JP2018109480A - Simulation device and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily perform an operation test of a facility management device on the initiative of the facility side.SOLUTION: A simulator 10 includes an operation test processing section 11 including: a user interface processing section 111 for displaying state information on an air-conditioning facility on a displayed test configuration screen and changing the state of the air-conditioning facility from the test configuration screen; and a state information updating section 112 for updating a state information storage section 15 at a changed set value. The operation test processing section executes an operation test of a facility control processor 20 by transmitting change information including the changed set value to the facility control processor 20 to change the state of the air-conditioning facility.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a simulation apparatus and a program, and more particularly to an operation test of an equipment management apparatus that controls and manages equipment.

  In recent years, there is a case where a building management system is constructed to collectively manage the facilities of the entire building. In this case, an equipment controller that controls and manages equipment such as air conditioning for each system is installed, and one or a plurality of centralized controllers that perform operation control by connecting the equipment to the equipment controller. By comprising in this way, management, monitoring, operation, etc. of equipment are integrated from the equipment controller via the centralized controller.

  Since the type, number, and specifications of the equipment installed in a building vary from building to building, when installing a new equipment controller in a building, the equipment controller must be set to match the installation environment before installation on site. Go to and perform an operation test. However, since it is extremely difficult to prepare the same equipment as the field at the time of an operation test, it is common to perform an operation test by connecting a simulator to the equipment controller.

International Publication No. 2013/145270 Japanese Patent Laid-Open No. 08-061742 JP 2008-249269 A JP 2011-002121 A Japanese Patent Publication

  In recent building facilities, not only the operation control from the equipment controller, but in the air conditioning equipment, for example, various settings can be changed from the equipment side, such as changing the room temperature and wind speed from the remote controller and information terminal in the room. It has become to. Therefore, not only the operation test led by the facility management apparatus but also the operation test based on the operation on the facility side has become important.

  An object of this invention is to enable it to perform the operation | movement test of an equipment management apparatus easily by an equipment side initiative.

  The simulation apparatus according to the present invention connects a facility management device that controls and manages the facility in place of the facility installed in the facility, and in the simulation device used for the operation test of the facility management device, the virtual state of the facility Status information holding means for holding status information indicating the status information, and the facility information held by the status information holding means when the status information is changed while the status information held by the status information holding means is displayed An operation test processing means for updating the state information, and a notification means for notifying the facility management apparatus of change information including the change contents of the state information received by the operation test processing means.

  In addition, the apparatus includes a configuration information creating unit that creates configuration information indicating a connection relation of equipment installed in the facility by allowing a user to place the GUI parts of the facility in a predetermined configuration setting area on the screen. To do.

  Moreover, it has a transmission means which transmits the said structure information to the said equipment management apparatus, It is characterized by the above-mentioned.

  Further, the apparatus includes scenario creation means for creating a scenario including equipment designated by the user, change contents of the state information of the equipment, and time information indicating the change timing of the state information, and the operation test processing means includes the scenario The state information of the equipment is changed according to the above.

  The program according to the present invention is connected to a facility management device that controls and manages the facility in place of the facility installed in the facility, and is installed in a simulation device used for an operation test of the facility management device. A computer that can access state information holding means for holding state information indicating the state displays the state information held by the state information holding means, and when the state information is changed, the state information holding means An operation test processing unit that updates the state information of the equipment that is held, and a notification unit that notifies the facility management apparatus of change information including the change contents of the state information received by the operation test processing unit.

  According to the present invention, it is possible to easily perform an operation test of the facility management apparatus led by the facility side.

  Further, by arranging GUI parts in the configuration setting area, configuration information indicating the connection relation of equipment can be easily created.

  Moreover, the created configuration information can be provided to the equipment management apparatus.

  Further, since the scenario can be created, it is possible to perform an operation test for intermittently changing the state of the facility or an operation test relating a plurality of facilities.

