JP5001876B2 - Air conditioning system and air conditioning control monitoring device - Google Patents

Description

  The present invention relates to an air conditioning system that centrally manages a plurality of air conditioners provided in a building, for example, and an air conditioning control monitoring device used in the air conditioning system.

  Conventionally, an air conditioning system that centrally manages the operation of a plurality of air conditioners installed in a building is known. For example, in Patent Document 1, a client terminal and an air conditioning control monitoring device are connected via a building management communication network, and an air conditioning control monitoring device and a plurality of air conditioners are connected via an air conditioning control network. An air conditioning system is disclosed in which an air conditioning control monitoring device can control each air conditioner based on an operation control command from a terminal.

The air conditioning control and monitoring device has a limit to the number of air conditioners that can be controlled. Therefore, when a large number of air conditioners are installed in a building, it is necessary to install a plurality of air conditioning communication devices. In this case, the client terminal and the plurality of air conditioning control monitoring devices are connected via the building management communication network.
JP 2005-291610 A

By the way, there is known a method (for example, WEB method) in which the operating state information of the air conditioner notified from each air conditioning control monitoring device to the client terminal is displayed on the display device of the client terminal as a monitoring screen consisting of one window. . In this method, when a plurality of air conditioning control monitoring devices are connected, each monitoring screen is switched by switching a plurality of windows displayed on the display device of the client terminal. In such a case, which monitor screen is to be activated and which monitor screen is to be updated are manually performed by the user performing an input operation from the input unit of the client terminal. For this reason, there was a problem that a user's burden was heavy.
In addition, if an abnormality has occurred in the air conditioner, the occurrence of the abnormality has not been notified unless the user selects a monitoring screen related to the air conditioner in which the abnormality has occurred. There was also a problem that appropriate measures could not be taken immediately.

  For example, as a method of automatically switching the monitoring screen displayed on the client terminal, software such as a JAVA (registered trademark) applet including a monitoring screen switching procedure is downloaded to the client terminal, and the client terminal executes the software. Thus, it may be possible to automatically switch the monitoring screen. However, in such a screen switching method, the monitoring screen is simply switched according to a preset procedure. For example, the display order and the display time of the monitoring screen are changed as needed according to the operating state of the air conditioner. I couldn't.

  The present invention has been made in view of such circumstances, and when a plurality of air conditioning control monitoring devices and a client terminal are connected, a plurality of monitoring screens to be displayed on the display device of the client terminal are air conditioning control monitored. An object of the present invention is to provide an air conditioning system and an air conditioning control monitoring device that can be switched at any time according to information from the device.

In order to solve the above problems, the present invention employs the following means.
The present invention is connected to at least one air conditioner via an air conditioning control network, and connected via a communication network to a client terminal that centrally manages the air conditioner, and An air conditioning control and monitoring device that provides operating state information of a conditioner, based on an air conditioning monitoring information storage unit that stores the operating state of each of the air conditioners, and an operating state that is stored in the air conditioning monitoring information storage unit A monitoring screen generating unit for generating a monitoring screen, a link destination setting unit for setting link destination information related to a monitoring screen to be displayed next on the display device of the client terminal, a monitoring screen created by the monitoring screen generating unit, Air conditioning control monitoring comprising: a communication unit that transmits link destination information set by the link destination setting unit to the client terminal To provide a location.

