KR102653694B1 - Ventilating System and control method thereof - Google Patents

Abstract

A ventilation system and its control method are disclosed. The ventilation system according to an embodiment of the present invention is a room control (R/C) that receives a predetermined command directly from the user or controls the in-house ventilation device according to a control command from a management server received through an in-house access point (AP). ; and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home.

Description

Ventilating system and control method thereof}

The present invention relates to ventilation systems.

When controlling ventilation devices, the degree of pollution of indoor air is an important factor to consider. To measure the air pollution level, an air monitor, etc. can be used, and the air monitor measures the predetermined measurement value of the air pollution level through a room control (R/C) connected to a short-distance communication method such as Bluetooth or Wi-Fi, or an indoor unit connected to Wi-Fi. It can be transmitted to the management server through an access point (AP). Then, the management server transmits a control command corresponding to the received pollution level measurement value to the room control, and the room control can control the ventilation device according to the received control command.

However, according to the prior art, if a failure occurs in the network between the room controller and the air monitor or the network between the management server and the air monitor, the values measured by the air monitor are not transmitted to the room controller or management server, making it impossible to properly control the ventilation device. There is a problem that I cannot do.

Korean Patent Publication No. 10-2007-0062142 (2007.6.15) Ventilation system and its control method.

The present invention provides a ventilation system and its control that can control the ventilation device 120 according to the value measured by the first air monitor 130 even if a direct connection between the room conditioner (R/C) and the first air monitor fails. We would like to provide a method.

In addition, even if a network failure occurs between the 2nd to Nth (where N is a natural number) air monitor and the management server, the ventilation system can control the ventilation device by reflecting the values measured from the 2nd to Nth air monitors. and its control method.

According to one aspect of the present invention, a room control (R/C) that receives a predetermined command directly from a user or controls an in-house ventilation device according to a control command from a management server received through an in-house access point (AP); and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home, wherein the management server, the in-house access point, the room controller, and the N-th air monitor are respectively System information including information about devices, information necessary to connect devices to each other, and user information is shared, and the first pre-designated air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are connected directly to the room controller. The monitor is wirelessly connected to the in-house access point (AP), the room control is wired to the in-house access point (AP), and when a short-distance communication connection between the room control and the first air monitor fails, the first air The monitor may be wirelessly connected to the in-house access point (AP) using the system information, and a ventilation system may be provided that is connected to the management server through the wirelessly connected access point.

In addition, when a short-distance communication connection failure occurs between the room control and the first air monitor, the room control searches for connectable peripheral devices, and the room control internal communication unit allows for the air monitor sharing the system information. Up to a large number of devices can be connected directly through short-distance communication.

In addition, when a plurality of air monitors are directly connected to the room control, the room control monitors the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among the air monitors that transmit an illuminance value higher than the specified minimum value. You can control it.

According to another aspect of the present invention, a room control (R/C) that receives a predetermined command directly from a user or controls an in-house ventilation device according to a control command from a management server received through an in-house access point (AP); and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home, wherein the management server, the in-house access point, the room controller, and the N-th air monitor are respectively System information including information about devices, information necessary to connect devices to each other, and user information is shared, and the first pre-designated air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are connected directly to the room controller through short-distance communication. The monitor is wirelessly connected to the in-house access point (AP), the room controller is wired to the in-house access point (AP), and when a network failure occurs between the second to Nth air monitors and the management server, the room controller A ventilation system can be provided that searches for nearby devices capable of direct connection and directly connects to the number of air monitors sharing the system information through short-distance communication up to the number allowed by the room control internal communication unit.

In addition, when the network between the second to Nth air monitors and the management server is restored, the room controller recognizes the network restoration according to the information received from the management server and connects with air monitors other than the first air monitor. The direct connection can be terminated.

Additionally, the air monitor whose direct connection has been terminated can wirelessly connect to the home access point using the system information.

Additionally, when the first illuminance value received from the first air monitor is below a specified minimum value, the room control may operate the ventilation device in a power saving mode or below a specified level.

In addition, when a plurality of air monitors are directly connected to the room control, the room control monitors the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among the air monitors that transmit an illuminance value higher than the specified minimum value. You can control it.

