JP2004094856A - Management system for equipment, and controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a management system which easily performs the communication confirmation work of a controller, which should be performed before operation of a system, and to provide the controller. <P>SOLUTION: The management system 1 for equipment is provided with equipment 10, a controller 20, and a management device 30. The controller 20 communicates with the equipment 10 to control the equipment 10. The management device 30 perform communication with the controller to manage the equipment 10. The controller 20 has a virtual means 22 which can be substituted for the equipment 10. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a management system and a controller for equipment, and more particularly to a management system and a controller for equipment requiring communication confirmation before operation.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is known an equipment management system for managing equipment (air conditioning equipment, lighting equipment, etc.) installed in a building (building, house, etc.) by a management device via a controller provided in the building. . In this system, equipment is controlled by a controller.
[0003]
In this system, it is necessary to confirm communication between the management device and the controller before actually operating the system. For example, when a command requesting the operation status of the equipment is transmitted from the management device to the controller, it is necessary to confirm whether the controller can transmit the operation status of the equipment to the management device. is there.
[0004]
[Problems to be solved by the invention]
However, in this system, it is necessary to prepare actual equipment and connect the controller and the equipment in order to confirm communication between the controller and the management device. For this reason, confirming communication between the controller and the management device is a very complicated task.
[0005]
An object of the present invention is to provide an equipment management system and a controller in which it is relatively easy to check the communication of the controller before operating the system in the equipment management system.
[0006]
[Means for Solving the Problems]
The equipment management system according to claim 1 includes equipment, a controller, and a management device. The controller controls the equipment by communicating with the equipment. The management device manages the equipment by communicating with the controller. In addition, the controller has virtual means that can replace equipment.
[0007]
In this equipment management system, the management device manages the equipment by communicating with the controller. In this equipment management system, for example, when a system administrator or the like confirms communication between the controller and the management device, the equipment and the virtual means can be replaced. Therefore, the management device communicates with the virtual means via the controller, so that the administrator or the like can confirm the communication between the controller and the management device.
[0008]
Here, when the administrator or the like checks the communication between the controller and the management device, it is not necessary to connect the equipment and the controller and check the communication between the management device and the controller. In such a case, the management device can communicate with the virtual means via the controller. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller becomes relatively easy.
[0009]
An equipment management system according to a second aspect is the equipment management system according to the first aspect, wherein the equipment operates based on a transmitted command. In addition, the equipment sends a response. The management device manages the equipment by transmitting and receiving commands and responses to and from the equipment via the controller. The controller further has device correspondence means. The device corresponding means is connected to the management device and the equipment. The virtual means is connected to the device corresponding means. Further, the device corresponding unit performs a first control of transmitting a command transmitted from the management device at the time of communication confirmation to the virtual unit. The device corresponding means performs a second control of transmitting a command transmitted from the management device during operation to the facility device. The device corresponding unit transmits a response transmitted from the facility device or a virtual response transmitted from the virtual unit to the management device. This virtual means is connected to the device corresponding means. Further, the virtual means transmits a virtual response to the command to the device corresponding means.
[0010]
In this facility equipment management system, the management device sends a command to the equipment corresponding means. When a system administrator or the like confirms communication between the controller and the management device, the device corresponding unit transmits a command transmitted from the management device to the virtual unit. Thereafter, the virtual means transmits a virtual response to the command to the device corresponding means. Then, the device corresponding unit transmits the virtual response to the management device. Then, by exchanging these commands and virtual responses, an administrator or the like confirms communication between the controller and the management device.
[0011]
Here, when the administrator or the like checks the communication between the controller and the management device, it does not connect the equipment and the controller and check the communication between the management device and the controller. At the time of trial operation, a virtual response transmitted from the virtual means is transmitted to the management device by the device corresponding means. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller is further facilitated.
[0012]
An equipment management system according to a third aspect is the equipment management system according to the second aspect, wherein the controller further includes a holding unit. This holding means holds the response.
Here, the holding unit holds the response transmitted from the equipment. Therefore, when the management device transmits a command requesting a response to the controller, the controller does not need to request a response from the equipment. This is because the controller may transmit the response held by the holding unit to the management device. As a result, the responsiveness of the controller is improved.
