor fine dust concentration are below a reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature, the humidity difference between the indoor humidity and the outdoor humidity, and the outdoor fine dust When the concentrations are respectively equal to or less than the reference value, the operating conditions may be set to stop the heat source device of the air conditioner and operate the exhaust damper and the outside air damper in a fully open state, respectively.

In addition, when the indoor carbon dioxide concentration is less than or equal to a reference value and the indoor fine dust concentration and the outdoor fine dust concentration are respectively greater than the reference value, the exhaust damper and the outdoor air damper set the 1-1 opening rate and the second The operating conditions are set to operate in a partially open state having an opening rate of 1-2, and when the indoor carbon dioxide concentration is less than or equal to a reference value, the indoor fine dust concentration exceeds the reference value, and the outdoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the external air damper may set the operating condition to operate in a partially open state having a 2-1 opening rate and a 2-2 opening rate, respectively.

In addition, the control server, when the indoor carbon dioxide concentration and the outdoor fine dust concentration exceed a reference value and the indoor fine dust concentration is less than or equal to a reference value, the exhaust damper and the outdoor air damper are respectively the 1-1 opening rate and the second The operating conditions are set to operate in a partially open state having an opening rate of 1-2, and when the indoor carbon dioxide concentration, the outdoor fine dust concentration, and the indoor fine dust concentration exceed a reference value, the exhaust damper and the outdoor air damper sets the operating conditions to operate in a partially open state having the 2-1 opening rate and the 2-2 opening rate, respectively, and when the indoor carbon dioxide concentration exceeds the reference value and the outdoor fine dust concentration is less than or equal to the reference value, The operating condition may be set such that the exhaust damper and the outside air damper operate in a partially opened state having the 3-1 th opening rate and the 3-2 th opening rate, respectively.

In addition, the 1-1 opening rate, the 2-1 opening rate, and the 3-1 opening rate have sequentially higher values, and the 1-2 opening rate, the 2-2 opening rate, The third-3 opening degree may have sequentially high values.

Also, the control server may receive the filter differential pressure measured by the filter differential pressure sensor of the air conditioner, and transmit a filter replacement message to the manager terminal when the filter differential pressure is within an abnormal range.

The intelligent air conditioner control method for improving indoor air quality according to an embodiment of the present invention is a method for controlling an air conditioner including an exhaust damper for controlling an exhaust flow rate and an outdoor air damper for controlling an outdoor air flow rate, and includes an indoor air quality meter and an outdoor air conditioner. An air quality information collecting step of collecting indoor air quality information and outdoor air quality information from an air quality meter, respectively, an operating condition determining step of determining an operating condition of the air conditioner using the collected indoor air quality information and the outdoor air quality information, and the and an air conditioner control step of controlling the operation of the air conditioner in response to the operation condition determined in the operation condition determination step, wherein the air conditioner control step includes the exhaust damper and the outdoor air in response to the operating condition. Control the damper to operate in any one of a plurality of partially open states each having a fully open state, a fully closed state, and a different opening rate, and the indoor air quality information includes: indoor fine dust concentration, indoor carbon dioxide concentration, indoor temperature, and indoor and humidity, and the outdoor air quality information may include outdoor fine dust concentration, outdoor temperature, and outdoor humidity.

In addition, in the determining of the operating conditions, when the indoor carbon dioxide concentration and the indoor fine dust concentration are respectively below a reference value and the temperature difference between the indoor temperature and the outdoor temperature exceeds the reference value, the exhaust damper and the outdoor air damper are completely setting the operating conditions to operate in a closed state, wherein the indoor carbon dioxide concentration and the indoor fine dust concentration are below a reference value, respectively, a temperature difference between the indoor temperature and the outdoor temperature, a humidity difference between the indoor humidity and the outdoor humidity, and When the outdoor fine dust concentration is less than or equal to the reference value, stopping the heat source device of the air conditioner and setting the operating conditions so that the exhaust damper and the outdoor air damper operate in a fully open state, the indoor carbon dioxide concentration is the reference value or less, and when the indoor fine dust concentration and the outdoor fine dust concentration respectively exceed the reference values, the exhaust damper and the outdoor air damper operate in a partially open state having a 1-1 opening rate and a 1-2 opening rate, respectively. setting the operating conditions, when the indoor carbon dioxide concentration is less than or equal to the reference value, the indoor fine dust concentration exceeds the reference value, and the outdoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper each have a 2-1 opening rate and setting the operating condition to operate in a partially open state having an opening rate of 2-2, and when the indoor carbon dioxide concentration and the outdoor fine dust concentration exceed a reference value and the indoor fine dust concentration is less than or equal to a reference value, the exhaust damper and setting the operating conditions so that the outdoor air damper operates in a partially open state having the 1-1 opening rate and the 1-2 opening rate, respectively, the indoor carbon dioxide concentration, the outdoor fine dust concentration, and the When the indoor fine dust concentration exceeds the reference value, setting the operating conditions so that the exhaust damper and the outdoor air damper operate in a partially open state having the 2-1 opening rate and the 2-2 opening rate, respectively; and the indoor carbon dioxide concentration exceeds a reference value. and when the outdoor fine dust concentration is less than or equal to a reference value, setting the operating conditions so that the exhaust damper and the outdoor air damper operate in a partially open state having the 3-1 opening rate and the 3-2 opening rate, respectively. may include.

