JP6614668B2 - Communication control system, device server, communication control method and program - Google Patents

Description

  The present invention relates to a communication control system, a device server, a communication control method, and a program.

  In a communication system including a server, a technique for making a server redundant has been proposed in order to increase resistance when a failure occurs in the server (see, for example, Patent Document 1). This type of redundancy technology is also applied to, for example, a control server that controls a transport cart controller by performing serial communication with a transport cart controller that controls a transport cart used in a semiconductor factory.

  For example, two control servers, a switch connected to each of the two control servers via a serial communication interface, a PLC (Programmable Logic Controller) that controls the switch by outputting a control signal to the switch, A communication control system is provided. In this communication control system, an active (main) control server of the two control servers controls the transport carriage control device by executing serial communication with the transport cart control device via the switch. Further, the PLC performs serial communication separately with the two control servers. Then, when a failure occurs in the active control server of the two control servers, the PLC controls the switch to cut off communication between the main control server and the transport cart control device, and the other standby system. Communication between the (sub) control server and the transport cart controller is started.

JP 2014-241545 A

  However, in the above-described communication control system, the control server, the transport carriage control device, and the PLC execute serial communication. Therefore, the distance between the control server, the transport cart control device, and the PLC is the length of the serial communication cable. Limited by Therefore, the installation location of the control server is limited to a location relatively close to the transport carriage control device and the PLC. Therefore, there is a possibility that the installation location of the communication control system is restricted.

  In addition, when there are a plurality of transfer carriage control devices, it is necessary to provide a PLC and a switch for each of the transfer carriages. For this reason, when the number of transport carriage control devices to be used increases, the number of PLCs and switches increases accordingly, and the scale of the communication control system increases.

  The present invention has been made in view of the above reasons, and an object of the present invention is to provide a communication control system, a device server, a communication control method, and a program that can be reduced in size without restricting the installation location. .

In order to achieve the above object, a communication control system according to the present invention provides:
A plurality of control servers for generating control information for controlling a plurality of devices connected to the network, and transmitting the control information to a plurality of device servers at time intervals within a preset reference time ;
The control information is received from the first control server by connecting to a first control server of the plurality of control servers connected to a plurality of devices via the network, and the received control information is and a plurality of device server to be transmitted to a device connected to the own device,
Any one of the plurality of device servers is
After receiving control information from the first control server, depending on whether new control information is received from the first control server within the reference time, the connection destinations of the plurality of device servers are set to the first A determination unit that determines whether to switch from the control server to a second control server other than the first control server among the plurality of control servers;
When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. And a switching notification unit that transmits a switching notification for switching to the second control server to another device server via the network.

According to the present invention, a plurality of control servers are connected to a network, and a plurality of device servers connected to a plurality of devices are connected to one first control server among the plurality of control servers via the network. Yes. Then, after receiving the control information from the first control server , the determination unit determines the connection destination for the plurality of device servers according to whether or not new control information is received from the first control server within the reference time . It is determined whether to switch from the first control server to the second control server. In addition, when the determination unit determines that the determination unit switches the connection destination from the first control server to the second control server for a plurality of device servers, the switch notification unit notifies other device servers of the switch notification via the network. To the device server. Similarly, after the determination unit of the device server connected to one second control server among the plurality of control servers via the network receives the control information from the second control server , the determination unit 2 It is determined whether to switch the connection destination from the second control server to the first control server for a plurality of device servers according to whether or not new control information is received from the control server. In addition, when the determination unit determines that the connection destination of the plurality of device servers is switched from the second control server to the first control server, the switch notification unit sends a switch notification to other device servers via the network. To the device server. In this way, switching of the control server that communicates with devices connected to a plurality of device servers is executed via the network, so that the installation location of the control server can be connected to the device server via the network. There is no limit. Therefore, there is an advantage that the degree of freedom of the installation place of the communication control system is expanded. Further, since a switch for switching the control server to which the device is connected becomes unnecessary, the communication control system can be reduced in size accordingly.

It is a figure which shows the structure of the communication control system which concerns on Embodiment 1 of this invention. 3 is a diagram illustrating a hardware configuration of a control server and a device server according to Embodiment 1. FIG. It is a figure which shows the function structure of the control server which concerns on Embodiment 1, and a device server. 3 is a diagram showing specifications of a PLC frame according to Embodiment 1. FIG. FIG. 3 is a sequence diagram showing an operation of the communication control system according to the first embodiment. It is a figure which shows the flow of the 2nd control frame and 2nd PLC frame in the communication control system which concerns on Embodiment 1, (A) shows the time of main control server use, (B) shows the time of sub control server use. FIG. 3 is a sequence diagram showing an operation of the communication control system according to the first embodiment. 4 is a flowchart showing a flow of communication control processing executed by the device server according to the first embodiment. It is a figure which shows the function structure of the control server and device server which concern on Embodiment 2 of this invention. FIG. 10 is a sequence diagram showing an operation of the communication control system according to the second embodiment. 6 is a flowchart showing a flow of communication control processing executed by a device server according to Embodiment 2. 6 is a flowchart showing a flow of communication control processing executed by a device server according to Embodiment 2. It is a figure which shows the function structure of the control server and device server which concern on a modification. It is a figure which shows the function structure of the control server and device server which concern on a modification.

(Embodiment 1)
Hereinafter, a communication control system according to an embodiment of the present invention will be described with reference to the drawings.

  The communication control system according to the present embodiment includes a serial device equipped with a serial communication interface (hereinafter referred to as “I / F”) and control information for controlling a plurality of serial devices connected to a network. And a control server to be generated. There are two control servers, one operating as an active (main) control server and the other operating as a standby (sub) control server. The communication control system includes a device server that relays communication between the serial device and the control server for each serial device. Then, any one monitoring device server of the plurality of device servers monitors the reception status of the frame from the main control server, the contents of the frame, or the response information of the control information, and appropriately determines the connection destination of the device server. Switch from the main control server to the sub control server.

  As shown in FIG. 1, the communication control system 1000 according to the present embodiment controls, for example, transport carts 51 and 52 used in a semiconductor factory, drives a fire door, or lights a warning light. The drive device 10 is controlled. The communication control system 1000 includes two control servers 31 and 32, device servers 1 and 2, a transport cart controller 4 that controls the transport carts 51 and 52, and a PLC (Programmable Logic Controller) 6. The control servers 31 and 32 and the device servers 1 and 2 are connected to the network 7. The network 7 is composed of, for example, a wired LAN (Local Area Network) connected by an Ethernet (registered trademark) cable. The network 7 is compliant with, for example, the IEEE 802.3 standard. The PLC 6 is a serial device equipped with a serial communication I / F, and the device server 1 is connected to the PLC 6 via, for example, a serial transmission path 9 compliant with the RS-422 standard. Further, the transport cart control device 4 is also a serial device equipped with a serial communication I / F, and the device server 2 is connected to the transport cart control device 4 via a serial transmission path 8 compliant with the RS-232C standard, for example. Has been.