[0013]
An equipment management system according to a fourth aspect is the equipment management system according to the second or third aspect, wherein the controller further includes a selection unit. The selection means selects one of the first control and the second control.
Here, either one of the first control and the second control can be selected by the selection unit. Therefore, for example, even when the communication between the controller and the management device is checked at a time other than when the communication is checked, the first control can be selected. As a result, the communication confirmation work between the management device and the controller is further facilitated.
[0014]
The controller according to claim 5 is a controller provided between the management device and the equipment to control the equipment, and includes a virtual unit. Furthermore, the virtual means can be replaced by equipment.
Here, the virtual means can be replaced by equipment. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller becomes relatively easy.
[0015]
A controller according to a sixth aspect is the controller according to the fifth aspect, further comprising a device correspondence unit. The device corresponding means is connected to the management device and the equipment. The virtual means is connected to the device corresponding means. The device corresponding means performs first control for transmitting a command transmitted from the management device to the virtual means at the time of communication confirmation. Further, the device corresponding means performs a second control of transmitting a command transmitted from the management device to the equipment at the time of operation. The device corresponding unit transmits a response transmitted from the facility device or a virtual response transmitted from the virtual unit to the management device. The virtual means transmits a virtual response to the command to the device corresponding means.
[0016]
In this controller, a command is transmitted from the management device to the device corresponding means. When a system administrator or the like confirms communication between the controller and the management device, the device corresponding unit transmits a command transmitted from the management device to the virtual unit. Then, the virtual means transmits a virtual response to the device corresponding means. Then, the device corresponding unit transmits the virtual response to the management device. Then, by exchanging these commands and virtual responses, an administrator or the like confirms communication between the controller and the management device.
[0017]
Here, when the administrator or the like checks the communication between the controller and the management device, it does not connect the equipment and the controller and check the communication between the management device and the controller. At the time of trial operation, a virtual response transmitted from the virtual means is transmitted to the management device by the device corresponding means. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller becomes relatively easy.
[0018]
A controller according to a seventh aspect is the controller according to the sixth aspect, further comprising a holding unit. This holding means holds the response.
Here, the holding unit holds the response transmitted from the equipment. Therefore, when the management device transmits a command requesting a response to the controller, the controller does not need to request a response from the equipment. This is because the controller may transmit the response held by the holding unit to the management device. As a result, the responsiveness of the controller is improved.
[0019]
The controller according to claim 8 is the controller according to claim 6 or 7, further comprising a selection unit. The selection means selects one of the first control and the second control.
Here, either one of the first control and the second control can be selected by the selection unit. Therefore, for example, even when the communication between the controller and the management device is checked at a time other than when the communication is checked, the first control can be selected. As a result, the communication confirmation work between the management device and the controller is further facilitated.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
<Configuration of the system of the present invention>
FIG. 1 shows a schematic configuration diagram of an air conditioner management system 1 according to an embodiment of the present invention. This system mainly includes an air conditioner 10, a controller 20, and a management device 30.
[0021]
(Configuration of air conditioner)
FIG. 2 shows an external view of an air conditioner management system 1 according to an embodiment of the present invention. The air conditioner 10 is installed in a user's building and is connected to the controller 20. The air conditioner 10 performs operations such as cooling, heating, and dehumidification based on a control command transmitted from the controller 20 to harmonize indoor air. The air conditioner 10 includes an indoor unit 11 attached to a wall surface or a ceiling in the room, and an outdoor unit 12 installed outside the room. The outdoor unit 12 includes an outdoor air conditioning unit that houses an outdoor heat exchanger, an outdoor fan, and the like. An indoor heat exchanger is housed in the outdoor unit 11, and an outdoor heat exchanger is housed in the outdoor unit 12. Each heat exchanger and a refrigerant pipe connecting these heat exchangers constitute a refrigerant circuit.