It is a block diagram of the air conditioning system after the installation control processor is introduced into the building in the present embodiment. It is a block diagram when performing simulation with respect to the equipment control processor in this Embodiment. It is a hardware block diagram of the computer which forms the simulator in this Embodiment. It is a block block diagram of the simulator and equipment control processor in this Embodiment. It is the figure which showed the example of a display of the composition information creation screen in this Embodiment. It is the figure which showed an example of the data structure of the structure information memorize | stored in the structure information storage part in this Embodiment. It is the figure which showed the example of a display of the test structure screen in this Embodiment. It is the figure which showed the example of a display of the remote control operation screen in this Embodiment.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

  FIG. 1A is a configuration diagram of an air conditioning system after an equipment control processor is installed in a building in the present embodiment. In this embodiment, a case where air conditioning equipment is handled as equipment will be described as an example. FIG. 1A shows a configuration in which the equipment management server 1, the monitoring PC 2, the equipment control processor 20, and the air conditioning centralized controller 4 are connected to the network 5. The air conditioning centralized controller 4 is a controller that controls the operation of the air conditioning equipment. In FIG. 1A, two air conditioning centralized controllers 4 are illustrated, but one or more may be used. Each air conditioning centralized controller 4 has an air conditioner including the connected outdoor unit 6 and the indoor unit 7 connected to the outdoor unit 6 as an operation control target.

  The equipment control processor 20 is an equipment management device that controls and manages air conditioning equipment via the air conditioning centralized controller 4, and is a device that is an object of an operation test in the present embodiment. The equipment control processor 20 sends instructions related to operation control of the air conditioning equipment such as operation start and stop, set temperature, etc., to the air conditioning centralized controller 4, and accepts a setting change or the like by a user operation of a remote controller (not shown) of the indoor unit 7. . The equipment management server 1 is a server computer that transmits and receives management information of the equipment control processor 20 and a sequencer (not shown) via the network 5. The monitoring PC 2 is a personal computer that provides various information to the administrator by displaying information such as management information provided by the facility management server 1 using a WEB browser.

  When the facility control processor 20 is newly introduced into the building, it starts control management of the air conditioning centralized controller 4 and the air conditioning facility, but the air conditioning centralized controller 4 and the air conditioning facility are also newly installed. In this case, the start of the operation of the air conditioning system may be delayed after the actual machine is introduced into the building. Therefore, it is efficient to perform an operation test using a simulator in the office before installing the actual machine in the building.

  FIG. 1B is a diagram showing a simulation configuration in which the simulator 10 is connected to the equipment control processor 20 via the air conditioning centralized controller 4 instead of the air conditioning equipment. As is clear from a comparison between FIG. 1A and FIG. 1B, the simulator 10 is replaced with an air conditioning facility enclosed by a broken line in FIG. 1A, and an operation test of the facility control processor 20 is performed in the office with this simulation configuration. become.

  FIG. 2 is a hardware configuration diagram of a computer forming the simulator 10 according to the present embodiment. In the present embodiment, the computer forming the simulator 10 can be realized by a general-purpose hardware configuration such as a PC. That is, as shown in FIG. 2, the simulator 10 connects the CPU 31, ROM 32, RAM 33, hard disk drive (HDD) 34, mouse 35 and keyboard 36 provided as input means, and display 37 provided as a display device. An input / output controller 38 and a network interface (IF) 39 provided as communication means are connected to an internal bus 40. Since the equipment control processor 20 is also formed by a computer like the simulator 10, its hardware configuration can be illustrated as in FIG.

  FIG. 3 is a block configuration diagram of the simulator 10 and the equipment control processor 20 in the present embodiment. Note that components not used in the description of the present embodiment are omitted from the drawings.

  The simulator 10 includes an operation test processing unit 11, a configuration information creation unit 12, a scenario creation unit 13, a configuration information storage unit 14, a state information storage unit 15, a scenario storage unit 16, and a test log information storage unit 17. The operation test processing unit 11 is a main part of the simulator 10 and performs an operation test using a user interface screen. The state information storage unit 15 stores state information indicating the state of the air conditioning equipment such as the operation state of the indoor unit 7 and the set temperature, but the operation test processing unit 11 displays the state information and changes the state information. When the user interface (UI) unit 111 that performs reception or the like and the state information are changed, the state information update unit 112 that updates the state information stored in the state information storage unit 15 with the changed value or the like is included. The state of the air conditioning equipment can be represented by setting values such as operation / stop, temperature value, wind direction up / down, wind speed strength / medium / low, and so on. Information is used interchangeably.