  The transport cart control device 4 includes communication units 42A and 42B that communicate with the transport carts 51 and 52, and a control unit 41 that controls the communication units 42A and 42B. The control unit 41 and the communication units 42A and 42B are connected via a serial transmission line compliant with, for example, the RS-485 standard.

  The PLC 6 communicates with the device server 1 in a half-duplex method or a full-duplex method, and controls the driving device 10 according to command information included in a frame acquired from the device server 1. The PLC 6 and the driving device 10 are connected via a serial transmission path.

  The control servers 31 and 32 generate a first control frame (control information) for controlling the transport cart controller 4 and a first PLC frame for controlling the PLC 6. One of the control servers 31 and 32 operates as an active control server, and the other operates as a standby control server.

  The control servers 31 and 32 receive a first control response frame (response information) for the first control frame (control information) from the transport carriage control device 4 and a first PLC response for the first PLC frame (control information) for controlling the PLC 6. Frame (response information).

  The control servers 31 and 32 employ a warm standby system, a hot standby system, or a cold standby system that is a system for switching to a spare device in a redundant system. Preferably, it is desirable to adopt a hot standby method, whereby in the communication control system 1000, the control server operating as a sub executes the same processing while synchronizing with the control server operating as a main, When a failure occurs in the control server operating as the main, it can be switched to take charge of processing.

  The control servers 31 and 32 are composed of personal computers or the like, and have a CPU (Central Processing Unit) 301, a main storage unit 302, an auxiliary storage unit 303, a network communication I / F 304, and a bus 305 as shown in FIG. . The main storage unit 302 includes a volatile memory and is used as a work area for the CPU 301. The auxiliary storage unit 303 is composed of a nonvolatile memory, and stores a control program for controlling the transport cart control device 4. The network communication I / F 304 includes an Ethernet controller and a LAN port.

  In the control servers 31 and 32, the CPU 301 functions as each unit illustrated in FIG. 3 by reading the control program stored in the auxiliary storage unit 303 into the main storage unit 302 and executing it. The control servers 31 and 32 include a transport cart control unit 311 and 321, a PLC control unit 312 and 322, a device driver 313 and 323, a counter update unit 314 and 324, a connection destination setting unit 315 and 325, It functions as the conversion units 316 and 326. The transport cart control units 311 and 321 generate control information for controlling the transport cart control device 4 and output the control information to the device drivers 313 and 323.

  The PLC control units 312 and 322 generate control information for controlling the PLC 6 and output the control information to the device drivers 313 and 323. This control information includes command information described later, main control server identification information (connection destination identification information), delay time information, PLC control information, and life counter information (counter information). The main control server identification information is information for identifying the main control server 31 (32) to which the device servers 1 and 2 are connected. The life counter information is information for detecting whether or not a failure has occurred in the control servers 31 and 32.

  Each time the second PLC frame is transmitted to the device server 1, the counter updating units 314 and 324 update the life counter information by incrementing the counter value indicated by the life counter information included in the second PLC frame by “1”. To do. Then, when the count value indicated by the life counter information reaches a preset value, the counter updating units 314 and 324 reset the count value indicated by the life counter information to an initial value.

  The connection destination setting units 315 and 325 generate control server identification information of the control server 31 (32) operating as the main control server in accordance with a setting operation by the user, and output the control server identification information to the PLC control units 312 and 322. The main control server identification information is set. When the control server identification information is input from the connection destination setting units 315 and 325, the PLC control units 312 and 322 include the input control server identification information in the control information as main control server identification information.

  The device drivers 313 and 323 generate a first control frame that includes control information input from the transport cart controllers 311 and 321. In addition, the device drivers 313 and 323 generate a first PLC frame including control information input from the PLC control units 312 and 322. The first control frame corresponds to a protocol for serial communication between the device server 2 and the transport cart controller 4. The first PLC frame corresponds to a serial communication protocol between the device server 1 and the PLC 6.

  As shown in FIG. 4, for example, the first PLC frame includes a first control code, PLC identification information, command information, main control server identification information, delay time information, PLC control information, life counter information, Includes error detection information and a second control code. The life counter information is included only in the first PLC frame transmitted from the control servers 31 and 32 to the PLC 6. A preamble and header information are added to the head of the first PLC frame. The first control code and the second control code are composed of, for example, ASCII control codes. The first control code is set to, for example, “ENQ”, “ACK”, “NAK”, “STX”. The second control code is set to “CR” and “LF”, for example. When the PLC control unit 312 of the main control server 31 makes a request to read PLC control information, which is information related to the control of the PLC 6, from the PLC 6, or to write the PLC control information to the PLC 6, for example, the first control code “ENQ To "". Then, when the PLC 6 normally receives the PLC control information read request or when the PLC 6 receives the PLC control information write request normally, the first control code of the first PLC frame transmitted to the main control server 31 is received. Set to “ACK”. On the other hand, if the PLC 6 cannot normally receive the PLC control information read request or the PLC control information write request, the PLC 6 transmits the first PLC frame to the main control server 31. The first control code is set to “NAK”. In addition, after receiving the PLC control information read request, the PLC 6 transmits a first PLC response frame including a response content to the PLC control information to the main control server 31. In this case, the PLC 6 creates and transmits a first PLC response frame that starts with the first control code “STX”. On the other hand, the PLC 6 sets the first control code to “NAK” when the transmission abnormality of the first PLC frame occurs.

  The PLC identification information is information for identifying the PLC 6 accessed by the control servers 31 and 32. The command information is information indicating the content of a request that the control servers 31 and 32 make to the PLC 6. The control server identification information is information for identifying each of the main control server 31 and the sub control server 32. As for the delay time information, after the PLC 6 receives the first PLC frame from the control servers 31 and 32, the PLC 6 starts transmitting the PLC control information corresponding to the command information included in the first PLC frame to the control servers 31 and 32. It is information indicating the time until. The error detection information is composed of, for example, a checksum code.

