WO2014128893A1 - Equipment, equipment analysis system, equipment simulation device, operation control method, operation simulation method, and program - Google Patents

Abstract

A piece of equipment has a data acquisition unit (161), an operation control information database (151), a mode switch unit (162), and an operation control unit (163). The data acquisition unit (161) acquires operation control information which is used in control of an operation of a drive unit (140) of that piece of equipment. The operation control information database (151) stores the operation control information which is acquired by the data acquisition unit (161). The mode switch unit (162) switches between a normal operation mode and a simulated operation mode. The operation control unit (163) controls the drive unit (140) when switching to the normal operation mode so as to operate on the basis of the operation control information which is acquired by the data acquisition unit (161), and controls the drive unit (140) when switching to the simulated operation mode so as to operate on the basis of the operation control information which is stored in the operation control information database (151).

Description

Equipment, equipment analysis system, equipment simulation apparatus, operation control method, operation simulation method, and program

The present invention relates to equipment, equipment analysis system, equipment simulation apparatus, operation control method, operation simulation method, and program.

In order to analyze a failure occurring in the equipment system and to deal with the trouble, there is a technique for recording operation data of sensors and actuators in the system before and after the trouble occurrence and communication data between the equipment (for example, patents) Reference 1).

JP 2008-144973 A

However, it is not easy to identify the cause of failure based on a large amount of recorded data, especially in a large-scale system. It is also difficult to reproduce defects and check the results of repairs on the desk or on site.

The present invention has been made in view of the above circumstances, equipment equipment, equipment equipment analysis system, equipment equipment simulation apparatus, operation control method, operation simulation method, which can easily check the operation of equipment equipment, and The purpose is to provide a program.

In order to achieve the above object, the equipment according to the present invention is:
Equipment comprising a drive unit,
A data acquisition unit for acquiring operation control information used for controlling the operation of the drive unit;
An operation control information storage unit for storing the operation control information acquired by the data acquisition unit;
A mode switching unit for switching to any one of a normal operation mode and a simulated operation mode;
When the mode switching unit switches to the normal operation mode, the drive unit is controlled to operate based on the operation control information acquired by the data acquisition unit, and the mode switching unit switches to the simulated operation mode. An operation control unit that controls the drive unit to operate based on the operation control information stored in the operation control information storage unit,
Is further provided.

According to the present invention, the operation of equipment can be easily confirmed.

It is a block diagram which shows the structure of the equipment analysis system which concerns on Embodiment 1. FIG. It is a block diagram which shows an example of the hardware constitutions of the equipment which concerns on Embodiment 1. FIG. It is a figure which shows an example of the data stored in the driving control information DB which concerns on Embodiment 1. FIG. It is a block diagram which shows an example of a function structure of the control part of the equipment which concerns on Embodiment 1. FIG. It is a block diagram which shows an example of the hardware constitutions of the equipment analysis apparatus which concerns on Embodiment 1. FIG. It is a figure which shows an example of the data stored in system operation control information DB which concerns on Embodiment 1. FIG. It is an example of the flowchart of a mode switching process. It is an example of the flowchart of an operation control process. It is a block diagram which shows an example of a function structure of the control part of the equipment which concerns on Embodiment 2. FIG. It is a block diagram which shows an example of the data stored in the driving control information DB which concerns on Embodiment 2. It is a block diagram which shows the structure of the equipment analysis system which concerns on Embodiment 3. FIG. It is a block diagram which shows an example of the hardware constitutions of the equipment-equipment simulation apparatus which concerns on Embodiment 3. It is a block diagram which shows an example of a function structure of the control part of the installation equipment simulation apparatus which concerns on Embodiment 3. FIG. It is an example of the flowchart of a driving simulation process.

Embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a diagram showing a configuration of an equipment analysis system 1 according to Embodiment 1 of the present invention. The equipment analysis system 1 is a system that analyzes the operation of an air conditioner as an example of equipment. As shown in FIG. 1, the equipment analysis system 1 includes an outdoor unit 100a, an indoor unit 100b, a remote controller 100c, a equipment analysis device 200, and a communication line 300 as a plurality of equipment. Hereinafter, the outdoor unit 100a, the indoor unit 100b, and the remote controller 100c are collectively referred to as the facility device 100. In FIG. 1, one outdoor unit 100a, two indoor units 100b, and two remote controllers 100c are illustrated as the equipment 100, but the number of equipment is not limited thereto.