According to such a configuration, the operating state of at least one air conditioner connected via the air conditioning control network is sequentially stored in the air conditioning monitoring information storage unit. And based on the information memorize | stored in this air-conditioning monitoring information storage part, the monitoring screen which shows the operating state of an air conditioner is produced | generated by the monitoring screen production | generation part. The link destination setting unit sets link destination information related to a monitoring screen to be displayed next on the display device of the client terminal, and the monitoring screen and link destination information are transmitted to the client terminal via the communication unit.
As a result, the monitoring screen generated by the monitoring screen generation unit is displayed on the display device of the client terminal. Also, since link destination information related to the monitoring screen to be displayed next on the display device is sent to the client terminal, the next monitoring screen can be similarly displayed on the display device of the client terminal by accessing this link destination. Is possible. Thus, since the next link destination information is transmitted to the client terminal together with the information on the monitoring screen, the monitoring screen displayed on the client terminal can be automatically switched without a user input operation. Further, in the air conditioning control monitoring device, it is possible to designate the monitoring screen to be displayed on the display device of the client terminal as needed by operating the link destination information transmitted to the client terminal.

  The air conditioning control and monitoring device includes an air conditioning operation schedule recording unit storing air conditioning operation schedule information in which time information and the link destination information are associated, and the link destination setting unit stores the air conditioning operation schedule storage The link destination information corresponding to the current time may be read from the section, and the read link destination information may be set.

  As described above, since the air conditioning operation schedule information in which the time information and the link destination information are associated is held, for example, a monitoring screen to be displayed on the display device of the client terminal is selected according to the day of the week or the time zone. It is possible to change the display order of the monitoring screens.

  In the air conditioning control monitoring device, the link destination setting unit sets standby time information for determining a period for displaying the monitoring screen generated by the monitoring screen generation unit on the display device of the client terminal, and the communication unit The waiting time information may be transmitted to the client terminal together with the monitoring screen and the link destination information.

  Thus, by transmitting the waiting time information to the client terminal, it is possible to determine the time for displaying the monitoring screen. As a result, if it is important information, the display time can be freely changed by setting the standby time information longer.

  The air conditioning control monitoring device includes an abnormality detection unit that detects an abnormality based on an operating state of the air conditioner, and when an abnormality is detected by the abnormality detection unit, the link destination setting unit is used as a link destination. It is good also as setting own link destination information.

  According to such a configuration, when an abnormality is detected by the abnormality detection unit, the link destination information of the client terminal is set as link destination information. It is possible to leave the monitoring screen showing that it has been displayed. This makes it possible to reliably and promptly notify the user that an abnormality has occurred.

  The air conditioning control monitoring device includes an abnormality detection unit that detects an abnormality based on the operating state information of the air conditioner, and when the abnormality is detected by the abnormality detection unit, the link destination setting unit Abnormal standby time information set longer than the standby time may be set as the standby time information.

  According to such a configuration, when an abnormality is detected by the abnormality detection unit, the self-monitoring screen, that is, a monitoring screen indicating that an abnormality has occurred is displayed on the display device of the client terminal. It is possible to display over a period. This makes it possible to reliably and promptly notify the user that an abnormality has occurred. In addition, after the standby time has elapsed, the client terminal accesses the next link destination, so that the monitoring screen displayed on the display device of the client terminal can be automatically switched.

  Any one of the plurality of air conditioning control monitoring devices, a plurality of air conditioners connected to any one of the air conditioning control monitoring devices via an air conditioning control network, and a plurality of the air conditioning control monitoring devices and a communication network. An air conditioning system including a connected client terminal is provided.

  According to the present invention, when a plurality of air conditioning control monitoring devices and a client terminal are connected, a plurality of monitoring screens to be displayed on the display device of the client terminal can be switched at any time according to information from the air conditioning control monitoring device. There is an effect.

Hereinafter, an air conditioning system and an air conditioning control monitoring device according to each embodiment of the present invention will be described with reference to the drawings.
[First Embodiment]
FIG. 1 is a block diagram showing the overall configuration of the air conditioning system according to the first embodiment of the present invention. As shown in FIG. 1, an air conditioning system according to this embodiment includes a client terminal 1, a plurality of air conditioning control monitoring devices 3 a, 3 b, connected to the client terminal 1 via a building management communication network (communication network) 2. ... 3n (Hereinafter, “3” is simply given to indicate all “air conditioning control monitoring devices”, and “3a”, “3b”, etc. are assigned to each air conditioning control monitoring device.) And a plurality of air conditioners 5 connected to each of the air conditioning control monitoring devices 3a, 3b,.

