JP2015114079A - Remote monitoring system and remote monitoring method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable management of an operating state of each air conditioner indoor unit without trouble in a multiple-air-conditioner system if communication interception occurs in a communication network.SOLUTION: An operating state of one air conditioner indoor unit for which the wireless communication is intercepted among N air conditioner indoor units is estimated on the basis of operating information on (N-1) air conditioner indoor units except for the air conditioner indoor unit and total power consumption of a multiple-air-conditioner system.

Description

  The present invention relates to a technique for monitoring a multi air conditioner system.

  In buildings and apartments, a multi-air conditioner system including one air conditioner outdoor unit and a plurality of air conditioner indoor units may be used. Patent Document 1 discloses a system in which a server device manages the operation of each air conditioner indoor unit via a communication network in a multi air conditioner system.

JP 2011-43306 A

By the way, since wireless communication has an advantage that no wiring is required, it is useful to use wireless communication for a communication network even in a system such as Patent Document 1.
However, since wireless communication is affected by radio wave interference and changes in the wireless environment, communication is likely to be interrupted compared to wired communication. In the system of Patent Document 1, communication interruption of the communication network is not considered. Therefore, when communication interruption occurs in the communication network, the server device cannot manage the operation of the air conditioner outdoor unit and each air conditioner indoor unit.

  In view of the above, an object of the present invention is to provide a remote monitoring system that can manage the operation state of each air conditioner indoor unit without hindrance even when communication is interrupted in a communication network.

  To achieve the above object, a remote monitoring system according to the present invention includes N (N is an integer of 2 or more) air conditioner indoor units from a first air conditioner indoor unit to an Nth air conditioner indoor unit, A remote monitoring system for remotely monitoring a multi-air conditioner system including an air conditioner outdoor unit that individually supplies power to and drives each air conditioner indoor unit, wherein the remote monitoring system wirelessly communicates with each of the N air conditioner indoor units. The air conditioner outdoor unit measures the total power consumption of the multi air conditioner system, notifies the N air conditioner indoor units of the measured value, and each of the N air conditioner indoor units In addition, the measurement value of the total power consumption notified from the air conditioner outdoor unit and the operation information of the air conditioner indoor unit are notified to the monitoring device by wireless communication, Whether the wireless communication between the monitoring unit for monitoring the operating state of each of the air conditioner indoor units of the multi air conditioner system and each of the N air conditioner indoor units is in a communication cut-off state. A communication cut-off determining unit that determines whether the wireless communication with the first air conditioner indoor unit is in a communication cut-off state by the communication cut-off determining unit, Based on the measured value of the total power consumption and the operation information of the air conditioner indoor unit notified from each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit. The operating state of the first air conditioner indoor unit is estimated.

  According to the above remote monitoring system, even in the case where a communication interruption occurs in a communication network in a multi-air conditioner system, all the air conditioner indoor units of the multi-air conditioner system can be managed without any trouble.

Configuration of remote monitoring system Flowchart showing processing of communication disconnection determination unit Example of distribution of continuous duration and frequency of wireless communication interruption An example of a billing database Flow chart showing the billing process of the monitoring unit The figure explaining the accounting process in the modification 1 The figure explaining the accounting process in the modification 1 The figure explaining the remote monitoring system in the modification 3

<< Embodiment >>
The remote monitoring system according to the present embodiment is a system for remotely monitoring a multi-air conditioner system including one air conditioner outdoor unit and N (N is an integer of 2 or more) air conditioner indoor units. In particular, the remote monitoring system according to the present embodiment excludes one air conditioner indoor unit when wireless communication is interrupted between one air conditioner indoor unit and the server device among N air conditioner indoor units. (N-1) The operation state of one air conditioner indoor unit is estimated using the operation information of one air conditioner indoor unit and the total power consumption of the multi air conditioner system.

Hereinafter, an embodiment of the present invention will be described with N = 3 as a specific example.
FIG. 1 is a block diagram showing a system configuration of a remote monitoring system 1 according to the present embodiment.
The remote monitoring system 1 includes an air conditioner outdoor unit 100, first to third air conditioner indoor units 200-1, 200-2, 200-3, wireless adapters 250-1, 250-2, 250-3, and a relay device. 300 and the server apparatus 400 are comprised.

  The air conditioner outdoor unit 100 and each of the first to third air conditioner indoor units 200-1, 200-2, and 200-3 are connected by wired communication paths 50-1, 50-2, and 50-3. Each of the first to third air conditioner indoor units 200-1, 200-2, 200-3 and each of the wireless adapters 250-1, 250-2, 250-3 are wired communication paths 60-1, 60-. 2 and 60-3. Each of the wireless adapters 250-1, 250-2, 250-3 and the relay device 300 are connected by wireless communication paths 70-1, 70-2, 70-3. The relay device 300 and the server device 400 are connected by a wired communication path 80.

  Each of the first to third air conditioner indoor units 200-1, 200-2, 200-3 is provided in the rooms 20-1, 20-2, 20-3 of the apartment 10. The wireless adapters 250-1, 250-2, and 250-3 are each a room 20-1 in which the first to third air conditioner indoor units 200-1, 200-2, and 200-3, which are connected by wire, are provided. 20-2 and 20-3. The air conditioner outdoor unit 100 and the relay device 300 are installed in the common units 30-1 and 30-2 of the apartment 10, respectively.

  The air conditioner outdoor unit 100 receives power supply from the power source, and individually supplies power to and drives the first to third air conditioner indoor units 200-1, 200-2, and 200-3. Here, the electric power supplied from the power source to the air conditioner outdoor unit 100 is driven by the air conditioner outdoor unit 100 and from the air conditioner outdoor unit 100 to each of the first to third air conditioner indoor units 200-1, 200-2, 200-3. Dedicated to the power supplied. That is, the power supplied from the power source to the air conditioner outdoor unit 100 is the total power consumption of the multi air conditioner system including the air conditioner outdoor unit 100 and the first to third air conditioner indoor units 200-1, 200-2, 200-3. I can say that. Therefore, this power amount is hereinafter referred to as the total power consumption of the multi air conditioner system.

The air conditioner outdoor unit 100 measures the amount of power supplied from the power source regularly or irregularly, and the measured values are used as the first to third air conditioner indoor units 200-1, 200-2, 200-. 3 is notified via the wired communication paths 50-1, 50-2, and 50-3.
Each of the first to third air conditioner indoor units 200-1, 200-2, 200-3 is operated in response to a user operation using a remote controller or a switch. Moreover, the room temperature of the room in which the device is installed is measured. Then, the total power consumption of the multi-air conditioner system notified from the air conditioner outdoor unit 100 and the operation information of the own device are periodically or indebted via the wired communication paths 60-1, 60-2, 60-3. The wireless adapters 250-1, 250-2, and 250-3 are notified periodically.

Here, the operation information is information indicating a power state (on state or off state) of the own device, a set temperature set in the own device by a user operation, and a room temperature measured by the own device.
Each of the wireless adapters 250-1, 250-2, 250-3 is connected to the first to third air conditioner indoor units 200-1, 200-2 via the wired communication paths 60-1, 60-2, 60-3. , 200-3 is received. Then, the notified information is notified to the relay device 300 via the wireless communication paths 70-1, 70-2, and 70-3.

The relay device 300 includes a wireless communication unit 310, a communication cutoff determination unit 320, and a server communication unit 330.
The wireless communication unit 310 receives information notification from each of the wireless adapters 250-1, 250-2, and 250-3 via the wireless communication paths 70-1, 70-2, and 70-3, and the notification is received. Information is output to the server communication unit 330.

  The communication cutoff determination unit 320 monitors the wireless communication by the wireless communication unit 310 and wireless communication paths 70-1 and 70 between the wireless adapters 250-1, 250-2, and 250-3 and the relay device 300, respectively. -2 and 70-3 perform communication interruption detection processing. Specifically, the communication interruption detection process is performed by distinguishing each of the wireless adapters 250-1, 250-2, and 250-3.

Further, when it is determined that the communication interruption has continued for a predetermined time T or longer, the communication interruption determination unit 320 outputs information indicating that to the server communication unit 330. Then, after determining that the communication interruption has continued for a predetermined time T or longer, if normal wireless communication is detected in the wireless communication path that has determined the communication interruption, information indicating that is output to the server communication unit 330. .
Here, an example of a communication interruption detection process and a normal wireless communication detection process will be described.

