JP2019121943A - Transmission system for power monitoring control, transmission device, program for transmission device, and transmission method - Google Patents

Abstract

To provide a transmission system for power monitoring control, a transmission device, a program for a transmission device, and a transmission method capable of performing transmission/reception with terminal equipment having different transmission systems without changing a program incorporated in a center device.SOLUTION: A transmission device 2 of a transmission system 1 for power monitoring control comprises a control part 24 which executes: first transmission processing for transmitting a test telegraphic message by a plurality of transmission systems from a first transmission/reception part 21 to terminal equipment 3; first reception processing for receiving a reply telegraphic message transmitted from the terminal equipment 3 which has responded to at least one of the test telegraphic messages transmitted by the plurality of transmission systems by the first transmission processing by the first transmission/reception part 21; and table creation processing for creating a conversion table in which a transmission system of the terminal equipment 3 which has transmitted the reply telegraphic message received by the first reception processing and the terminal equipment 3 are stored in association.SELECTED DRAWING: Figure 1

Description

  The present embodiment relates to a power monitoring control transmission system that performs monitoring control of a power facility, a transmission apparatus, a program for the transmission apparatus, and a transmission method.

  In order to stably supply power, a power monitoring and control system is installed in the power receiving and transforming equipment. As a power monitoring control system of this type, there is known a system having a terminal device that detects the state of power receiving and transforming equipment and controls the power receiving and transforming equipment, and a center device that transmits commands to the terminal devices by telegram. .

JP, 2010-178058, A JP 10-108272 A

  In order to stably supply power, a power monitoring and control system is installed in the power receiving and transforming equipment. The power monitoring control system detects the state of the power receiving and transforming equipment and controls the power receiving and transforming equipment. The power monitoring control system has a terminal device installed near the power receiving and transforming equipment, and a center device installed in a control room or the like. The terminal device is configured of a control device, a measuring device, etc. that detects the state of the power receiving and transforming equipment and transmits it to the center device in a telegram. The center device responds to the message sent from the terminal device, and sends a command in the message to the terminal device.

  However, a terminal device configured by a control device, a measuring device, and the like has different hardware and software specifications for each manufacturer. For this reason, transmission methods such as a transmission procedure (protocol) for transmitting and receiving a message to and from the terminal device vary from one terminal device to another.

  Therefore, it has been necessary to change the transmission method of the center device according to the terminal device to be connected. The transmission method of the center device is changed by changing the program built in the center device. Whenever the terminal device is changed, changing the program stored in the center device according to the terminal device is cumbersome and inconvenient.

  Further, a program incorporated in the center device calculates the control to be executed and creates an instruction for the terminal device. For this reason, changing the program stored in the center device may cause an unexpected malfunction of the program. Although the operation test of the center device is naturally performed to prevent unexpected operation failure of the program, it is complicated and inconvenient to carry out the test concerning the operation of all the center devices including the operation of control to be performed. there were.

  Furthermore, when a terminal device having a plurality of different transmission methods is connected to the center device, the program stored in the center device is changed to correspond to a plurality of different transmission methods. For this reason, the capacity of the program built in the center apparatus becomes large, which may cause an unexpected operation delay and an operation failure, which is disadvantageous.

  The present embodiment is a transmission system for power monitoring and control that can transmit and receive to and from a terminal device having a different transmission method without changing a program built in the center device in order to solve the above-mentioned disadvantages. An object of the present invention is to provide a transmission device, a program for the transmission device, and a transmission method.

The power monitoring and control transmission system of the present embodiment is characterized by having the following configuration.
(1) A terminal device having the following features.
(1-1) A control target is monitored, and a request message for requesting control of the control target is transmitted.
(1-2) A corresponding command message is received, and the control target is controlled based on the command message.
(1-3) Among the test telegrams transmitted by the plurality of transmission methods, the reply telegram is transmitted in response to the test telegram of the matching transmission method.

(2) A center device having the following features.
(2-1) Receive the request message requesting control.
(2-2) Transmit the command message corresponding to the received request message.

(3) A transmission apparatus having the following features.
(3-1) A first transmission / reception unit that performs transmission / reception with the terminal device.
(3-2) A second transmission / reception unit that performs transmission / reception with the center device.
(3-3) A control unit that controls the first transmission / reception unit and the second transmission / reception unit.

(4) The control unit of the transmission apparatus executes the following process.
(4-1) A first transmission process of transmitting a test message by a plurality of transmission methods from the first transmission / reception unit to the terminal device.
(4-2) The first transmission / reception unit transmits, in response to at least one of the test messages transmitted by the plurality of transmission methods in the first transmission process, a reply message transmitted from the terminal apparatus by the first transmission / reception unit First reception process to receive.