The method may further include receiving the filter differential pressure measured by the filter differential pressure sensor of the air conditioner, and transmitting a filter replacement message to the manager terminal when the filter differential pressure is in an abnormal range.

According to the present invention, intelligent air conditioning that collects indoor air quality information and outdoor air quality information, and automatically controls operating conditions related to the damper opening rate of the air conditioner based on the collected air quality information, thereby improving the management convenience of the air conditioner manager A device control system and a control method may be provided.

In addition, according to the present invention, in response to indoor air quality and outdoor air quality, the opening rate of the exhaust damper and the outdoor air damper can be subdivided and controlled in a partially open state, so the intelligent air conditioner control that can improve indoor air quality in a short time Systems and control methods can be provided.

In addition, according to the present invention, an intelligent air conditioner control system that can reduce energy consumption by comparing indoor and outdoor temperatures and operating the air conditioner with the heat source device of the air conditioner stopped when the temperature difference is less than or equal to the reference value and a control method.

In addition, according to the present invention, when a filter pressure in an abnormal range is detected by collecting information on the filter differential pressure sensor installed inside the air conditioner, a message is sent to the manager of the air conditioner in advance to notify the filter replacement time. It is possible to provide an intelligent air conditioner control system and control method that can provide an operation guide for maintenance.

1 is a view showing an intelligent air conditioner system according to an embodiment of the present invention.
2 is a view showing an indoor air quality meter according to an embodiment of the present invention.
3 is a view showing an intelligent air conditioner control method for improving indoor air quality according to an embodiment of the present invention.
4 is a view showing in detail the operation condition determination step according to an embodiment of the present invention.
5 is a diagram illustrating a filter replacement message according to an embodiment of the present invention.

Hereinafter, embodiments related to the present invention are illustrated in the drawings and will be described in detail through detailed description. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention. .

In describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the component from other components, and the essence, order, or order of the component is not limited by the term. In addition, in this specification, when it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but each component It should be understood that another element may be “connected”, “coupled” or “connected” between elements. In the case of "connected", "coupled" or "connected", it is understood to be physically "connected", "coupled" or "connected" as well as electrically "connected", "coupled" or "connected" as needed. can be

Terms such as "~ unit (unit)", "~ group", "~ child", "~ module", etc. described in this specification mean a unit that processes at least one function or operation, which is hardware, software, or hardware and a combination of software. In addition, terms such as "comprises", "comprises" or "have" described in the present specification, unless otherwise stated, mean that the corresponding component may be embedded, so other components are excluded. Rather, it should be construed as being able to include other components further.

In addition, it is intended to clarify that the classification of the constituent parts in the present specification is merely a classification for each main function in charge of each constituent unit. That is, two or more components to be described below may be combined into one component, or one component may be divided into two or more for each more subdivided function. In addition, each of the constituent units to be described below may additionally perform some or all of the functions of other constituent units in addition to the main function it is responsible for. Of course, it may be carried out by being dedicated to it.

Hereinafter, an intelligent air conditioner control system and control method for improving indoor air quality according to an embodiment of the present invention will be described with reference to drawings related to embodiments of the present invention.

1 is a view showing an intelligent air conditioner system according to an embodiment of the present invention.

1 , an intelligent air conditioner system according to an embodiment of the present invention may include an air conditioner 100 and an intelligent air conditioner control system 200, and additionally an indoor air quality meter 10 and It may include an outdoor air quality meter 20 .

An air conditioner (Air Conditioner, 100) is a device for maintaining indoor air in a comfortable state, and it controls a certain indoor space to a temperature, humidity, and airflow distribution suitable for human activities, and removes dust in the air. can be performed.

The air conditioner 100 includes an exhaust duct 111, an outdoor air duct 112, a ventilation duct 113, an air supply duct 114, an exhaust damper 121, an outdoor air damper 122, a ventilation damper 123, It may be configured to include a supply air damper 124 , a heat source device 130 , a filter 140 , a differential pressure sensor 150 , and the like. In addition, the configuration of the air conditioner 100 may be changed to various types that are already known.