  A signal for detecting a communication interruption is transmitted / received between each wireless adapter 250 and the relay device 330 regularly or irregularly. The communication interruption determination unit 320 determines that the communication is interrupted when the communication interruption detection signal is not received, and determines that the communication is normal wireless communication when the communication interruption detection signal is received. . The signal for detecting communication interruption may be, for example, a response signal to a signal transmitted from the relay device 330 to the wireless adapter.

FIG. 2 is a flowchart of a process related to determination of communication interruption by the communication interruption determination unit 320.
The communication cutoff judging unit 320 monitors the wireless communication in the wireless communication path 70 and performs a communication cutoff detection process (step S101). The detection of the presence / absence of communication interruption is repeatedly performed at regular intervals or irregular intervals at a time interval shorter than the predetermined time T, for example. The communication interruption determination unit 320 performs the process of step S101 until the communication interruption is detected (step S101: NO).

  On the other hand, when communication interruption is detected (step S101: YES), the communication interruption determination unit 320 records the time (t1) when communication interruption is detected as the interruption start time (step S102). Then, it is determined whether the communication interruption has continued for the first predetermined time T or more at time t (t−t1> T?) (Step S103). If it is not determined that the communication disconnection has continued for a predetermined time T or more at time t (step S103: NO), normal wireless communication detection processing is performed after the disconnection start time (t1) in the wireless communication path 70. This is performed (step S104). The detection of the presence / absence of normal wireless communication is repeated periodically or irregularly at a time interval shorter than the predetermined time T, for example. When normal wireless communication is not detected (step S104: NO), the process of step S103 is performed. On the other hand, when normal wireless communication is detected (step S104: YES), the process of step S101 is performed.

When it is determined that the communication interruption has continued for a predetermined time T or more at time t (step S103: YES), the communication interruption determination unit 320 outputs the fact to the server communication unit 330 (step S105), and the server communication unit The server device 400 is notified by 330.
The communication interruption determination unit 320 performs normal wireless communication detection processing on the wireless communication path 70 after the processing of step S105 (step S106). The communication cutoff determination unit 320 performs the process of step S106 until normal wireless communication is detected (step S106: NO). On the other hand, when normal wireless communication is detected (step S106: YES), the fact is output to the server communication unit 330 (step S107), and the server communication unit 330 notifies the server device 400 accordingly.

Here, the predetermined time T will be described.
Unlike wired communication, wireless communication can frequently be temporarily interrupted. As a cause of temporary communication interruption, there can be mentioned fluctuations in the radio environment such as radio signal interference and fading with other radio systems using the same radio band.
If the communication is considered to be interrupted every time wireless communication is interrupted, the burden on the remote monitoring system may increase. Therefore, it is desirable to set the predetermined time T, which is a criterion for determining communication interruption, to be long enough not to be a burden on the remote monitoring system.

  FIG. 3 shows an example of the measurement result of the continuous duration of wireless communication interruption and its frequency distribution. In FIG. 3, it is assumed that the average value of the continuous continuation time of the wireless communication interruption is about 10 milliseconds. Note that the relationship between the continuous duration of the wireless communication interruption and the distribution of the frequency varies depending on the installation location of the relay apparatus and each wireless adapter that performs wireless communication, and therefore it is preferable to measure at the location where they are installed.

In FIG. 3, if the predetermined time T is set sufficiently longer than the average value of 10 milliseconds, the communication interruption determination unit 320 may exclude communication interruption that frequently occurs in the normal operation state. it can.
However, the longer the predetermined time T, the lower the accuracy of monitoring the operation state of each air conditioner indoor unit by the server device 400 described later. For example, there is a risk that communication interruptions that are not temporary communication interruptions such as communication interruptions caused by unauthorized communication interruptions or equipment failures may be missed for a long time. Therefore, it is desirable to set the predetermined time T so that the accuracy of monitoring by the server device 400 is maintained to some extent.

  The server device 400 to be described later charges the user for the usage fee of the air conditioner indoor unit in real time according to the operation of the air conditioner indoor unit. If the minimum charging time corresponding to the minimum unit of the charging process is 1 minute, for example, each processing time of the remote monitoring system needs to be about 1 minute or less in order to be able to charge in real time with accuracy within 1 minute in the charging process. Therefore, it is desirable that the predetermined time T is 1 minute or less.

Also, the shorter the time that characterizes the real-time nature of the system, the better. It is desirable that it is at least equal to or less than the allowable delay time allowed for the system. Therefore, in order to satisfy the delay performance necessary for the system, it is desirable to set the predetermined time T to be equal to or shorter than the allowable delay time.
Returning to FIG. 1, the description will be continued.
The server communication unit 330 notifies the server apparatus 400 of the information output from the wireless communication unit 310 and the information output from the communication cutoff determination unit 320 via the wired communication path 80 periodically or irregularly. .

The server device 400 includes a communication unit 410, a monitoring unit 420, and a charging database 430, and monitors the operation state of each of the first to third air conditioner indoor units 200-1, 200-2, 200-3, The user is charged for the usage fee of the air conditioner indoor unit according to the operating state.
The communication unit 410 receives information notification from the relay device 300 via the wired communication path 80 and outputs the notified information to the monitoring unit 420.

  The monitoring unit 420 stores the information output from the communication unit 410, and refers to the stored information, whereby each of the first to third air conditioner indoor units 200-1, 200-2, 200-3 is stored. Monitor the operating status. And using the memorize | stored information, the electric power consumption which concerns on the driving | operation of an air-conditioner indoor unit is calculated about each of the 1st-3rd air-conditioner indoor unit 200-1, 200-2, 200-3. Then, for each of the first to third air conditioner indoor units 200-1, 200-2, 200-3, the usage fee of the air conditioner indoor unit is calculated based on the calculated power consumption related to the operation of the air conditioner indoor unit. To charge the user. Details of the function and operation of the monitoring unit 420 will be described later.

The accounting database 430 stores the result of the accounting process performed by the monitoring unit 420 (hereinafter referred to as accounting data).
FIG. 4 is an example of billing data stored in the billing database 430. However, FIG. 4 is an example in which a method of subtracting the usage fee for the air conditioner indoor unit from the amount charged in advance by the user is adopted as the billing processing method of the remote monitoring system 1. 4 stores a user ID, a password, an air conditioner indoor unit identification information for identifying an air conditioner, a charge for using an air conditioner, and a charge balance for each user. For example, the charging database 430 may be accessible from the user so that the user can freely check the charge balance.

Hereinafter, functions and operations of the monitoring unit 420 will be described.
First, the monitoring unit 420 (i) when it is determined that none of the wireless adapters 250-1, 250-2, and 250-3 is in a communication cutoff state with the relay device 300, The following processes (A1) and (A2) are performed.
(A1) For each of the first to third air conditioner indoor units 200-1, 200-2, and 200-3, consumption by operating the air conditioner indoor unit using the operation information of the air conditioner indoor unit output from the communication unit 410 The calculated electric energy (hereinafter referred to as electric power consumption related to the operation of the air conditioner indoor unit) is calculated.

(A2) Based on the power consumption associated with the operation of each air conditioner indoor unit calculated in (A1), the usage fee for each use of the first to third air conditioner indoor units 200-1, 200-2, 200-3 is calculated. The billing process is performed.
The air conditioner outdoor unit 100 operates according to the operation of each air conditioner indoor unit and consumes power. Therefore, it can be said that the power consumption of one air conditioner indoor unit includes the power consumed by the device itself of the one air conditioner indoor unit and the power consumed by the operation of the one air conditioner indoor unit in the air conditioner outdoor unit.

  In the processing of (A1), the monitoring unit 420 uses, for example, the following (Equation 1), and uses the power consumption related to the operation of each of the first to third air conditioner indoor units 200-1, 200-2, 200-3. The amounts P1, P2, and P3 are calculated.