According to another aspect of the present invention, a room control (R/C) that receives a predetermined command directly from a user or controls an in-house ventilation device according to a control command from a management server received through an in-house access point (AP); and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home, wherein the management server, the in-house access point, the room controller, and the N-th air monitor are respectively System information including information about devices, information necessary to connect devices to each other, and user information is shared, and the first pre-designated air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are connected directly to the room controller. A method of controlling a ventilation system in which a monitor is wirelessly connected to the in-house access point (AP), and the room control is wired to the in-house access point (AP), comprising: (a) short-distance communication between the room control and the first air monitor; When a connection failure occurs, the first air monitor wirelessly connects to the in-house access point (AP) using the system information; (b) connecting the first air monitor to the management server through a wireless access point; (c) the management server authenticating the first air monitor using the system information; and (d) the management server transmitting a predetermined control command to the room control according to the measurement value received from the first air monitor.

In addition, step (a) includes, when a short-distance communication connection between the room control and the first air monitor fails, inquiring about peripheral devices that the room control can connect to; And it may include the step of directly connecting the room control to the air monitor sharing the system information through short-distance communication up to the number of air monitors allowed by the room control internal communication unit.

In addition, when a plurality of air monitors are directly connected to the room control, the room control monitors the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among the air monitors that transmit an illuminance value higher than the specified minimum value. A control step may be further included.

According to another aspect of the present invention, a room control (R/C) that receives a predetermined command directly from a user or controls an in-house ventilation device according to a control command from a management server received through an in-house access point (AP); and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home, wherein the management server, the in-house access point, the room controller, and the N-th air monitor are respectively System information including information about devices, information necessary to connect devices to each other, and user information is shared, and the first pre-designated air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air In the control method of a ventilation system in which the monitor is wirelessly connected to the in-house access point (AP), and the room control is wired to the in-house access point (AP), (a) second to Nth air monitors and the management server When a network failure occurs, the room controller searches for nearby devices capable of direct connection; and (b) a step of directly connecting the room control to the number of air monitors sharing the system information through short-distance communication up to the number allowed by the internal communication unit of the room control. A control method of a ventilation system can be provided.

In addition, (c) when the network between the second to Nth air monitors and the management server is restored, the room control recognizes the network restoration according to the information received from the management server, and other than the first air monitor The step of terminating the direct connection with the air monitor may be further included.

In addition, (d) the air monitor whose direct connection is terminated may further include the step of wirelessly connecting to the home access point using the system information.

Additionally, when the first illuminance value received from the first air monitor is below a specified minimum value, the room control may further include operating the ventilation device in a power saving mode or below a specified level.

In addition, after step (b), when a plurality of air monitors are directly connected to the room control, the room control measures the illuminance value measured at the air monitor closest to the room control among the air monitors transmitting an illuminance value higher than the specified minimum value. The method may further include controlling the ventilation device by reflecting the degree of contamination.

The ventilation system and its control method according to an embodiment of the present invention operates the ventilation device ( 120) has the advantage of being able to control it.

In addition, even if a network failure occurs between the 2nd to Nth (where N is a natural number) air monitor and the management server, the advantage is that the ventilation device can be controlled by reflecting the values measured from the 2nd to Nth air monitors. there is.

1 is a diagram illustrating the configuration of a ventilation system according to an embodiment of the present invention.
Figure 2 is a diagram illustrating a method of controlling a ventilation system according to an embodiment of the present invention when a direct connection failure occurs between a room control and a first air monitor.
Figure 3 is a diagram illustrating a method for controlling a ventilation system according to an embodiment of the present invention when a network failure occurs between the second to third air monitors and the management server.

Since the present invention can be modified in various ways and can have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention.

In describing the present invention, if it is determined that a detailed description of related known technologies may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, numbers (eg, first, second, etc.) used in the description of this specification are merely identifiers to distinguish one component from another component.

In addition, throughout the specification, when a component is referred to as "connected" or "connected" to another component, the component may be directly connected or directly connected to the other component, but in particular Unless there is a contrary description, it should be understood that it may be connected or connected through another component in the middle.

In addition, throughout the specification, when a part "includes" a certain element, this means that it may further include other elements rather than excluding other elements, unless specifically stated to the contrary. In addition, terms such as “unit” and “module” used in the specification mean a unit that processes at least one function or operation, which means that it can be implemented with one or more hardware or software or a combination of hardware and software. .