The exhaust duct 111 is for discharging air from the air conditioner 100 to the outside, and the outside air duct 112 is for introducing outside air into the air conditioner 100 .

In addition, the ventilation duct 113 is for introducing indoor air into the air conditioner 100 , and the air supply duct 114 is for supplying air from the air conditioner 100 to the room.

The exhaust damper 121 is for controlling an exhaust flow rate, and may be installed on the exhaust duct 111 or an exhaust port connected to the exhaust duct 111 .

The outdoor air damper 122 is for controlling the outdoor air flow rate, and may be installed on the outdoor air inlet side connected to the outdoor air duct 112 or the outdoor air duct 112 .

The ventilation damper 123 is for adjusting the ventilation flow rate, and may be installed on the ventilation duct 113 or a ventilation port connected to the ventilation duct 113 .

The air supply damper 124 is for adjusting the air supply flow rate, and may be installed on the air supply duct 114 or the air outlet side.

Each of these dampers 121 , 122 , 123 , and 124 may be implemented as an electric damper, and a plurality of partially open states having a fully open state, a fully closed state, and a step-by-step opening rate under the control of the air conditioning controller 220 . can operate as

The heat source device 130 is a device that cools and/or heats air, and the heated air may be supplied to the room through the air supply duct 114 or the like.

The filter 140 is for removing foreign substances or dust from the air introduced into the air conditioner 100 , and the air passing therethrough may be supplied to the room through the air supply duct 114 , etc.

For example, a pre-filter, a HEPA filter, an electrostatic precipitation filter, etc. may be used as the filter 140 .

The differential pressure sensor 150 is for measuring the differential pressure of the filter 140 . That is, the difference between the front and rear pressures of the filter 140 increases according to the deterioration of the filter 140 , and through this, the remaining life of the filter 140 and the replacement time can be grasped.

The intelligent air conditioner control system 200 may control the operating conditions of the air conditioner 100 based on the collected indoor air quality information and outdoor air quality information.

In this case, the indoor air quality information may be provided from the indoor air quality meter 10 located in an indoor space, and the outdoor air quality information may be provided from the outdoor air quality meter 20 located outdoors.

The intelligent air conditioner control system 200 may include a control server 210 and an air conditioning controller 220 .

The control server 210 receives indoor air quality information and outdoor air quality information from the indoor air quality meter 10 and the outdoor air quality meter 20, respectively, and uses the received indoor air quality information and outdoor air quality information to the air conditioner 100. can determine the operating conditions of Also, the control server 210 may transmit the determined operating condition of the air conditioner 100 to the air conditioning controller 220 through a network or the like.

The control server 210 may provide the indoor air quality information and outdoor air quality information collected to the network-connected manager terminal 30 , and also the operating state of the air conditioner 100 and the filter 140 to the manager terminal 30 . You can provide information related to when to replace, etc.

The air conditioning controller 220 may receive the driving condition determined by the control server 210 from the control server 210 and control the operation of the air conditioner 100 in response to the received driving condition.

In particular, the air conditioning controller 220 operates the exhaust damper 121 and the outside air damper 122 in one of a fully open state, a fully closed state, and a plurality of partial open states each having different opening rates in response to the operating conditions. can be controlled to do so. At this time, the ventilation damper 123 and the air supply damper 124 may be set to a fully open state.

The indoor air quality meter 10 may be located in a specific indoor space to measure indoor air quality. For example, indoor air quality information measured by the indoor air quality meter 10 may include indoor fine dust concentration (eg, PM 2.5, etc.), indoor carbon dioxide concentration, indoor temperature, and indoor humidity.

In addition, the indoor air quality meter 10 may be located separately from the air conditioner 100 in order to measure the air quality of the place where the actual user is located, and the measured indoor air quality information is transmitted to the control server 210 through the network. ) can be provided.

The outdoor air quality meter 20 may be located outdoors such as a building to measure outdoor air quality. For example, the outdoor air quality information measured by the outdoor air quality meter 20 may include outdoor fine dust concentration (eg, PM 2.5, etc.), outdoor temperature, and outdoor humidity.

Also, the outdoor air quality meter 20 may provide the measured outdoor air quality information to the control server 210 through a network.