  The configuration information creation unit 12 creates configuration information indicating the connection relationship of the air conditioning equipment installed in the building, and stores the created configuration information in the configuration information storage unit 14. The configuration information creation unit 12 functions as a transmission unit that transmits the created configuration information to the equipment control processor 20. The scenario creation unit 13 creates a scenario including the air conditioning equipment designated by the tester, the change contents of the status information of the air conditioning equipment, and time information indicating the change timing of the status information, and the scenario is stored in the scenario storage unit 16. save. The operation test processing unit 11 performs the operation test of the equipment control processor 20 as described above, and accumulates the content and result of the test in the test log information storage unit 17 as test log information.

  Each component 11-13 in the simulator 10 is implement | achieved by cooperation operation | movement of the computer which forms the simulator 10, and the program which operate | moves by CPU31 mounted in the computer. The storage units 14 to 17 are realized by the HDD 34 mounted on the simulator 10. Alternatively, the RAM 33 or an external storage means may be used via a network.

  The equipment control processor 20 includes a control management unit 21, a configuration information acquisition unit 22, a configuration information storage unit 23, and a state information storage unit 24. The control management unit 21 is a main part of the equipment control processor 20 and performs control management of the air conditioning equipment. However, at the time of simulation, data is exchanged with the simulator 10 via the air conditioning centralized controller 4 instead of the air conditioning equipment. The state information storage unit 24 stores state information indicating the state of the building equipment, such as the operation state of the indoor unit 7 and the set temperature, but the control management unit 21 receives the state information set by the tester and The state information stored in the state information storage unit 24 is updated with a setting value designated by the user interface (UI) processing unit 211 and the tester or the like for displaying the state information, or a setting value sent from the simulator 10. A state information update unit 212 is included.

  The configuration information acquisition unit 22 is the building information related to the configuration information installed at the site, that is, the number of installed air conditioning centralized controllers 4, the connection relationship between the air conditioning centralized controller 4 and the outdoor unit 6, the connection relationship between the outdoor unit 6 and the indoor unit 7, etc. The equipment configuration information is acquired and registered in the configuration information storage unit 23.

  Each component 21 and 22 in the facility control processor 20 is realized by a cooperative operation of a computer forming the facility control processor 20 and a program operating on a CPU mounted on the computer. The storage units 23 and 24 are realized by an HDD mounted on the equipment control processor 20. Alternatively, RAM or external storage means may be used via a network.

  Further, the program used in this embodiment can be provided not only by communication means but also by storing it in a computer-readable recording medium such as a CD-ROM or USB memory. The program provided from the communication means or the recording medium is installed in the computer, and various processes are realized by the CPU of the computer sequentially executing the program.

  Next, a simulation operation procedure in the present embodiment will be described.

  In order to perform the simulation, it is necessary to prepare configuration information in advance. In the present embodiment, the configuration information is created by the configuration information creation unit 12 in the simulator 10.

  FIG. 4 is a diagram showing a display example of a configuration information creation screen in the present embodiment. In FIG. 4, a component area 41 in which a GUI (Graphical User Interface) part for specifying the connection relationship of the equipment to be installed is displayed in a selectable manner, and a model area 42 in which a GUI part for specifying each equipment is displayed in a selectable manner And a network configuration area 43 for constructing the air conditioning equipment and building it. Each GUI part is displayed with a model name associated with it so that the model can be specified.

  When creating a new system, the tester drags “system” from the component area 41 and drops it in the network configuration area 43. Then, the model to be added is dragged from the model area 42 and dropped onto the addition destination system in the network configuration area 43. By performing this drag and drop operation, the connection relationship of the air conditioning equipment is set on the network configuration area 43.

  The user operation described above is an example, and the connection relationship of equipment may be defined by a method other than the drag and drop operation described above.