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

1 is a diagram illustrating the configuration of a ventilation system according to an embodiment of the present invention.

Referring to Figure 1, the ventilation system according to an embodiment of the present invention includes a ventilation device 120, a room control (R/C) 110, an in-house access point (AP) 180, a management server 160, and a mobile terminal. It may include (170) and the Nth (where N is a natural number) air monitor (for example, 130, 140, 150). Since the individual functions of the above-described configuration are known technologies at the time of application for the present invention, detailed description thereof will be omitted.

In this specification, ventilation devices should be interpreted in a broad sense to include clean ventilation systems or air-conditioning devices in addition to the function of the ventilation itself, which exchanges indoor air with air outside the window.

In Figure 1, it is illustrated that the room control (R/C) 110 is connected to the ventilation device side communication unit 121 of the ventilation device 120 through RS-485, but this is only an embodiment and serial communication or power line communication is used. It can be connected through various communications such as:

Additionally, the room control communication unit 110 may include a WIFI communication module (not shown), a LAN communication module (not shown), and a Bluetooth communication module (not shown).

The room control communication unit 111 according to an embodiment of the present invention is described assuming that it is connected to the in-house access point (AP) 180 by wire, but may be connected wirelessly via Wi-Fi.

In addition, the room control communication unit 111 according to an embodiment of the present invention is directly connected to a designated air monitor, for example, the first air monitor 130, through a short-distance communication method such as Bluetooth or WIFI. can be connected directly, and if necessary, a plurality of air monitors located in the house up to the number allowed by the room control (R/C) internal communication unit 111 (for example, the second air monitor 136 in FIG. 1, the third air monitor 136 in FIG. It can be directly connected to the air monitor (138), etc. through short-distance communication.

In Figure 1, the mobile terminal 170 is illustrated as being located outside the home, but this is only an example. It is wirelessly connected to the access point 180 within the home via Wi-Fi and connected to the management server 160, or is moved within the home. It may be connected to the management server 160 through a communication network (e.g., 3G, 4G, etc.).

In addition, the mobile terminal 170 may be, for example, a smartphone, tablet, iPad, laptop, etc., and can be connected to the management server 160 only for authenticated users through a pre-installed app or application. there is.

The sensing units 133, 143, and 153 of the air monitors 130, 140, and 150 according to an embodiment of the present invention measure air pollution (e.g., fine dust (PM2,5), volatile organic compounds (VOC), and VOCs. Based on the numerical value (carbon dioxide equivalent, temperature, humidity, etc.), the illuminance of the point where the air monitor (130, 140, 150) is located can be measured.

Although it is illustrated in Figure 1 that the first to third air monitors 130, 140, and 150 are provided, the number of air monitors may vary depending on the environment to which the present invention is applied.

The management server 160, the in-house access point 180, the room control (R/C) 110, and the Nth monitor 130, 140, and 150 according to an embodiment of the present invention store information about each device and each other. Information necessary for connection and system information including user information can be stored in advance, and when updated by the management server 160, etc., the updated system information can be shared.

For example, system information includes the device address (bluetooth device address) and Pin required for the room control (R/C) 110 to directly connect to the air monitors 130, 140, and 150 through short-distance communication methods such as Bluetooth and Wi-Fi. It may contain one or more of the following information: code, random number (RAND), link key, and device name.

For example, the system information may include the address of the in-house access point 180, a connection password, etc. for the air monitors 130, 140, and 150 to wirelessly connect to the in-house access point 180 through Wi-Fi communication.

For example, the system information may include user information related to authentication when the air monitors 130, 140, and 150 request connection to the management server 160 through the in-house access point 180.

For example, the system information may include user information related to authentication or information about the mobile terminal 170 when the mobile terminal 170 requests a connection to the management server 160.

Hereinafter, in this embodiment, the pre-designated first air monitor 130 is directly connected to the room control (R/C) 110 through short-distance (Bluetooth, Wi-Fi, etc.) communication, and the second to Nth air monitors (e.g. , 140 and 150 in FIG. 1 are explained on the assumption that the in-house access point (AP) is wirelessly connected to the in-house access point (AP) through Wi-Fi communication, and the room control (R/C) 110 is wired to the in-house access point (AP). This is only an example, and the method in which each device is connected, the direct connection communication method connected to the room control, and the type and number of air monitors may be modified and changed depending on the environment to which the present invention is applied.