エアコン室内機に係る消費電力量は、一般的に（室内温度（Ｔｅ））−（設置温度（Ｔｓ））にほぼ比例して増大する。よって、上記（式１）に示すように、マルチエアコンシステムの総電力消費量を各エアコン室内機それぞれにおける（室内温度（Ｔｅ）−設置温度（Ｔｓ））の比で按分して、各エアコン室内機に係る消費電力量Ｐ１〜Ｐ３を算出することができる。

The amount of power consumed by the air conditioner indoor unit generally increases in proportion to (room temperature (Te)) − (installation temperature (Ts)). Therefore, as shown in the above (formula 1), the total power consumption of the multi-air conditioner system is prorated according to the ratio of (room temperature (Te) −installation temperature (Ts)) in each air conditioner indoor unit, and each air conditioner room It is possible to calculate power consumption amounts P1 to P3 related to the machine.

  Then, in the process of (A2), the monitoring unit 420 calculates the usage fee for each use of the first to third air conditioner indoor units 200-1, 200-2, 200-3, for example, each air conditioner calculated in (A2). Calculation is performed by multiplying the power consumption P1, P2, and P3 related to the operation of the indoor unit by a preset usage charge per unit power. Then, for example, the monitoring unit 420 performs charging processing by sequentially subtracting the calculated usage fee from the amount charged by the user in advance.

On the other hand, when the monitoring unit 420 determines that (ii) communication between any one of the wireless adapters 250-1, 250-2, and 250-3 and the relay device 300 is interrupted. The following processes (B1) to (B3) are performed.
(B1) The monitoring unit 420 is a communication unit for the first to third air conditioner indoor units 200-1, 200-2, 200-3 that are not in a communication cut-off state (N-1 = 2). Using the information of the air conditioner indoor unit output from 410, the power consumption related to the operation of the air conditioner indoor unit is calculated.

  (B2) The monitoring unit 420 outputs the total power consumption of the multi-air conditioner system output from the communication unit 410 and the power related to the operation of each of the (N-1 = 2) air conditioner indoor units calculated in (B1). By comparing the difference with the total value of consumption, the power supply state (on state or off state) of one air conditioner indoor unit that is in a communication cut-off state is estimated. And according to the power supply state of one air-conditioner indoor unit which is a communication interruption | blocking state, the power consumption which concerns on the driving | operation of the one air-conditioner indoor unit is estimated.

(B3) The monitoring unit 420 calculates the usage fee for each use of the first to third air conditioner indoor units 200-1, 200-2, and 200-3 based on (B1) and (B3). Calculation is made based on the power consumption associated with the operation of the machine, and charging processing is performed.
The processes (B1) to (B3) will be specifically described below.
In the process of (B1), the monitoring unit 420 uses the following (Equation 2), for example, and is not in a communication cutoff state among the first to third air conditioner indoor units 200-1, 200-2, 200-3. The power consumption related to each operation in the air conditioner room is calculated.

上記（式２）において、ｃの値は、各エアコン室内機とエアコン室外機が設置される環境に応じて設定すればよく、実験によって適したｃの値を試算すればよい。各エアコンでｃの値を異ならせてもよい。

In the above (Expression 2), the value of c may be set according to the environment in which each air conditioner indoor unit and air conditioner outdoor unit is installed, and a suitable value of c may be calculated by experiment. The value of c may be different for each air conditioner.

  Comparing the above (Equation 1) and (Equation 2), in (Equation 1), b (b = Σ (Tei−Tsi) · δi) is calculated in the power consumption calculation formula for the operation of each air conditioner indoor unit. included. Therefore, in (Equation 1), when any one of the first to third air conditioner indoor units 200-1, 200-2, 200-3 enters a communication cut-off state, the air conditioner indoor unit that is not in a communication cut-off state It is not possible to calculate the power consumption related to the operation. On the other hand, in (Equation 2), by setting the constant c, the power consumption related to the operation of one air conditioner indoor unit can be calculated only for the room temperature (Tei) and the set temperature (Tsi) of one air conditioner indoor unit. It becomes possible to calculate by.

  Then, in the process of (B2), the monitoring unit 420 is not in the communication cut-off state calculated in (B1) when the following (Equation 3) is satisfied, that is, the total power consumption Pt of the multi air conditioner system (N1). −1 = 2) If the difference between the total power consumption of each air conditioner indoor unit and the total value is larger than the predetermined value α, the power supply state of one air conditioner indoor unit that is in the communication cut-off state is turned on. Presumed to be in a state. And the electric power consumption P which concerns on the driving | operation of one air-conditioner indoor unit which is a communication interruption | blocking state is estimated with the difference as shown in the following (Formula 4). On the other hand, when the following (Formula 3) is not satisfied, the power supply state of one air conditioner indoor unit that is in a communication cut-off state is estimated to be an off state.

ここで、所定値αは、１台のエアコン室内機の運転によって消費されるであろうと試算される電力量に基づいて設定すればよい。また、通信遮断状態である１台のエアコン室内機の設置環境は、通信遮断状態でない２台のエアコン室内機とのそれと同様であると見なし、所定値αを（Ｂ１）で算出した２台のエアコン室内機の運転に係る電力消費量に基づいて設定してもよい。

Here, the predetermined value α may be set based on the amount of power that is estimated to be consumed by the operation of one air conditioner indoor unit. In addition, the installation environment of one air conditioner indoor unit that is in a communication cut-off state is considered to be the same as that of two air conditioner indoor units that are not in a communication cut-off state, and the predetermined value α is calculated by (B1). You may set based on the electric power consumption which concerns on a driving | operation of an air-conditioner indoor unit.

  Then, in the process of (B4), the monitoring unit 420 performs the first to first based on the power consumptions P1, P2, and P3 related to the operation of each air conditioner indoor unit calculated in (B1) and (B3). 3 Charges for use of each of the air conditioner indoor units 200-1, 200-2, and 200-3 are calculated, and billing processing is performed. The usage fee calculation method and the billing processing method are the same as the above-described processing (A2).

  On the other hand, the monitoring unit 420 is in a communication cutoff state between (iii) (N-1 = 2) or more of the wireless adapters 250-1, 250-2, and 250-3 and the relay device 300. If it is determined, the remote monitoring system provider (for example, the apartment management company) is notified that the air conditioner indoor units of (N-1 = 2) or more are in a communication cut-off state, and the communication cut-off is performed. Encourage treatment for recovery. An alarm may be used as a notification method. Moreover, you may alert | report to the user who uses the air conditioner indoor unit instead of the provider of a remote monitoring system.

  Furthermore, in the case of (iii), when the air conditioner indoor unit which is not a communication interruption | blocking exists, the monitoring part 420, ie, two wireless adapters in wireless adapter 250-1, 250-2, 250-3, and the relay apparatus 300 are connected. When the communication is cut off, the calculation of the power consumption for the operation of the air conditioner indoor unit, the usage fee for the use of the air conditioner is calculated for one air conditioner indoor unit that is not cut off, as in (ii) Calculate and charge.

FIG. 5 is a flowchart showing an operation related to the billing process of the monitoring unit 420.
The monitoring unit 420 refers to the information output from the communication unit, and performs billing processing according to the communication cutoff state between the wireless adapters 250-1, 250-2, 250-3 and the relay device 300 (step S201). ).
When it is not determined that the communication unit 420 is in a communication cut-off state between each of the wireless adapters 250-1, 250-2, and 250-3 and the relay device 300 (step S201: no communication cut-off), the monitoring unit 420 The power consumption associated with the operation of each of the first to third air conditioner indoor units 200-1, 200-2, 200-3 is calculated using the above (Equation 1) (step S202). Subsequently, based on the power consumption related to the operation of each air conditioner indoor unit calculated in step S202, the usage charges of the first to third air conditioner indoor units 200-1, 200-2, 200-3 are calculated and charged. Processing is performed (step S203). After the process of step S203, the process returns to step S201 and the accounting process is repeated.

  On the other hand, when the monitoring unit 420 determines that the communication is interrupted between any one of the wireless adapters 250-1, 250-2, and 250-3 and the relay apparatus 300 ( Step S201: One communication cut-off), and no power cut-off (N-1 = 2) power consumptions related to the operation of each of the air conditioner indoor units are calculated using the above (Formula 2) (Step S204). Then, the difference between the total power consumption Pt of the multi-air conditioner system acquired from the communication unit 410 and the total value of the power consumption related to the operation of each of the (N−1 = 2) air conditioner indoor units calculated in step S204. Is larger than the predetermined value α (step S205: NO), it is estimated that the power supply state of one air conditioner indoor unit for which communication is cut off is an on state (step S206). Subsequently, the monitoring unit 420 uses the above (Equation 3) to calculate the power consumption related to the operation of one air conditioner indoor unit that is disconnected (step S207), and the first to third air conditioner indoor units. A charging process is performed for each of them (step S203). On the other hand, if it is not larger than the predetermined value α in step S205 (step S205: NO), it is estimated that the power supply state of one air conditioner indoor unit that is disconnected is off, and that one air conditioner indoor unit is in the off state. It is estimated that the power consumption P = 0 associated with the driving (step S208). Then, a billing process is performed for each of the first to third air conditioner indoor units (step S203).