[0022]
The air conditioner 10 further includes a processing unit 15 in addition to the above components (see FIG. 1). The processing unit 15 receives the control command when the control command for the air conditioner 10 is transmitted from the controller 20, and operates the air conditioner 10 based on the control command. After that, the processing unit 15 transmits the operation information of the air conditioner 10 to the controller 20. The operation information of the air conditioner 10 includes an operation state, a set temperature, a suction temperature, an air volume, and the like.
[0023]
In the air conditioner management system 1 according to one embodiment of the present invention, when a control command for the air conditioner 10 is transmitted from the controller 20, the processing unit 15 sends the operation information of the air conditioner 10 to the controller 20. Send Instead of this, the processing unit 15 may transmit the operation information of the air conditioner 10 to the controller 20 at regular time intervals or at regular time intervals.
[0024]
(Controller 20)
Next, the configuration of the controller 20 will be described with reference to FIG.
The controller 20 is installed in the user's building and controls the air conditioner 10. Further, the controller 20 is connected to the management device 30. The controller 20 mainly includes a device corresponding unit 21, a virtual model 22, and a data model 23.
[0025]
The device corresponding unit 21 is connected to the management device 30 and the virtual model 22. Further, the device corresponding unit 21 is connected to the air conditioner 10 via the data model 23. The device corresponding unit 21 receives a control command for the air conditioner 10 from the management device 30. Then, when communication confirmation between the management device 30 and the controller 20 is performed (during trial operation), the device corresponding unit 21 transmits the received control command to the virtual model 22. Specifically, a jumper is installed between the device corresponding unit 21 and the virtual model 22 during the test operation. At the same time, the connection between the device corresponding unit 21 and the air conditioner 10 is disconnected. For this reason, at the time of test operation, a control command is transmitted to the virtual model 22. Further, when the present system is actually operated (during operation), the device corresponding unit 21 transmits the received control command to the air conditioner 10. Specifically, at the time of operation, the jumper installed between the device corresponding unit 21 and the virtual model 22 is removed. At the same time, the device corresponding unit 21 and the air conditioner 10 are connected. Therefore, during operation, a control command is transmitted to the air conditioner 10. Further, the device corresponding unit 21 transmits the virtual operation information transmitted from the virtual model 22 and the operation information transmitted from the air conditioner 10 to the management device 30.
[0026]
The virtual model 22 is connected to the device corresponding unit 21. The virtual model 22 receives a control command transmitted from the device corresponding unit 21 and virtually calculates virtual operation information of the air conditioner 10 based on the control command. Then, the virtual model 22 transmits the virtual driving information to the device corresponding unit 21.
The data model 23 is connected to the device corresponding unit 21 and the air conditioner 10. The data model 23 holds the operation information of the air conditioner 10 transmitted from the air conditioner 10 to the device corresponding unit 21.
[0027]
(Management device 30)
The management device 30 is installed in the user's building or in a remote location, and is connected to the controller 20 (see FIG. 1). Then, the management device 30 manages the air conditioner 10 via the controller 20. The management device 30 transmits a control command for controlling the air conditioner 10 to the controller 20. Further, the management device 30 receives the driving information and the virtual driving information transmitted from the device corresponding unit 21 of the controller 20 to the management device 30.
[0028]
<Operation of this system>
The operation of the present system will be described below.
First, the operation of the present system during test operation will be described.
FIG. 3 shows a flow of a communication confirmation work between the management device 30 and the controller 20 during the test operation.
[0029]
First, an operator or the like performing a communication confirmation operation between the management device 30 and the controller 20 installs a jumper between the device corresponding unit 21 of the controller 20 and the virtual model 22 (step S101). Next, the management device 30 transmits a control command for operating the air conditioner 10 to the controller 20 (step S102). The device corresponding unit 21 of the controller 20 receives the control command and transmits the control command to the virtual model 22 (Step S103). The virtual model 22 receives this control command, and virtually calculates virtual operation information of the air conditioner 10 based on the control command (Step S104). Then, the virtual model 22 transmits the calculated virtual driving information to the device corresponding unit 21 (Step S105). The device corresponding unit 21 transmits the virtual driving information transmitted from the virtual model 22 to the management device 30 (Step S106). The worker confirms the communication between the management device 30 and the controller 20 by confirming the virtual operation information transmitted to the management device 30 (step S107).