(4-3) A table creation process of creating a conversion table that associates and stores the transmission method of the terminal apparatus that has transmitted the reply message received in the first reception process and the terminal apparatus.
(4-4) A second reception process of receiving a request message from the terminal device by the first transmission / reception unit.

(4-5) A first conversion process of converting the request message received by the second reception process into the transmission method of the center apparatus based on the conversion table generated by the table generation process.
(4-6) A second transmission process of transmitting the request message from the second transmission / reception unit to the center apparatus by the transmission method converted in the first conversion process.

(4-7) A third reception process in which the second transmission / reception unit receives a command message created by the center apparatus in response to the request message sent by the second transmission process.
(4-8) A second conversion process of converting the command message received in the third reception process into a transmission method that matches the terminal device based on the conversion table.

(4-9) A third transmission process of transmitting the command message from the first transmission / reception unit to the terminal device in the transmission method converted by the second conversion process.
In addition, the transmission apparatus, the program for the transmission apparatus, and the transmission method having the above features are also included in the present embodiment.

The figure which shows the transmission system for electric power monitoring control concerning 1st Embodiment. A diagram showing a flow of a conversion table creation program of the transmission apparatus according to the first embodiment The figure which shows the flow of the conversion program of the transmission system of the transmission apparatus concerning 1st Embodiment. A diagram showing a conversion table according to the first embodiment

[1. First embodiment]
[1-1. Constitution]
A power monitoring and control transmission system 1 as an example of the present embodiment will be described with reference to FIG.

(1) Overall Configuration of Power Monitoring and Control Transmission System 1 The power monitoring and control transmission system 1 is installed in a factory, a building, a hospital, a school, etc. to stably supply power, and performs monitoring control of power receiving and transforming facilities. It is. The power monitoring control transmission system 1 has a transmission device 2, terminal devices 3 (3 a, 3 b, 3 c) and a center device 4. The center device 4 is connected to the transmission device 2 through the transmission line 8. The terminal devices 3 (3a, 3b, 3c) are connected to the transmission device 2 by transmission lines 9 (9a, 9b, 9c).

  In the present embodiment, in the case where there are a plurality of devices or members of the same configuration, they will be described with the same reference numerals attached, and they will be common when describing individual devices or members of the same configuration. The distinction is made by appending alphabets to numbers.

In the power monitoring control transmission system 1, the following signals or data are transmitted / received or stored.
Test message M1
Reply message M2
Request message M3
Command message M4
Conversion table T1

  The terminal device 3 is configured by so-called input / output devices such as control devices and measuring devices, and is disposed in proximity to the power receiving and transforming equipment 6 such as switches and transformers. The terminal device 3 detects the state of the power receiving and transforming equipment 6 such as current, voltage, frequency, power, temperature, etc., and transmits a request telegram M3 requesting control via the transmission device 2 to the center device 4. The terminal device 3 also controls the power receiving and transforming equipment 6 (6a, 6b, 6c) based on the command message M4 transmitted from the center device 4 via the transmission device 2.

  The center device 4 is configured by a so-called sequencer and is disposed in a factory, a building, a hospital, a control room of a school, or the like. The center device 4 receives the request telegram M3 for requesting control sent from the terminal device 3 via the transmission device 2, and transmits the command telegram M4 corresponding to the terminal device 3 via the transmission device 2. The transmission device 2 is disposed together with the center device 4 in a control room or the like.

(2) Configuration of Transmission Device 2 The transmission device 2 is a so-called gateway device that relays transmission between the power monitoring control transmission system 1 and the terminal device 3. The transmission device 2 includes a transmission / reception unit 21, a transmission / reception unit 22, a storage unit 23, and a control unit 24. The transmission / reception unit 21 corresponds to a first transmission / reception unit in the claims, and the transmission / reception unit 22 corresponds to a second transmission / reception unit in the claims.

(Transmitter unit 21)
The transmission / reception unit 21 is configured of a transmission / reception circuit for local communication. The transmission / reception unit 21 is connected to the terminal device 3 via the transmission line 9. In the present embodiment, three terminal devices 3a, 3b, 3c are connected to the transmission / reception unit 21 via transmission lines 9a, 9b, 9c, respectively.

  The transmission and reception unit 21 is controlled by the control unit 24 to perform transmission and reception. The transmission / reception unit 21 is controlled by the control unit 24 and transmits the test message M1 and the command message M4 to the terminal device 3 through the transmission line 9. The transmission / reception unit 21 receives the reply message M2 and the request message M3 from the terminal device 3 through the transmission line 9 and outputs the response message M2 and the request message M3 to the control unit 24.

(Transmitter 22)
The transmission / reception unit 22 is configured of a transmission / reception circuit for local communication. The transmission / reception unit 22 is connected to the center device 4 via the transmission line 8.