The outdoor unit 100a and the indoor unit 100b are devices that adjust the temperature and humidity of the air in the room where the indoor unit 100b is installed. The outdoor unit 100a and the indoor unit 100b are connected to each other by a refrigerant pipe (not shown) and circulate the refrigerant.

The remote controller 100c is a terminal for the user to operate the indoor unit 100b. The remote controller 100c accepts an operation input from a user for setting an operation mode such as cooling and heating, a target temperature, and the like. Then, the remote controller 100c transmits an operation signal (for example, an infrared signal) corresponding to the received operation input to the outside. The indoor unit 100b that has received this operation signal operates in accordance with the operation signal.

The communication line 300 connects the facility device 100 and the facility device analysis apparatus 200 so that data communication is possible. The communication line 300 may be wired or wireless.

Furthermore, the equipment device 100 operates in two operation modes, a normal operation mode and a simulated operation mode. The normal operation mode represents an operation state in which its own operation is controlled based on signals from other equipment 100, equipment analysis device 200, and various sensors included in the equipment. The simulated operation mode represents an operation state in which its own operation is controlled based on data stored in an operation control information DB 151 described later.

The equipment analysis device 200 acquires operation data from the equipment 100 via the communication line 300. Moreover, the equipment analysis device 200 controls the switching of the operation mode of the equipment device 100 by transmitting a switching instruction signal for instructing the switching of the operation mode of the equipment equipment 100 to the equipment equipment 100 via the communication line 300. .

Next, the configuration of the facility device 100 and the facility device analysis apparatus 200 in the present embodiment will be described in detail.

FIG. 2 shows an example of the hardware configuration of the equipment 100 according to the present embodiment. As shown in FIG. 2, the equipment 100 includes a communication unit 110, an input unit 120, a sensor unit 130, a drive unit 140, a storage unit 150, and a control unit 160, and each unit is connected by a bus 170. Has been.

The communication unit 110 includes an interface for transmitting and receiving data to and from the other equipment device 100 and the equipment analysis device 200 via the communication line 300.

The input unit 120 includes input devices such as buttons, a touch panel, and a keyboard. The input unit 120 receives an operation input from the user, and outputs an operation input signal corresponding to the received operation input to the control unit 160.

The sensor unit 130 includes various sensors such as a temperature sensor and a pressure sensor. The sensor unit 130 outputs the detected signal to the control unit 160.

The driving unit 140 includes an actuator such as a motor or an LED (Light Emitting Diode). The operation of the drive unit 140 is controlled by control information from the control unit 160.

The storage unit 150 includes a writable storage device such as a hard disk drive, flash memory, or SSD (Solid State Drive). The storage unit 150 includes an operation control information DB 151.

The operation control information DB 151 stores history data of operation control information acquired by the equipment device 100. The operation control information is information necessary for controlling the operation of the equipment 100 acquired from the sensor 130 and the other equipment 100 via the communication unit 110. Specifically, the operation control information includes information such as data detected by the sensor unit 130, control state and setting information instructed from the other equipment device 100, and communication data with the other equipment device 100.

FIG. 3 is a diagram illustrating an example of data stored in the operation control information DB 151. The operation control information DB 151 shown in FIG. 3 includes an acquisition date and time indicating the date and time when the operation control information is acquired, a data type indicating the type of the device that is the transmission source of the acquired operation control information and the control content, and a data type for each data type. Information indicating the control content is stored. For example, the operation control information whose acquisition date and time is “2012/07/14 / 14:56” is that the “room temperature” is “24 ° C.” and the “control mode setting” is “stop”. Contains information.

Returning to FIG. 2, the control unit 160 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory) that stores a program executed by the CPU, and a RAM (Random Access that temporarily stores data generated by the CPU. Memory) and a timer that measures the current time, and controls the entire equipment analysis apparatus 200.

FIG. 4 is a block diagram illustrating an example of a functional configuration of the control unit 160. As illustrated in FIG. 4, the control unit 160 functions as a data acquisition unit 161, a mode switching unit 162, and an operation control unit 163.

The data acquisition unit 161 acquires the operation control information included in the communication data received via the communication unit 110 and the operation control information output by the sensor unit 130. Then, the data acquisition unit 161 records the acquired operation control information in the operation control information DB 151 in association with the acquired time. Further, the data acquisition unit 161 transmits the history data of the operation control information stored in the operation control information DB 151 to the facility equipment analysis apparatus 200 periodically or in response to a request from the equipment equipment analysis apparatus 200.

