JP2010190549A - Air conditioning control monitoring device, program, and air conditioning control monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily and promptly save settings of an air conditioner. <P>SOLUTION: In the air conditioning control monitoring device 2, operation control of an air conditioner 3 is carried out in response to instruction from a client terminal 1 remotely operating the air conditioner 3, an operating condition of the air conditioner 3 is monitored, and information of the operating condition of the air conditioner 3 is provided to the client terminal 1. The air conditioning control monitoring device 2 includes a transmitting part 10 transmitting the settings of the air conditioner 3 to the client terminal 1 at predetermined timings, a setting storing part 12 storing the settings in coordination with identification information when a storing instruction and the identification information are received from the client terminal 1, and a control part 13 reading settings corresponding to identification information from the setting storing part 12 when a switching instruction and the identification information are received from the client terminal 1, and switching settings of the air conditioner 3 to the settings read from the setting storing part 12. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an air conditioning control monitoring device, a program, and an air conditioning control monitoring system.

  2. Description of the Related Art Conventionally, in an air conditioning control monitoring system that centrally manages a plurality of air conditioners arranged in a building, management data such as the operating status of the air conditioner to be managed is collected in a central monitoring device. In addition, the management data of each air conditioner is notified from a central monitoring device to a remote monitoring terminal connected via a LAN or public line, and the operating status of the air conditioner is monitored from the monitoring terminal. Yes.

JP-A-62-266348

  By the way, in an air conditioning control monitoring system in a building, when information that designates a setting state is transmitted from the central monitoring device to each air conditioner, each air conditioner is controlled to be in an operation state based on the setting state. Is done. However, conventionally, during the operation of the air conditioner, the setting is changed by the user in each room, and the setting state specified from the central monitoring device is different from the setting state set in actual operation in each room.

In addition, in order to provide the air conditioning state desired by the user to each air conditioner from the central monitoring device, the monitoring person manually sets the setting state parameters for each air conditioner one by one. There was a need to do.
Therefore, for example, when there are a plurality of parameters for controlling the setting state and there are several hundred air conditioners in a large-scale environment such as a building, there are several thousand setting points for the setting state parameter. . In such a case, setting parameters of these thousands of setting states is a heavy burden on the monitor, and there is a problem that it is impossible to quickly set thousands of points.

  The present invention has been made to solve the above problems, and provides an air-conditioning control monitoring apparatus and program, and an air-conditioning control monitoring system that can easily and quickly save the setting state of an air conditioner. With the goal.

  In order to solve the above problems, the present invention employs the following means.

  The present invention controls the operation of the air conditioner according to an instruction from a client terminal that remotely operates the air conditioner, monitors the operating state of the air conditioner, and controls the air conditioner with respect to the client terminal. An air-conditioning control and monitoring device that provides information on the operating state of the machine, wherein the air conditioner setting state at a predetermined timing is transmitted to the client terminal, and the setting state transmitted from the transmitting unit is When a storage instruction and identification information are received from the received client terminal, setting state storage means for storing the setting state and the identification information in association with each other, and switching of the setting state of the air conditioner from the client terminal When the instruction and the identification information are received, the setting state corresponding to the identification information is read from the setting state storage means, and the empty state is read out. The setting state of the conditioner provides air-conditioning control and monitoring apparatus characterized by comprising a control means for switching the setting state read from the setting state storage means.

  According to such a structure, the setting state which shows the setting of the air conditioner of predetermined timing (for example, present) is transmitted to a client terminal by a transmission means. Thereby, for example, the received setting state is displayed on the display means of the client terminal. When a setting state storage instruction and identification information are received from the client terminal for this setting state, the received identification information is associated with the setting state transmitted to the client terminal and stored in the setting state storage means. The Further, when an instruction for switching the setting state of the air conditioner and the identification information are received from the client terminal, the setting state corresponding to the identification information received from the client terminal is read from the setting state storage unit and read out. The operation of the air conditioner according to the set state is performed by the control means.