  On the other hand, when the monitoring unit 420 determines that the communication between the two or more of the wireless adapters 250-1, 250-2, and 250-3 and the relay apparatus 300 is in a communication cut-off state (Step S420). S201: Two or more communication interruptions), and notifies the remote monitoring system provider that each of the air conditioner indoor units (N-1 = 2) or more is in a communication interruption state (step S209). Thereafter, when there is no air conditioner indoor unit that is not in the communication cutoff state (step S210: NO), the monitoring unit 420 returns to step S201 and repeats the charging process. On the other hand, when there is an air conditioner indoor unit that is not in the communication cut-off state (step S210: YES), the monitoring unit 420 uses (Expression 2) to calculate the power consumption related to the operation of one air conditioner indoor unit that is not in the communication cut-off state. Calculate (S211). Then, for one air conditioner indoor unit that is not in the communication cut-off state, the usage fee is calculated based on the power consumption related to the operation of the air conditioner indoor unit calculated in step S211 and billing processing is performed (step S212).

  According to the remote monitoring system 1 of the present embodiment, by performing communication between each of the first to third air conditioner indoor units 200-1, 200-2, 200-3 and the relay device 300 wirelessly, Wiring is reduced and construction is easy. Moreover, according to the remote monitoring system 1 of the present embodiment, when one of the first to third air conditioner indoor units 200-1, 200-2, 200-3 is in a communication cut-off state Therefore, it is possible to estimate the power supply state of one air conditioner indoor unit that is in a communication cut-off state.

<< Modification 1 >>
In the remote monitoring system 1 of the above-described embodiment, the monitoring unit 420 includes (N-1 = 2) or more wireless adapters and relay devices in the (iii) wireless adapters 250-1, 250-2, 250-3. When it is determined that the communication with the air conditioner 300 is in the communication cut-off state, as shown below, for the air conditioner indoor units that are in the communication cut-off state (N-1 = 2) or more, the power supply state is estimated, and the air conditioner You may try estimation of the electric power consumption which concerns on a driving | operation of an indoor unit.

This will be specifically described below.
First, in the case of (iii) above, the monitoring unit 420 performs the above-described implementation when all of the first to third air conditioner indoor units 200-1, 200-2, 200-3 are in a communication cut-off state. Similarly to the form, the provider of the remote monitoring system 1 is notified that each of the three air conditioner indoor units 200-1, 200-2, 200-3 is in a communication cut-off state.

On the other hand, in the case of (iii) above, the monitoring unit 420 determines that when there is an air conditioner indoor unit that is not disconnected, in other words, two air conditioner indoor units are in a communication disconnected state, and one air conditioner indoor unit is disconnected from communication. If not, for the two air conditioner indoor units in the communication cut-off state, an attempt is made to estimate the power supply state and to estimate the power consumption related to the operation of the air conditioner indoor unit.
Specifically, the monitoring unit 420 first calculates the power consumption related to the operation of one air conditioner indoor unit that is not in communication interruption using the above (Equation 2). When the difference between the total power consumption Pt of the multi-air conditioner system and the power consumption related to the operation of one air conditioner indoor unit that is not disconnected is smaller than the predetermined value β, the two communication disconnected states The power supply state of the air conditioner indoor unit is estimated to be off. Then, it is estimated that the power consumption P = 0 related to the operation of each of the two air conditioner indoor units.

  In addition, the monitoring unit 420 interrupts communication when the difference between the total power consumption Pt of the multi-air conditioner system and the power consumption related to the operation of one air conditioner indoor unit that is not in communication interruption is larger than a predetermined value γ. The power supply state of each of the two air conditioner indoor units in the state is estimated to be the on state. Then, the power consumption P related to the operation of each of the two air conditioner indoor units is estimated by using the following (Formula 5) with M = 2.

ここで、所定値βは、１台のエアコン室内機の運転によって消費されるであろうと試算される電力量に基づいて設定すればよい。また、所定値γは、２台のエアコン室内機の運転によって消費されるであろうと試算される電力量に基づいて設定すればよい。なお、通信遮断状態である２台のエアコン室内機それぞれの設置環境は、通信遮断状態でない１台のエアコン室内機のそれと同様であると見なし、所定値βとγそれぞれを、通信遮断でない１台のエアコン室内機の運転に係る電力消費量に基づいて設定してもよい。

Here, the predetermined value β may be set based on the amount of power that is estimated to be consumed by the operation of one air conditioner indoor unit. Further, the predetermined value γ may be set based on the amount of power that is estimated to be consumed by the operation of the two air conditioner indoor units. Note that the installation environment of each of the two air conditioner indoor units that are in the communication cut-off state is considered to be the same as that of one air conditioner indoor unit that is not in the communication cut-off state, and each of the predetermined values β and γ is set to one unit that is not in the communication cut-off state. You may set based on the power consumption which concerns on the driving | operation of the air conditioner indoor unit.

On the other hand, the monitoring unit 420 determines that the difference between the total power consumption Pt of the multi-air conditioner system and the power consumption related to the operation of one air conditioner indoor unit that is not disconnected is not less than a predetermined value β and not more than a predetermined value γ. In this case, similar to the above embodiment, the provider of the remote monitoring system is notified that each of the two air conditioner indoor units is in a communication cut-off state.
6 and 7 are diagrams for schematically explaining the charging process according to this modification. 6 and 7, the power state (ON state or OFF state) of the air conditioner indoor unit is indicated by a thick line. When the power state of the air conditioner indoor unit is ON, the power consumption related to the operation of the air conditioner indoor unit. Schematically represents a value larger than 0.

  In FIG. 6, the first and second air conditioner indoor units 200- of the first to third air conditioner indoor units 200-1, 200-2, 200-3 at the time t2 of the charging process timing of the monitoring unit 420. Suppose that two of 1, 200-2 are in a communication cut-off state. Until the time t3, the power states of the first and second air conditioner indoor units 200-1 and 200-2 that are in the communication cut-off state are both on. Then, after time t3, the power state of the first air conditioner indoor unit 200-1 is assumed to be an off state.

  At this time, according to the charging process of the first modification, the first and second of the first to third air conditioner indoor units 200-1, 200-2, and 200-3 from time t2 to time t3. Although the two air conditioner indoor units 200-1 and 200-2 are in a communication cut-off state, the power supply state of both the first and second air conditioner indoor units 200-1 and 200-2 is on, so the monitoring unit 420 For each of the first and second air conditioner indoor units 200-1 and 200-2, it is possible to estimate the power state of the air conditioner indoor unit by estimating the power state of the first and second air conditioner indoor units 200-1 and 200-2. Therefore, the monitoring unit 420 can perform billing processing for the first and second air conditioner indoor units 200-1 and 200-2 that are disconnected from time t2 to time t3.

  However, after the time t3, the power state of the first air conditioner indoor unit 200-1 is off, and the power state of the second air conditioner indoor unit 200-2 is on. Therefore, in the charging process of the first modification, the monitoring unit 420 cannot estimate both the power states of the first and second air conditioner indoor units 200-1 and 200-2 after time t3. This is because the difference (Pt−P3) between the total power consumption Pt of the multi-air conditioner system after time t3 and the power consumption P3 related to the operation of the third air conditioner indoor unit 200-3 that is not interrupted by communication. This is because it cannot be estimated which of the first and second air conditioner indoor units 200-1 and 200-2 is in the ON state. Therefore, after time t3, the monitoring unit 420 does not perform a billing process for using the second air conditioner indoor unit 200-2 even if the power condition of the second air conditioner indoor unit 200-2 is on.

  In FIG. 7, when two of the first to third air conditioner indoor units 200-1, 200-2, and 200-3, which are the first and second air conditioner indoor units, are in the communication cut-off state, the time t4 Until now, it is assumed that the power states of the first and second air conditioner indoor units 200-1 and 200-2 are both off. Then, it is assumed that the power supply of the second air conditioner indoor unit 200-2 is turned on at time t4, and the power supply state of the first air conditioner indoor unit 200-1 is turned on at time t5.