The mode switching unit 162 determines the operation mode of the facility device 100 based on the switching instruction acquired from the facility device analysis apparatus 200 via the communication unit 110.

The operation control unit 163 integrally controls the operation of the equipment device 100 based on the operation mode determined by the mode switching unit 162. Specifically, the operation control unit 163 functions as the normal operation control unit 164 when the operation mode is the normal operation mode, and as the simulated operation control unit 165 when the operation mode is the simulated operation mode.

The normal operation control unit 164 generates control information for controlling the drive unit 140 based on the operation control information acquired by the data acquisition unit 161 and outputs the control information to the drive unit 140. That is, in the normal operation mode, the normal operation control unit 164 executes the operation control of the facility device 100 in real time that is normally performed.

The simulated operation control unit 165 generates control information for controlling the drive unit 140 based on the operation control information stored in the operation control information DB 151, and outputs the control information to the drive unit 140. Specifically, the simulated operation control unit 165 refers to information for specifying operation control information (hereinafter referred to as specific information) included in the switching instruction received from the equipment analysis apparatus 200, and uses the specific information. The specified operation control information is specified from the operation control information DB 151. Then, the simulated operation control unit 165 generates control information with the same algorithm as the operation control executed by the normal operation control unit 164 based on the specified operation control information, and outputs the control information to the drive unit 140.

Next, the equipment analysis apparatus 200 will be described in detail.

FIG. 5 shows an example of the hardware configuration of the equipment analysis apparatus 200 according to the present embodiment. As shown in FIG. 5, the equipment analysis apparatus 200 includes a communication unit 210, an input unit 220, a display unit 230, a storage unit 240, and a control unit 250, and each unit is connected by a bus 260. Yes.

The communication unit 210 includes an interface for transmitting / receiving communication data to / from the facility device 100 via the communication line 300.

The input unit 220 includes input devices such as buttons, a touch panel, and a keyboard. The input unit 220 receives an operation input from the user, and outputs an operation input signal corresponding to the received operation input to the control unit 250. Specifically, the input unit 220 receives from the user an input operation representing an operation mode switching instruction or specific information specifying operation control information used in the simulated operation mode.

The display unit 230 includes a display device including an LCD (Liquid Crystal Display) and a backlight. The display unit 230 displays, for example, data stored in a system operation control information DB 241 described later under the control of the control unit 250.

The storage unit 240 includes a writable storage device such as a hard disk drive, flash memory, or SSD (Solid State Drive). The storage unit 240 includes a system operation control information DB 241. The system operation control information DB 241 stores operation control information history data acquired from each equipment device 100.

FIG. 6 is a diagram illustrating an example of data stored in the system operation control information DB 241. The system operation control information 241 illustrated in FIG. 6 stores operation control information received from a transmission source device for each equipment device 100 (hereinafter referred to as a transmission source device) that has transmitted the operation control information.

The control unit 250 includes, for example, a CPU, a ROM that stores a program executed by the CPU, a RAM that temporarily stores data generated by the CPU, and a timer that measures the current time. Take control.

Next, operations of the equipment 100 and the equipment analysis apparatus 200 according to the present embodiment will be described.

First, the mode switching process executed by the control unit 250 of the equipment analysis apparatus 200 will be described. The mode switching process is a process in which the facility device analysis apparatus 200 instructs the facility device 100 to switch the current operation mode in response to an instruction from the user. This process is executed, for example, when the CPU of the control unit 250 reads a program stored in the ROM.

FIG. 7 is an example of a flowchart of mode switching processing executed by the control unit 250 of the equipment analysis apparatus 200. The mode switching process starts, for example, when the user inputs an operation input indicating start of execution of the mode switching process via the input unit 220.

The control unit 250 determines whether or not the operation input acquired from the user via the input unit 220 is a switching instruction to the simulated operation mode (step S101).

When the controller 250 determines that the instruction is not an instruction to switch to the simulated operation mode (step S101; No), the controller 250 transmits an instruction to switch to the normal operation mode to the equipment device 100 (step S102). Then, the control unit 250 ends the mode switching process.