  Thus, since the setting state of the operating air conditioner at a predetermined timing is stored as setting information based on a command from the client terminal, the air conditioner at the timing specified by the user using the client terminal is stored. The setting state can be easily saved. Further, since the setting state and the name thereof are associated with each other, the setting state stored previously can be easily called by designating the name from the client terminal. Thereby, the setting state of an air conditioner can be changed into the setting state at the time of recording in the setting state storage means.

  The set state is, for example, operating conditions. As an example, an operation date and time, an operation mode, a set temperature, a room temperature, a permission / inhibition setting for remote control operation, and the like can be given.

  In the case where a plurality of air conditioners of the air conditioning control monitoring device is a monitoring target, when the storage instruction and the identification information are received from the client terminal, the respective settings in the plurality of air conditioners that are the monitoring target The state and the identification information may be associated with each other and stored in the setting state storage unit.

  As described above, when a plurality of air conditioners are to be monitored, the setting states in the plurality of air conditioners are stored in association with one piece of identification information. Thereby, when switching the setting state of an air conditioner, a user can switch each setting state of a plurality of air conditioners to a desired setting state only by inputting one piece of identification information. When a plurality of air conditioners are monitoring targets, the user may be able to select an air conditioner that stores the set state. In this way, only the desired setting state of the air conditioner can be stored in the setting state storage unit.

  The setting state of the air conditioning control monitoring device may include an installation environment of the air conditioner.

  Examples of the installation environment of the air conditioner include a room where the air conditioner is installed, a group of rooms divided by purpose, and the like.

The setting state of the air conditioning control monitoring device may be changeable by the client terminal.
Thereby, it becomes possible to memorize | store the setting state of a desired air conditioner by the user.

  The present invention is a client terminal that is connected to an air conditioning control monitoring device that monitors the operating state of the air conditioner and controls the operation of the air conditioner via a network, and the air conditioner at a predetermined timing Specifying the identification information when switching the setting state of the air conditioner, the receiving means for receiving the setting state, the identification information giving means for giving identification information for the setting state received from the receiving means, and the setting state of the air conditioner Thus, a client terminal is provided, comprising: command transmission means for transmitting a command for controlling the air conditioner based on the setting state associated with the identification information.

With such a configuration, the setting state of the air conditioner at a predetermined timing received by the receiving unit is given a name by the name providing unit. In addition, when switching the setting state of the air conditioner, the command transmitting unit transmits information on the name associated with the setting state, so that the air conditioner is based on the setting state associated with the name. A command to control is transmitted.
Thereby, the setting state of the air conditioner can be controlled remotely via the air conditioning control monitoring device.

  The present invention provides an air conditioning control monitoring system including any of the above-described air conditioning control monitoring devices and the client terminal described above.

  The present invention controls the operation of the air conditioner according to an instruction from a client terminal that remotely operates the air conditioner, monitors the operating state of the air conditioner, and controls the air conditioner with respect to the client terminal. An air-conditioning control monitoring program that provides information on the operating state of the machine, the first process for transmitting the setting state of the air conditioner at a predetermined timing to the client terminal, and the setting transmitted from the first process A second process of storing the setting state and the identification information in association with each other when a storage instruction and identification information are received from the client terminal that has received the state; and a setting state of the air conditioner from the client terminal When a switching instruction and the identification information are received, a setting state corresponding to the identification information is read from the setting state storage means, and the air The setting state of the sum machine providing the air-conditioning control and monitoring program for executing a third processing for switching the setting state read from the setting state storage means to the computer.

  According to the present invention, there is an effect that the setting state of the air conditioner can be easily and quickly stored.

It is the block diagram which showed an example of the structure of the air-conditioning control monitoring apparatus which concerns on one Embodiment of this invention. It is the figure which showed the example of a screen in the case of setting the setting state of an operation | movement to an air-conditioning control monitoring apparatus. It is the figure which showed the example of a screen in the case of setting a schedule in a setting state.