  Returning to FIG. 3, the first converters 316 and 326 encapsulate the first control frame generated by the device drivers 313 and 323 into a second control frame corresponding to the TCP / IP protocol or the UDP / IP protocol. Convert. The first conversion units 316 and 326 encapsulate the first PLC frame generated by the device drivers 313 and 323 and convert the first PLC frame into a second PLC frame corresponding to the TCP / IP protocol or the UDP / IP protocol. Then, the first conversion units 316 and 326 transmit the second control frame to the device server 2 at a time interval within a preset reference time. The first conversion units 316 and 326 transmit the second PLC frame to the device server 1 at a time interval within a preset reference time.

  The device server 1 is connected to one main control server (first control server) 31 (32) of the control servers 31 and 32 via the network 7 to thereby connect the second PLC from the main control server 31 (32). Receive a frame. Then, the device server 1 converts the received second PLC frame into a first PLC frame, and transmits the first PLC frame to the PLC 6 connected to the device server 1. Further, when the device server 1 receives the first PLC response frame for the first PLC frame from the PLC 6, the device server 1 converts the received first PLC response frame into a second PLC response frame, and then transmits it to the main control server 31 (32). The device server 1 monitors not only the protocol conversion function but also the reception status of the second PLC frame or the contents of the first PLC frame, and the contents of the response frame (first PLC response frame) in the first PLC frame format from the PLC 6. A monitoring device server having a monitoring function.

  The device server 2 receives the second control frame from the main control server 31 (32) by connecting to the main control server (first control server) 31 (32) via the network 7. Then, the device server 2 converts the received second control frame into a first control frame, and then transmits the first control frame to the transport cart controller 4 connected to the device server 2. In addition, when the device server 2 receives the first control response frame for the first control frame from the transport carriage control device 4, the device server 2 converts the received first control response frame into the second control response frame, and then the main control server 31. To (32).

  As illustrated in FIG. 2, the device servers 1 and 2 include a CPU 101, a main storage unit 102, an auxiliary storage unit 103, a network communication I / F 104, a serial communication I / F 105, and a bus 106. The main storage unit 102 includes a volatile memory and is used as a work area for the CPU 101. The auxiliary storage unit 103 is configured by a non-volatile memory, and stores identification information of the control servers 31 and 32 that are transmission sources of control packets, a program for executing communication control processing described later, and the like. The CPU 101 reads a program stored in the auxiliary storage unit 103 into the main storage unit 102 and executes it, thereby executing communication control processing described later. The network communication I / F 104 includes an Ethernet controller and a LAN port. The network communication I / F 104 transmits and receives data to and from the control servers 31 and 32 connected to the network 7. The serial communication I / F 105 has a connector compliant with a serial communication standard such as RS-232C or RS-422. The serial communication I / F 105 transmits / receives data to / from the transport carriage control device 4 and the PLC 6 via the serial paths 8 and 9 according to the serial communication standard.

  In the device server 1, the CPU 101 reads the control program stored in the auxiliary storage unit 103 into the main storage unit 102 and executes the control program, so that the second conversion unit 111, the determination unit 113, the switching notification unit as illustrated in FIG. 3. 114. On the other hand, in the device server 2, the CPU 101 functions as the second conversion unit 211 as illustrated in FIG. 3 by reading the control program stored in the auxiliary storage unit 103 into the main storage unit 102 and executing it. The second conversion unit 111 of the device server 1 acquires the second PLC frame transmitted from the main control server among the two control servers 31 and 32 via the network communication I / F 104. Then, the second conversion unit 211 converts the acquired second PLC frame into a first PLC frame corresponding to a protocol for communicating with the PLC 6 and then outputs the first PLC frame to the PLC 6 via the serial communication I / F 105. The second conversion unit 211 of the device server 2 acquires the second PLC frame transmitted from the main control server among the two control servers 31 and 32 via the network communication I / F 104. Then, the second conversion unit 211 converts the acquired second control frame into a first control frame corresponding to a protocol for communicating with the transport cart control apparatus 4 and then transports the transport cart via the serial communication I / F 105. Output to the control device 4. In addition, the auxiliary storage unit 103 functions as a counter information / identification information storage unit 121 that stores life counter information and control server identification information included in the first PLC frame.

  The timer 115 measures the elapsed time after receiving the second PLC frame. The time measuring unit 115 resets the elapsed time to an initial value every time the second PLC frame is received.

  The determination unit 113 determines whether to switch the connection destination of the device servers 1 and 2 from the main control server 31 (32) to the sub control server (second control server) 32 (31). The determination unit 113 determines the connection destination of the device servers 1 and 2 based on the history of life counter information included in each of the plurality of first PLC frames received from the main control server 31 (32). ) To the sub control server 32 (31). Specifically, the determination unit 113 determines to switch the connection destination of the device servers 1 and 2 when the count value indicated by the life counter information included in the first PLC frame does not change with time and is constant. The determination unit 113 extracts life counter information from the first PLC frame and stores it in the counter information / identification information storage unit 121 every time the first PLC frame is converted / generated by the second conversion unit 111. Then, the determination unit 113 determines whether the count value has changed over time based on the history of the count value indicated by the life counter information stored in the counter information / identification information storage unit 121.

  The determination unit 113 determines the connection destination of the device servers 1 and 2 based on the main control server identification information included in the second PLC frame received from the main control server 31 (32). It is determined whether or not to switch to the sub control server 32 (31). The determination unit 113 extracts the main control server identification information from the first PLC frame converted by the second conversion unit 111 and stores it in the counter information / identification information storage unit 121. Here, it is assumed that the main control server identification information extracted from the first PLC frame by the determination unit 113 is different from the main control server identification information already stored in the counter information / identification information storage unit 121. In this case, the determination unit 113 determines to switch the connection destination of the device servers 1 and 2 from the main control server 31 (32) to the sub control server 32 (31).

  Further, the determination unit 113 determines the connection destination of the device servers 1 and 2 from the main control server 31 (32) based on the main control server identification information included in the first PLC frame that is the response frame content from the PLC 6. It is determined whether or not to switch to the control server 32 (31).

  Further, the determination unit 113 receives the second PLC frame from the main control server 31 (32), and then determines whether or not to receive a new second PLC frame within a preset reference time. It is determined whether or not the second connection destination is switched from the main control server 31 (32) to the sub control server 32 (31). Specifically, after receiving the second PLC frame from the main control server 31 (32), the determination unit 113 connects the device servers 1 and 2 when the reference time elapses without newly receiving the second PLC frame. It is determined that the destination is switched.