  At this time, according to the charging process of the first modification, the first and second air conditioner indoor units among the first to third air conditioner indoor units 200-1, 200-2, and 200-3 until time t4. Are in a communication cut-off state, but the power supply state of both the first and second air conditioner indoor units 200-1 and 200-2 is off, so that the monitoring unit 420 includes the first and second air conditioner indoor units. About each of 200-1, 200-2, the power supply state can be estimated as an off state, and the power consumption related to the operation of the air conditioner indoor unit can be estimated as zero.

  However, between time t4 and time t5, the power condition of the first air conditioner indoor unit 200-1 is off and the power condition of the second air conditioner indoor unit 200-2 is on. Similarly to the time t3 and after in FIG. 6, the power states of the first and second air conditioner indoor units 200-1 and 200-2 cannot be estimated. Therefore, the monitoring unit 420 performs charging processing for use of the second air conditioner indoor unit 200-2 between time t4 and time t5 even if the power condition of the second air conditioner indoor unit 200-2 is on. Absent.

  On the other hand, after time t5, since the two power supply states of the first and second air conditioner indoor units are both in the on state, the monitoring unit 420 performs the same operation as that between time t2 and time t3 in FIG. For each of the second air conditioner indoor units 200-1 and 200-2, the power state is estimated to be on, power consumption related to the operation of the air conditioner indoor unit is estimated, and billing processing is performed for the use of the air conditioner indoor unit be able to.

The description has been made on the assumption that two of the three air conditioner indoor units are in the communication cut-off state, but M (M> M) of the N (N> M) air conditioner indoor units. Similarly, when the number of air conditioner indoor units of integers greater than or equal to 2 and M <N) is in the communication cut-off state, the processing of the modified example 1 can be performed.
Specifically, the monitoring unit 420 first calculates the power consumption related to the operation of the (N−M) air conditioner indoor units that are not in communication interruption using the above (Equation 2). If the difference between the total power consumption Pt of the multi-air conditioner system and the power consumption related to the operation of the (N−M) air conditioner indoor units that are not in the communication cut-off is smaller than the predetermined value β, the communication cut-off state It is estimated that the power state of the M air conditioner indoor units is an off state. Then, it is estimated that the power consumption P = 0 related to the operation of each of the M air conditioner indoor units.

  In addition, the monitoring unit 420 determines that the difference between the total power consumption Pt of the multi-air conditioner system and the power consumption related to the operation of the (N−M) air conditioner indoor units that are not disconnected is greater than the predetermined value γ ′. The power supply state of each of the M air conditioner indoor units that are in the communication cut-off state is estimated to be the on state. Then, the power consumption P related to the operation of each of the M air conditioner indoor units is estimated using the above (Formula 5).

Even when the M air conditioner indoor units are in the communication cut-off state, the predetermined value β may be set based on the amount of electric power estimated to be consumed by the operation of one air conditioner indoor unit. On the other hand, the predetermined value γ ′ may be set based on the amount of power that is estimated to be consumed by the operation of the M air conditioner indoor units.
<< Modification 2 >>
In the remote monitoring system of the above embodiment, the monitoring unit 420 communicates between any one of the wireless adapters 250-1, 250-2, and 250-3 and the relay device 300. When it is determined that it is in the cut-off state, the power supply state of one air conditioner indoor unit that is in the communication cut-off state in the process (B2) may be estimated as follows.

As a specific example, for example, it is assumed that the first and second air conditioner indoor units 200-1 are disconnected from communication at the processing timing time t3 of the monitoring unit 420.
At this time, before and after time t3, the monitoring unit 420 includes the total power amount Pt of the multi-air conditioner system and the power consumption amount P2 related to the operation of each of the second and third air conditioner indoor units 200-2 and 200-3. When the difference (Pt− (P2 + P3)) in the difference from the total value of P3 is within a predetermined range, the power state of the first air conditioner indoor unit 200-1 that is in the communication cut-off state is the same before and after time t3. It is estimated that.

<< Modification 3 >>
The remote monitoring system of the above embodiment may be modified as shown below.
FIG. 8 is a diagram illustrating a remote monitoring system according to the third modification.
In the remote monitoring system of Modification 3, the air conditioner outdoor unit 100 of the remote monitoring system 1 of the above embodiment is replaced with an air conditioner outdoor unit 100A, and the first to third air conditioner indoor units of the remote monitoring system 1 of the above embodiment are further replaced. 200-1, 200-2, 200-3 are replaced with first to third air conditioner indoor units 200A-1, 200A-2, 200A-3. Further, the function and operation of the monitoring unit 420 of the remote monitoring system of Modification 3 are different from those of the remote monitoring system 1 of the above embodiment.

  The air conditioner outdoor unit 100A individually supplies power to and drives the first to third air conditioner indoor units 200-1, 200-2, and 200-3 in the same manner as the outdoor unit 100 of the above embodiment. Measure the amount of power supplied from the power supply (total power consumption of the multi air conditioner system) regularly or irregularly. Each of the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3 is the same as the first to third air conditioner indoor units 200-1, 200-2, 200-3 of the above embodiment. Similarly, a user's operation is received and it drive | operates, and also the indoor temperature of the room with which the own apparatus was equipped is measured.

Further, each of the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3 periodically updates its own operation information via the wired communication paths 50-1, 50-2, 50-3. The air conditioner outdoor unit 100 is notified either regularly or irregularly.
The air conditioner outdoor unit 100A receives information notifications from the first to third air conditioner indoor units 200A-1, 200A-2, and 200A-3. Further, the air conditioner outdoor unit 100A receives the first to third air conditioner indoor units 200A-1, 200A-2, 200A received from the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3, respectively. -3, and the information indicating the total power consumption of the multi-air conditioner system, the first to third air conditioner indoor units 200A- via the wired communication paths 50-1, 50-2, 50-3. 1, 200A-2, 200A-3 is notified.

  Each of the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3 includes information notified from the air conditioner outdoor unit 100, that is, the first to third air conditioner indoor units 200A-1, 200A-2, Each of the operation information of 200A-3 and information indicating the total power consumption of the multi-air conditioner system are periodically or irregularly transmitted via the wired communication paths 60-1, 60-2, 60-3. Notify each of 250-1, 250-2, 250-3.

  As a result, the server device 400 according to the third modification includes the first to third air conditioner indoor units 200A-1, 200A-2, and 200A-3 individually from the first through the wireless adapters and the relay devices. All the operation information of the third air conditioner indoor units 200A-1, 200A-2, 200A-3 and information indicating the total power consumption of the multi air conditioner system are acquired.

  Therefore, the monitoring unit 420 according to the third modified example includes the first to third air conditioner indoor units 200A-1, 200A-2, and 200A-3, from which the first to third air conditioner indoor units All the operation states of the third air conditioner indoor units 200A-1, 200A-2, and 200A-3 can be monitored. Therefore, in the monitoring unit 420 of the third modification, only when all of the first to third air conditioner indoor units 200A-1, 200A-2, and 200A-3 are in the communication cut-off state, the fact that the remote monitoring system 1 What is necessary is just to alert | report to a provider.

  In summary, in the remote monitoring system of Modification 3, the air conditioner outdoor unit 100A uses the communication lines between the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3 and the server device 400, respectively. The server apparatus 400 is provided with all the operation information of the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3 and information indicating the total power consumption of the multi air conditioner system.

  The air conditioner outdoor unit 100A is further provided with a function of communicating with the server device 400, and the air conditioner outdoor unit 100A directly connects the server device to the first to third air conditioner indoor units 200A-1, 200A-2, 200A-3. All the operation information and information indicating the total power consumption of the multi-air conditioner system may be provided. In addition, the air conditioner outdoor unit 100A may communicate with the server device via a device having a function of communicating with the server device 400. When the air conditioner outdoor unit 100A provides information to the server device without going through each of the first to third air conditioner indoor units 200A-1, 200A-2, and 200A-3, each wireless adapter and relay device 300 is provided. Is no longer necessary.