  Embodiments of an air conditioning control monitoring system to which an air conditioning control monitoring device according to the present invention is applied will be described below with reference to the drawings.

[First Embodiment]
FIG. 1 is a block diagram showing a schematic configuration of an air conditioning control monitoring system according to the present embodiment.

  As shown in FIG. 1, an air conditioning control monitoring system 30 according to the present embodiment includes a client terminal 1 equipped with a WEB browser and an air conditioning control monitoring device 2 as main components. The air conditioning control monitoring device 2 controls the operation of the air conditioner 3 according to an instruction from the client terminal 1, monitors the operation state of the air conditioner 3, and controls the air conditioner with respect to the client terminal 1. Provides 3 driving conditions.

  The client terminal 1 receives information related to the setting state of the air conditioner 3 received from the air conditioning control monitoring device 2 and performs various operation controls of the air conditioner 3 via the air conditioning control monitoring device 2. Therefore, the client terminal 1 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), an input device, a monitor, and the like (not shown).

  The client terminal 1 and the air conditioning control monitoring device 2 are connected via a building management communication network 4. The building management communication network 4 is a network using a communication protocol (for example, TCP / IP) standardized for building management, for example, a LAN (Local Area Network) or the like. The air conditioning control monitoring device 2 and the air conditioner 3 are connected via an air conditioning control network 5. The air conditioning control network 5 is a network that uses, for example, a standardized communication protocol for controlling and monitoring an air conditioner.

The air conditioner 3 outputs a set state relating to its own operation to the air conditioning control monitoring device 2 at a predetermined timing. Specifically, the air conditioner 3 installed in the conference room A outputs the set state “cooling operation” “26 degrees” at a predetermined timing to the air conditioning control monitoring device 2.
Further, the air conditioner 3 outputs its own set state to the air conditioning control monitoring device 2 whether it is in operation or not.

  The set state is, for example, an operating condition. As an example, an operation date and time, an operation mode, a set temperature, a room temperature, a permission / inhibition setting for remote control operation, and the like can be given.

  The air conditioning control monitoring device 2 is, for example, a computer, and includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like (not shown). A series of processing steps for realizing various functions to be described later is recorded in a ROM or the like in the form of a program, and the CPU reads the program into the RAM or the like and executes information processing / arithmetic processing. Various functions to be described later are realized.

  The air conditioning control monitoring device 2 includes a transmission unit (transmission unit) 10, a synthesis unit 11, a setting state storage unit (setting state storage unit) 12, a control unit (control unit) 13, and a reception unit 14. .

  The receiving unit 14 receives the set state of each air conditioner 3 and information on the installation environment of the air conditioner 3 from the air conditioner 3 at a predetermined timing, and outputs the information to the transmission unit 10.

  The transmission unit 10 associates the setting state of the air conditioner 3 at the predetermined timing received from the reception unit 14 with the information on the installation environment of the air conditioner 3 and outputs it to the client terminal 1. The installation environment of the air conditioner 3 is information for identifying the air-conditioning section in which the air conditioner 3 is installed or information for identifying the air conditioner. The name to show.

  Moreover, the transmission part 10 transmits the setting state in arbitrary timings to the client terminal 1 irrespective of whether the air conditioner 3 is driving | operating.

  Specifically, the transmission unit 10 sets the “conference room A (for example, identification information of the air conditioner 3 in the conference room A)” as the installation environment from the air conditioner 3 in the conference room A at a predetermined timing. "Cooling operation" and "26 degrees" are received, and this information is transmitted to the client terminal 1.

  When the combining unit 11 receives the storage instruction and the identification information from the client terminal 1 that has received the setting state and the installation environment information transmitted from the transmission unit 10, the combination unit 11 includes the identification information in the setting state and the installation environment information. Are stored in the setting state storage unit 12 in association with each other. Specifically, based on the storage instruction transmitted by the client terminal 1, the synthesizing unit 11 associates the setting state, the installation environment information, and the identification information, and stores them in the setting state storage unit 12.