  The switching notification unit 114 transmits a switching notification frame for notifying the device server 2 to switch the connection destination from the main control server 31 (32) to the sub control server 32 (31) via the network 7. . Specifically, the switching notification unit 114 switches when the determination unit 113 determines that the connection destination of the device servers 1 and 2 is switched from the main control server 31 (32) to the sub control server 32 (31). Send a notification frame.

  Next, the operation of the communication control system 1000 according to the present embodiment will be described with reference to FIGS. Here, in the initial state of the communication control system 1000, it is assumed that the control server 31 operates as a main control server and the control server 32 operates as a sub control server. 5 to 7, illustration of the first control response frame transmitted from the transport cart controller 4 to the device server 2 and the first PLC response frame transmitted from the PLC 6 to the device server 1 is omitted. Yes. In addition, illustration of the second control response frame transmitted from the device server 1 to the control servers 31 and 32 and the second PLC response frame transmitted from the device server 2 to the control servers 31 and 32 are also omitted. In FIG. 5, first, when the second control frame is transmitted from the main control server 31 to the device server 2 (step S1), the device server 2 converts the second control frame into the first control frame, It outputs to the conveyance trolley | bogie control apparatus 4 (step S2). When the second PLC frame is transmitted from the main control server 31 to the device server 1 (step S3), the device server 1 converts the second PLC frame into a first PLC frame and outputs it to the PLC 6 (step S4). ). Then, as long as the device server 1 determines that the count value indicated by the life counter information included in the first PLC frame has changed with time, the processes of steps S1 to S4 are repeatedly executed. Here, as indicated by a broken line in FIG. 6A, in the main control server 31, the first control frame output from the device driver 313 is converted into a second control frame by the first conversion unit 316, and the device It is transmitted to the second conversion unit 211 of the server 2. Then, the second conversion unit 211 converts the second control frame received from the control server 31 into a first control frame and outputs the first control frame to the transport carriage control device 4. 6A, in the main control server 31, the first PLC frame output from the device driver 313 is converted into a second PLC frame by the first conversion unit 316, and the device server 1 To the second converter 111. And the 2nd conversion part 111 converts the 2nd PLC frame received from the control server 31 into a 1st PLC frame, and outputs it to PLC6.

  Returning to FIG. 5, after that, the second PLC frame is transmitted from the control server 31 to the device server 1 (step S5), and the device server 1 converts the second PLC frame into the first PLC frame (step S6). At this time, it is assumed that the device server 1 determines that the count value of the life counter information included in the first PLC frame is constant (step S7). In this case, a switch notification frame for instructing to switch the main control server from the control server 31 to the control server 32 is transmitted from the device server 1 to the device server 2 (step S8). Thereafter, the device server 1 executes a switching process for switching the connection destination from the main control server 31 to the sub control server 32 (step S9). Also, when the device server 2 receives the switching notification frame from the device server 1, the device server 2 executes switching processing for switching the connection destination from the main control server 31 to the sub control server 32 (step S10). Thereafter, the control server 32 becomes the main control server, and the control server 31 becomes the sub control server.

  When the second control frame is transmitted from the control server 32 to the device server 2 (step S11), the device server 2 converts the second control frame into the first control frame and outputs the first control frame to the transport cart control device 4. (Step S12). Further, when the second PLC frame is transmitted from the control server 32 to the device server 1 (step S13), the device server 1 converts the second PLC frame into a first PLC frame and outputs the first PLC frame to the PLC 6 (step S14). Here, as shown by the broken line in FIG. 6B, in the main control server 32, the first control frame output from the device driver 323 is converted into the second control frame by the first conversion unit 326, and the device It is transmitted to the second conversion unit 211 of the server 2. Then, the second conversion unit 211 converts the second control frame received from the control server 32 into a first control frame and outputs the first control frame to the transport cart control device 4. 6B, in the main control server 32, the first PLC frame output from the device driver 323 is converted into a second PLC frame by the first conversion unit 326, and the device server 1 To the second converter 111. Then, the second conversion unit 111 converts the second PLC frame received from the control server 32 into a first PLC frame and outputs the first PLC frame to the PLC 6.

  Returning to FIG. 5 again, it is assumed that the second PLC frame is transmitted from the control server 32 to the device server 1 (step S15), and the device server 1 converts the second PLC frame into the first PLC frame (step S16). At this time, it is assumed that the device server 1 determines that the main control server identification information included in the first PLC frame has been changed (step S17). In this case, a switch notification frame for instructing to switch the main control server 32 to the sub control server 31 is transmitted from the device server 1 to the device server 2 (step S18). Thereafter, the device server 1 executes a switching process for switching the connection destination from the main control server 32 to the sub control server 31 (step S19). In addition, when the device server 2 receives the switching notification frame from the device server 1 as the connection destination, the device server 2 executes switching processing for switching the main control server 32 to the sub control server 31 (step S20).

  The subsequent operation of the communication control system 1000 is described in FIG. When the second control frame is transmitted from the control server 31 to the device server 2 (step S21), the device server 2 converts the second control frame into a first control frame and outputs the first control frame to the transport cart controller 4 ( Step S22). When the second PLC frame is transmitted from the control server 31 to the device server 1 (step S23), the device server 1 converts the second PLC frame into a first PLC frame and outputs the first PLC frame to the PLC 6 (step S24).

  Further, after the second PLC frame is transmitted from the control server 31 to the device server 1 (step S25), it is assumed that the device server 1 determines that the reference time ΔT has elapsed (step S26). In this case, a switch notification frame for instructing to switch the main control server from the control server 31 to the control server 32 is transmitted from the device server 1 to the device server 2 (step S27). Thereafter, the device server 1 executes a switching process for switching the connection destination from the main control server 31 to the sub control server 32 (step S28). Also, when the device server 2 receives the switching notification frame from the device server 1, the device server 2 executes switching processing for switching the connection destination from the main control server 31 to the sub control server 32 (step S29).

  When the second control frame is transmitted from the control server 32 to the device server 2 (step S30), the device server 2 converts the second control frame into a first control frame and outputs the first control frame to the transport cart controller 4. (Step S31). When the second PLC frame is transmitted from the control server 32 to the device server 1 (step S32), the device server 1 converts the second PLC frame into a first PLC frame and outputs the first PLC frame to the PLC 6 (step S33).

  As described above, in the communication control system 1000 according to the present embodiment, when the device server 1 determines that the count value indicated by the life counter information included in the first PLC frame is constant regardless of the time, the main control server Is switched from one of the two control servers 31 and 32 to the other. When the device server 1 determines that the control server switching command has been issued in the main control server, the main control server is switched from one of the two control servers 31 and 32 to the other. Further, when the device server 1 determines that the elapsed time after receiving the second PLC frame has reached the reference time, the main control server is switched from one of the two control servers 31 and 32 to the other.