When the control unit 250 determines that the instruction is to switch to the simulated operation mode (step S101; Yes), the simulated operation start time and specific information are acquired from the user via the input unit 220 (step S103). .

The control unit 250 transmits an instruction to switch to the simulated operation mode including the simulated operation start time acquired in step S103 and the specific information to the equipment device 100 (step S103). Here, when operating the plurality of facility devices 100 in the simulated operation mode, a switching instruction is transmitted to each facility device 100. Then, the control unit 250 ends the mode switching process.

Next, the operation control process executed by the control unit 160 of the equipment device 100 will be described. An operation control process is a process which controls operation | movement of the drive part 140 of the equipment 100 according to an operation mode. This process is executed, for example, when the CPU of the control unit 160 reads a program stored in the ROM.

FIG. 8 is an example of a flowchart of an operation control process executed by the control unit 160 of the equipment device 100. For example, the operation control process starts when the communication unit 110 receives a signal for turning on the power of the facility device 100. It is assumed that the operation mode is set to the normal operation mode at the start of the operation control process.

First, the data acquisition unit 161 acquires operation control information from the communication unit 110 and the sensor unit 130 (step S201).

Next, the data acquisition unit 161 stores the operation control information acquired in step S201 in the operation control information DB 151 in association with the acquired current time (step S202).

Next, the normal operation control unit 164 determines the control content based on the operation control information acquired in step S201, and outputs the control information indicating the determined control content to the drive unit 140 (step S203).

For example, when the operation control information acquired by the data acquisition unit 161 in step S201 includes “cooling” as the control mode setting, the normal operation control unit 164 causes the drive unit 140 to operate when the control mode setting is “cooling”. The control information is output to the drive unit 140 based on the control information set in advance as the control information to be output.

Next, the mode switching unit 162 determines whether or not a switching instruction to the simulated operation mode is received from the equipment analysis device 200 via the communication unit 110 (step S204). If it is determined that the instruction to switch to the simulated operation mode has not been received (step S204; No), the control unit 160 returns the process to step S201 and continues the operation control in the normal operation mode.

If it is determined that the instruction to switch to the simulated operation mode has been received (step S204; Yes), the mode switching unit 162 performs a time adjustment process for synchronizing the clocks included in each equipment device 100 (step S205). For example, the mode switching unit 162 sets a timer included in the facility device 100 based on time information included in the switching instruction received from the facility device analysis apparatus 200. Moreover, when the equipment analysis system 1 has a separate time setting function, that function may be used.

Next, the mode switching unit 162 determines whether or not the simulated operation start time included in the switching instruction received from the equipment analysis device 200 has elapsed (step S206). Until the simulated operation start time elapses (step S206; No), the mode switching unit 162 is in a waiting state.

When the mode switching unit 162 determines that the simulation operation start time has come (step S206; Yes), the operation mode is set to the simulation operation mode. Then, the simulated operation control unit 165 identifies the operation control information used for the simulated operation mode from the operation control information DB 151 based on the identification information included in the switching instruction (step S207).

Next, the simulated operation control unit 165 determines the control content based on the operation control information specified in step S207, and outputs control information representing the determined control content to the drive unit 140 (step S208).

For example, when the specific information included in the switching instruction specifies operation control information after the acquisition time “2012/07/14 14:56”, the simulated operation control unit 165 refers to the operation control information DB 151. The operation control information corresponding to the acquisition time “2012/07/14/14: 56” and after is specified. Then, the simulated operation control unit 165 sequentially outputs control information to the drive unit 140 based on the specified operation control information at the same time interval as the acquisition time corresponding to the specified operation control information. Specifically, the simulated operation control unit 165 has the operation control information corresponding to the acquisition time “2012/07/14 14:56” at the simulated operation start time, that is, the room temperature is “24 ° C.” and the control mode Based on the operation control information whose setting is “stop”, the drive unit 140 is controlled. After another 9 minutes, based on operation control information corresponding to “2012/07/14/0715: 05”, that is, operation control information in which the room temperature is “28 ° C.” and the control mode setting is “cooling”. The drive unit 140 is controlled.

Next, the mode switching unit 162 determines whether or not an instruction to switch to the normal operation mode is received from the equipment analysis device 200 via the communication unit 110 (step S209). When it is determined that the instruction to switch to the normal operation mode has not been received (step S209; No), the process returns to step S207, and the simulated operation control unit 165 continues to control the drive unit 140 in the simulated operation mode. .