  FIG. 5 is a diagram illustrating an example of a data configuration of configuration information stored in the configuration information storage unit 14 in the present embodiment. According to the data configuration shown in FIG. 5, it is possible to clearly grasp which type of indoor unit 7 is connected to which type of outdoor unit 6. In addition, the address which identifies each equipment is allocated to each equipment which comprises an air-conditioning equipment.

  On the other hand, the equipment control processor 20 creates equipment configuration information that has been replaced by the simulator 10 in some way, but the equipment information prepared by the equipment control processor 20 originally has the same content as the simulator 10. It should be. Therefore, the configuration information creation unit 12 may acquire the configuration information created in the simulator 10. That is, the configuration information creation unit 12 in the simulator 10 creates the configuration information and saves it in the configuration information storage unit 14 and transmits it to the equipment control processor 20. When receiving the configuration information transmitted from the simulator 10, the configuration information acquisition unit 22 stores the configuration information in the configuration information storage unit 23. As described above, the facility control processor 20 can improve the efficiency of setting the configuration information by acquiring the configuration information from the simulator 10.

  The configuration information created in the simulator 10 includes the model of each air conditioning equipment. When the model is specified, it becomes clear which state (setting value) can be taken. For example, when the facility is the indoor unit 7, the wind speed is set in two stages or four stages depending on the model. When performing an operation test for changing the wind speed from the control management screen on the facility control processor 20 side, since the model is clear, the tester knows whether the set value can be set to “4”.

  When the setting of the configuration information is completed as described above, it is necessary to set the status information for each facility. Since the equipment is not yet installed at the time of simulation, the state of each virtual equipment is set in the state information. The initial setting for the state information may be performed in the equipment control processor 20 and may be transmitted to the simulator 10 to be registered in the state information storage unit 15. Alternatively, on the simulator 10 side, an operation test described below may be performed. You may make it set from a structure screen.

  FIG. 6 is a diagram showing an example of a test configuration screen in the present embodiment. The tester performs an operation test of the equipment control processor 20 using this test configuration screen.

  For example, when the tester performs a predetermined operation such as selecting “display” from the menu, the user interface processing unit 111 accepts the operation instruction and displays the status information of each facility registered in the status information storage unit 15. Read out and display a list on the test configuration screen. Then, for example, the tester changes the displayed set value to start the operation of the indoor unit 7 or changes the current set temperature, wind direction, or the like. When the status information update unit 112 receives a change in the set value by the tester, the status information update unit 112 updates the status information storage unit 15 with the set value. Further, the operation test processing unit 11 transmits change information including the setting value changed by the state information update unit 112 to the equipment control processor 20.

  The user interface processing unit 211 in the equipment control processor 20 displays a control management screen during the operation test, and when the change information is transmitted from the simulator 10, the equipment displayed on the control management screen according to the content of the change information. Update status information for. Further, the state information update unit 212 reflects the change in the state information by updating the state information storage unit 24 based on the change information.

  Thus, the validity of the operation of the equipment control processor 20 can be confirmed by confirming that the change of the setting value on the simulator 10 side is reflected in the equipment control processor 20. Since the change of the setting value performed by the operation test processing unit 11 is accumulated in the test log information storage unit 17, if the change on the simulator 10 side cannot be reflected normally in the equipment control processor 20, the test log By analyzing the information, it can be used for bug correction of an application that implements the control management unit 21 in the equipment control processor 20.

  FIG. 7 is a diagram showing a display example of a remote control operation screen assuming a case where the setting value is changed from the remote control of the indoor unit 7. When the tester selects “remote control” from the menu, the user interface processing unit 111 displays a list of addresses assigned to the remote control included in the configuration information in accordance with the predetermined operation instruction. When the tester selects the address of the remote controller to be operated from the list, the user interface processing unit 111 reads the status information of the indoor unit 7 corresponding to the remote controller from the status information storage unit 15 and displays it on the remote control operation screen. indicate. When the tester changes the setting value displayed on the remote control operation screen, the state information update unit 112 updates the state information storage unit 15 with the changed setting value. Further, the operation test processing unit 11 transmits change information including the change contents of the state information changed by the state information update unit 112 to the equipment control processor 20.