[0030]
Next, the operation of the present system when operating the air conditioner and operating the present system will be described.
FIG. 4 shows a flow when this system is operated.
First, an administrator of the system removes a jumper provided between the device corresponding unit 21 of the controller 20 and the virtual model 22 (Step S201). Next, the management device 30 transmits a control command for operating the air conditioner 10 to the controller 20 (Step S202). The device corresponding unit 21 of the controller 20 receives the control command and transmits the control command to the air conditioner 10 (Step S203).
The processing unit 15 of the air conditioner 10 receives the control command, and operates the air conditioner 10 based on the control information (Step S204). After that, the processing unit 15 transmits the operation information of the air conditioner 10 to the controller 20 (Step S205). The data model 23 holds the operation information transmitted from the processing unit 15 of the air conditioner 10 to the device corresponding unit 21 of the controller 20 (Step S206). The device corresponding unit 21 of the controller 20 transmits the operation information transmitted from the processing unit 15 of the air conditioner 10 to the management device 30 (Step S207).
[0031]
<Features of this system>
(1) In the air conditioner management system 1, the controller 20 has the virtual model 22. Therefore, an operator or the like can confirm communication between the management device 30 and the controller 20 without connecting the air conditioner 10 to the controller 20. As a result, the communication confirmation work between the management device 30 and the controller 20 becomes relatively easy.
[0032]
(2) In the air conditioner management system 1, the controller 20 further has a data model 23 that holds operation information of the air conditioner 10. For this reason, when a command for requesting the operation information of the air conditioner 10 is transmitted from the management device 30 to the controller 20, the controller 20 transmits the operation information of the air conditioner 10 held in the data model 23 to the management device 30. What is necessary is just to transmit. As a result, the responsiveness of the controller 20 to the management device 30 is improved.
[0033]
(3) In the management system 1 for the air conditioner, the destination of the control command can be easily changed by attaching or removing a jumper. Therefore, even when the communication between the management device 30 and the controller 20 needs to be confirmed after the operation of the system is started, the worker can easily confirm the communication.
[0034]
(4) In the air conditioner management system 1, when the management device 30 and the controller 20 communicate with each other, even if the communication with the air conditioner 10 is performed via the device corresponding unit 21, the virtual model 22 Even in the case of communication, the management device 30 can transmit and receive commands and responses in the same manner. Therefore, communication confirmation between the management device 30 and the controller 20 can be easily performed without requiring any components other than the above-described configuration.
[0035]
(Other embodiments)
(A) In the above embodiment, communication confirmation between the controller 20 and the management device 30 is performed using the virtual model 22 at the time of test operation. However, when the communication between the controller 20 and the management device 30 needs to be confirmed, not necessarily at the time of the trial operation, the communication may be confirmed using the virtual model 22.
[0036]
(B) In the above embodiment, the command transmission target from the device corresponding unit 21 is switched by the jumper. However, the transmission target from the device corresponding unit 21 is not limited to the jumper, but may be changed by software, for example.
[0037]
【The invention's effect】
In the invention according to claim 1, when an administrator or the like confirms communication between the controller and the management device, it is not necessary to connect the equipment and the controller and perform communication confirmation between the management device and the controller. . In such a case, the management device can communicate with the virtual means via the controller. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller becomes relatively easy.
[0038]
In the invention according to claim 2, when the administrator or the like checks the communication between the controller and the management device, it does not connect the equipment and the controller and check the communication between the management device and the controller. . At the time of trial operation, a virtual response transmitted from the virtual means is transmitted to the management device by the device corresponding means. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller is further facilitated.
[0039]
In the invention according to claim 3, the holding unit holds the response transmitted from the equipment. Therefore, when the management device transmits a command requesting a response to the controller, the controller does not need to request a response from the equipment. This is because the controller may transmit the response held by the holding unit to the management device. As a result, the responsiveness of the controller is improved.