  The transmission / reception unit 22 is controlled by the control unit 24 for transmission / reception. The transmission / reception unit 22 is controlled by the control unit 24 and transmits the request telegram M3 to the center device 4 via the transmission line 8. The transmission / reception unit 22 receives the command message M4 from the center device 4 via the transmission line 8 and outputs the command message M4 to the control unit 24.

(Storage unit 23)
The storage unit 23 is configured of a storage medium such as a semiconductor memory or a hard disk. The storage unit 23 is controlled by the control unit 24 to store and read data. The storage unit 23 stores the conversion table T1.

(Control unit 24)
The control unit 24 is configured by a microcomputer. The control unit 24 incorporates a computer program described later. The control unit 24 is connected to the transmission / reception unit 21, the transmission / reception unit 22, and the storage unit 23. The control unit 24 performs the following calculation and control on the transmission / reception unit 21, the transmission / reception unit 22, and the storage unit 23.

(A1) Control of Transmission / Reception Unit 21 The control unit 24 controls the transmission / reception unit 21 to transmit the test message M1 and the command message M4 to the terminal device 3 through the transmission line 9. Further, the control unit 24 controls the transmitting and receiving unit 21 to receive the reply message M2 and the request message M3 from the terminal device 3 through the transmission line 9.

  The command message M4 is converted by the control unit 24 into a transmission method that matches the terminal device 3 and is transmitted. The test message M1 is transmitted by a plurality of transmission methods.

(A2) Control of Transmission / Reception Unit 22 The control unit 24 controls the transmission / reception unit 22 to transmit the request message M3 to the center device 4 via the transmission line 8. Further, the control unit 24 controls the transmission / reception unit 22 to receive the command message M4 from the center apparatus 4 via the transmission line 8.

  The request message M3 is converted by the control unit 24 into a transmission method that matches the center device 4 and is transmitted.

(A3) Control on Storage Unit 23 The control unit 24 causes the storage unit 23 to store the conversion table T1. Further, the control unit 24 reads the conversion table T1 from the storage unit 23.

(A4) Other Operations The control unit 24 receives the reply telegram M2 transmitted from the terminal device 3 responding to at least one of the test telegrams M1 transmitted from the transmission / reception unit 21 in a plurality of transmission methods, and transmits the reply telegram M2 A conversion table T1 is created in which the transmission method of the terminal device 3 that has transmitted the terminal device 3 and the terminal device 3 are associated. The conversion table T1 is stored in the storage unit 23 as described above.

  Further, the control unit 24 converts the command message M4 received from the center device 4 by the transmission / reception unit 22 into a transmission method that matches the terminal device 3, and transmits the transmission method from the transmission / reception unit 21 to the terminal device 3. Further, the control unit 24 transmits the test message M1 from the transmitting / receiving unit 21 to the terminal device 3 by a plurality of transmission methods set in advance.

  Further, the control unit 24 converts the request message M3 received from the terminal device 3 by the transmission / reception unit 21 into a transmission method that matches the center device 4, and transmits the transmission method from the transmission / reception unit 22 to the center device 4.

(Terminal device 3)
The terminal device 3 is a device configured by a microcomputer or the like. The terminal device 3 constitutes a so-called input / output device such as a control device, a measuring device, etc., and is disposed close to the power receiving and transforming equipment 6. The terminal device 3 detects the state of the power receiving and transforming equipment 6, and transmits a request message M3 requesting control to the transmission device 2. In addition, the terminal device 3 receives the command message M4 transmitted from the transmission device 2, and controls the power receiving and transforming facility 6 based on the command message M4.

  The test message M1 is transmitted to the terminal device 3 from the transmission / reception unit 21 of the transmission device 2 by a plurality of transmission methods. Among the test telegrams M1 transmitted by a plurality of transmission methods, the terminal device 3 transmits a response telegram M2 in response to at least one test telegram M1 transmitted by a transmission method that matches the transmission method of the terminal device 3. Do.

(Center device 4)
The center device 4 is a device configured by a microcomputer or the like. The center device 4 constitutes a so-called sequencer, and is disposed in a factory, a building, a hospital, a control room of a school, or the like. The center device 4 receives the request telegram M3 for requesting control sent from the transmission device 2, and transmits the command telegram M4 corresponding to the terminal device 3 to the transmission device 2. The command message M4 instructs a control procedure of the power receiving and distribution equipment 6 connected to the terminal device 3.

(Power receiving and distributing equipment 6)
The power distribution equipment 6 is equipment for power protection management, such as a switch, a circuit breaker, a disconnecting switch, a transformer for an instrument transformer, a measuring instrument, and a control device. The power distribution equipment 6 is connected to the terminal device 3 and is monitored and controlled. The power distribution equipment 6 is disposed on a power supply line of electric power, and is stored together with the terminal device 3 in a storage board 5 such as a distribution room.

[1-2. Action]
Next, the operation of the power monitoring control system 1 of the present embodiment will be described based on FIGS. 1 to 4.