The client terminal 1 includes, for example, a CPU (Central Processing Unit), ROM (Read Only)
Memory), RAM (Random Access)
Memory), an input device, a display management device 11 and the like, and a computer for building management, which manages the operation of facilities provided in the building. The client terminal 1 is installed with software for controlling / monitoring the packaged air conditioner based on the standard for building air conditioning management communication. The client terminal 1 is equipped with a WEB browser and has a function of acquiring data from a predetermined URL and displaying it on the display device 11.

  The building management communication network 2 is a network that uses a communication protocol (for example, TCP / IP) standardized for building management, and is, for example, a LAN (Local Area Network), an intranet, the Internet, or the like.

Each of the air conditioning control monitoring devices 3a, 3b,... 3n is a device for performing operation control and operation management of the air conditioner 5 provided in each room in the building. Monitoring is performed, and operating state information as a monitoring result is provided to the client terminal 1.
Each of the air-conditioning control monitoring devices 3a, 3b,... 3n has a built-in WEB server, and is assigned an individual URL. The client terminal 1 accesses the URL assigned to each air conditioning control monitoring device 3a, 3b,... 3n, so that the monitoring screen related to the air conditioner from each air conditioning control monitoring device 3a, 3b,. Can be obtained. In the present embodiment, URL1 is assigned to the air conditioning control monitoring device 3a, URL2 is assigned to the air conditioning control monitoring device 3b, and URLn is assigned to the air conditioning control monitoring device 3n.

  The air conditioning control network 4 is a network that uses a standardized communication protocol for control and monitoring of the air conditioner.

Next, the air conditioning control monitoring device 3 according to the present embodiment will be described in detail with reference to FIG.
FIG. 2 is a functional block diagram showing the functions provided in the air conditioning control monitoring device 3 in an expanded manner. As shown in FIG. 2, the air conditioning control monitoring device 3 includes an operation control unit 31, an air conditioning monitoring information storage unit 32, an air conditioning control communication unit 33, a link destination setting unit 34, a monitoring screen generation unit 35, and a management network communication. Part (communication part) 36 is provided.

For example, the operation control unit 31 generates a control signal for performing operation control of each air conditioner 5 (see FIG. 1) based on the operation control command received from the client terminal 1, and transmits the control signal to the air conditioning control communication. By transmitting to each air conditioner via the unit 33, operation control of each air conditioner 5 under management is performed.
The air conditioning monitoring information storage unit 32 acquires operating state information from the air conditioner 5 at predetermined time intervals, and accumulates the operating state information. The operation state information includes, for example, set temperature information, room temperature information, and the like in addition to operation type information such as cooling operation, heating operation, and operation stop.
The air-conditioning control communication unit 33 includes an interface for communicating with each air conditioner 5 via the air-conditioning control network 4. The control signal generated by the operation control unit 31 is sent to the air-conditioning control network 4. And the operation state information from each air conditioner is received, and the received operation state information is output to the air conditioning monitoring information storage unit 32.

  The link destination setting unit 34 has link destination information regarding the next monitoring screen to be displayed on the display device 11 of the client terminal 1, sets the link destination information, and outputs the link destination information to the monitoring screen generation unit 35. In the present embodiment, the link destination information is a URL assigned to each air conditioning control monitoring device 3a, 3b,. For example, the link destination setting unit 34 of the air conditioning control monitoring device 3a is “URL2” of the air conditioning control monitoring device 3b, and the link destination setting unit 34 of the air control monitoring device 3b is “URL3” of the air conditioning control monitoring device 3c (not shown). The link destination setting unit 34 of the air control monitoring device 3n has “URL1” of the air conditioning control monitoring device 3a as link destination information.