  Further, the storage instruction transmitted from the client terminal 1 is transmitted at an arbitrary timing (time), and the combining unit 11 sets the setting information and the identification information based on the timing of receiving the storage instruction from the client terminal 1 in the setting state. Store in the storage unit 12.

  Furthermore, when the combining unit 11 receives the setting state switching instruction and identification information of the air conditioner 3 from the client terminal 1, the combining unit 11 displays the setting state and installation environment information corresponding to the identification information. And output to the control unit 13.

  More specifically, the synthesizing unit 11 receives information about the installation environment of the air conditioner 3 (for example, “conference room A”) and a setting state (for example, “cooling operation” “26 degrees”) from the client terminal 1. When the identification information (for example, “summer meeting room A appropriate temperature setting”) and the storage instruction (for example, an instruction output when the user presses the registration button) is received, these pieces of information, for example, , “Conference room A”, “cooling operation”, “26 degrees”, and “summer meeting room A optimal temperature setting” are stored in the setting state storage unit 12 in association with each other.

  Further, for example, when the combining unit 11 receives the switching instruction and the identification information (for example, “Summer Meeting Room A Optimal Temperature Setting”) from the client terminal 1, it is installed in association with “Summer Meeting Room A Optimal Temperature Setting”. The environment information “conference room A” and the setting information “cooling operation” “26 degrees” are read out, and these information are output to the control unit 13.

  Thus, if the desired setting state of the air conditioner 3 (here, the air conditioner 3 of “meeting room A”) is stored with identification information, the desired setting state of the meeting room A is obtained. Even if the monitoring staff does not memorize, a desired setting state can be easily called based on the identification information.

  The control unit 13 outputs the setting state read from the setting state storage unit 12 and acquired from the combining unit 11 to the air conditioner 3 associated with the identification information acquired from the combining unit 11. Specifically, a setting state of “cooling operation” and “26 degrees” is output to the air conditioner 3 of “conference room A”.

FIG. 2 is a screen example of a list of setting states transmitted from the air conditioning control monitoring device 2 and displayed on the client terminal 1 when setting identification information in association with the setting state.
As shown in FIG. 2, for example, a list of setting states is displayed in a table format. FIG. 2 displays the current setting states of a plurality of air conditioners side by side. On this screen, the user inputs identification information associated with the current settings of the plurality of air conditioners in the name input portion. Further, by selecting an operation unit (for example, a registration button) on the screen for storing these setting states in the air conditioner 3, the setting states of a plurality of air conditioners displayed in FIG. 2 are collectively set. It can be stored in the state storage unit 12.

Further, when the synthesizing unit 11 receives the identification information from the client terminal 1, the setting information associated with the identification information is read from the setting state storage unit 12 and this information is transmitted to the client terminal 1. However, the screen displayed on the client terminal in this case is also a screen as shown in FIG.
In this screen, by further selecting an operation unit (for example, a transmission button) on the screen that causes the air conditioner 3 to transmit these setting states, the synthesis unit 11 associates the control unit 13 with identification information. The control unit 13 transmits the set state to the air conditioner 3 to be controlled.

Hereinafter, the operation of the air conditioning control monitoring system of this embodiment will be described.
When the air conditioner 3 outputs the set state “cooling operation” “26 degrees” and the information “meeting room A” of the environment in which the air conditioner 3 is installed to the air conditioning control monitoring device 2, this information is: Received by the receiver 14. The information on the installation environment “conference room A” and the setting states “cooling operation” and “26 degrees” received by the reception unit 14 is transmitted to the client terminal 1 via the transmission unit 10. As a result, a screen for registering the setting state is displayed on the screen of the client terminal 1. When the user wants to register the setting state of “conference room A”, “cooling operation”, and “26 degrees” by checking this screen, for example, “summer meeting room” “A optimal temperature setting” is input, and an operation to instruct registration is performed on the client terminal 1.