  The center device 4 and the terminal device 3 perform transmission by different transmission methods. The terminal device 3 configured by the control device, the measuring device, and the like has different hardware and software specifications for each manufacturer. For this reason, the transmission method of the terminal device is different for each terminal device. The transmission device 2 of the power monitoring control transmission system 1 relays transmission between the center device 4 and the terminal device 3.

  The transmission device 2 converts the telegram transmitted from the terminal device 3 by the transmission method of the terminal device 3 into the transmission method of the center device 4 and transmits the message to the center device 4. Also, the transmission device 2 converts the telegram transmitted from the center device 4 by the transmission method of the center device 4 into the transmission method of the terminal device 3, and transmits it to the terminal device 3.

  The transmission apparatus 2 performs the conversion of the above transmission method based on the conversion table T1. The transmission method is, for example, a transmission procedure (protocol) for transmitting and receiving a message. Also, the transmission method may be at least one of a transmission format, a transmission rate, and a transmission code.

[A. Operation concerning creation of conversion table T1]
The transmission apparatus 2 performs the conversion of the above transmission method based on the conversion table T1. Therefore, the transmission device 2 creates the conversion table T1. The operation related to the creation of the conversion table T1 by the transmission device 2 is performed, for example, at the start of operation of the power monitoring control transmission system 1. Further, the operation of creating the conversion table T1 by the transmission device 2 is executed at a constant time cycle, and the conversion table T1 is updated at a constant time cycle.

  The transmission device 2 of the power monitoring control transmission system 1 performs an operation related to the creation of the conversion table T1 according to the program shown in FIG. Below, the operation | movement concerning creation of conversion table T1 of the transmission apparatus 2 is demonstrated along the program shown in FIG. The program shown in FIG. 2 is incorporated in the control unit 24 of the transmission device 2. The program shown in FIG. 2 is periodically and repeatedly executed by the control unit 24.

(Step S01: Transmission of test message M1 to terminal device 3 by transmission method n)
The control unit 24 transmits the test message M1 to the terminal device 3 by the transmission method n (n = 1 to 8). The test message M1 is a message requesting a reply. First, the control unit 24 transmits the test message M1 to the terminal device 3a by the transmission method of the transmission method 1 "FL-net". Transmission methods 1 to 8 are set in advance and stored in the storage unit 23 of the transmission device 2.

  For example, as shown in the column of “transmission method name” in FIG. 4, transmission method 1 “FL-net”, transmission method 2 “ProFibus”, transmission method 3 “BACnet”, transmission method 4 “CC-Link”, etc. A transmission procedure (protocol) based on the standard is set. Further, for example, transmission procedures (protocols) original by Company A to Company D are set as the transmission methods 5 to 8.

  At the same time, the storage unit 23 of the transmission apparatus 2 is set and stored in advance that the transmission method of the center apparatus 4 is a transmission method based on the transmission method 2 “ProFibus”.

(Step S02: It is determined whether the reply message M2 has been received from the terminal device 3)
Next, the control unit 24 determines whether the transmission / reception unit 21 has received the reply message M2 from the terminal device 3a. The reply message M2 is a message transmitted from the terminal device 3a, such as "ACK (acknowledgement)" indicating that the test message M1 has been received.

  When the test message M1 transmitted in step S01 is transmitted by the transmission method that matches the transmission method of the terminal device 3, the terminal device 3a returns a reply message M2. When the reply message M2 is received from the terminal device 3a, the control unit 24 determines that the transmission method of the test message M1 transmitted in step S01 is the transmission method of the terminal device 3.

  If it is determined that the reply message M2 has been received from the terminal device 3a (YES in step S02), the program proceeds to step S03. If it is not determined that the reply message M2 has been received from the terminal device 3 (NO in step S03), the program skips step S03.

(Step S03: The transmission method of the terminal device 3 is stored in the conversion table T1)
If it is determined in step S02 that the reply message M2 has been received from the terminal device 3a, the transmission method of the terminal device 3 is stored in the conversion table T1 as shown in FIG. As described above, when the test message M1 transmitted in step S01 is transmitted by a transmission method that matches the transmission method of the terminal device 3a, the terminal device 3a returns a reply message M2. When the reply message M2 is received from the terminal device 3a, the control unit 24 determines that the transmission method of the test message M1 transmitted in step S01 is the transmission method of the terminal device 3.

  The transmission method of the terminal device 3a is transmission method 1 "FL-net". The terminal device 3a responds to the test telegram M1 transmitted by the transmission method 1 “FL-net” in step S01, and sends back a reply telegram M2. At step S02, the control unit 24 receives the reply message M2 from the terminal device 3a. Therefore, the control unit 24 determines that the transmission method of the terminal device 3a is transmission method 1 “FL-net”, and as shown in FIG. 4, the transmission method of the terminal device 3 corresponds to transmission method 1 “FL It is stored in the conversion table T1 of the storage unit 23 that it is "net".