When the mode switching unit 162 determines that an instruction to switch to the normal operation mode has been received (step S209; Yes), the mode switching unit 162 sets the operation mode to the normal operation mode, and returns the process to step S201.

The operation control unit 163 repeatedly executes the above processing until, for example, an operation input instructing to stop the operation of the equipment device 100 is received from the user.

As described above, the facility device 100 of the present embodiment records operation control information. The normal operation mode and the simulated operation mode can be switched. When switched to the simulated operation mode, the facility device 100 operates based on the recorded operation control information. Therefore, it is possible to grasp the past driving situation by using the equipment 100 installed at the actual site. Therefore, for example, by operating the equipment 100 based on the recorded operation control information at the time of occurrence of the failure, the operator can easily reproduce the failure on site, and efficiently analyze the failure. Can be executed.

In the normal operation mode and the simulated operation mode, the control algorithm for determining the control content from the operation control information and generating the control information is the same. Accordingly, it is not necessary to store software that implements a control algorithm for controlling the operation of the facility device 100 for each of the normal operation mode and the simulated operation mode, and therefore it is possible to prevent the memory of the facility device 100 from being compressed.

(Embodiment 2)
The equipment 100 according to the second embodiment of the present invention determines whether or not there is an abnormality based on the acquired operation control information. If the facility device 100 determines that there is an abnormality, it stores the operation control information in the operation control information DB 151 together with data indicating that there is an abnormality. Hereinafter, this embodiment will be described in detail. In addition, about the structure similar to Embodiment 1, the same code | symbol is used and the detailed description is abbreviate | omitted.

FIG. 9 is a block diagram illustrating an example of a functional configuration of the control unit 160 of the facility device 100 according to the present embodiment. As illustrated in FIG. 9, the control unit 160 further functions as an abnormality determination unit 166 in addition to the functions according to the first embodiment.

The abnormality determination unit 166 analyzes the operation control information acquired by the data acquisition unit 161 and determines whether there is an abnormality in the operation control information. When the abnormality determination unit 166 determines that the operation control information is abnormal, the abnormality determination unit 166 stores the operation control information in the operation control information DB 151 together with data indicating that there is an abnormality.

FIG. 10 is a diagram illustrating an example of data stored in the operation control information DB 151 according to the present embodiment. In addition to the data (see FIG. 3) stored in the operation control information DB 151 according to the first embodiment, the operation control information DB 151 illustrated in FIG. 10 further stores an abnormality flag. The abnormality flag is information indicating whether or not there is an abnormality in the corresponding operation control information. Specifically, when the abnormality flag is “0”, the operation control information is normal, and when the abnormality flag is “1”, the operation control information is abnormal.

When the data acquisition unit 161 transmits the history data of the operation control information stored in the operation control information DB 151 to the equipment analysis device 200 periodically or in response to a request from the equipment analysis device 200, Operation control information corresponding to the abnormality flag “1” may be transmitted to the equipment analysis apparatus 200. Further, the data acquisition unit 161 may transmit the operation control information together with the abnormality flag.

As described above, the facility device 100 according to the present embodiment determines whether or not there is an abnormality in the operation control information, and the determination result is stored in the operation control information DB 151 in association with the operation control information. Yes. Therefore, the worker can easily specify the operation control information that is determined to be abnormal. Then, using the operation control information determined to be abnormal, by operating the equipment 100 installed at the actual site, it is possible to easily reproduce the failure at the site, and efficiently execute the failure analysis can do.

(Embodiment 3)
FIG. 11 is a diagram showing the configuration of the equipment analysis system 1 according to Embodiment 3 of the present invention. The equipment analysis system 1 according to the present embodiment further includes an equipment equipment simulation apparatus 400 in addition to the configuration of the equipment control system 1 according to the first embodiment. The equipment device simulation device 400 is a device that simulates the operation of the equipment device 100. The facility equipment simulation apparatus 400 is communicably connected to the equipment analysis apparatus 200, receives operation control information acquired from the equipment apparatus 100 by the equipment analysis apparatus 200 from the equipment analysis apparatus 200, and receives the received operation control. Operates based on information. Hereinafter, this embodiment will be described in detail. In addition, about the structure similar to Embodiment 1, the same code | symbol is used and the detailed description is abbreviate | omitted.