  Next, the first communication control process executed by the device server 1 according to the present embodiment will be described with reference to FIG. This first communication control process is started when the device server 1 is powered on. First, when the second conversion unit 111 receives the second PLC frame from the main control server (step S101), the timer unit 115 starts measuring the elapsed time after receiving the second PLC frame (step S102). Next, the 2nd conversion part 111 converts a 2nd PLC frame into a 1st PLC frame, and outputs it to PLC6 (step S103).

  Subsequently, the determination unit 113 extracts life counter information and main control server identification information from the first PLC frame (step S104), and stores them in the counter information / identification information storage unit 121 (step S105). Thereafter, the determination unit 113 determines whether the count value of the life counter information is constant regardless of time based on the history of the life counter information stored in the counter information / identification information storage unit 121 (step S106). ). When the determination unit 113 determines that the count value of the life counter information is constant regardless of time (step S106: Yes), a process of step S110 described later is executed.

  On the other hand, it is assumed that the determination unit 113 determines that the count value of the life counter information has changed over time (step S106: No). In this case, the determination unit 113 determines whether the setting of the main control server has been changed based on whether the control server identification information of the main control server stored in the counter information / identification information storage unit 121 has been changed. Is determined (step S107). If the determination unit 113 determines that the setting of the main control server has been changed (step S107: Yes), the process of step S110 described later is executed.

  On the other hand, when the determination unit 113 determines that the setting of the main control server has not been changed (step S107: No), the second conversion unit 111 determines whether or not a second PLC frame has been newly received (step S107: No). Step S108). If the 2nd conversion part 111 determines with having received the 2nd PLC frame (step S108: Yes), the process of step S102 will be performed again. At this time, the timer 115 resets the elapsed time after receiving the second PLC frame to the initial value.

  On the other hand, when the second conversion unit 111 determines that the second PLC frame has not been received (step S108: No), the determination unit 113 is preset with an elapsed time after the reception of the second PLC frame measured by the time measuring unit 115. It is determined whether or not the reference time has been reached (step S109). If the determination unit 113 determines that the elapsed time after receiving the second PLC frame has not reached the preset reference time (step S109: No), the process of step S108 is executed again.

  On the other hand, when the determination unit 113 determines that the elapsed time after receiving the second PLC frame has reached a preset reference time (step S109: Yes), the switching notification unit 114 transmits the switching notification frame to the device server 2. Is transmitted (step S110). Thereafter, the second conversion unit 111 performs a switching process for switching the transmission source of the received second control frame and second PLC frame to the one operating as the sub control server of the two control servers 31 and 32. (Step S111). At this time, when the second conversion unit 211 of the device server 2 also receives the switching notification frame, the transmission source of the received second control frame and second PLC frame is set as a sub control server of the two control servers 31 and 32. Execute the switching process to switch to the one that is operating. Thereafter, the process of step S101 is executed again.

  As described above, according to the communication control system 1000 according to the present embodiment, the two control servers 31 and 32 are connected to the network 7. Further, the device server 2 connected to the transport cart control device 4 and the device server 1 connected to the PLC 6 are connected to the main control server 31 (32) via the network 7. Whether or not the determination unit 113 monitors the reception status of the second PLC frame or the content of the first PLC frame and switches the connection destination of the device servers 1 and 2 from the control server 31 (32) to the control server 32 (31). Determine. Further, when it is determined that the connection destination of the device servers 1 and 2 is switched from the control server 31 (32) to the control server 32 (31), the switch notification unit 114 sends a switch notification to the device server 2 via the network. Send. In this manner, switching of the control servers 31 and 32 that communicate with the transport cart controller 4 and the PLC 6 connected to the device servers 1 and 2 is executed via the network 7. Accordingly, the installation locations of the control servers 31 and 32 are not limited as long as they can be connected to the device servers 1 and 2 via the network 7, so that there is an advantage that the flexibility of the installation location of the communication control system 1000 is widened. In addition, since a switch for switching the control servers 31 and 32 that are the connection destinations of the transport cart controller 4 and the PLC 6 is not required, the communication control system 1000 can be reduced in size accordingly.

  In the present embodiment, the first PLC frame includes life counter information. Each time the first PLC frame is transmitted to the device servers 1 and 2, the counter update units 314 and 324 increment the count value indicated by the life counter information included in the transmitted first PLC frame by “1”. Update. The determination unit 113 determines whether to switch from the main control server 31 (32) to the sub control server 32 (31) based on the history of the life counter information of the second PLC frame received from the main control server 31 (32). Determine whether. Thereby, since the presence or absence of the failure occurrence in the main control server 31 (32) can be detected relatively early, the occurrence of malfunction of the transport cart control device 4 and the PLC 6 is suppressed.

  Furthermore, the control servers 31 and 32 according to the present embodiment transmit the second PLC frame to the device servers 1 and 2 at a time interval within a preset reference time. After receiving the second PLC frame from the main control server 31 (32), the determination unit 113 determines whether the main control server 31 (32) is received according to whether a new second PLC frame is received within the reference time. It is determined whether or not to switch to the sub control server 32 (31). As a result, due to the occurrence of a failure in the communication path between the main control server 31 (32) and the device servers 1 and 2, the transport cart control device 4 and the PLC 6 are left standing for a long time. Can be suppressed.

  In the present embodiment, the first PLC frame includes main control server identification information for identifying the control server 31 (32) to which the device servers 1 and 2 are connected. Each of the control servers 31 and 32 has a connection destination setting unit 325 that sets main control server identification information. The determination unit 113 determines whether to switch the connection destination of the device servers 1 and 2 from the main control server 31 to the sub control server 32 based on the main control server identification information included in the first PLC frame. Thereby, since the user can freely change the main control servers 31 and 32, there is an advantage that variations in the operation method of the communication control system 1000 are widened.

(Embodiment 2)
The communication control system 2000 according to the present embodiment is different from the communication control system 1000 according to the first embodiment in that two device servers 2001 and 2002 can each operate as a monitoring device server. In communication control system 2000 according to the present embodiment, as shown in FIG. 9, control servers 2031 and 2032 include monitoring device server selection units 2317 and 2327. Both of the device servers 2001 and 2002 include determination units 2113 and 2213, switching notification units 114 and 214, and monitoring device server notification units 2115 and 2215, respectively. In FIG. 9, the same reference numerals as those in FIG. 3 are assigned to the same configurations as those in the first embodiment. The first control frame according to the present embodiment includes at least control server identification information and life counter information. The life counter information is included only in the first control frame transmitted from the control servers 2031 and 2032 to the transport carriage control device 4.