  Thus, the storage instruction is transmitted from the client terminal 1 to the air conditioning control monitoring device 2 together with the identification information “Summer meeting room A appropriate temperature setting”. As a result, the composition unit 11 associates the identification information “Summer Meeting Room A Optimal Temperature Setting”, the setting state “Cooling Operation” “26 degrees”, and the information on the installation environment “Conference Room A”, and stores the setting state storage. Stored in the unit 12.

Further, when the user wants to switch the current setting state to the setting state stored in the air conditioning control monitoring device 2, identification information of the setting state to be switched from the client terminal 1, for example, identification information “Summer Meeting Room A Optimal Temperature Setting” ”To instruct switching of settings. Thereby, the switching instruction and the identification information “Summer meeting room A appropriate temperature setting” are transmitted to the air conditioning control monitoring device 2. When the synthesizing unit 11 receives the switching instruction and the identification information “Summer Meeting Room A Optimal Temperature Setting”, the setting states “cooling operation” “26 degrees” associated with the identification information “Summer Meeting Room A Optimal Temperature Setting” Information on the installation environment “conference room A” is read from the setting state storage unit 12. Furthermore, a control command for setting the setting state to “cooling operation” or “26 degrees” is transmitted from the synthesizing unit 11 to the control unit 13 for the conference room A that is the air conditioner of the installation environment that has been read.
When the control command is received by the control unit 13, the setting state of “cooling operation” and “26 degrees” is transmitted to the air conditioner 3 in the conference room A, and the air conditioner 3 in the conference room A is “cooling operation”. The setting state is switched to “26 degrees”.

  As described above, according to the air conditioning control monitoring apparatus and program and the air conditioning control monitoring system of the present invention, the setting state indicating the setting of the air conditioner at a predetermined timing (for example, the present) is set by the transmitting unit 10 to the client terminal. 1 is transmitted. Thereby, for example, the received setting state is displayed on the display unit of the client terminal 1. When a setting state storage instruction and identification information are received from the client terminal for this setting state, the received identification information is associated with the setting state transmitted to the client terminal and stored in the setting state storage unit 12. Is done. When the synthesizing unit 11 receives an instruction to switch the setting state of the air conditioner and identification information from the client terminal, the setting state corresponding to the identification information received from the client terminal is read from the setting state storage unit 12. The controller 13 performs the operation of the air conditioner according to the set state that has been read and read.

  Thus, since the setting state of the operating air conditioner at a predetermined timing is stored as setting information based on a command from the client terminal 1, the air conditioning at the timing specified by the user using the client terminal 1 is stored. The setting state of the machine can be saved easily. Further, since the setting state and the name thereof are associated with each other, the setting state stored previously can be easily called by designating the name from the client terminal. The called setting state can be transmitted to the air conditioner 3 in accordance with a switching instruction from the client terminal 1. Thereby, the setting state of the air conditioner 3 can be promptly changed to the setting state at the time point recorded in the setting state storage unit 12.

  Further, compared to the case of periodically storing, the air conditioning control device 2 according to the present embodiment stores data at a desired timing, and therefore can avoid accumulation of useless data.

  The user can also store the setting state in which the contract power is not exceeded from the client terminal 1 in the air conditioning control monitoring device 2 using identification information such as “peak cut level A”. For example, when the sign of exceeding the contract power is found, the previously stored identification information of “peak cut level A” is selected and transmitted to apply the set state to the corresponding air conditioner.

  In this way, in an emergency situation where the contract power is exceeded, there is no time for editing the setting states of the plurality of air conditioners individually by the user (monitor), and such editing is performed. In the meantime, the contract power may be exceeded. For this reason, by storing a setting state that does not exceed the contract power in advance, it is possible to promptly transmit a change in the setting state in the event of a crisis, so the work for avoiding danger is easily performed. be able to.

[Modification 1]
In the air conditioning control monitoring device 2 according to the present embodiment, the switching instruction for switching the air conditioner based on the identification information stored in the setting state storage unit 12 is transmitted from the client terminal 1. However, it is not limited to this.
For example, when a predetermined condition is stored in association with the identification information stored in the setting state storage unit 12 and the predetermined condition is satisfied, the identification information is associated with the identification information associated with the predetermined condition. The set state may be output to the control unit 13.