FIG. 12 shows an example of the hardware configuration of the equipment device simulation apparatus 400 according to the present embodiment. As shown in FIG. 12, the facility equipment simulation apparatus 400 includes a communication unit 410, an input unit 420, a display unit 430, a storage unit 440, and a control unit 450, and each unit is connected by a bus 460. .

The communication unit 410 includes an interface for transmitting and receiving data to and from the equipment analysis device 200.

The input unit 420 includes input devices such as buttons, a touch panel, and a keyboard. The input unit 420 receives an operation input from the user, and outputs an operation input signal corresponding to the received operation input to the control unit 450.

The display unit 430 includes a display device including an LCD and a backlight. The display unit 430 displays, for example, data stored in an operation control information DB 441 described later and a result of the operation simulation process under the control of the control unit 450.

The storage unit 440 includes a writable storage device such as a hard disk drive, flash memory, or SSD. The storage unit 440 includes an operation control information DB 441.

The operation control information DB 441 stores operation control information history data acquired by the equipment device 100. The operation control information stored in the operation control information DB 441 is configured in the same manner as the operation control information DB 151 of the equipment device 100 according to the first embodiment.

The control unit 450 includes, for example, a CPU, a ROM that stores a program executed by the CPU, a RAM that temporarily stores data generated by the CPU, and a timer that measures the current time. Control.

FIG. 13 is a block diagram illustrating an example of a functional configuration of the control unit 450. As illustrated in FIG. 13, the control unit 450 functions as a data acquisition unit 451, a simulated operation control unit 452, and a display control unit 453.

The data acquisition unit 451 acquires operation control information from the equipment analysis device 200 via the communication unit 410. Then, the data acquisition unit 451 records the acquired operation control information in the operation control information DB 441.

The simulated operation control unit 452 generates control information for controlling the drive unit 140 of the equipment device 100 based on the operation control information stored in the operation control information DB 441 and outputs the control information to the display control unit 453. That is, the simulated operation control unit 452 generates control information for controlling the drive unit 140 in the same manner as the simulated operation control unit 165 of the equipment device 100 according to the first embodiment.

The display control unit 453 converts the control information output by the simulated operation control unit 452 into information for display on the display unit 430 and outputs the information to the display unit 430.

Next, an operation simulation process executed by the control unit 450 of the equipment device simulation apparatus 400 will be described. The operation simulation process is a process for simulating the operation operation of the facility device 100 using the operation control information acquired from the facility device analysis apparatus 200. This process is executed, for example, when the CPU of the control unit 450 reads a program stored in the ROM.

FIG. 14 is an example of a flowchart of an operation simulation process executed by the control unit 450 of the facility equipment simulation apparatus 400. The driving simulation process is started, for example, when a user inputs an operation input indicating start of execution of the driving simulation process via the input unit 420.

First, the data acquisition unit 451 acquires operation control information from the equipment analysis device 200 via the communication unit 410 (step S301).

Next, the data acquisition unit 451 stores the operation control information acquired in step S301 in the operation control information DB 441 (step S302).

Next, the simulated operation control unit 452 determines whether an instruction to start the simulated operation is received from the user via the input unit 420 (step S303). When it is determined that the instruction to start the simulated operation is not accepted (step S303; No), the simulated operation control unit 452 enters a waiting state.

When it determines with having received the instruction | indication which starts a simulation driving | operation (step S303; Yes), the simulation driving | operation control part 452 produces | generates control information based on the driving control information stored in driving control information DB441 (step S304). .

Next, the display control unit 453 displays the control information generated in step S304 on the display unit 430 (step S305). Then, the control unit 450 ends the driving simulation process.

As described above, the facility device simulation apparatus 400 according to the present embodiment uses the operation control information of the facility device 100 to drive the facility device 100 in the same manner as when the facility device 100 according to the first embodiment operates in the simulated operation mode. Control information for controlling 140 is generated. In addition, the facility device simulation apparatus 400 does not include the sensor unit 130 and the drive unit 140 included in the facility device 100, and can be configured smaller than the facility device 100. Therefore, the operator does not go to the site where the equipment 100 is installed, and the operation of the equipment 100 is performed by the equipment simulation device 400 using the operation control information used when the equipment 100 controls the drive unit 140. By simulating the above, the operation of the control unit 160 of the equipment device 100 can be easily analyzed.

As mentioned above, although embodiment of this invention was described, this invention is not limited by this embodiment.