  The monitoring device server selection units 2317 and 2327 select one device server that operates as the monitoring device server from the device servers 2001 and 2002. Then, the monitoring device server selection units 2317 and 2327 generate device server identification information (first device server identification information) of the selected device server 2001 (2002) and output it to the PLC control units 312 and 322. The monitoring device server selection units 2317 and 2327 select a monitoring device server and generate device server identification information of the selected device server 2001 (2002). When the device server identification information is input from the monitoring device server selection units 2317 and 2327, the PLC control units 312 and 322 include the device server identification information in the control information.

  In addition to the function of the determination unit 113 described in the first embodiment, the determination unit 2113 includes device server identification information included in the first PLC frame and device server identification information (second device server identification) assigned to the device server 2001. And (information) have a function of determining whether or not they match.

  The determination unit 2213 has the same function as the determination unit 2113. That is, the determination unit 2213 determines whether the count value indicated by the life counter information included in the first control frame has changed over time. Further, the determination unit 2213 determines whether or not the main control server identification information included in the first control frame has been changed. Further, the determination unit 2213 determines whether or not the elapsed time measured by the time measuring unit 215 has reached a preset reference time. The determination unit 2213 has a function of determining whether or not the device server identification information included in the first control frame matches the device server identification information of the device server 2002.

  The switch notification unit 214 has the same function as that of the switch notification unit 114 described in the first embodiment, and transmits a switch notification frame that notifies the device server 2001 to switch the main control server.

  When the device server 2001 (2002) operates as a monitoring device server, the monitoring device server notification units 2115 and 2215 send a monitoring device server notification frame that notifies the other device server 2002 (2001) that it operates as a monitoring device server. Send. Specifically, the monitoring device server notification unit 2115 of the device server 2001 determines that the device server identification information included in the first PLC frame matches the device server identification information of the device server 2001 by the determination unit 2113. Then, a monitoring device server notification frame is transmitted to the device server 2002. In addition, the monitoring device server notification unit 2215 of the device server 2002 determines that the device server identification information included in the first control frame matches the device server identification information of the device server 2002 by the determination unit 2213. A monitoring device server notification frame is transmitted to the device server 2001. Upon receiving the monitoring device server notification, the device server 2002 (2001) stops the operations of the determination unit 2213 (2113), the switching notification unit 214 (114), and the monitoring device server notification unit 2215 (2115).

  Also, the monitoring device server notification unit 2115 of the device server 2001 determines that the device unit identification information included in the first PLC frame and the device server identification information of the device server 2001 do not match by the determination unit 2113. A monitoring device server change notification frame for notifying that the monitoring device server is to be changed is transmitted to the device server to which the included device server identification information is added (that is, the device server 2002 in this example). Furthermore, the monitoring device server notification unit 2215 of the device server 2002 performs the first control when the determination unit 2213 determines that the device server identification information included in the first control frame and the device server identification information of the device server 2002 do not match. The monitoring device server change notification frame is transmitted to the device server to which the device server identification information included in the frame is assigned (that is, the device server 2001 in this example). Upon receiving the monitoring device server change notification frame, the device server 2002 (2001) receives the determination unit 2213 (2113), the switching notification unit 214 (114), the monitoring device server notification unit 2215 (2115), and the timing unit 215 (115). ).

  Next, the operation of the communication control system 2000 according to the present embodiment will be described with reference to FIG. Here, it is assumed that in the initial state of the communication control system 2000, the control server 2031 operates as a main control server and the control server 2032 operates as a sub control server. In the initial state, the determination units 2113 and 2213, the switching notification units 114 and 214, the monitoring device server notification units 2115 and 2215, and the timing units 115 and 215 are operating in both the device servers 2001 and 2002. To do. In FIG. 10, the transmission and reception of the first control response frame transmitted from the transport cart control apparatus 4 to the device server 2002 and the first PLC response frame transmitted from the PLC 6 to the device server 2001 are omitted. Further, illustration of the second control response frame transmitted from the device server 2001 to the control servers 2031 and 2032 and the second PLC response frame transmitted from the device server 2002 to the control servers 2031 and 2032 are also omitted.

  First, when the second control frame is transmitted from the main control server 2031 to the device server 2002 (step S51), the device server 2002 converts the second control frame into the first control frame, and the transport cart control device. 4 (step S52). Further, when the second PLC frame is transmitted from the main control server 2031 to the device server 2001 (step S53), the device server 2001 converts the second PLC frame into the first PLC frame and outputs the first PLC frame to the PLC 6 (step S54). ).

  The first half of FIG. 10 will be described assuming that the device server 2002 is designated as the monitoring device server. Assume that the device server 2002 determines that the device server identification information included in the first control frame matches the device server identification information of the own device (step S55). In this case, a monitoring device server notification frame notifying that the device server 2002 operates as a monitoring device server is transmitted from the device server 2002 to the device server 2001 (step S56). On the other hand, when receiving the monitoring device server notification frame from the device server 2002, the device server 2001 stops the determination unit 2113, the switching notification unit 114, the monitoring device server notification unit 2115, and the timing unit 115 (step S57).

  The second half of FIG. 10 shows the operation of the communication control system 2000 when the monitoring device server is switched from the device server 2002 to 2001. It is assumed that the second control frame including the device server identification information of the device server 2001 is transmitted from the main control server 2031 to the device server 2002 (step S58). In this case, the device server 2002 converts the second control frame into the first control frame and outputs the first control frame to the transport cart control apparatus 4 (step S59). Further, it is assumed that the second PLC frame including the device server identification information of the device server 2001 is transmitted from the main control server 2031 to the device server 2001 (step S60). In this case, the device server 2001 converts the second PLC frame into the first PLC frame and outputs the first PLC frame to the PLC 6 (step S61). Here, since the determination unit 2113 is stopped, the device server 2001 does not determine whether the device server identification information included in the first PLC frame matches the device server identification information of the device server 2001. .

  On the other hand, in the device server 2002, the determination unit 2213 determines that the device server identification information included in the first control frame does not match the device server identification information of the own device (step S62). Then, a monitoring device server change notification frame for notifying that the monitoring device server is changed is transmitted from the device server 2002 to the device server 2001 corresponding to the device server identification information included in the first control frame (step S63). .