≪Supplement (Part 1) ≫
The present invention is not limited to the contents described in the above embodiments and modifications, and can be implemented in any form for achieving the object of the present invention and the related or incidental objects. There may be.
(1) In the remote monitoring system and the remote monitoring method described in the above embodiments and modifications, the number of air conditioner indoor units is assumed to be three, but the number of air conditioner indoor units is N (N is an integer of 2 or more). It may be a stand.

  (2) The remote monitoring system and the remote monitoring method described in the above embodiments and modifications can be applied to a plurality of air conditioners each composed of one air conditioner outdoor unit and one air conditioner indoor unit. Further, the present invention can be applied to various electronic devices such as household electrical appliances (for example, televisions, personal computers) other than air conditioners. Moreover, it is applicable also to the system containing from several different household appliances.

(3) The remote monitoring system and the remote monitoring method described in the above embodiments and modifications can be applied to various buildings such as hotels and hospitals having rooms where electronic devices other than apartments are installed.
(4) The remote monitoring system and the remote monitoring method described in the above embodiments and modifications are not limited to wireless communication interruption, but can also be applied to wired communication interruption.

  (5) In the above embodiment and modification, the monitoring unit 420 calculates the usage fee for the air conditioner indoor unit based on the power consumption related to the operation of the air conditioner indoor unit. The usage fee of the air conditioner indoor unit may be calculated from the on state or the off state. For example, the usage fee for the air conditioner indoor unit may be calculated by multiplying a time during which the power supply state of the air conditioner indoor unit is on by a predetermined usage fee (yen / hour) per unit time.

(6) In the above embodiment and the modification, the prepaid method (prepaid method) has been described as an example of the charging process, but a postpaid method (postpay method) may be used.
(7) In the above embodiment, the accounting database 430 may be provided outside the server device 400.

(8) In the above embodiment and the modification, the monitoring unit calculates the power consumption related to the operation of each air conditioner indoor unit using (Formula 1) in the case of (i). It may be calculated using 2).
(9) In the embodiment and the modification described above, instead of the indoor temperature (Te) described in the calculation formula (Equation 1) or (Equation 2) of the power consumption related to the operation of each air conditioner indoor unit, the outside of the air conditioner The outdoor temperature measured by the machine may be used. However, in this case, the air conditioner outdoor unit is provided with means for measuring the outdoor temperature, and the measured value of the outdoor temperature together with the measured value of the total power consumption of the multi-air conditioner system is connected to each of the air conditioner indoor units via a wired communication path. It is necessary to notify via

(10) In the remote monitoring system and the remote monitoring method described in the embodiment and the modification, the monitoring unit calculates the power consumption related to the operation of the air conditioner indoor unit, and calculates the power consumption related to the calculated operation of the air conditioner indoor unit. The billing process is performed based on the amount, but the billing process is not performed, and the performed process may be limited to monitoring and estimating the power supply state of the air conditioner indoor unit.
(11) In the embodiment and the modification described above, the communication cutoff determination unit 320 is described as being provided in the relay device 300. However, the present invention is not limited to this and may be provided in the server device 400. Specifically, the server device may determine the communication cutoff state in the communication path between the air conditioner indoor unit and the server device with reference to the operation information of each air conditioner indoor unit.

  (12) In the remote monitoring system and the remote monitoring method described in the above embodiment and the modification, the power consumption related to the operation of the air conditioner indoor unit, that is, the power consumption consumed by the air conditioner indoor unit ( A function may be provided that measures the amount of power that is the sum of the amount of power supplied by the air conditioner indoor unit to one air conditioner indoor unit) and the amount of power consumed by driving the air conditioner outdoor unit for the operation of the one air conditioner indoor unit. .

  (13) Each component of each device of the remote monitoring system in the above embodiment may be realized by an LSI (Large Scale Integration) which is an integrated circuit. At this time, each component may be individually made into one chip, or may be made into one chip so as to include a part or all of them. In addition, although it is referred to as LSI here, it may be referred to as IC (Integrated Circuit), system LSI, super LSI, or ultra LSI depending on the degree of integration. Further, the method of circuit integration is not limited to LSI, and implementation with a dedicated circuit or a general-purpose processor is also possible. An FPGA (Field Programmable Gate Array) or a reconfigurable processor capable of reconfiguring connection and setting of circuit cells inside the LSI may be used. Furthermore, if integrated circuit technology comes out to replace LSI's as a result of the advancement of semiconductor technology or a derivative other technology, it is naturally also possible to carry out function block integration using this technology.

(14) At least a part of the operation procedure of each device of the remote monitoring system described in the above embodiment is described in the program, for example, a CPU (Central Processing Unit) reads and executes the program stored in the memory The program may be stored in a recording medium and distributed.
(15) You may make it combine suitably the content demonstrated in embodiment and the modification.

≪Supplement (Part 2) ≫
The remote monitoring method and remote monitoring system according to the above-described embodiment, modification, and supplement (part 1) will be summarized.
(1) The first remote monitoring system includes N (N is an integer of 2 or more) air conditioner indoor units from the first air conditioner indoor unit to the Nth air conditioner indoor unit, and each of the N air conditioner indoor units. Remote monitoring system for remotely monitoring a multi-air conditioner system including an air conditioner outdoor unit that individually supplies and drives power, wherein the remote monitoring system includes a monitoring device that performs wireless communication with each of the N air conditioner indoor units. The air conditioner outdoor unit measures the total power consumption of the multi-air conditioner system, and notifies each of the N air conditioner indoor units of the measured value, and each of the N air conditioner indoor units receives from the air conditioner outdoor unit. The notified measurement value of the total power consumption and the operation information of the air conditioner indoor unit are notified to the monitoring device by wireless communication, and the monitoring device A monitoring unit that monitors the operating state of each of the air conditioner indoor units of the ACON system, and a communication cutoff determining unit that determines whether or not wireless communication between each of the N air conditioner indoor units is in a communication cutoff state And when the wireless communication with the first air conditioner indoor unit is determined to be in a communication cut-off state by the communication cut-off determining unit, Based on the measured value of the total power consumption and the operation information of the air conditioner indoor unit notified from each of the (N-1) air conditioner indoor units up to the Nth air conditioner indoor unit, the first air conditioner indoor unit The operational state of the machine is estimated.

According to the first remote monitoring system, it is possible to estimate an operation state of one air conditioner indoor unit in which the wireless communication is cut off among N air conditioner indoor units.
(2) The second remote monitoring system is the first remote monitoring system, wherein the operation state includes a power supply state of an air conditioner indoor unit, and the monitoring unit is connected to the first air conditioner indoor unit by the communication cutoff determining unit. If the wireless communication between the second air conditioner indoor unit and the Nth air conditioner indoor unit is determined to be in the communication cut-off state, the air conditioner A power consumption amount related to the operation of the air conditioner indoor unit is calculated based on the operation information of the indoor unit, and a measured value of the total power consumption amount of the multi air conditioner system is calculated from the second air conditioner indoor unit to the Nth air conditioner indoor unit. When the power consumption of the first air conditioner indoor unit is larger than the total value of the power consumption of the (N-1) air conditioner indoor units up to a predetermined value, the power state of the first air conditioner indoor unit is estimated to be an on state. It may be.

According to the second remote monitoring system, it is possible to estimate an operation state of one air conditioner indoor unit in which the wireless communication is cut off among N air conditioner indoor units.
(3) The third remote monitoring system is the second remote monitoring system, wherein the monitoring unit further performs a charging process for each use of the N air conditioner indoor units, and the monitoring unit performs the communication When it is determined by the cutoff determination unit that the wireless communication with the first air conditioner indoor unit is in a communication cutoff state, the first air conditioner is based on the estimation result of the power supply state of the first air conditioner indoor unit. A billing process at the time of communication interruption for the use of the indoor unit may be performed.

According to the third remote monitoring system, it is possible to charge for the use of N air conditioner indoor units. In particular, among the N air conditioner indoor units, one of the air conditioner indoor units in which the wireless communication is cut off is provided. The charging process for use can be performed by estimating the power supply state of one air conditioner indoor unit.
(4) In the fourth remote monitoring system, in the third remote monitoring system, the monitoring unit performs a charging process when the communication is cut off, a measured value of the total power consumption of the multi-air conditioner system, and the second remote monitoring system. The electric power related to the operation of the first air conditioner indoor unit based on the calculated value of the electric power consumption related to the operation of each of the (N-1) air conditioner indoor units from the air conditioner indoor unit to the Nth air conditioner indoor unit. This may be performed by estimating the consumption amount and calculating a charging fee for using the first air conditioner indoor unit based on the estimated value of the power consumption amount related to the operation of the first air conditioner indoor unit.