  The link destination setting unit 34 sets a period during which the monitoring screen generated by the monitoring screen generation unit 35 provided in the same air conditioning control monitoring device is displayed on the display device 11 of the client terminal 1 as a standby time. For this reason, the link destination setting unit 34 holds the standby time together with the link destination information. For example, each air conditioning control monitoring device 3a, 3b,... 3n has “standby time α” as the standby time.

  The monitoring screen generating unit 35 generates monitoring screen data for notifying the user of the operating state of each air conditioner 5 based on the latest operating state information stored in the air conditioning monitoring information storage unit 32 or the past predetermined period. To do. The monitoring screen data is generated by, for example, a markup language such as HTML or XML that is a WEB page creation language. In this embodiment, the case where it produces using HTML is assumed.

  The management network communication unit 36 includes a communication interface for communicating with the client terminal 1 via the building management communication network 2, and the link destination information and standby time set by the link destination setting unit 34, and The monitoring screen data generated by the monitoring screen generation unit 35 is transmitted to the client terminal 1 via the building management communication network 2, and data update requests, operation control commands, etc. are received from the client terminal 1, and the received requests And a command are output to each part in the air conditioning control monitoring device 3.

Next, the operation of the air conditioning system having the above configuration will be described with reference to FIGS. 1 and 2.
In the following description, the client terminal 1 receives monitoring screen data from each of the air conditioning control monitoring devices 3a, 3b,..., 3n, and each of the air conditioning control monitoring devices 3a, 3b,. It is assumed that a monitoring screen regarding the operating state of the air conditioner being monitored has already been displayed on the display device 11 of the client terminal 1.

  In this state, for example, the client terminal 1 transmits a data update request to the air conditioning control monitoring device 3a. Thereby, the data update request is transmitted to the air conditioning control monitoring device 3a via the building management communication network 2, and is received by the management network communication unit 36 of the air conditioning control monitoring device 3a. The management network communication unit 36 outputs this data update request to the monitoring screen generation unit 35 and the link destination setting unit 34.

  The monitoring screen generation unit 35 creates monitoring screen data by acquiring the latest operation state information or the operation state information in the past predetermined period from the air conditioning monitoring information storage unit 32. Further, the link destination setting unit 34 sets “URL2” of the air conditioning control monitoring device 3b set in advance as the link destination information, and sets “waiting time α” set in advance as the standby time. These setting items are output to the monitoring screen generator 35.

  The monitoring screen generation unit 35 outputs the information of “URL2” and “waiting time α” input from the link destination setting unit 34 and the latest monitoring screen data to the management network communication unit 36. As a result, the latest monitoring screen data and information of “URL2” and “waiting time α” are transmitted to the client terminal 1 via the building management communication network 2.

  Upon receiving these pieces of information, the client terminal 1 updates the monitoring screen data of the air conditioning control monitoring device 3a displayed on the display device 11 to the latest monitoring screen data received this time. Then, the time is measured from the time when the monitoring screen data is updated, and a data update request is transmitted to the air conditioning control monitoring device 3b identified by “URL2” received as the link destination when the “waiting time α” has elapsed.

Thereby, in the air conditioning control monitoring device 3b that has received the data update request, the latest monitoring screen data related to the air conditioning control management device 3b is generated by performing the same processing as the air conditioning control monitoring device 3a described above. “URL3” is set as the link destination information, and “waiting time α” is set as the waiting time. These pieces of information are transmitted to the client terminal 1 via the building management communication network 2. As a result, in the client terminal 1, the monitoring screen data of the air conditioning control monitoring device 3b displayed on the display device 11 is updated to the latest monitoring screen data received this time. Time measurement is performed from this update time, and a data update command is transmitted to the air conditioning control monitoring device 3c (not shown) identified by “URL3” received as the link destination when “waiting time α” has elapsed.
And the monitoring screen currently displayed on the display apparatus 11 of the client terminal 1 will be automatically updated sequentially by performing the above-mentioned process repeatedly.