Here, the network refers to a connection structure in which information exchange is possible between each node, such as a terminal and a server, and an example of such a network is the Internet, a local area network (LAN), and a wireless local area (Wireless LAN). network), wide area network (WAN), personal area network (PAN), 3G, 4G, 5G, LTE, Wi-Fi, and the like. The Internet is a TCP/IP protocol and several services existing in its upper layers, namely HTTP (HyperText Transfer Protocol), Telnet, FTP (File Transfer Protocol), DNS (Domain Name System), SMTP (Simple Mail Transfer Protocol), SNMP ( It refers to an open computer network structure that provides Simple Network Management Protocol), NFS (Network File Service), and NIS (Network Information Service).

The above-described method of determining the operating conditions of the air conditioner 100 by the control server 210 and the operation control method of the air conditioner 100 by the air conditioning controller 220 will be described in more detail.

After analyzing the collected indoor air quality information and outdoor air quality information, the control server 210 may determine the operating conditions of the air conditioning controller 220 according to the analysis result.

For example, the control server 210 refers to the collected indoor air quality information and outdoor air quality information, and when the indoor carbon dioxide concentration and the indoor fine dust concentration are below the reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature exceeds the reference value, air The operating conditions may be set so that the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 operate in a completely closed state (opening rate 0%), respectively.

When the driving condition for requesting the complete closing of each damper 121 and 122 is set, the air conditioning controller 220 may control the exhaust damper 121 and the outdoor air damper 122 to operate in a fully closed state in response thereto. .

In addition, when the indoor carbon dioxide concentration and the indoor fine dust concentration are below the reference value, respectively, the temperature difference between the indoor temperature and the outdoor temperature, the humidity difference between the indoor humidity and the outdoor humidity, and the outdoor fine dust concentration are below the reference value, the air The operating conditions may be set so that the heat source device 130 of the air conditioner 100 is stopped and the exhaust damper 121 and the outside air damper 122 operate in a fully open state (opening rate 100%), respectively.

When an operating condition requesting full opening of each damper 121 and 122 is set, the air conditioning controller 220 stops the operation of the heat source device 130 in response thereto, and closes the exhaust damper 121 and the outdoor air damper 122. It can be controlled to operate in a fully open state.

That is, when there is no large difference between indoor and outdoor temperature as in the seasons and the outdoor fine dust condition is good, energy consumption can be reduced by stopping the heat source device 130 and ventilating the air in the full outdoor and all exhaust state.

When the indoor carbon dioxide concentration is less than or equal to the reference value and the indoor fine dust concentration and the outdoor fine dust concentration respectively exceed the reference value, the control server 210 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 to the first However, operating conditions can be set to operate in a partially open state.

For example, in the partially open state of the first end, the exhaust damper 121 and the outside air damper 122 may operate in a partially open state having a 1-1 opening rate and a 1-2 opening rate, respectively. In this case, the 1-2 th opening rate may be set to a larger value than the 1-1 th opening rate.

When an operating condition requesting partial opening of the first end of each damper 121 and 122 is set, the air conditioning controller 220 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 in response thereto. It can be controlled to operate in a partially open state having a 1-1 opening rate and a 1-2 opening rate, respectively.

In addition, the control server 210 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 when the indoor carbon dioxide concentration is less than the reference value, the indoor fine dust concentration exceeds the reference value, and the outdoor fine dust concentration is less than or equal to the reference value. ) can be set to operate in a partially open state of the second stage.

For example, in the partially open state of the second end, the exhaust damper 121 and the outside air damper 122 may operate in a partially open state having a 2-1 opening rate and a 2-2 opening rate, respectively. In this case, the 2-2nd opening rate may be set to a larger value than the 2-1th opening rate.

When an operating condition requesting partial opening of the second end of each damper 121 and 122 is set, the air conditioning controller 220 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 in response thereto. It can be controlled to operate in a partially open state having a 2-1 opening rate and a 2-2 opening rate, respectively.

When the indoor carbon dioxide concentration and the outdoor fine dust concentration exceed the reference value and the indoor fine dust concentration is less than or equal to the reference value, the control server 210 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 in the first stage. Operating conditions can be set to operate in some open state.

When an operating condition requesting partial opening of the first end of each damper 121 and 122 is set, the air conditioning controller 220 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 in response thereto. It can be controlled to operate in a partially open state having a 1-1 opening rate and a 1-2 opening rate, respectively.

In addition, when the indoor carbon dioxide concentration, the outdoor fine dust concentration, and the indoor fine dust concentration exceed the reference values, the control server 210 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 to the second stage. Operating conditions can be set to operate in some open state.

When an operating condition requesting partial opening of the second end of each damper 121 and 122 is set, the air conditioning controller 220 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 in response thereto. It can be controlled to operate in a partially open state having a 2-1 opening rate and a 2-2 opening rate, respectively.