  The control unit 24 repeatedly executes the processing of steps S01 to S03 described above in transmission method 1 to transmission method 8. That is, the test message M1 is transmitted by the transmission method 1 "FL-net" in step S01 of the first process, and the test message M1 is transmitted by the transmission method 2 "ProFibus" in step S01 of the second process. Similarly, test telegram M1 is transmitted in transmission method 3 to transmission method 8 in step S01 of the third to eighth processing.

  After performing the processing of steps S01 to S03 in transmission method 1 to transmission method 8 for the terminal device 3a, the control unit 24 performs the same processing on the terminal devices 3b and 3c.

  The transmission method of the terminal device 3 b is transmission method 3 “BACnet”. The terminal device 3b responds to the test telegram M1 transmitted by the transmission method 3 "BACnet" in step S01, and returns a reply telegram M2.

  The control unit 24 determines the transmission method of the terminal device 3b in step S02, and stores that the transmission method of the terminal device 3b is the transmission method 3 "BACnet" as shown in FIG. 4 in step S03. The conversion table T1 of the unit 23 is stored.

  The transmission method of the terminal device 3 c is transmission method 8 “D company original”. The terminal device 3c responds to the test message M1 transmitted by the transmission method 8 "D company original" in step S01, and sends back a reply message M2.

  The control unit 24 determines the transmission method of the terminal device 3c in step S02, and as shown in FIG. 4 in step S03, indicates that the transmission method of the terminal device 3c is transmission method 8 "company D original". , And stored in the conversion table T1 of the storage unit 23.

  As described above, the conversion table T1 is created and stored in the storage unit 23. The control unit 24 ends a series of programs related to creation of the conversion table T1.

[B. Operation regarding conversion of transmission method]
As described above, the transmission apparatus 2 converts the transmission method based on the conversion table T1 generated by the program according to the operation related to the generation of the conversion table T1. The transmission device 2 converts the telegram transmitted from the terminal device 3 by the transmission method of the terminal device 3 into the transmission method of the center device 4 and transmits the message to the center device 4. Also, the transmission device 2 converts the telegram transmitted from the center device 4 by the transmission method of the center device 4 into the transmission method of the terminal device 3, and transmits it to the terminal device 3.

  The transmission device 2 of the power monitoring control transmission system 1 performs an operation related to conversion of the transmission method according to the program shown in FIG. Hereinafter, the operation relating to the conversion of the transmission method of the transmission apparatus 2 will be described along the program shown in FIG. The program shown in FIG. 3 is incorporated in the control unit 24 of the transmission device 2. The program shown in FIG. 3 is repeatedly executed by the control unit 24.

  The terminal device 3 detects the state of the power receiving and transforming equipment 6 such as current, voltage, frequency, power temperature, and the like, and transmits a request telegram M3 for requesting control to the transmission device 2. The request message M3 is transmitted from the terminal device 3 at random timing according to the state of the power receiving and transforming equipment 6.

(Step S11: It is determined whether the request message M3 has been received from the terminal device 3)
The control unit 24 determines whether the transmission / reception unit 21 receives the request message M3 from the terminal device 3. It is a telegram which requests | requires the control according to the state of the power receiving / transforming installation 6 (6a, 6b, 6c). The request message M3 is transmitted from the terminal device 3 (3a, 3b, 3c) connected to the power receiving and transforming equipment 6 (6a, 6b, 6c). The request message M3 is transmitted by each transmission method of the terminal device 3 (3a, 3b, 3c). The request message M3 is transmitted from the terminal device 3a by the transmission method 1 "FL-net", from the terminal device 3b by the transmission method 3 "BACnet", and by the terminal device 3c by the transmission method 8 "company D original".

  If it is determined that the request telegram M3 has been received from the terminal device 3 (3a, 3b, 3c) (YES in step S11), the program proceeds to step S12. If it is not determined that the request telegram M3 has been received from the terminal device 3 (NO in step S11), the program returns to step S11 again and waits for reception of the request telegram M3.

(Step S12: Convert transmission method based on conversion table T1)
If it is determined in step S11 that the request telegram M3 has been received from the terminal device 3 (3a, 3b, 3c), the control unit 24 determines which of the terminal devices 3a, 3b, 3c the terminal device 3 is. Based on the conversion table T1 shown in FIG. 4, the transmission method of the received request telegram M3 is specified.

  The control unit 24 converts the transmission method of the received request telegram M3 into the transmission method of the center device 4 based on the conversion table T1 shown in FIG. When the request telegram M3 received in step S11 is transmitted from the terminal device 3a, the request telegram M3 transmitted from the terminal device 3a by the transmission method 1 “FL-net” is the transmission method of the center device 4 It is converted to a certain transmission method 2 “ProFibus”.