As described above, according to the air conditioning system and the air conditioning control monitoring device 3 according to the present embodiment, the next link destination information and the standby time from the air conditioning control monitoring device 3 to the client terminal 1 together with the monitoring screen data. Is transmitted, the client terminal 1 can access the next link destination after the standby time elapses from when the monitoring screen is updated, and acquire new monitoring screen data from the link destination.
As described above, by transmitting the next link destination and the waiting time to the client terminal, the monitoring screen displayed on the display screen of the client terminal 1 can be automatically updated. Thereby, since the monitoring screen created by each of the air conditioning control monitoring devices 3a, 3b,... 3n can be repeatedly activated at a predetermined cycle, for example, when an abnormality occurs in the air conditioner Can promptly notify the abnormality. In addition, by automatically updating the monitoring screen, the burden on the operator can be greatly reduced.

[Second Embodiment]
Next, an air conditioning system and an air conditioning control monitoring device according to a second embodiment of the present invention will be described with reference to FIG.
In the air conditioning system according to the present embodiment, the configuration of the air conditioning control monitoring device is different from that of the first embodiment described above. Hereinafter, regarding the air-conditioning control monitoring apparatus of the present embodiment, description of points that are common to the first embodiment will be omitted, and different points will be mainly described.

FIG. 3 is a functional block diagram showing the functions provided in the air conditioning control monitoring apparatus according to the present embodiment. As shown in this figure, the air conditioning control monitoring apparatus according to the present embodiment further includes a link destination information storage unit 37 and an air conditioning operation schedule storage unit 38.
The link destination information storage unit 37 stores URL list information in which a URL is associated with an ID of an air conditioning control monitoring apparatus to which the URL is assigned. The air conditioning operation schedule storage unit 38 stores air conditioning operation schedule information in which time information and link destination information are associated with each other.

  In the air conditioning control monitoring device having such a configuration, when receiving a data update request from the client terminal 1, the link destination setting unit 34-1 reads link destination information corresponding to the current time from the air conditioning operation schedule storage unit 38, The read link destination information, that is, the URL is set. The link destination setting unit 34-1 reads and sets the standby time when the standby time is registered in the air conditioning operation schedule information together with the link destination information, and when the standby time is not registered, the link destination setting unit 34-1 The “standby time α” that the destination setting unit 34-1 has in advance is set. When the link destination information and the standby time are set in this way, the set information is output to the monitoring screen generation unit 35. As a result, as in the first embodiment described above, the latest monitoring screen data, link destination information, and standby time information are transmitted to the client terminal 1, and the monitoring screen of the display device 11 of the client terminal 1 is updated.

  As described above, according to the air conditioning system and the air conditioning control monitoring apparatus according to the present embodiment, since the air conditioning operation schedule information in which the time information and the link destination information are associated is held, the day of the week or the time zone It is possible to change the display order of the monitoring screens according to the above, or to skip the display of the monitoring screens related to a specific air conditioning control monitoring device.

Further, since the link destination information storage unit 37 is provided, for example, when the URL of each air conditioning control monitoring device is unknown, the URL list information stored in the link destination information storage unit 37 is displayed. By referencing, it is possible to acquire the URL of the desired air conditioning control monitoring device. Thereby, even if it is a case where URL is not registered into air-conditioning operation schedule information, URL of a desired air-conditioning control monitoring apparatus can be acquired reliably.
For the URL list information stored in the air conditioning operation schedule information stored in the air conditioning operation schedule storage unit 38 and the link destination information storage unit 37, for example, by performing an input operation related to a change instruction from the client terminal 1, Can be rewritten freely. Moreover, when each air-conditioning control monitoring apparatus is provided with the input device, it is good also as a structure which can change the said various information by a user operating the input device.