When the indoor carbon dioxide concentration exceeds the reference value and the outdoor fine dust concentration is less than or equal to the reference value, the control server 210 operates so that the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 operate in a partially open state of the third stage. You can set the operating conditions.

For example, in the partially open state of the third stage, the exhaust damper 121 and the outside air damper 122 may operate in a partially open state having a 3-1 opening rate and a 3-2 opening rate, respectively. In this case, the 3-2 opening rate may be set to a larger value than the 3-1 opening rate.

When an operating condition requesting partial opening of the third end of each damper 121 and 122 is set, the air conditioning controller 220 controls the exhaust damper 121 and the outdoor air damper 122 of the air conditioner 100 in response thereto. It can be controlled to operate in a partially open state having a 3-1 opening rate and a 3-2 opening rate, respectively.

The opening rate in the partially open state of the exhaust damper 121 and the outside air damper 122 may be set as follows. However, this is merely an example for understanding and may be set differently.

state opening rate Partially open (1st stage) Exhaust damper: 5%
Ambient air damper: 10% Partially open state (2nd stage) Exhaust damper: 10%
Ambient air damper: 15% Partially open state (3-level) Exhaust damper: 20%
Ambient air damper: 25%

In some open states, as the number of stages increases, the opening rate of each damper 121 and 122 may be set to increase. For example, the 1-1 opening rate (eg, 5%), the 2-1 opening rate (eg, 10%), and the 3-1 opening rate (eg, 10%) of the exhaust damper 121 . , 20%) may be sequentially (stepwise) set to have a high value.

In addition, a 1-2 opening rate (eg, 10%), a 2-2 opening rate (eg, 15%), and a 3-3 opening rate (eg, 20%) of the outside air damper 122 . %) may be sequentially (step-by-step) set to have a high value, and the opening rate of the outdoor air damper 122 may be set to be larger than the opening rate of the exhaust damper 121 in each partially open state.

2 is a view showing an indoor air quality meter according to an embodiment of the present invention.

2, the indoor air quality meter 10 according to the embodiment of the present invention includes a fine dust sensor 11, a volatile organic compound sensor 12, a carbon dioxide sensor 13, a noise sensor 14, a temperature sensor ( 15 ), a humidity sensor 16 , a formaldehyde sensor 17 , a radon sensor 18 , and a communication module 19 .

The fine dust sensor 11 may measure the concentration of fine dust in the indoor space where the indoor air quality meter 10 is located, and the volatile organic compound sensor 12 may measure the concentration of volatile organic compounds in the indoor space where the indoor air quality meter 10 is located. can be measured.

In this case, the fine dust sensor 11 may measure the fine dust concentration through a light scattering method.

The carbon dioxide sensor 13 may measure the concentration of carbon dioxide in the indoor space where the indoor air quality meter 10 is located, and the noise sensor 14 may measure the noise level of the indoor space where the indoor air quality meter 10 is located.

The temperature sensor 15 may measure the temperature of the indoor space where the indoor air quality meter 10 is located, and the humidity sensor 16 may measure the humidity of the indoor space where the indoor air quality meter 10 is located.

The formaldehyde sensor 17 may measure the formaldehyde concentration of the indoor space where the indoor air quality meter 10 is located, and the radon sensor 18 may measure the radon concentration of the indoor space where the indoor air quality meter 10 is located.

The communication module 19 is the indoor fine dust concentration, indoor carbon dioxide concentration, indoor volatile organic compound concentration, indoor noise level, indoor measured through the above-described sensors 11, 12, 13, 14, 15, 16, 17, 18. Air quality information such as temperature, indoor humidity, indoor formaldehyde concentration, and indoor radon concentration may be transmitted to the control server 210 through the network.

Meanwhile, the outdoor air quality meter 20 according to the embodiment of the present invention may have a configuration similar to that of the indoor air quality meter 10 described above.

However, since it is unnecessary to measure the carbon dioxide concentration outdoors, the outdoor air quality meter 20 includes a fine dust sensor, a volatile organic compound sensor, a noise sensor, a temperature sensor, a humidity sensor, a formaldehyde sensor, a radon sensor, and a communication module except for the carbon dioxide sensor. can be provided.

Accordingly, the outdoor air quality meter 20 transmits air quality information such as the measured outdoor fine dust concentration, outdoor volatile organic compound concentration, outdoor noise level, outdoor temperature, outdoor humidity, outdoor formaldehyde concentration, and radon concentration using a communication module. It can be transmitted to the control server 210 through the network.

Also, some sensors (eg, the noise sensor 14 ) may be omitted from the indoor air quality meter 10 and the outdoor air quality meter 20 .