  As an example of setting as the predetermined condition, for example, setting of date and time is performed, and driving is scheduled. Specifically, in an environment where there are several hundred air conditioners in the entire building, the lunch break is used when operating all the air conditioners in the entire building in the energy saving mode.

  More specifically, the setting state storage unit 12 of the air conditioning control monitoring device 2 stores information set as the energy saving operation mode. The user sets identification information “energy saving operation mode” for the setting states of “cooling operation”, “28 degrees”, and “weak wind” via the client terminal 1, and stores them in the setting state storage unit 12.

  FIG. 3 is an example of a schedule setting screen that is transmitted from the air conditioning control monitoring device 2 and displayed on the client terminal 1 when the air conditioner is scheduled. Specifically, as shown in FIG. 3, in the air-conditioning cell column, the information “entire building” that is the target installation environment is selected, and the time “12:00 to 12:55” to be operated according to the schedule is displayed. Set and select the identification information “energy saving operation mode” of the setting state to be switched, and press the registration button. Thereby, the air conditioners in the entire building are in the “energy saving operation mode” during the period from 12:00 to 12:55, even if the air conditioners in the entire building are in different operating states. The setting status of is sent.

  In the case of a school or the like, the schedule for using the air conditioner is frequently changed according to the semester, classroom, class, and the like. For example, the air conditioner can be switched to a setting for summer and winter, or a setting for a weekday class and a setting for a long holiday. In such a case, when the setting state once changed is returned to the state before the change again, it is necessary to store the setting state of each air conditioner. Furthermore, it takes time to return the setting state of the plurality of air conditioners to the original state. According to the air-conditioning control monitoring apparatus 2 according to the present embodiment, the setting state of each situation is stored together with the identification information, and the stored identification information is scheduled to be read (for example, the date and time are designated and the identification information is displayed at the corresponding date and time). Is read out), a desired setting state is transmitted to the air conditioner at a desired timing. Thereby, the setting state can be switched automatically according to the schedule, and the setting of the air conditioner can be easily changed.

  Thus, by scheduling the switching of the setting state based on the identification information stored in advance in the setting state storage unit 12 of the air conditioning control monitoring device 2, the desired setting state according to the date and time can be ensured. And it can transmit to an air conditioner simply. Also, in the case of a large building with hundreds of air conditioners in the entire building, it is necessary to set up several thousand setting conditions, and the work of switching the setting of several thousand points is enormous for the supervisor. Takes time and effort. According to the air-conditioning control and monitoring device 2 according to the present embodiment, the switching of the setting state is scheduled as described above, and the switching operation of thousands of setting states is collectively performed based on the identification information, so that the air conditioner It is possible to simply and promptly transmit a desired setting state for.

[Modification 2]
In the air conditioning control monitoring device 2 according to the embodiment of the present invention, the switching of the setting state is not limited to manual switching by a supervisor or schedule setting for setting the date and time, but may be linked with other actions. Good.

  For example, based on the storage instruction of the client terminal 1, the setting state storage unit 12 of the air conditioning control monitoring device 2 sets the setting state “stop operation” for the air conditioning section “entire building” as a setting when a fire occurs. Is stored in association with the identification information “when a fire occurs”. Furthermore, the air-conditioning control monitoring device 2 is configured to select the identification information “when a fire occurs” in cooperation with other software or the like when the fact that a fire has been detected is received from the other software or the like. Then, in the event of a fire, the air conditioning control monitoring device 2 receives a notification of the fire occurrence, and the identification information “when a fire occurs” is read from the setting state storage unit 12, and “when a fire occurs” The associated “entire building” and “stop driving” are selected. Further, the control unit 13 transmits a set state “stop operation” to the air conditioner in the air conditioning section “entire building”.