According to an embodiment of the present invention, when a failure occurs in the short-distance communication connection between the room control (R/C) 110 and the first air monitor 130, the first air monitor 130 uses system information to establish an in-house access point. It can be connected wirelessly to (AP) 180 and connected to the management server 160 through the wirelessly connected in-house access point 180. This point will be explained in detail with reference to FIG. 2 below.

In addition, according to an embodiment of the present invention, between the second to Nth air monitors (for example, 140 and 150 in FIG. 1) wirelessly connected to the in-house access point (AP) 180 through Wi-Fi communication and the management server 160 If a network failure occurs, the room control (R/C) 110 searches for connectable peripheral devices and sends a room control (for example, 140 and 150 in FIG. 1) that shares system information. R/C) (110) can be directly connected through short-distance communication up to the number of units allowed by the internal communication unit (131 in FIG. 1). This point will be explained in detail with reference to FIG. 3 below.

Hereinafter, in the description with reference to FIGS. 2 and 3, each component (e.g., room control (R/C) 110, air monitor (130, 140, 150), management server 160, and mobile terminal When (170)) transmits and receives a predetermined signal (or data), specifically, the communication unit included in the corresponding component (e.g., the room control communication unit 111, the air monitor communication unit 131, 141, and 151, and the management server side) The communication unit 161 and the mobile terminal-side communication unit 171) transmit and receive the corresponding message, but since this can also be implemented in various ways within the corresponding component, hereinafter, a predetermined signal (or data) is transmitted using the corresponding component as the main body. Each is explained as sending and receiving.

FIG. 2 is a diagram illustrating a method of controlling a ventilation system according to an embodiment of the present invention when a direct connection failure occurs between the room control (R/C) 110 and the first air monitor 130.

Referring to FIG. 2, as previously assumed, in step S202, the room control (R/C) 110 can be directly connected to the designated first air monitor 130 through short-distance communication, and the pollution level measured by the first air monitor Based on the value, the ventilation device (120 in FIG. 1) can be controlled. Here, the room control (R/C) 110 displays the measured value of the first air monitor 130 to the user and controls the ventilation device 120 by directly receiving a predetermined control command from the user, or the user controls the room control ( The ventilation device 120 is controlled according to the settings previously specified in the R/C) 110 and the measured value of the first air monitor 130, or the measured value of the first air monitor 130 is sent to the management server 160. After transmission, a predetermined control command is received from the management server 160 to control the ventilation device 120, or a predetermined control command is received according to the user's input from the mobile terminal 170 connected to the management server 160. The ventilation device 120 can be controlled.

Subsequently, in step S204, a failure may occur in the connection between the room control (R/C) 110 and the first air monitor 130, which are directly connected through short-distance communication.

In this case, in step S206, the first air monitor 130 can wirelessly connect to the in-house access point 180 through Wi-Fi communication using the address and connection password of the in-house access point 180 in the shared system information. there is.

Subsequently, in step S208, the first air monitor 130 may request a connection to the management server 160 using the address of the management server 160 and user information for authentication in the shared system information, and the management server 160 ) can extract information and user information about the first air monitor 130 from the shared system information and authenticate the first air monitor 130, and then in step S210, the first air monitor 130 and the management server (160) can be connected.

Subsequently, in step S212, the management server 160 may transmit a predetermined control command corresponding to the air pollution level measurement value received from the first air monitor 130 to the room controller (R/C) 110, and the room controller (R) /C) (110) can control the ventilation device (120) according to the control command received from the management server (160).

According to the prior art, when a failure occurs in the direct connection between the room control (R/C) 110 and the first air monitor 130, the value measured by the first air monitor 130 for air pollution is the room control (R/C) 110. There was a problem that it could not be transmitted to C) (110) or the management server (160). In this case, there is a problem that the ventilation device 120 cannot be controlled by reflecting the value measured by the first air monitor 130.