In the above first to third embodiments, the operation control information stored in the operation control information DBs 151 and 441 and the system operation control information DB 241 is described as data acquired by the facility device 100 by the communication unit 110 and the sensor unit 130. did. However, the operation control information applicable to the present invention is not limited to this. Part or all of the operation control information may be arbitrary data input by the operator via the input unit. Therefore, the operation of the equipment 100 can be simulated using the operation control information desired by the worker.

In the third embodiment, the facility equipment simulation device 400 may be configured integrally with the facility equipment analysis device 200.

Moreover, in said Embodiment 3, the installation equipment simulation apparatus 400 has acquired the operation control information from the installation equipment analysis apparatus 200, However, The acquisition method of an operation control information is not restricted to this. For example, the facility device simulation apparatus 400 may be connected to the facility device 100 so as to be able to perform data communication, and may directly acquire operation control information from the facility device 100.

Moreover, in said Embodiment 3, the equipment simulation apparatus 400 is provided with the display part 430, and displays the control information produced | generated as a result of the driving simulation process on the display part 430, but the equipment equipment simulation 400 is the display part 430. May not be provided. For example, the facility equipment simulation device 400 may transmit the generated control information to the facility equipment analysis device 200. Thereby, the operator can confirm the result of a driving simulation process with the equipment analysis device 200.

For example, in the above-described embodiment, the facility device analysis system 1 that analyzes the operation of the air conditioning device as an example of the facility device has been described. However, the present invention can also be applied to a system that analyzes facility equipment other than air conditioning equipment. The present invention can be applied to, for example, a system that controls lighting installed in a building and a system that integrally controls home appliances connected to a network in a general residence.

In the above embodiment, the programs executed by the facility device 100, the facility device analysis apparatus 200, and the facility device simulation apparatus 400 are flexible disk, CD-ROM (Compact Disk Read-Only Memory), DVD (Digital Versatile Disk). ), MO (Magneto-Optical Disk) or the like may be stored in a computer-readable recording medium and distributed. And each apparatus which performs the above-mentioned process may be comprised by installing the program in information processing apparatus, such as a personal computer.

Further, the program may be stored in a disk device or the like included in a predetermined server device on a communication network such as the Internet. The program may be downloaded, for example, superimposed on a carrier wave.

Further, when the above functions are realized by sharing an OS (Operating System) or when the OS and the application cooperate, only a program other than the part realizing the OS functions is stored in the recording medium. It may be distributed or downloaded.

The present invention is capable of various embodiments and modifications without departing from the spirit and scope of the lecture of the present invention. Further, the above-described embodiment is for explaining the present invention, and does not limit the scope of the present invention. In other words, the scope of the present invention is shown not by the embodiments but by the claims. Various modifications within the scope of the claims and within the scope of the equivalent invention are considered to be within the scope of the present invention.

The present invention is suitable for an equipment analysis system that analyzes the operation of equipment.

1 facility equipment analysis system, 100 equipment equipment, 100a outdoor unit, 100b indoor unit, 100c remote controller, 110 communication unit, 120 input unit, 130 sensor unit, 140 drive unit, 150 storage unit, 151 operation control information DB, 160 control Unit, 161 data acquisition unit, 162 mode switching unit, 163 operation control unit, 164 normal operation control unit, 165 simulated operation control unit, 166 abnormality determination unit, 170 bus, 200 equipment analysis device, 210 communication unit, 220 input unit , 230 display unit, 240 storage unit, 241 system operation control information DB, 250 control unit, 260, 300 communication line, 400 facility equipment simulation device, 410 communication unit, 420 input unit, 430 display unit, 440 storage unit, 441 operation control Distribution DB, 450 control unit, 451 data acquisition unit, 452 simulated driving control unit, 453 display control unit, 460 bus

Claims (8)