[Third Embodiment]
Next, an air conditioning system and an air conditioning control monitoring apparatus according to a third embodiment of the present invention will be described with reference to FIG.
In the air conditioning system according to the present embodiment, the configuration of the air conditioning control monitoring device is different from that of the second embodiment described above. Hereinafter, regarding the air-conditioning control monitoring apparatus of the present embodiment, description of points that are common to the second embodiment will be omitted, and different points will be mainly described.

FIG. 4 is a functional block diagram showing the functions provided in the air conditioning control monitoring apparatus according to the present embodiment. As shown in this figure, the air conditioning control monitoring device according to the present embodiment further includes an abnormality detection unit 39.
The abnormality detection unit 39 is input with operating state information stored in the air conditioning monitoring information storage unit 32. The abnormality detection unit 39 determines whether there is an air conditioner in which an abnormality has occurred by analyzing the input operating state information, and if an abnormality has occurred, that fact is indicated. It has a function of notifying the link destination setting unit 34-2.

  In the air conditioning control monitoring device having such a configuration, the operation state information of each air conditioner 5 is output to the air conditioning monitoring information storage unit 32 and the abnormality detection unit 39 via the air conditioning control communication unit 33. The abnormality detection unit 39 analyzes the input operating state information of each air conditioner 5 and determines whether there is an air conditioner 5 in which an abnormality has occurred. As a result, if there is an air conditioner 5 in which an abnormality has occurred, an abnormality signal is output to the link destination setting unit 34-2.

  In this state, when a data update request is received from the client terminal 1, the link destination setting unit 34-2 sets its own URL as link destination information. For example, in the case of the air conditioning control monitoring device 3a, “URL1” is set as the link destination information. Further, the link destination setting unit 34-2 sets the “standby time α” that is held in advance as the standby time, and outputs this information to the monitoring screen generation unit 35.

The monitoring screen generation unit 35 creates monitoring screen data based on the latest operating state information accumulated in the air conditioning monitoring information storage unit 32. At this time, regarding the data of the air conditioner in which an abnormality has occurred, monitoring screen data may be created so that the display mode is different from that of other normal air conditioners.
The monitoring screen data created by the monitoring screen generating unit 35, the link destination information set by the link destination setting unit 34-2, and the waiting time are transmitted to the client terminal 1 via the management network communication unit 36.
As a result, a monitoring screen is displayed on the display device 11 of the client terminal 1 so as to identify the air conditioner in which an abnormality has occurred. Further, since the URL of the air conditioning control monitoring apparatus that monitors the air conditioner 5 in which an abnormality has occurred is set as link destination information, the client terminal 1 accesses the air conditioning control monitoring apparatus next time, This monitoring screen is acquired. As a result, a monitoring screen that always notifies the occurrence of an abnormality is displayed on the display device 11 of the client terminal 1 as an active window.

  As described above, according to the air conditioning system and the air conditioning control monitoring apparatus according to the present embodiment, when an abnormality is detected by the abnormality detection unit 39, the air conditioner in which the occurrence of the abnormality is detected is monitored. Since the URL of the air conditioning control monitoring device is set as the link destination information, it is possible to keep the monitoring screen on which the occurrence of an abnormality has been displayed on the display device 11 of the client terminal 1. This makes it possible to reliably and promptly notify the user that an abnormality has occurred.

In the third embodiment described above, instead of setting its own URL as the link destination information, the link destination information is set in the same manner as in the first or second embodiment described above, and the waiting time is set as It is also possible to set an abnormal standby time that is set longer than normal. For example, if the normal standby time is “1 minute”, the abnormal standby time is set to “30 minutes” or the like. Thereby, the switching time of the monitoring screen in the client terminal 1 can be delayed. As a result, it is possible to display a monitoring screen indicating that an abnormality has occurred on the display device 11 of the client terminal 1 over a long period of time, and to ensure that the abnormality has occurred to the user reliably and promptly. Can be notified.
In addition, after the abnormal standby time elapses, the client terminal 1 accesses the next link destination, so that the monitoring screen displayed on the display device 11 of the client terminal 1 can be automatically switched. .