According to the fourth remote monitoring system, of the N air conditioner indoor units, the billing process for the use of one air conditioner indoor unit in which the wireless communication is cut off, the power consumption related to the operation of the one air conditioner indoor unit The amount can be estimated.
(5) The fifth remote monitoring system is the third remote monitoring system, wherein the monitoring unit performs the accounting process at the time of the communication interruption based on the time when the power state of the first air conditioner is on. It may be performed by calculating a charging fee for using the first air conditioner indoor unit.

According to the fifth remote monitoring system, it is possible to calculate the charging fee based on the time during which the power state of the air conditioner is on.
(6) In the sixth remote monitoring system, in any one of the third to fifth remote monitoring systems, the communication cutoff state is that the wireless communication between the air conditioner indoor unit and the monitoring device is blocked. It is good also as the state which continued more than predetermined communication interruption time.

According to the sixth remote monitoring system, it is possible to avoid an unnecessary burden on the remote monitoring system.
(7) The seventh remote monitoring system is the sixth remote monitoring system, wherein the monitoring unit performs a billing process for each use of the N air conditioner indoor units in real time, and the communication cut-off time is: It may be shorter than the allowable delay time in the accounting process by the monitoring unit.

According to the seventh remote monitoring system, it is possible to determine the communication cutoff time, which is a criterion for communication cutoff, in accordance with the processing interval of the accounting process in the monitoring unit.
(8) The eighth remote monitoring system may be configured such that, in the seventh remote monitoring system, the communication cutoff time is smaller than a time corresponding to a minimum unit of a charging process by the monitoring unit.
According to the eighth remote monitoring system, it is possible to determine the communication cutoff time, which is a criterion for determining communication cutoff, according to the billing processing unit in the monitoring unit.

(9) In any of the sixth to eighth remote monitoring systems, the ninth remote monitoring system may be configured such that the communication interruption time is longer than an average value of the wireless communication interruption continuation time.
According to the ninth remote monitoring system, it is possible to further avoid unnecessary load on the remote monitoring system.
(10) In the tenth remote monitoring system according to any one of the second to ninth remote monitoring systems, the operation information includes a set temperature of the air conditioner indoor unit and an indoor temperature measured by the air conditioner indoor unit. The monitoring unit includes a power consumption amount related to operation of each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit, and a set temperature of the air conditioner indoor unit. The calculation may be performed using the indoor temperature measured by the air conditioner indoor unit.

According to the tenth remote monitoring system, the power consumption related to the operation of the air conditioner indoor unit can be calculated with high accuracy.
(11) An eleventh remote monitoring system according to the tenth remote monitoring system, wherein the monitoring unit includes (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit. The electric power consumption related to the operation may be calculated by multiplying the difference between the room temperature measured by the air conditioner indoor unit and the set temperature of the air conditioner indoor unit by a predetermined coefficient.

According to the eleventh remote monitoring system, it is possible to calculate the power consumption related to the operation of the air conditioner indoor unit with high accuracy.
(12) In a twelfth remote monitoring system according to the first remote monitoring system, the operation information includes a power supply state of the air conditioner indoor unit, and the monitoring unit is configured to execute the first air conditioner indoor unit by the communication cutoff determination unit. When the wireless communication between the second air conditioner indoor unit and the Nth air conditioner indoor unit is determined before and after the determination that the wireless communication is in the communication cut-off state ( N-1) Based on the operation information of each of the air conditioner indoor units, it is determined that the power state of the air conditioner indoor unit has not changed before and after the determination of the communication cut-off state, and the communication cut-off state When the change in the measured value of the total power consumption of the multi-air conditioner system is within a certain range before and after the determination,
It may be determined that the power state of the first air conditioner indoor unit has not changed before and after the determination that the communication is interrupted.

According to the twelfth remote monitoring system, it is possible to estimate an operation state of one air conditioner indoor unit in which the wireless communication is cut off among N air conditioner indoor units.
(13) A thirteenth remote monitoring system according to the second remote monitoring system, wherein the monitoring unit includes the first air conditioner indoor unit by the communication cut-off determining unit (M is an integer of 2 or more and less than N). When it is determined that the wireless communication with each of the air conditioner indoor units is in the communication cut-off state, the measured value of the total power consumption of the multi air conditioner system is the M air conditioner indoor units. When the power consumption of the M air conditioner indoor units is larger than the total value of the power consumption related to the operation of the (N−M) air conditioner indoor units excluding, the power state of the M air conditioner indoor units is estimated to be on. The measured value of the total power consumption of the multi-air conditioner system is second from the total value of power consumption related to the operation of the (N−M) air conditioner indoor units excluding the M air conditioner indoor units. Predetermined value When the upper is not larger, the power state of the air conditioner indoor unit of the M stage is estimated to be in an off state may be.

According to the thirteenth remote monitoring system, it is possible to estimate the power state of a plurality of air conditioner indoor units in which the wireless communication is in a communication cut-off state among N air conditioner indoor units.
(14) In the fourteenth remote monitoring system according to any one of the first to thirteenth remote monitoring systems, the monitoring device includes a relay device directly connected to each of the N air conditioner indoor units, It is good also as comprising the server apparatus connected with the relay apparatus, the said relay apparatus having the said communication interruption | blocking part, and the said server apparatus having the said monitoring part.

According to the fourteenth remote monitoring system, it is possible to determine the communication cutoff state with high accuracy.
(15) According to the relay device of the fourteenth remote monitoring system, the relay device can determine the wireless communication.
(16) According to the server device of the fourteenth remote monitoring system, each air conditioner indoor unit can be monitored in the server device.

  (17) The first remote monitoring method includes N (N is an integer of 2 or more) air conditioner indoor units from the first air conditioner indoor unit to the Nth air conditioner indoor unit, and each of the N air conditioner indoor units. A remote monitoring method for remotely monitoring a multi air conditioner system including an air conditioner outdoor unit that individually supplies and drives power in a monitoring device, wherein the monitoring device performs wireless communication with each of the N air conditioner indoor units, The air conditioner outdoor unit measures the total power consumption of the multi air conditioner system and notifies the measured value to each of the N air conditioner indoor units, and each of the N air conditioner indoor units is notified from the air conditioner outdoor unit. The measured value of the total power consumption and the operation information of the air conditioner indoor unit are notified to the monitoring device by wireless communication, and the monitoring device Monitoring the operating state of each of the air conditioner indoor units in the system, determining whether or not wireless communication with each of the N air conditioner indoor units is in a communication cut-off state, The wireless communication between the second air conditioner indoor unit and the Nth air conditioner indoor unit is notified from each of the (N-1) air conditioner indoor units, The operational state of the first air conditioner indoor unit is estimated based on the measured value of the total power consumption and the operation information of the air conditioner indoor unit.

According to the first remote monitoring method, it is possible to estimate an operation state of one air conditioner indoor unit in which the wireless communication is cut off among N air conditioner indoor units.
(18) Another remote monitoring system is provided for each of N (N is an integer of 2 or more) air conditioner indoor units from the first air conditioner indoor unit to the Nth air conditioner indoor unit, and each of the N air conditioner indoor units. A remote monitoring system for remotely monitoring a multi-air conditioner system including an air conditioner outdoor unit that individually supplies power and drives, wherein the remote monitoring system includes a monitoring device that communicates with the air conditioner outdoor unit, and the N air conditioners Each indoor unit notifies the air conditioner indoor unit of operation information to the air conditioner outdoor unit, and the air conditioner outdoor unit monitors the operation information of the air conditioner indoor unit notified from each of the N air conditioner indoor units. The monitoring device notifies the N air conditioners based on the operation information of each of the N air conditioner indoor units notified from the air conditioner outdoor unit. Monitoring the operating states of the respective con indoor unit, characterized in that.

  According to another remote monitoring system, the air conditioner outdoor unit can acquire the operation information of each air conditioner indoor unit and provide it to the monitoring device.

  The remote monitoring system and the remote monitoring method according to the present invention can be used in an apartment house, an accommodation facility, a hospital, or the like that includes a plurality of electrical appliances.