However, according to an embodiment of the present invention, even if a failure occurs in the direct connection between the room control (R/C) 110 and the first air monitor 130, the first air monitor 130 can use the in-house access point 180. It can be connected to the management server 160 through, and the management server 160 generates a predetermined control command based on the value measured by the first air monitor 130 and transmits it to the room controller (R/C) 110. , there is an advantage that the ventilation device 120 can be controlled according to the value measured by the first air monitor 130.

Additionally, the room control (R/C) 110 according to an embodiment of the present invention may recognize that a direct connection failure with the first air monitor 130 has occurred in step S214.

Here, when a failure occurs in the direct connection as exemplified in step S204, the room control (R/C) 110, as a device on one side of the direct connection, may immediately recognize the failure occurring in the direct connection, and the management server in step S210 After (160) is connected to the first air monitor (130), the system information can be updated and transmitted to the room control (R/C) 110 in step S212, and the room control (R/C) 110 is connected to the management server 160. ) may be used to recognize that a failure has occurred in the direct connection with the first air monitor 130.

Next, in step S216, the room controller (R/C) 110 may search for nearby devices capable of short-distance communication. In this embodiment, the room control (R/C) 110 has been described as inquiring for nearby devices capable of short-distance communication in step S216 after recognizing that a direct connection failure has occurred in step S214. However, the search is performed in specified time units. It will be apparent to those skilled in the art that an inquiry can be made in light of the technical idea of the present invention.

In this embodiment, in addition to the first air monitor 130, additional air monitors present indoors (e.g., the second air monitor 140 and the third air monitor 150 in FIG. 1) are always searchable (inquiry). ), and therefore the room control (R/C) 110 can search for the second to third air monitors 140 and 150 in step S216.

Subsequently, in step S218, the room control (R/C) 110 can directly connect to the second to third air monitors 140 and 150 that share system information through short-distance communication up to the number allowed by the room control internal communication unit. .

Therefore, according to an embodiment of the present invention, even if a failure occurs in the connection of the first air monitor 130 to which the room control (R/C) 110 is directly connected, other nearby air monitors (i.e., the second air monitor in FIG. 1) (140) and the third air monitor (150)) can be directly connected, and the value measured by the air monitor can be output to the user, and the user can send a predetermined control command based on it to the room control (R/C) ( 110) has the advantage of being able to input it.

When a problem occurs in the direct connection between the room control (R/C) 110 and the first air monitor 130, illustrated in FIG. 2, the control method of the ventilation system according to an embodiment of the present invention is an example. It can be modified and changed in various ways depending on the environment to which the present invention is applied.

For example, step S214 can be omitted, the room controller can search for peripheral devices capable of short-distance communication in designated time units, and the second to third air monitors 140 and 150 are selectively in a searchable state (inquirable). It can be converted and directly connected to short-distance communication in step S218. More specifically, the second to third air monitors 140 and 150 located in the home are wirelessly connected to the in-house access point 180 through Wi-Fi communication and are connected to the management server 160, as described above. Updated system information (it was described above that the management server can update in step S210) can be received from the management server 160. Then, the second to third air monitors 140 and 150 recognize that the first air monitor 130 is not directly connected to the room control (R/C) 110 according to the updated system information, and then turn on the room control. As a preparation step for direct connection to (R/C) 110, it may be converted to a searchable state (inquirable).

Figure 3 is a diagram illustrating a method of controlling a ventilation system according to an embodiment of the present invention when a network failure occurs between the second to third air monitors 140 and 150 and the management server 160.

As previously described with reference to FIGS. 1 and 2, the room control (R/C) 110 is directly connected to the first air monitor 130 through short-distance communication, and the second to third air monitors 140 and 150 It is assumed that the wireless connection is made to the in-house access point (AP) 180 via Wi-Fi communication and then connected to the management server 160.

Referring to FIG. 3, a failure may occur in the network between the second to third air monitors 140 and 150 and the management server 160 in step S302. For example, a failure may occur in the wireless connection between the second to third air monitors 140 and 150 and the in-house access point 180, and the Ethernet connection between the in-house access point (AP) 180 and the management server 160 may occur. Failure may occur.

At this time, the second to third air monitors 140 and 150 are always in a searchable state as described above with reference to FIG. 2, or are selectively activated after recognizing that a network failure with the management server 160 has occurred. It can be converted to a searchable state (inquirable). Since this was explained with reference to FIG. 2, redundant explanation will be omitted.