1. Equipment comprising a drive unit,
   A data acquisition unit for acquiring operation control information used for controlling the operation of the drive unit;
   An operation control information storage unit for storing the operation control information acquired by the data acquisition unit;
   A mode switching unit for switching to any one of a normal operation mode and a simulated operation mode;
   When the mode switching unit switches to the normal operation mode, the drive unit is controlled to operate based on the operation control information acquired by the data acquisition unit, and the mode switching unit switches to the simulated operation mode. An operation control unit that controls the drive unit to operate based on the operation control information stored in the operation control information storage unit,
   Equipment further equipped with.
2. It is determined whether or not there is an abnormality in the operation control information acquired by the data acquisition unit, and when it is determined that there is an abnormality, a flag indicating that there is an abnormality in the operation control information and the operation control information An abnormality determination unit that is associated with and stored in the operation control information storage unit is further provided.
   The equipment according to claim 1.
3. A facility equipment analysis system comprising a plurality of equipment comprising a drive unit and a facility equipment analyzer connected to be communicable with the equipment,
   The equipment is
   A data acquisition unit for acquiring operation control information used for controlling the operation of the drive unit;
   An operation control information storage unit for storing the operation control information acquired by the data acquisition unit;
   A data transmission unit that transmits the operation control information acquired by the data acquisition unit to the equipment analysis support device;
   A mode switching unit for switching to any one of a normal operation mode and a simulated operation mode;
   When the mode switching unit switches to the normal operation mode, the drive unit is controlled to operate based on the operation control information acquired by the data acquisition unit, and the mode switching unit switches to the simulated operation mode. An operation control unit that controls the drive unit to operate based on the operation control information stored in the operation control information storage unit,
   The equipment analysis apparatus is
   A system operation control information storage unit for storing operation control information transmitted from the equipment;
   A switching instruction input unit that receives an input of a switching instruction from the user to switch to any one of the normal operation mode and the simulated operation mode;
   When the switching instruction input unit receives an input of a switching instruction for switching to the simulated operation mode, the operation control information used for the simulated operation mode is identified among the operation control information stored in the system operation control information storage unit A specific information input unit for receiving input of specific information to be performed;
   A transmission unit that transmits the switching instruction and the specific information received by the switching instruction input unit and the specific information input unit, respectively, to the facility device,
   The mode switching unit switches the operation mode based on the switching instruction received from the equipment analysis device,
   The operation control unit is specified by the specific information received from the equipment analysis device among the operation control information stored by the operation control information storage unit when the mode switching unit is switched to the simulated operation mode. Controlling the drive unit to operate based on operation control information;
   Equipment analysis system.
4. A facility equipment simulation device that simulates the operation of a facility equipment including a drive unit,
   A data acquisition unit that acquires operation control information that is acquired by the equipment and used to control the operation of the drive unit;
   A simulated operation control unit that generates control information for controlling the drive unit to operate based on the operation control information acquired by the data acquisition unit;
   Equipment equipment simulation apparatus comprising:
5. An operation control method for controlling the operation of equipment having a drive unit,
   A data acquisition step for acquiring operation control information used for controlling the operation of the drive unit;
   An operation control information storage step for storing the operation control information acquired in the data acquisition step in an operation control information storage unit;
   A mode switching step for switching to any one of a normal operation mode and a simulated operation mode;
   When the mode is switched to the normal operation mode in the mode switching step, the drive unit is controlled to operate based on the operation control information acquired in the data acquisition step, and is switched to the simulated operation mode in the mode switching step. An operation control step for controlling the drive unit to operate based on the operation control information stored in the operation control information storage unit,
   An operation control method comprising:
6. An operation simulation method for simulating the operation of equipment having a drive unit,
   A data acquisition step of acquiring operation control information used for controlling the operation of the drive unit, acquired by the equipment device;
   Simulated operation control step for generating control information for controlling the drive unit to operate based on the operation control information acquired in the data acquisition step;
   A driving simulation method.
7. For equipment with a drive unit,
   A data acquisition step for acquiring operation control information used for controlling the operation of the drive unit;
   An operation control information storage step for storing the operation control information acquired in the data acquisition step in an operation control information storage unit;
   A mode switching step for switching to any one of a normal operation mode and a simulated operation mode;
   When the mode is switched to the normal operation mode in the mode switching step, the drive unit is controlled to operate based on the operation control information acquired in the data acquisition step, and is switched to the simulated operation mode in the mode switching step. An operation control step for controlling the drive unit to operate based on the operation control information stored in the operation control information storage unit,
   A program for running
8. To equipment equipment simulation device that simulates the operation of equipment equipment with a drive unit,
   A data acquisition step of acquiring operation control information used for controlling the operation of the drive unit, acquired by the equipment device;
   Simulated operation control step for generating control information for controlling the drive unit to operate based on the operation control information acquired in the data acquisition step;
   A program for running

Images