DESCRIPTION OF SYMBOLS 1 Remote monitoring system 100 Air-conditioner outdoor unit 200 Air-conditioner indoor unit 250 Wireless adapter 300 Relay apparatus 310 Wireless communication part 320 Communication interruption judgment part 330 Server communication part 400 Server apparatus 410 Communication part 420 Monitoring part 430 Accounting database

Claims (18)

N (N is an integer of 2 or more) air conditioner indoor units from the first air conditioner indoor unit to the Nth air conditioner indoor unit, and an air conditioner outdoor unit that individually supplies power to and drives the N air conditioner indoor units. A remote monitoring system for remotely monitoring a multi-air conditioner system including:
The remote monitoring system includes a monitoring device that performs wireless communication with each of the N air conditioner indoor units,
The air conditioner outdoor unit measures the total power consumption of the multi air conditioner system, and notifies the measured value to each of the N air conditioner indoor units,
Each of the N air conditioner indoor units notifies the monitoring device by wireless communication of the measured value of the total power consumption notified from the air conditioner outdoor unit and the operation information of the air conditioner indoor unit,
The monitoring device
A monitoring unit for monitoring an operating state of each of the air conditioner indoor units of the multi air conditioner system;
A communication cut-off determining unit for determining whether or not wireless communication with each of the N air conditioner indoor units is in a communication cut-off state;
With
The monitoring unit
When it is determined by the communication cutoff determination unit that the wireless communication with the first air conditioner indoor unit is in a communication cutoff state,
The measured value of the total power consumption and the operation information of the air conditioner indoor unit notified from each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit. A remote monitoring system that estimates an operating state of the first air conditioner indoor unit based on the remote control system. The operation state includes a power supply state of the air conditioner indoor unit,
The monitoring unit
When it is determined by the communication cutoff determination unit that the wireless communication with the first air conditioner indoor unit is in a communication cutoff state,
For each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit, power consumption related to the operation of the air conditioner indoor unit based on the operation information of the air conditioner indoor unit To calculate
The measured value of the total power consumption of the multi-air conditioner system is a predetermined value or more than the total value of the power consumption of (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit. The remote monitoring system according to claim 1, wherein when it is larger, the power supply state of the first air conditioner indoor unit is estimated to be an on state. The monitoring unit
Further, a billing process is performed for each use of the N air conditioner indoor units,
The monitoring unit
When it is determined by the communication cutoff determination unit that the wireless communication with the first air conditioner indoor unit is in a communication cutoff state,
The remote monitoring system according to claim 2, wherein billing processing is performed when communication is interrupted for use of the first air conditioner indoor unit based on an estimation result of the power supply state of the first air conditioner indoor unit. The monitoring unit
The billing process when the communication is cut off
Measured value of total power consumption of the multi-air conditioner system and calculation of power consumption for each operation of (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit On the basis of the value, the power consumption related to the operation of the first air conditioner indoor unit is estimated,
Calculating a charging fee for use of the first air conditioner indoor unit based on an estimated value of power consumption related to the operation of the first air conditioner indoor unit;
The remote monitoring system according to claim 3. The monitoring unit
The billing process when the communication is cut off
Calculating a charging fee for use of the first air conditioner indoor unit based on a time during which the power state of the first air conditioner is on;
The remote monitoring system according to claim 3. The communication cut-off state is a state in which the communication cut-off of the wireless communication between the air conditioner indoor unit and the monitoring device has continued for a predetermined communication cut-off time. Remote monitoring system.
The monitoring unit performs billing processing for each use of the N air conditioner indoor units in real time,
The communication cut-off time is shorter than an allowable delay time in the billing process by the monitoring unit,
The remote monitoring system according to claim 6. The communication cut-off time is smaller than a time corresponding to a minimum unit of billing processing by the monitoring unit,
The remote monitoring system according to claim 7. The communication cut-off time is longer than the average value of the wireless communication cut-off duration,
The remote monitoring system according to any one of claims 6 to 8. The operation information includes a set temperature of the air conditioner indoor unit and an indoor temperature measured by the air conditioner indoor unit,
The monitoring unit
The power consumption for the operation of each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit is measured by the set temperature of the air conditioner indoor unit and the air conditioner indoor unit. Calculated using the room temperature
The remote monitoring system according to any one of claims 2 to 9. The monitoring unit
The power consumption associated with the operation of each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit is calculated using the indoor temperature measured by the air conditioner indoor unit and the air conditioner indoor unit. Calculate by multiplying the difference from the set temperature by a predetermined coefficient,
The remote monitoring system according to claim 10. The operation information includes a power state of the air conditioner indoor unit,
The monitoring unit
When it is determined by the communication cutoff determination unit that the wireless communication with the first air conditioner indoor unit is in a communication cutoff state,
Before and after determining that the communication is cut off, the air conditioner indoor unit is based on the operation information of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit. Change in the measured value of the total power consumption of the multi-air conditioner system before and after the determination that the power supply state is not changed before and after the determination of the communication cut-off state Is within a certain range,
The remote monitoring system according to claim 1, wherein it is determined that the power state of the first air conditioner indoor unit has not changed before and after the determination that the communication is cut off. The monitoring unit
The communication cut-off determining unit determines that the wireless communication with each of the M (M is an integer less than or equal to 2 and less than N) air conditioner indoor units including the first air conditioner indoor unit is in a communication cut-off state. In the case of
The measured value of the total power consumption of the multi-air conditioner system is a first predetermined value based on a total value of power consumption related to the operation of the (N−M) air conditioner indoor units excluding the M air conditioner indoor units. When larger than the above, the power supply state of the M air conditioner indoor units is estimated to be on,
A measured value of the total power consumption of the multi-air conditioner system is a second predetermined value based on a total value of power consumption related to the operation of the (N−M) air conditioner indoor units excluding the M air conditioner indoor units. 3. The remote monitoring system according to claim 2, wherein the power supply state of the M air conditioner indoor units is estimated to be in an off state when it is not larger than the above. The monitoring device includes a relay device that is directly wirelessly connected to each of the N air conditioner indoor units, and a server device that is connected to the relay device.
The relay device has the communication blocking unit;
The server device includes the monitoring unit;
The remote monitoring system according to any one of claims 1 to 13.   The relay device according to claim 14.   The server device according to claim 14. N (N is an integer of 2 or more) air conditioner indoor units from the first air conditioner indoor unit to the Nth air conditioner indoor unit, and an air conditioner outdoor unit that individually supplies power to and drives the N air conditioner indoor units. A remote monitoring method for remotely monitoring a multi-air conditioner system including a
The monitoring device performs wireless communication with each of the N air conditioner indoor units,
The air conditioner outdoor unit measures the total power consumption of the multi air conditioner system, and notifies the measured value to each of the N air conditioner indoor units,
Each of the N air conditioner indoor units notifies the monitoring device by wireless communication of the measured value of the total power consumption notified from the air conditioner outdoor unit and the operation information of the air conditioner indoor unit,
The monitoring device
Monitoring the operating state of each air conditioner indoor unit of the multi air conditioner system;
Determining whether wireless communication with each of the N air conditioner indoor units is in a communication cut-off state;
When it is determined that the wireless communication with the first air conditioner indoor unit is in a communication cutoff state,
The measured value of the total power consumption and the operation information of the air conditioner indoor unit notified from each of the (N-1) air conditioner indoor units from the second air conditioner indoor unit to the Nth air conditioner indoor unit. A remote monitoring method for estimating an operating state of the first air conditioner indoor unit based on the first air conditioner indoor unit. N (N is an integer of 2 or more) air conditioner indoor units from the first air conditioner indoor unit to the Nth air conditioner indoor unit, and an air conditioner outdoor unit that individually supplies power to and drives the N air conditioner indoor units. A remote monitoring system for remotely monitoring a multi-air conditioner system including:
The remote monitoring system includes a monitoring device that communicates with the air conditioner outdoor unit,
Each of the N air conditioner indoor units notifies the air conditioner outdoor unit of operation information of the air conditioner indoor unit,
The air conditioner outdoor unit notifies the monitoring device of operation information of the air conditioner indoor unit notified from each of the N air conditioner indoor units,
The monitoring device monitors the operation state of each of the N air conditioner indoor units based on the operation information of each of the N air conditioner indoor units notified from the air conditioner outdoor unit.

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