  Similarly, when the request message M3 is transmitted from the terminal device 3b by transmission method 3 "BACnet" and from the terminal device 3c by transmission method 8 "company D original", each request message M3 is transmitted by transmission method 2 " Converted to "ProFibus".

(Step S13: Send request telegram M3 after conversion to center device 4)
Next, the control unit 24 controls the transmission / reception unit 22 to transmit the request message M3 converted to the transmission method 2 “ProFibus”, which is the transmission method of the center device 4 in step S 12, to the center device 4. The center apparatus 4 having received the request telegram M3 converted to the transmission method 2 "ProFibus" determines which of the power receiving and transforming equipment 6 is the power receiving and transforming equipment 6a, 6b, 6c, and the command telegram M4 according to the state Send

(Step S14: It is determined whether the command message M4 has been received from the center device 4)
The control unit 24 determines whether the transmission / reception unit 22 has received the command message M4 from the center device 4. The command message M4 is a message for instructing control according to the state of the power receiving and transforming equipment 6 (6a, 6b, 6c). The command message M 4 is transmitted from the center device 4 by the transmission method 2 “ProFibus” which is the transmission method of the center device 4.

  If it is determined that the command message M4 has been received from the center device 4 (YES in step S14), the program proceeds to step S15. If it is not determined that the command message M4 has been received from the center device 4 (NO in step S14), the program returns to step S14 again, and waits for reception of the command message M4.

(Step S15: Convert the transmission method based on the conversion table T1)
If it is determined in step S14 that command telegram M4 has been received from center device 4, control unit 24 determines the transmission method of received command telegram M4 based on conversion table T1 shown in FIG. Convert to a transmission method compatible with When the request telegram M3 received in step S11 is transmitted from the terminal device 3a, the instruction telegram M4 is transmitted from the center device 4 by the transmission method 2 "ProFibus", and the transmission which is the transmission method of the terminal device 3a Method 1 is converted to "FL-net".

  Similarly, when the request telegram M3 received in step S11 is transmitted from the terminal device 3b by the transmission method 3 "BACnet", the instruction telegram M4 corresponds to the transmission method of the terminal device 3b. Converted to "BACnet". If the request message M3 received in step S11 is transmitted from the terminal device 3c using the transmission method 8 "company D original", the command message M4 is a transmission method that is the transmission method for the terminal device 3c. 8 Converted to "D company original".

(Step S16: Send the converted instruction message M4 to the terminal device 3)
Next, the control unit 24 controls the transmission / reception unit 21 and transmits the command message M4 converted to the transmission method of the terminal device 3 in step S15 to the terminal device 3.

  When the request message M3 received in step S11 is sent from the terminal device 3a, the command message M4 sent from the center device 4 by the transmission method 2 "ProFibus" is a command for controlling the power receiving and transforming facility 6a. It is the message to be done. Command telegram M4 for instructing control of power receiving and transforming equipment 6a, which has been converted to transmission method 1 "FL-net" which is a transmission method of terminal device 3a, is transmitted to terminal device 3a.

  Similarly, when the request telegram M3 received in step S11 is transmitted from the terminal device 3b, the instruction telegram M4 transmitted from the center device 4 is a telegram for instructing control of the power receiving and transforming facility 6b. . The command message M4 for instructing control of the power receiving and transforming equipment 6b converted to the transmission method 3 "BACnet", which is the transmission method of the terminal device 3b, is transmitted to the terminal device 3b.

  When the request message M3 received in step S11 is transmitted from the terminal device 3c, the command message M4 transmitted from the center device 4 is a message for instructing control of the power receiving and transforming facility 6c. The command message M4 for instructing control of the power receiving and transforming equipment 6c, which has been converted to the transmission method 8 "company D company original" which is the transmission method of the terminal device 3c, is transmitted to the terminal device 3c.

  Thereafter, the control unit 24 ends a series of programs related to the conversion of the transmission method. The above is the operation of the power monitoring control transmission system 1 according to the present embodiment. According to the present embodiment, the telegram transmitted from the terminal device 3 is converted by the transmission device 2 into the transmission method of the center device 4 and transmitted to the center device 4, and the telegram transmitted from the center device 4 is the transmission device The data is converted to the transmission method of the terminal device 3 by 2 and transmitted to the terminal device 3. As a result, transmission between the center device 4 and the terminal device 3 that perform transmission by different transmission methods becomes possible.

[1-3. effect]
(1) According to the present embodiment, the transmission device 2 of the power monitoring control transmission system 1 transmits the test message by the plurality of transmission methods from the first transmission / reception unit 21 to the terminal device 3 And a first reception that the first transmission / reception unit 21 receives a reply telegram transmitted from the terminal device 3 in response to at least one of the test telegrams transmitted by the plurality of transmission methods by the first transmission processing. Control unit that executes a process, and a table creation process for creating a conversion table that associates and stores the transmission method of the terminal device 3 that has received the reply message, received in the first reception process, and the terminal device 3 24, the power monitoring and control transmission system 1, the transmission device 2, and the transmission system 2 can transmit and receive to and from the terminal device 3 having a different transmission method without changing the program built in the center device 4. Device program and a transmission method can be provided.