Next, in step S304, the room controller (R/C) 110 may search for nearby devices capable of short-distance communication in designated time units. In this embodiment, it is assumed that the room control (R/C) 110 continues to search in specified time units, but for example, after the management server 160 recognizes that a network failure has occurred, the system information is updated. And, if the wired connection between the room control (R/C) (110) and the in-house access point (AP) (180) and the connection between the in-house access point (180) and the management server (160) are normal, the room control (R/C) (110) ) can receive updated system information from the management server 160, and the room control (R/C) 110 allows the second to third air monitors 140 and 150 to receive updated system information from the management server 160. ), you can start an inquiry for a direct connection.

Subsequently, in step S306, the internal communication unit 111 of the room control (R/C) 110 allows the second to third air monitors 140 and 150 that share system information. Up to a number of devices can be connected directly through short-distance communication.

According to conventional technology, when a failure occurs in the network between the second to third air monitors (140, 150) and the management server (160), the values measured by the second to third air monitors (140, 150) are transmitted to the room controller ( Since it was not transmitted to the R/C (110) or management server (160), there was a problem that the ventilation device (120) could not be properly controlled.

However, according to an embodiment of the present invention, when a failure occurs in the network between the second to third air monitors 140 and 150 and the management server 160, the internal communication unit 111 of the room control (R/C) 110 allows Since up to a number of units are directly connected through short-distance communication, the values measured by the second to third air monitors 140 and 150 can be received by the room control (R/C) 110. Therefore, when the room control (R/C) 110 is connected to the management server 160 through the in-house access point 180, the management server reflects the values measured by the second to third air monitors 140 and 150. Therefore, there is an advantage that the ventilation device 120 can be appropriately controlled by transmitting a predetermined control command to the room control (R/C) 110.

If a network failure occurs between the in-house access point (AP) 180 and the management server 160 and the room control (R/C) 110 cannot connect to the management server 160, according to an embodiment of the present invention, The room control (R/C) 110 can control the ventilation device 120 with a predetermined command according to the user's preset settings and the measured values of the second to third air monitors 140 and 150. In addition, the measured values of the second to third air monitors 140 and 150 are output to the display unit (not shown) provided in the room control (R/C) 110 to receive a predetermined command from the user and the ventilation device 120 ) can also be controlled.

Subsequently, when the network between the in-house access point 180 and the management server 160 is restored in step S308, the management server 160 sends a predetermined message to the room control (R/C) 110 through the in-house access point 180. can be transmitted to.

Subsequently, in step S312, the room control (R/C) 110 recognizes network recovery according to a predetermined message received from the management server 160, and in step S314, the room control (R/C) 110 In addition to the air monitor 130, the direct connection between other directly connected air monitors (the second to third air monitors 140 and 150 in FIG. 3) can be terminated.

Subsequently, in step S316, the second to third air monitors 140 and 150 can be connected to the in-house access point 180 and the management server 160 using the shared system information.

So far, the control method of the ventilation system according to an embodiment of the present invention has been described with reference to FIGS. 2 and 3. However, the present invention is not limited to the flowchart illustrated in FIGS. 2 and 3, and depending on the environment to which the present invention is applied, some steps illustrated in FIGS. 2 and 3 may be omitted, the order may be changed, or certain steps may be added. It can be modified and applied, and this will also be apparent to those skilled in the art in light of the technical idea of the present invention.

According to another embodiment of the present invention, the room control (R/C) 110 saves power by operating the ventilation device 120 when the illuminance value at the location of the first air monitor received from the first air monitor 130 is below the specified minimum value. It can be operated in mode or below a specified level.

For example, if the user is not at the location of the first air monitor 130 indoors but at another location of the air monitor, the lighting at the point where the first air monitor 130 is located may be below the specified minimum value because there is no user. Therefore, according to an embodiment of the present invention, when the illuminance value at the first air monitor location received from the first air monitor 130 is below the specified minimum value, it is determined that the user is not at the first air monitor 130 location and ventilation is performed. The device 120 can be controlled to operate in a power saving mode or below a specified level.