3 is a view showing an intelligent air conditioner control method for improving indoor air quality according to an embodiment of the present invention.

3 is an intelligent air conditioner control method for improving indoor air quality according to an embodiment of the present invention, including an air quality information collection step (S100), a driving condition determination step (S200), and an air conditioner control step (S300). can

In the air quality information collection step S100 , indoor air quality information and outdoor air quality information may be collected from the indoor air quality meter 10 and the outdoor air quality meter 20 , respectively.

Indoor air quality information collected in this step (S100) includes indoor fine dust concentration, indoor carbon dioxide concentration, indoor temperature, and indoor humidity, and outdoor air quality information includes outdoor fine dust concentration, outdoor temperature, and outdoor humidity can do.

In the operation condition determination step S200 , the operation condition of the air conditioner 100 may be determined using the collected indoor air quality information and outdoor air quality information.

The above-described air quality information collection step ( S100 ) and driving condition determination step ( S200 ) may be performed by the control server 210 described above.

In the air conditioner control step S300 , the operation of the air conditioner 100 may be controlled in response to the operating condition determined in the operation condition determination step S200 .

In particular, in this step ( S300 ), the exhaust damper 121 and the outside air damper 122 are operated in one of a fully open state, a fully closed state, and a plurality of partially open states each having different opening rates in response to the operating conditions. can be controlled to do so.

This step S300 may be performed by the air conditioning controller 220 described above.

4 is a view showing in detail the operation condition determination step according to an embodiment of the present invention. 4, the operation condition determination step (S200) according to the embodiment of the present invention will be described in more detail.

First, the indoor carbon dioxide concentration check step (S201) may proceed. In this step S201, the collected indoor carbon dioxide concentration may be compared with a preset carbon dioxide reference value.

As a result of performing the indoor carbon dioxide concentration check step S201, when it is determined that the indoor carbon dioxide concentration is less than or equal to the reference value, the indoor fine dust concentration check step S202 may proceed. In this step S202, the collected indoor fine dust concentration may be compared with a preset indoor fine dust reference value.

In addition, when it is determined that the indoor fine dust concentration is less than or equal to the reference value as a result of the indoor fine dust concentration checking step S202 , the indoor/outdoor temperature difference checking step S203 may proceed. In this step ( S203 ), the temperature difference between the collected indoor temperature and the outdoor temperature may be calculated and then compared with a preset temperature reference value.

When it is determined that the indoor/outdoor temperature difference exceeds the reference value as a result of performing the indoor/outdoor temperature difference checking step (S203), the operation condition for completely closing the exhaust damper 121 and the outdoor air damper 122 is set (S204) may be performed. .

As a result of performing the indoor/outdoor temperature difference checking step S203 , when it is determined that the indoor/outdoor temperature difference is equal to or less than the reference value, the indoor/outdoor humidity difference checking step S205 may proceed. In this step (S205), the humidity difference between the collected indoor humidity and outdoor humidity may be calculated and compared with a preset humidity reference value.

As a result of checking the indoor/outdoor humidity difference step (S205), when it is determined that the indoor/outdoor humidity difference exceeds the reference value, the operation condition for completely closing the exhaust damper 121 and the outdoor air damper 122 is set (S204) is performed, When the indoor/outdoor humidity difference is less than or equal to the reference value, the outdoor fine dust concentration check step S206 may be performed. In this step (S206), the collected outdoor fine dust concentration and the outdoor fine dust standard value may be compared.

As a result of performing the outdoor fine dust concentration check step (S206), when it is determined that the outdoor fine dust concentration exceeds the reference value, the operation conditions for completely closing the exhaust damper 121 and the outdoor air damper 122 are set (S204) When the outdoor fine dust concentration is less than or equal to the reference value, the step of stopping the heat source device (S207), and the step (S208) of setting the operating conditions for fully opening the exhaust damper 121 and the outdoor air damper 122 may proceed.

When it is determined that the indoor fine dust concentration exceeds the reference value as a result of the indoor fine dust concentration checking step S202, the outdoor fine dust concentration checking step S209 may proceed. In this step ( S209 ), the collected outdoor fine dust concentration and the outdoor fine dust standard value may be compared.

As a result of performing the outdoor fine dust concentration check step (S209), when it is determined that the outdoor fine dust concentration exceeds the reference value, the operation conditions for partially opening the first end of the exhaust damper 121 and the outdoor air damper 122 are set ( S210) is performed, and when it is determined that the outdoor fine dust concentration is less than or equal to the reference value, a step S211 of setting operating conditions for partially opening the second end of the exhaust damper 121 and the outdoor air damper 122 may be performed. .