(2) According to the present embodiment, since the conversion table T1 is created by the control unit 24 of the transmission apparatus 2 and stored in the storage unit 23, the telegram transmitted from the terminal apparatus 3 is based on the conversion table T1. The transmission device 2 converts it to the transmission method of the center device 4 and transmits it to the center device 4 and the telegram sent from the center device 4 is converted by the transmission device 2 to the transmission method of the terminal device 3 and transmits it to the terminal device 3 Be done. As a result, transmission between the center device 4 and the terminal device 3 that perform transmission by different transmission methods becomes possible.

(3) According to the present embodiment, step S01 for the first transmission process, step S02 for the first reception process, and step S03 for the table creation process are periodically executed, and the conversion table T1 is It is updated periodically. For this reason, even if the terminal device 3 is newly added, even if the terminal device 3 is updated and the transmission method is changed, it is not necessary to manually change the transmission method setting, and it is possible to respond promptly to the transmission method change. Can. Further, since it is not necessary to manually change the setting of the transmission method, it is possible to reduce the stop time required for the construction of the power monitoring control transmission system 1.

(4) According to the present embodiment, since the transmission method stored in the conversion table T1 is a transmission protocol, the transmission system 1 for power monitoring control corresponding to the terminal device 3 having various transmission methods, the transmission device 2 , A program for transmission apparatus and a transmission method can be provided.

(5) According to the present embodiment, since the transmission method stored in the conversion table T1 is at least one of the transmission format, transmission speed, and transmission code, it corresponds to the terminal device 3 having various transmission formats. It is possible to provide the transmission system for power monitoring and control 1, the transmission device 2, the program for the transmission device, and the transmission method.

[2. Other embodiments]
While the embodiments have been described including variations, these embodiments are presented as examples and are not intended to limit the scope of the invention. These embodiments can be implemented in other various forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the invention described in the claims and the equivalents thereof as well as included in the scope and the gist of the invention. The following is an example.

(1) Although the power monitoring control transmission system 1 has three terminal devices 3 in the above embodiment, the number of terminal devices 3 is not limited to this. The power monitoring control transmission system 1 may have one to two or four or more terminal devices 3.

(2) In the above-mentioned embodiment, although test telegram M1 shall be a telegram which requires a reply, test telegram M1 is not restricted to this. The test message M1 may be, for example, a message including a control command.

(3) In the above embodiment, after the completion of the operation of creating the conversion table T1 for the terminal device 3a, the operation of creating the conversion table T1 for the terminal devices 3b and 3c is sequentially performed. Is not limited to this. For example, the test message M1 may be simultaneously transmitted to the terminal devices 3a, 3b, 3c, and the conversion table T1 creating operation regarding the terminal devices 3a, 3b, 3c may be performed in parallel.

(4) In the above embodiment, the transmission method set in conversion table T1 is the transmission procedure (protocol) according to transmission method 1 to transmission method 8, but the transmission method set in conversion table T1 is Not limited to this. The transmission method set in the conversion table T1 may be another transmission procedure, or may be a transmission format, transmission rate, or transmission code. Further, the transmission method set in the conversion table T1 may not be eight. The number of transmission methods set in the conversion table T1 may be any number.

DESCRIPTION OF SYMBOLS 1 .. Transmission system for electric power monitoring and control 2 ... Transmission apparatus 3, 3a, 3b, 3c .. Terminal apparatus 4 ... Center apparatus 6, 6a, 6b, 6c .. , 9a, 9b, 9c ... transmission line 21 ... transmission / reception unit 22 ... transmission / reception unit 23 ... storage unit 24 ... control unit

Claims (7)