In addition, according to another embodiment of the present invention, when a plurality of air monitors are directly connected to the room control (R/C) 110, the room control (R/C) 110 transmits an illuminance value higher than the specified minimum value. Among the monitors, the ventilation device 120 can be controlled by reflecting the pollution level measured by the air monitor closest to the room control (R/C) 110. Here, the distance between the room control (R/C) 110 and the air monitor is determined in advance by air monitors, and the distance between the room control (R/C) 110 is included in the above-mentioned system information in advance, or a GPS module (not shown) is installed in the air monitor. time) is included, and the location of the air monitor measured by the GPS module (not shown) may be transmitted to the room control (R/C) 110 or the management server 160. In light of the technical idea of the present invention, it is known to those skilled in the art It will be self-explanatory.

According to an embodiment of the present invention, a plurality of air monitors may be directly connected to the room control (R/C) 110 as in step S218 of FIG. 2 or step S306 of FIG. 3. At this time, as described above, the room control can estimate that the user is not in the location if the illuminance value measured by the air monitor is below the specified minimum value. Therefore, the room control (R/C) 110 reflects the pollution level measured at the air monitor with the closest distance among the air monitors whose illuminance value measured at each location is more than the specified minimum value among the plurality of directly connected air monitors and controls the ventilation device ( 120) can be controlled.

For example, the room control (R/C) 110 and the first air monitor 130 are located in the living room, the second air monitor 140 is located in the large room, and the third air monitor 150 is located in the small room. Assume that it is directly connected to the room control (R/C) 110. Also, let's assume that the user is located in a large room and the lights in the large room are turned on, and the lights in the living room and small room are turned off. In this case, the room controller controls the ventilation device 120 based on the second air monitor 140, where the illuminance value measured by the air monitor is greater than the specified minimum value, and controls the ventilation device 120 by sufficiently reflecting the point where the user is located. There is an advantage to being able to do it.

According to an embodiment of the present invention, when the management server 160 updates system information in step S210 of FIG. 2 or step S302 or step S310 of FIG. 3, the information is sent to the user's mobile terminal connected to the management server 160. It can be sent to (170) and output on a certain user interface. And, a predetermined control command input from the user to the mobile terminal 170 (for example, directly connecting a predetermined air monitor among a plurality of air monitors to the room control (R/C) 110 or controlling the ventilation device 120 It will be apparent to those skilled in the art in light of the technical idea of the present invention that a predetermined control command for ) can be transmitted to the room controller (R/C) 110 through the management server 160.

Although the present invention has been described above with reference to embodiments, those skilled in the art can modify the present invention in various ways without departing from the spirit and scope of the present invention as set forth in the claims below. It will be easy to understand that and can be changed.

110: Room control
120: Ventilation device
130 to 150: Air monitor
160: Management server
170: mobile terminal
180: In-house access point

Claims (16)