  Upon receiving the monitoring device server change notification frame from the device server 2002, the device server 2001 activates the determination unit 2113, the switching notification unit 114, the monitoring device server notification unit 2115, and the time measuring unit 115 (step S64). Next, a monitoring device server notification frame is transmitted from the device server 2001 to the device server 2002 (step S65).

  Upon receiving the monitoring device server notification frame, the device server 2002 stops the determination unit 2213, the switching notification unit 214, the monitoring device server notification unit 2215, and the time measuring unit 215 (step S66).

  Thus, in communication control system 2000 according to the present embodiment, the device server corresponding to the device server identification information included in the first control frame and the first PLC frame operates as a monitoring device server. Each time the device server identification information included in the first control frame and the first PLC frame is changed, the device server that operates as the monitoring device server is changed.

  Next, communication control processing executed by the device servers 2001 and 2002 according to the present embodiment will be described with reference to FIGS. This communication control process is started when the device server 2001 is powered on. First, it is assumed that the second conversion unit 211 (111) receives a second control frame (second PLC frame) from the main control server (step S201). In this case, the timer unit 215 (115) starts counting the elapsed time after receiving the second control frame (second PLC frame) (step S202). Next, the second conversion unit 211 (111) converts the second control frame (second PLC frame) into the first control frame (first PLC frame) and outputs the first control frame (first PLC frame) to the transport cart controller 4 (PLC6) (step S203). ).

  Subsequently, the determination unit 2213 (2113) extracts device server identification information from the first control frame (first PLC frame) (step S204). Thereafter, the determination unit 2213 (2113) determines whether the device server identification information extracted from the first control frame (first PLC frame) matches the device server identification information of the device server 2002 (2001) ( Step S205). Here, it is assumed that the determination unit 2213 (2113) determines that the device server identification information extracted from the first control frame (first PLC frame) and the device server identification information of the device server 2002 (2001) do not match (step). S205: No). In this case, as shown in FIG. 12, a process of step S215 described later is executed.

  Returning to FIG. 11, on the other hand, the determination unit 2213 (2113) determines that the device server identification information extracted from the first control frame (first PLC frame) matches the device server identification information of the device server 2002 (2001). Suppose that it did (step S205: Yes). In this case, the monitoring device server notification unit 2215 (2115) transmits a monitoring device server notification frame to the other device server 2001 (2002) (step S206).

  Next, the determination unit 2213 (2113) extracts the life counter information and the main control server identification information from the first control frame (first PLC frame) (step S207), and the counter information / identification information storage unit 221 (121). (Step S208). Subsequently, the determination unit 2213 (2113) determines whether or not the count value of the life counter information is constant regardless of time (step S209). When the determination unit 2213 (2113) determines that the count value of the life counter information is constant regardless of time (step S209: Yes), a process of step S213 described later is executed.

  On the other hand, if the determination unit 2213 (2113) determines that the count value of the life counter information has changed over time (step S209: No), the determination unit 2213 (2113) determines whether the setting of the main control server has been changed (step S209: No). Step S210). If the determination unit 2213 (2113) determines that the setting of the main control server has been changed (step S210: Yes), the process of step S213 described below is executed.

  On the other hand, when the determination unit 2213 (2113) determines that the setting of the main control server has not been changed (step S210: No), the second conversion unit 211 (111) newly adds a second control frame (second PLC). It is determined whether or not a frame has been received (step S211). When the second conversion unit 211 (111) determines that the second control frame (second PLC frame) has been received (step S211: Yes), the process of step S202 is executed again.

  On the other hand, it is assumed that the second conversion unit 211 (111) determines that the second control frame (second PLC frame) has not been received (step S211: No). In this case, the determination unit 2213 (2113) determines whether or not the elapsed time after receiving the second control frame (second PLC frame) timed by the time measuring unit 215 (115) has reached a preset reference time. (Step S212). When the determination unit 2213 (2113) determines that the elapsed time after receiving the second control frame (second PLC frame) has not reached the preset reference time (step S212: No), the process of step S211 is performed again. Is executed.

  On the other hand, when it is determined by the determination unit 2213 (2113) that the elapsed time after receiving the second control frame (second PLC frame) has reached the reference time (step S212: Yes), the switching notification unit 214 (114) A switching notification frame is transmitted to the device server 2001 (2002) (step S213). After that, the second conversion unit 211 (111) switches the source of the received second control frame and second PLC frame to the one operating as the sub control server of the two control servers 2031 and 2032. Is executed (step S214). At this time, when the second conversion unit 111 (211) of the device server 2001 (2002) also receives the switching notification frame, the transmission source of the received second control frame and second PLC frame is set to the two control servers 2031 and 2032. A switching process for switching to the one operating as a sub control server is executed.

  In step S205, the determination unit 2213 (2113) determines that the device server identification information extracted from the first control frame (first PLC frame) does not match the device server identification information of the device server 2002 (2001). (Step S205: No). In this case, as shown in FIG. 12, the monitoring device server notification unit 2215 (2115) sends the monitoring device to the device server 2001 (2002) corresponding to the device server identification information included in the first control frame (first PLC frame). A server change notification frame is transmitted (step S215). Thereafter, the determination unit 2213 (2113), the switching notification unit 214 (114), the monitoring device server notification unit 2215 (2115), and the timing unit 215 (115) are stopped (step S216).

  Next, the second conversion unit 211 (111) determines whether or not a second control frame (second PLC frame) has been received (step S217). When the second conversion unit 211 (111) determines that the second control frame (second PLC frame) has not been received (step S217: No), the process of step S219 described later is executed.

  On the other hand, when the second conversion unit 211 (111) determines that the second control frame (second PLC frame) has been received (step S217: Yes), the second control frame (second PLC frame) is converted to the first control frame (second PLC frame). 1 PLC frame) and output to the transport cart controller 4 (PLC 6) (step S218).

  Subsequently, the second conversion unit 211 (111) determines whether or not a monitoring device server change notification frame has been received (step S219). If the second conversion unit 211 (111) determines that the monitoring device server change notification frame has not been received (step S219: No), the process of step S217 is executed again. On the other hand, if the second conversion unit 211 (111) determines that the monitoring device server change notification frame has been received (step S219: Yes), the determination unit 2213 (2113), the switching notification unit 214 (114), the monitoring device The server notification unit 2215 (2115) and the time measuring unit 215 (115) are activated (step S220). Thereafter, the process of step S211 is executed again.