  In each of the above embodiments, the air conditioning control monitoring device 3 may have dedicated hardware for realizing the above-described functions, or a configuration for realizing the above functions by software and dedicated hardware. It may be said. When implemented by software, a program for realizing the above functions is stored in a computer-readable memory (for example, a hard disk), and the CPU reads the program from this memory into the RAM and executes it. The above functions are realized.

  As mentioned above, although embodiment of this invention was explained in full detail with reference to drawings, the specific structure is not restricted to this embodiment, The design change etc. of the range which does not deviate from the summary of this invention are included.

It is a figure showing the whole air-conditioning system composition concerning a 1st embodiment of the present invention. It is the functional block diagram which expand | deployed and showed the function with which the air-conditioning control monitoring apparatus which concerns on 1st Embodiment of this invention is provided. It is the functional block diagram which expand | deployed and showed the function with which the air-conditioning control monitoring apparatus which concerns on this 2nd Embodiment is provided. It is the functional block diagram which expand | deployed and showed the function with which the air-conditioning control monitoring apparatus which concerns on this 3rd Embodiment is provided.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Client terminal 2 Building management communication network 3, 3a, 3b, 3n Air-conditioning control monitoring apparatus 4 Air-conditioning control network 5 Air conditioner 11 Display apparatus 31 Operation control part 32 Air-conditioning monitoring information storage part 33 Air-conditioning control communication part 34, 34- 1, 34-2 Link destination setting unit 35 Monitoring screen generation unit 36 Management network communication unit 37 Link destination information storage unit 38 Air conditioning operation schedule storage unit 39 Abnormality detection unit

Claims (6)

The air conditioner is connected to at least one air conditioner via an air conditioning control network and connected to a client terminal that centrally manages the air conditioner via a communication network, and the air conditioner is operated with respect to the client terminal. An air conditioning control monitoring device that provides status information,
An air-conditioning monitoring information storage unit for storing an operating state of each of the air conditioners;
A monitoring screen generation unit that generates a monitoring screen based on the operating state stored in the air conditioning monitoring information storage unit;
A link destination setting unit for setting link destination information related to a monitoring screen to be displayed next on the display device of the client terminal;
An air-conditioning control monitoring apparatus comprising: a communication unit that transmits a monitoring screen created by the monitoring screen generation unit and link destination information set by the link destination setting unit to the client terminal. An air conditioning operation schedule recording unit storing air conditioning operation schedule information in which time information and the link destination information are associated with each other;
The air conditioning control monitoring apparatus according to claim 1, wherein the link destination setting unit reads link destination information corresponding to a current time from the air conditioning operation schedule storage unit, and sets the read link destination information. The link destination setting unit sets waiting time information for determining a period for displaying the monitoring screen generated by the monitoring screen generating unit on the display device of the client terminal,
The air conditioning control monitoring apparatus according to claim 1, wherein the communication unit transmits the waiting time information to the client terminal together with the monitoring screen and the link destination information. An abnormality detection unit that detects an abnormality based on the operating state of the air conditioner,
The air conditioning control monitoring apparatus according to any one of claims 1 to 3, wherein when an abnormality is detected by the abnormality detection unit, the link destination setting unit sets its own link destination information as a link destination. An abnormality detection unit that detects an abnormality based on the operating state information of the air conditioner,
The link destination setting unit, when an abnormality is detected by the abnormality detection unit, sets abnormal standby time information set longer than a normal standby time as the standby time information. Air conditioning control monitoring equipment. A plurality of air conditioning control monitoring devices according to any one of claims 1 to 5,
A plurality of air conditioners connected to any one of the air conditioning control monitoring devices via an air conditioning control network;
An air conditioning system comprising: a plurality of air conditioning control monitoring devices and client terminals connected via a communication network.

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