[0040]
In the invention according to claim 4, one of the first control and the second control can be selected by the selection means. Therefore, for example, even when the communication between the controller and the management device is checked at a time other than when the communication is checked, the first control can be selected. As a result, the communication confirmation work between the management device and the controller is further facilitated.
[0041]
In the invention according to claim 5, the controller has virtual means that can replace equipment. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller becomes relatively easy.
In the invention according to claim 6, when the administrator or the like checks the communication between the controller and the management device, it does not connect the equipment and the controller and check the communication between the management device and the controller. . At the time of trial operation, a virtual response transmitted from the virtual means is transmitted to the management device by the device corresponding means. Therefore, communication between the management device and the controller can be confirmed without connecting the equipment to the controller. For this reason, the communication confirmation work between the management device and the controller becomes relatively easy.
[0042]
In the invention according to claim 7, the holding unit holds the response transmitted from the equipment. Therefore, when the management device transmits a command requesting a response to the controller, the controller does not need to request a response from the equipment. This is because the controller may transmit the response held by the holding unit to the management device. As a result, the responsiveness of the controller is improved.
[0043]
In the invention according to claim 8, one of the first control and the second control can be selected by the selection means. Therefore, for example, even when the communication between the controller and the management device is checked at a time other than when the communication is checked, the first control can be selected. As a result, the communication confirmation work between the management device and the controller is further facilitated.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of an air conditioner management system according to an embodiment of the present invention.
FIG. 2 is an external view of an air conditioner.
FIG. 3 is a flowchart of a communication confirmation operation between a management device and a controller.
FIG. 4 is a flowchart during system operation.
[Explanation of symbols]
1 air conditioner management system (facility equipment management system)
10 air conditioners (equipment)
20 Controller 21 Device correspondence section (device correspondence means)
22 Virtual Model (Virtual Means)
23 Data model (holding means)
30 Management device

Claims (8)

An equipment management system,
Equipment (10),
A controller (20) for controlling the equipment (10) by communicating with the equipment (10);
A management device (30) for managing the equipment (10) by communicating with the controller (20);
With
The controller (20) has virtual means (22) that can replace the equipment (10);
Equipment management system (1). The equipment (10) operates based on the transmitted command and transmits a response,
The management device (30) manages the equipment (10) by transmitting and receiving the command and the response to and from the equipment (10) via the controller (20),
The controller (20) further includes a device correspondence unit (21) connected to the management device (30) and the facility device (10),
The virtual means (22) is connected to the device corresponding means (21),
The device correspondence unit (21) is configured to perform first control for transmitting the command transmitted from the management device (30) to the virtual unit (22) at the time of confirming communication, and to perform the operation from the management device (30) at the time of operation. And a second control for transmitting the transmitted command to the equipment (10), and performing the response transmitted from the equipment (10) or the virtual response transmitted from the virtual means (22). Transmitted to the management device (30),
The virtual means (22) transmits the virtual response to the command to the device corresponding means (21),
An equipment management system (1) according to claim 1. The controller (20) further includes holding means (23) for holding the response.
An equipment management system (1) according to claim 2. The controller (20) further includes a selection unit that selects one of the first control and the second control.
An equipment management system (1) according to claim 2 or 3. A controller provided between the management device (30) and the equipment (10) for controlling the equipment (10),
A controller (20) comprising virtual means (22) that can replace said equipment (10). Device management means (21) connected to the management device (30) and the equipment (10);
The virtual means (22) is connected to the device corresponding means (21),
The device correspondence unit (21) is configured to perform first control for transmitting the command transmitted from the management device (30) to the virtual unit (22) at the time of confirming communication, and to perform the operation from the management device (30) at the time of operation. And a second control for transmitting the transmitted command to the equipment (10), and performing the response transmitted from the equipment (10) or the virtual response transmitted from the virtual means (22). Transmitted to the management device (30),
The virtual means (22) transmits the virtual response to the command to the device corresponding means (21),
Controller (20) according to claim 5. Further comprising holding means (23) for holding the response;
A controller (20) according to claim 6. Further comprising a selection unit for selecting one of the first control and the second control;
An equipment management system (1) according to claim 6 or 7.

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