Monitoring a control target, and transmitting a request message requesting control of the control target;
While receiving a corresponding command message and controlling the control target based on the command message,
Among the test messages sent by a plurality of transmission methods, a response message is sent in response to the test message of the matching transmission method,
A terminal device,
Receiving the request message requesting control,
Transmitting the command message corresponding to the received request message;
Center device,
A first transmission / reception unit that performs transmission / reception with the terminal device;
A second transmission / reception unit that performs transmission / reception with the center apparatus;
The control unit configured to control the first transmission / reception unit and the second transmission / reception unit;
The control unit
A first transmission process of transmitting a test message by a plurality of transmission methods from the first transmission / reception unit to the terminal device;
The first transmission / reception unit receives, from the first transmission / reception unit, a reply message transmitted from the terminal device in response to at least one of the test message transmitted by the plurality of transmission methods in the first transmission process. Reception processing,
A table creation process for creating a conversion table that associates and stores the transmission method of the terminal apparatus that has transmitted the reply message received in the first reception process and the terminal apparatus;
A second reception process of receiving a request message from the terminal device by the first transmission / reception unit;
A first conversion process of converting a request message received by the second reception process into a transmission method of a center apparatus based on the conversion table generated by the table generation process;
A second transmission process for transmitting the request message from the second transmission / reception unit to the center apparatus according to the transmission method converted in the first conversion process;
A third reception process in which the second transmission / reception unit receives a command message created by the center apparatus in response to the request message sent by the second transmission process;
A second conversion process of converting the command message received in the third reception process into a transmission method that matches the terminal device based on the conversion table;
A third transmission process of transmitting the command message from the first transmission / reception unit to the terminal device in the transmission method converted by the second conversion process;
To perform the transmission device,
Transmission system for power monitoring and control. The first transmission process, the first reception process, and the table creation process are periodically performed, and the conversion table is periodically updated.
The power monitoring control transmission system according to claim 1. The transmission scheme is a transmission protocol,
The power monitoring control transmission system according to claim 1. The transmission scheme is at least one of a transmission format, a transmission rate, and a transmission code.
The power monitoring control transmission system according to claim 1. A first transmission / reception unit that performs transmission / reception with a terminal device;
A second transmission / reception unit that performs transmission / reception with the center apparatus;
The control unit configured to control the first transmission / reception unit and the second transmission / reception unit;
The control unit
A first transmission process of transmitting a test message by a plurality of transmission methods from the first transmission / reception unit to the terminal device;
The first transmission / reception unit receives, from the first transmission / reception unit, a reply message transmitted from the terminal device in response to at least one of the test message transmitted by the plurality of transmission methods in the first transmission process. Reception processing,
A table creation process for creating a conversion table that associates and stores the transmission method of the terminal apparatus that has transmitted the reply message received in the first reception process and the terminal apparatus;
A second reception process of receiving a request message from the terminal device by the first transmission / reception unit;
A first conversion process of converting a request message received by the second reception process into a transmission method of a center apparatus based on the conversion table generated by the table generation process;
A second transmission process for transmitting the request message from the second transmission / reception unit to the center apparatus according to the transmission method converted in the first conversion process;
A third reception process in which the second transmission / reception unit receives a command message created by the center apparatus in response to the request message sent by the second transmission process;
A second conversion process of converting the command message received in the third reception process into a transmission method that matches the terminal device based on the conversion table;
A third transmission process of transmitting the command message from the first transmission / reception unit to the terminal device in the transmission method converted by the second conversion process;
Perform the transmission equipment. A first transmission step of transmitting a test message to the terminal device by a plurality of transmission methods;
A first receiving step of receiving a reply telegram transmitted from the terminal device in response to at least one of the test telegrams transmitted by the plurality of transmission methods in the first transmission step;
A table creation step of creating a conversion table for storing the transmission method of the terminal apparatus that has transmitted the reply message received in the first reception step and the terminal apparatus in association with each other;
A second receiving step of receiving a request message from the terminal device;
A first conversion step of converting a request message received in the second reception step into a transmission method of a center apparatus based on the conversion table generated in the table generation step;
A second transmission step of transmitting the request message to the center apparatus in the transmission method converted in the first conversion step;
A third reception step of receiving a command telegram prepared by the center apparatus in response to the request telegram transmitted by the second transmission step;
A second conversion step of converting the command telegram received in the third reception step into a transmission method conforming to the terminal device based on the conversion table;
A third transmission step of transmitting the command message to the terminal device in the transmission method converted in the second conversion step;
A program for a transmission device, comprising: A first transmission procedure for transmitting a test message to the terminal device by a plurality of transmission methods;
A first reception procedure for receiving a reply telegram transmitted from the terminal device, which has responded to at least one of the test telegrams transmitted by the plurality of transmission methods according to the first transmission procedure;
A table creation procedure for creating a conversion table that associates and stores the transmission method of the terminal apparatus that has transmitted the reply message received in the first reception procedure, and the terminal apparatus;
A second reception procedure for receiving a request message from the terminal device;
A first conversion procedure of converting a request message received by the second reception procedure into a transmission method of a center apparatus based on the conversion table generated by the table generation procedure;
A second transmission procedure for transmitting the request message to the center apparatus according to the transmission method converted in the first conversion procedure;
A third reception procedure for receiving a command message created by the center apparatus in response to the request message sent by the second transmission procedure;
A second conversion procedure for converting the command telegram received in the third reception procedure into a transmission method conforming to the terminal device based on the conversion table;
A third transmission procedure for transmitting the command message to the terminal device according to the transmission method converted in the second conversion procedure;
Perform the transmission method.

Images