As a result of performing the above-described indoor carbon dioxide concentration check step S201 , when it is determined that the indoor carbon dioxide concentration exceeds the reference value, the outdoor fine dust concentration check step S212 may proceed. In this step (S212), the collected outdoor fine dust concentration may be compared with a preset outdoor fine dust standard value.

As a result of performing the outdoor fine dust concentration check step S212 , when it is determined that the outdoor fine dust concentration exceeds the reference value, the indoor fine dust concentration check step S213 may be performed. In this step S213, the collected indoor fine dust concentration may be compared with a preset indoor fine dust reference value.

As a result of performing the indoor fine dust concentration check step (S213), when the indoor fine dust concentration is determined to be less than or equal to the reference value, the operation conditions for partially opening the first end of the exhaust damper 121 and the outdoor air damper 122 are set ( S214) is performed, and when it is determined that the indoor fine dust concentration exceeds the reference value, a step S215 of setting operating conditions for partially opening the second end of the exhaust damper 121 and the outdoor air damper 122 may be performed. .

As a result of performing the above-described outdoor fine dust concentration checking step (S212), when it is determined that the outdoor fine dust concentration is less than or equal to the reference value, the operating conditions for partially opening the third stage of the exhaust damper 121 and the outdoor air damper 122 are set. Step S215 may be performed.

After the steps (S204, S208, S210, S211, S214, S215, S216) in which the operating conditions are set, the air conditioner 100 is operated for a certain period of time (eg, 1 hour) through the corresponding operating conditions ( S220) may be performed, and after a predetermined period of time has elapsed, the above-described driving condition determination step may be performed again.

5 is a diagram illustrating a filter replacement message according to an embodiment of the present invention.

Referring to FIG. 5 , the control server 210 may transmit a filter replacement message to the network-connected manager terminal 30 .

For example, the control server 210 receives the filter differential pressure measured by the filter differential pressure sensor 150 of the air conditioner 100 , and replaces the filter with the manager terminal 130 when the filter differential pressure is in an abnormal range. message can be sent.

Through this, it is possible to transmit a message informing the manager of the filter replacement time in advance, and it is possible to provide an operation guide for the maintenance of the air conditioner in real time.

Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the claims described below rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. should be interpreted

10: indoor air quality meter 20: outdoor air quality meter
30: manager terminal 100: air conditioner
111: exhaust duct 112: outdoor air duct
113: ventilation duct 114: supply air duct
121: exhaust damper 122: outside air damper
123: ventilation damper 124: supply air damper
130: heat source device 140: filter
150: differential pressure sensor 200: intelligent air conditioner control system
210: control server 220: air conditioning controller

Claims (10)