A room control (R/C) that receives a predetermined command directly from the user or controls the ventilation device in the home according to a control command from a management server received through an access point (AP) in the home; and
Nth (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home;
Including,
The management server, the in-house access point, the room controller, and the Nth air monitor each share system information including information about the device, information necessary to connect devices to each other, and user information,
The pre-designated first air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are wirelessly connected to the in-house access point (AP),
The room control is connected by wire to the in-house access point (AP),
If a short-range communication connection between the room controller and the first air monitor fails, the first air monitor wirelessly connects to the in-house access point (AP) using the system information, and manages the management server through the wirelessly connected access point. Connected to the ventilation system.
According to paragraph 1,
If a failure occurs in the short-distance communication connection between the room control and the first air monitor,
A ventilation system in which the room control searches for connectable peripheral devices and directly connects to the number of air monitors sharing the system information through short-distance communication up to the number allowed by the internal communication unit of the room control.
According to paragraph 2,
If multiple air monitors are directly connected to the room controller,
A ventilation system in which the room control controls the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among air monitors that transmit an illuminance value higher than a specified minimum value.
A room control (R/C) that receives a predetermined command directly from the user or controls the ventilation device in the home according to a control command from a management server received through an access point (AP) in the home; and
Includes an Nth (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home,
The management server, the in-house access point, the room controller, and the Nth air monitor each share system information including information about the device, information necessary to connect devices to each other, and user information,
The pre-designated first air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are wirelessly connected to the in-house access point (AP),
The room control is connected by wire to the in-house access point (AP),
If a network failure occurs between the second to Nth air monitors and the management server, the room control searches for nearby devices capable of direct connection, and the room control internal communication unit allows the air monitor sharing the system information. A ventilation system that directly connects up to the number of units using short-distance communication.
According to clause 4,
When the network between the second to Nth air monitors and the management server is restored,
The room control is a ventilation system that recognizes network recovery according to information received from the management server and terminates direct connection with air monitors other than the first air monitor. According to clause 5,
A ventilation system in which the air monitor whose direct connection has been terminated wirelessly connects to the home access point using the system information.
According to clause 4,
When the first illuminance value received from the first air monitor is below a specified minimum value, the room control operates the ventilation device in a power saving mode or below a specified level.
According to clause 4,
If multiple air monitors are directly connected to the room controller,
A ventilation system in which the room control controls the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among air monitors that transmit an illuminance value higher than a specified minimum value.
A room control (R/C) that receives a predetermined command directly from the user or controls the ventilation device in the home according to a control command from a management server received through an access point (AP) in the home; and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home, wherein the management server, the in-house access point, the room controller, and the N-th air monitor are respectively System information including information about devices, information necessary to connect devices to each other, and user information is shared, and the first pre-designated air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are connected directly to the room controller. In the control method of a ventilation system in which the monitor is wirelessly connected to the in-house access point (AP), and the room control is wired to the in-house access point (AP),
(a) when a short-range communication connection between the room control and the first air monitor fails, the first air monitor wirelessly connects to the in-house access point (AP) using the system information;
(b) connecting the first air monitor to the management server through a wireless access point;
(c) the management server authenticating the first air monitor using the system information; and
(d) A control method of a ventilation system comprising the step of the management server transmitting a predetermined control command to the room control according to the measurement value received from the first air monitor.
According to clause 9,
The step (a) is
When a short-distance communication connection between the room control and the first air monitor fails, inquiring about nearby devices that the room control can connect to; and
A control method of a ventilation system comprising the step of directly connecting the room control to the air monitor sharing the system information through short-distance communication up to the number of air monitors that the room control internal communication unit allows.
According to clause 10,
If multiple air monitors are directly connected to the room controller,
The control method of a ventilation system further comprising controlling the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among the air monitors that transmit an illuminance value higher than a specified minimum value.
A room control (R/C) that receives a predetermined command directly from the user or controls the ventilation device in the home according to a control command from a management server received through an access point (AP) in the home; and an N-th (where N is a natural number) air monitor that measures air pollution and illuminance at a pre-designated location within the home, wherein the management server, the in-house access point, the room controller, and the N-th air monitor are respectively System information including information about devices, information necessary to connect devices to each other, and user information is shared, and the first pre-designated air monitor is directly connected to the room controller through short-distance communication, and the second to Nth air monitors are connected directly to the room controller. In the control method of a ventilation system in which the monitor is wirelessly connected to the in-house access point (AP), and the room control is wired to the in-house access point (AP),
(a) when a network failure occurs between the second to Nth air monitors and the management server, the room controller searches for nearby devices capable of direct connection; and
(b) A control method of a ventilation system comprising the step of directly connecting the room control to the air monitors sharing the system information through short-distance communication up to the number allowed by the internal communication unit of the room control.
According to clause 12,
(c) When the network between the second to Nth air monitors and the management server is restored, the room control recognizes the network restoration according to the information received from the management server, and air monitors other than the first air monitor A method of controlling a ventilation system, further comprising the step of terminating the direct connection with.
According to clause 13,
(d) A control method for a ventilation system, further comprising wirelessly connecting the air monitor from which the direct connection is terminated to the home access point using the system information.
According to clause 13,
When the first illuminance value received from the first air monitor is below a specified minimum value, the room control further includes the step of operating the ventilation device in a power saving mode or below a specified level.
According to clause 13,
After step (b) above,
If multiple air monitors are directly connected to the room controller,
The control method of a ventilation system further comprising controlling the ventilation device by reflecting the pollution level measured by the air monitor closest to the room control among the air monitors that transmit an illuminance value higher than a specified minimum value.