  As described above, it is possible to avoid a driving state with a high degree of danger by linking with the information detected by other software or the like and switching the setting state based on the generated event or the like. In addition, when a dangerous event occurs when the monitor is away from the client terminal 1, a setting state associated with identification information registered in advance is automatically transmitted. Even in the absence of a supervisor, it can be controlled to a desired operating state.

In addition, although the setting state storage part 12 in the air-conditioning control monitoring apparatus 2 which concerns on this embodiment demonstrated as setting and storing identification information with respect to the setting information of one air conditioner, it is not limited to this. For example, identification information may be set for setting information of a plurality of air conditioners to be monitored, or a user may be able to select an air conditioner that stores a setting state among the plurality of air conditioners. .
Thereby, only the setting state of a desired air conditioner can be stored in the setting state storage unit 12.

  In the air conditioning control monitoring device 2 according to the present embodiment, the setting state storage unit 12 receives the storage instruction and identification information from the client terminal 1 and the setting state transmitted by the transmission unit 10 to the client terminal 1. However, the present invention is not limited to this. For example, the setting state may be changeable by the client terminal 1. Thereby, the setting state of a desired air conditioner can be stored in the setting state storage unit 12.

  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.

DESCRIPTION OF SYMBOLS 1 Client terminal 2 Air-conditioning control monitoring apparatus 3 Air conditioner 10 Transmitter 11 Composition part 12 Setting state memory | storage part 13 Control part

Claims (7)

The operation of the air conditioner is controlled in accordance with an instruction from a client terminal that remotely operates the air conditioner, the operation state of the air conditioner is monitored, and the operation state of the air conditioner is controlled with respect to the client terminal An air conditioning control monitoring device that provides information on
Transmitting means for transmitting the setting state of the air conditioner at a predetermined timing to the client terminal;
A setting state storage unit that stores the setting state and the identification information in association with each other when the storage instruction and the identification information are received from the client terminal that has received the setting state transmitted from the transmission unit;
When an instruction to switch the setting state of the air conditioner and the identification information are received from the client terminal, the setting state corresponding to the identification information is read from the setting state storage unit, and the setting state of the air conditioner is An air conditioning control monitoring apparatus comprising: control means for switching to the setting state read from the setting state storage means.   In the case where a plurality of air conditioners are monitoring targets, when a storage instruction and identification information are received from the client terminal, respective setting states and the identification information in the plurality of air conditioners that are monitoring targets Are associated and stored in the setting state storage unit.   The air conditioning control monitoring apparatus according to claim 1, wherein the setting state includes an installation environment of the air conditioner.   The air conditioning control monitoring apparatus according to any one of claims 1 to 3, wherein the setting state is changeable by the client terminal. A client terminal that monitors the operating state of the air conditioner and is connected to an air conditioning control monitoring device that controls the operation of the air conditioner via a network,
Receiving means for receiving a setting state of the air conditioner at a predetermined timing;
Identification information giving means for giving identification information for the setting state received from the receiving means;
Command transmission means for transmitting a command to control the air conditioner based on the setting state associated with the identification information by specifying the identification information when switching the setting state of the air conditioner; A client terminal comprising: An air conditioning control monitoring apparatus according to any one of claims 1 to 4,
An air conditioning control monitoring system comprising the client terminal according to claim 5. The operation of the air conditioner is controlled in accordance with an instruction from a client terminal that remotely operates the air conditioner, the operation state of the air conditioner is monitored, and the operation state of the air conditioner is controlled with respect to the client terminal An air conditioning control monitoring program that provides information on
A first process of transmitting a setting state of the air conditioner at a predetermined timing to the client terminal;
A second process for storing the setting state and the identification information in association with each other when the storage instruction and the identification information are received from the client terminal that has received the setting state transmitted from the first process;
When an instruction to switch the setting state of the air conditioner and the identification information are received from the client terminal, the setting state corresponding to the identification information is read from the setting state storage unit, and the setting state of the air conditioner is An air conditioning control monitoring program for causing a computer to execute a third process for switching to a setting state read from the setting state storage unit.

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