A system for controlling an air conditioner including an exhaust damper for controlling an exhaust flow rate, an outdoor air damper for controlling an outdoor air flow rate, and a heat source device, the system comprising:
a control server that receives indoor air quality information and outdoor air quality information from an indoor air quality meter and an outdoor air quality meter, respectively, and determines an operating condition of the air conditioner by using the received indoor air quality information and the outdoor air quality information; and
an air conditioning controller for controlling an operation of the air conditioner in response to the operating condition determined by the control server; including,
The air conditioning controller is
controlling the exhaust damper and the outside air damper to operate in any one of a fully open state, a fully closed state, and a plurality of partially open states each having a different opening rate in response to the operating condition,
The indoor air quality information is
including indoor fine dust concentration, indoor carbon dioxide concentration, indoor temperature, and indoor humidity,
The outdoor air quality information is
including outdoor fine dust concentration, outdoor temperature, and outdoor humidity,
The control server,
When the indoor carbon dioxide concentration and the indoor fine dust concentration are below the reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature exceeds the reference value, the operating conditions are set so that the exhaust damper and the outdoor air damper operate in a completely closed state, respectively. and,
When the indoor carbon dioxide concentration and the indoor fine dust concentration are below the reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature, the humidity difference between the indoor humidity and the outdoor humidity, and the outdoor fine dust concentration are below the reference value, the air stopping the heat source device of the air conditioner and setting the operating conditions so that the exhaust damper and the outside air damper operate in a fully open state, respectively;
When the indoor carbon dioxide concentration is less than or equal to the reference value and the indoor fine dust concentration and the outdoor fine dust concentration exceed the reference value, respectively, the exhaust damper and the outdoor air damper are higher than the 1-1 opening rate and the 1-1 opening rate, respectively. setting the operating condition to operate in a partially open state having a large first 1-2 opening degree,
When the indoor carbon dioxide concentration is less than the reference value, the indoor fine dust concentration exceeds the reference value, and the outdoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper have a 2-1 opening rate and a 2-1 opening rate, respectively. setting the operating condition to operate in a partially open state with a larger 2-2 opening degree,
When the indoor carbon dioxide concentration and the outdoor fine dust concentration exceed the reference value and the indoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper have the 1-1 opening rate and the 1-2 opening rate, respectively setting the operating conditions to operate in a partially open state,
When the indoor carbon dioxide concentration, the outdoor fine dust concentration, and the indoor fine dust concentration exceed the reference values, the exhaust damper and the outdoor air damper have the 2-1 opening rate and the 2-2 opening rate, respectively. setting the operating condition to operate in an open state,
When the indoor carbon dioxide concentration exceeds the reference value and the outdoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper set a 3-1 opening rate and a 3-2 opening rate greater than the 3-1 opening rate, respectively. setting the operating conditions to operate in a partially open state with
The 1-1 opening rate, the 2-1 opening rate, and the 3-1 opening rate have sequentially higher values,
The 1-2 opening rate, the 2-2 opening rate, and the 3-2 opening rate have sequentially higher values,
The control server,
Intelligent air conditioner control for improving indoor air quality, characterized in that receiving the filter differential pressure measured by the filter differential pressure sensor of the air conditioner, and transmitting a filter replacement message to the manager terminal when the filter differential pressure is in an abnormal range system. delete delete delete delete delete delete A method for controlling an air conditioner including an exhaust damper for controlling an exhaust flow rate, an outdoor air damper for controlling an outdoor air flow rate, and a heat source device, the method comprising:
an air quality information collecting step of collecting indoor air quality information and outdoor air quality information from an indoor air quality meter and an outdoor air quality meter, respectively;
an operating condition determining step of determining operating conditions of the air conditioner by using the collected indoor air quality information and the outdoor air quality information; and
an air conditioner control step of controlling the operation of the air conditioner in response to the operating condition determined in the operating condition determining step; including,
The air conditioner control step includes:
controlling the exhaust damper and the outside air damper to operate in any one of a fully open state, a fully closed state, and a plurality of partially open states each having a different opening rate in response to the operating condition,
The indoor air quality information includes indoor fine dust concentration, indoor carbon dioxide concentration, indoor temperature, and indoor humidity,
The outdoor air quality information includes outdoor fine dust concentration, outdoor temperature, and outdoor humidity,
The step of determining the driving conditions is
When the indoor carbon dioxide concentration and the indoor fine dust concentration are below the reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature exceeds the reference value, the operating conditions are set so that the exhaust damper and the outdoor air damper operate in a completely closed state, respectively. to do;
When the indoor carbon dioxide concentration and the indoor fine dust concentration are below the reference value, respectively, and the temperature difference between the indoor temperature and the outdoor temperature, the humidity difference between the indoor humidity and the outdoor humidity, and the outdoor fine dust concentration are below the reference value, the air stopping the heat source device of the air conditioner and setting the operating conditions so that the exhaust damper and the outdoor air damper operate in a fully opened state, respectively;
When the indoor carbon dioxide concentration is less than or equal to the reference value and the indoor fine dust concentration and the outdoor fine dust concentration exceed the reference value, respectively, the exhaust damper and the outdoor air damper are higher than the 1-1 opening rate and the 1-1 opening rate, respectively. setting the operating condition to operate in a partially open state having a large first-two opening degree;
When the indoor carbon dioxide concentration is less than the reference value, the indoor fine dust concentration exceeds the reference value, and the outdoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper have a 2-1 opening rate and a 2-1 opening rate, respectively. setting the operating condition to operate in a partially open state having a larger 2-2 opening degree;
When the indoor carbon dioxide concentration and the outdoor fine dust concentration exceed the reference value and the indoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper have the 1-1 opening rate and the 1-2 opening rate, respectively setting the operating condition to operate in a partially open state;
When the indoor carbon dioxide concentration, the outdoor fine dust concentration, and the indoor fine dust concentration exceed the reference values, the exhaust damper and the outdoor air damper have the 2-1 opening rate and the 2-2 opening rate, respectively. setting the operating condition to operate in an open state; and
When the indoor carbon dioxide concentration exceeds the reference value and the outdoor fine dust concentration is less than or equal to the reference value, the exhaust damper and the outdoor air damper set a 3-1 opening rate and a 3-2 opening rate greater than the 3-1 opening rate, respectively. setting the operating condition to operate in a partially open state with including,
receiving the filter differential pressure measured by the filter differential pressure sensor of the air conditioner, and transmitting a filter replacement message to the manager terminal when the filter differential pressure is in an abnormal range; An intelligent air conditioner control method for improving indoor air quality further comprising a. delete delete

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