  When the change information is transmitted from the simulator 10, the user interface processing unit 211 in the equipment control processor 20 updates the equipment state information displayed on the control management screen in the same manner as described above. Further, the state information update unit 212 updates the state information storage unit 24 based on the change information.

  Thus, the change of the setting value on the simulator 10 side is reflected in the equipment control processor 20, and the correctness of the operation of the equipment control processor 20 can be confirmed by confirming that the state of the equipment matches.

  By the way, there is a case where it is desired to check the operation of the facility control processor 20 while intermittently changing the state of the facility according to a predetermined schedule. For example, a setting value is changed at a predetermined time interval for one facility, or a state is changed while associating a plurality of facilities. In order to meet such a tester's request, in this embodiment, a schedule function, so-called scenario, can be created. Specifically, the tester, from a predetermined scenario creation screen (not shown), the equipment whose status information is to be changed, the item to be changed (if the indoor unit 7 is set temperature, wind direction, wind speed) , Operation mode, etc.), one or more instruction information including the changed state (setting value) of the item is set. The scenario creation unit 13 receives the set instruction information, creates scenario information in a predetermined format based on the instruction information, and registers the scenario information in the scenario storage unit 16.

  When the tester performs a predetermined instruction operation to execute a scenario, the operation test processing unit 11 displays a list of scenarios registered in the scenario storage unit 16. When the tester selects a scenario from the list, the operation test processing unit 11 starts an operation test according to the selected scenario.

  In addition to executing the scenario manually, the scenario may be automatically started on the date and time specified in the scenario.

  In the present embodiment, the case where the operation test of the facility control processor 20 that performs control management of the air conditioning facility is described as an example. However, the present invention is not limited to this, and the simulator 10 may be other types such as lighting. It can also be provided for operation tests of equipment control processors that perform equipment control management.

  DESCRIPTION OF SYMBOLS 1 Equipment management server, 2 Monitoring PC, 4 Air conditioning centralized controller, 5 Network, 6 Outdoor unit, 7 Indoor unit, 10 Simulator, 11 Operation test processing part, 12 Configuration information creation part, 13 Scenario creation part, 14, 23 Configuration information Storage unit, 15, 24 Status information storage unit, 16 Scenario storage unit, 17 Test log information storage unit, 20 Equipment control processor, 21 Control management unit, 22 Configuration information acquisition unit, 31 CPU, 32 ROM, 33 RAM, 34 Hard disk Drive (HDD), 35 mouse, 36 keyboard, 37 display, 38 input / output controller, 39 network interface (IF), 40 internal bus, 111, 211 user interface (UI) processing unit, 112, 212 status information update unit.

Claims (5)

In the simulation device used for the operation test of the equipment management device, connecting the equipment management device for controlling and managing the equipment instead of the equipment installed in the facility,
State information holding means for holding state information indicating a virtualized state of the facility;
An operation test processing means for displaying the state information held in the state information holding means and updating the state information of the equipment held in the state information holding means when the state information is changed;
Notification means for notifying the facility management apparatus of change information including the change contents of the state information received by the operation test processing means;
A simulation apparatus comprising:   The system further comprises configuration information creating means for creating configuration information indicating a connection relationship of equipment installed in the facility by arranging a GUI part of the facility in a predetermined configuration setting area on the screen. Item 2. The simulation device according to Item 1.   The simulation apparatus according to claim 2, further comprising a transmission unit configured to transmit the configuration information to the facility management apparatus. A scenario creating means for creating a scenario including equipment designated by the user, change contents of the state information of the equipment, and time information indicating the change timing of the state information;
The simulation apparatus according to claim 1, wherein the operation test processing unit changes state information of the facility according to the scenario. Connects a facility management device that controls and manages the facility in place of the facility installed in the facility, and is installed in a simulation device used for an operation test of the facility management device, and holds state information indicating the virtual state of the facility A computer accessible to the state information holding means to
An operation test processing means for displaying the status information held by the status information holding means and updating the status information of the equipment held by the status information holding means when the status information is changed,
Notification means for notifying the facility management apparatus of change information including the change contents of the state information received by the operation test processing means;
Program to function as.