  As described above, in the communication control system 2000 according to the present embodiment, the device servers 2001 and 2002 can each operate as a monitoring device server. Both of the device servers 2001 and 2002 include determination units 2113 and 2213, switching notification units 114 and 214, and monitoring device server notification units 2115 and 2215. Here, it is assumed that the device server 2001 (2002) operates as a monitoring device server. In this case, when the device server 2002 (2001) receives the monitoring device server notification frame, the determination unit 2213 (2113), the switching notification unit 214 (114), the monitoring device server notification unit 2215 (2115), and the timing unit 215 (115). ) Is stopped. As a result, any one of the two device servers 2001 and 2002 can be operated as a monitoring device server, which has the advantage that variations in the operation method of the communication control system 2000 are widened.

  In the communication control system 2000 according to the present embodiment, the monitoring device server selection units 2317 and 2327 select one device server 2001 (2002) that operates as the monitoring device server from the device servers 2001 and 2002. Then, the monitoring device server selection units 2317 and 2327 generate monitoring device server identification information that is device server identification information of the selected device server 2001 (2002), and transmit the monitoring device server identification information to the device servers 2001 and 2002. Then, the determination unit 2113 (2213) of the device server 2001 (2002) determines whether the monitoring device server identification information matches the device server identification information given to the own device. Further, when the monitoring device server notification unit 2115 (2215) determines that there is a mismatch, the monitoring device server notification unit 2115 transmits a monitoring device server change notification frame to the device server 2002 to which the monitoring device server identification information is assigned. Then, when receiving the monitoring device server change notification frame, the device server 2002 activates the determination unit 2213, the switching notification unit 214, the monitoring device server notification unit 2215, and the time measuring unit 215. Thereby, after starting operation with one device server 2001 as a monitoring device server, it is possible to change another device server 2002 to a monitoring device server, so that variations in the operation method of the communication control system 2000 can be expanded. .

(Modification)
As mentioned above, although each embodiment of this invention was described, this invention is not limited to the structure of each above-mentioned embodiment. For example, a communication control system including three or more device servers may be used. For example, as shown in FIG. 13, a communication control system 3000 including a device server 2 (N units) connected to each of two or more transport cart control devices 4 and a device server 1 connected to one PLC 6. There may be. In FIG. 13, the same reference numerals as those in FIG. 3 are assigned to the same configurations as those in the first embodiment. In this case, the device server 1 connected to the PLC 6 operates as a monitoring device server, and the control server 31 (the transmission source of the second control frame received by the plurality of device servers 2 connected to the transport cart controller 4 ( 32) may be appropriately transmitted to 32).

  Alternatively, as illustrated in FIG. 14, a communication control system 4000 including a device server 2002 (N units) connected to each of the two or more transport cart control devices 4 and a device server 2001 connected to one PLC 6. It may be. In FIG. 14, the same reference numerals as those in FIG. 9 are assigned to the same configurations as those in the second embodiment. In this case, one of the plurality of device servers 2001 and 2002 is selected according to the device server identification information set in the first control frame or the first PLC frame by one of the control servers 2031 and 2032 operating as the main control server. One of them may operate as a monitoring device server. In this case, when the device server 2001 (2002) operates as the monitoring device server, the monitoring device server notification units 2115 and 2215 broadcast the monitoring device server notification frame to the other device servers 2001 and 2002.

  In each embodiment, an example has been described in which the monitoring device server executes a switching process for switching the main control server based on the main control server identification information or the life counter information included in the first control frame or the first PLC frame. . However, the present invention is not limited to this, for example, based on the control information included in the first PLC response frame (response information) for the first PLC frame received by the device server 1 operating as the monitoring device server from the PLC 6. It may be configured to determine whether to switch the connection destination from the main control server 31 (32) to the sub control server 32 (31). In this case, the first PLC response frame transmitted from the PLC 6 includes main control server identification information for identifying the control server 31 (32) to which the device servers 1 and 2 are connected. Based on the main control server identification information included in the first PLC response frame received from the PLC 6, the determination unit 113 changes the connection destination of the device servers 1 and 2 from the control server 31 (32) to the control server 32 (31). What is necessary is just to set it as the structure which determines whether it switches.

  Alternatively, the connection of each device server based on the control information included in the first control response frame (response information) for the first control frame received by the device server 2002 operating as the monitoring device server from the transport cart control apparatus 4 It may be configured to determine whether to switch the destination from the main control server 2031 (2032) to the sub control server 2032 (2031). In this case, the first control response frame transmitted from the transport cart control device 4 includes main control server identification information for identifying the control server 2031 (2032) that is the connection destination of the device servers 2001 and 2002. Then, the determination unit 2213 determines the connection destination of the device servers 2001 and 2002 from the control server 2031 (2032) to the control server based on the main control server identification information included in the first control response frame received from the transport cart control apparatus 4. What is necessary is just to make it the structure which determines whether it switches to 2032 (2031).

  In the communication control systems 1000 and 2000 according to the embodiments, the configuration including the two control servers 31 and 32 (2031 and 2032) has been described. However, the configuration is not limited thereto, and the configuration includes, for example, three or more control servers. It may be. In this case, the plurality of device servers may be connected to one control server selected from three or more control servers.

  In each embodiment, every time the counter update units 314 and 324 transmit the second PLC frame (second control frame) to the device server, the counter value indicated by the life counter information is incremented by “1”. An example of updating the counter information has been described. However, the present invention is not limited to this. For example, the counter updating units 314 and 324 update the life counter information by incrementing the count value indicated by the life counter information by a preset value larger than “1”. There may be. Alternatively, the counter updating units 314 and 324 may be configured to update the life counter information by decrementing the count value indicated by the life counter information.

  In each of the embodiments, an example in which the network 7 is a wired LAN using Ethernet has been described. However, the network 7 is not limited to this example. There may be.

  In each embodiment, the control server and the device server execute transmission / reception of the second control frame and the second PLC frame in accordance with TCP / IP or UDP / IP and according to a unique protocol decided between the two. There may be.

  In each embodiment, the transport cart control device 4 and the PLC 6 may be devices equipped with, for example, a USB (Universal Serial Bus) communication I / F. In this case, the device server only needs to have a function of converting the second control frame and the second PLC frame into frames compliant with the USB standard.

  The various functions of the device server according to the present invention can be realized using a computer system, not a dedicated system. For example, to a computer connected to a network, a program for executing the above operation is stored in a non-transitory recording medium (CD-ROM or the like) that can be read by a computer system, and the program is distributed to the computer. The device servers 1 and 2 that execute the above-described communication control processing may be configured by being installed in the system.

  Further, the method for providing the program to the computer is arbitrary. For example, the program may be uploaded to a server on a communication line and distributed to a computer via the communication line. Then, the computer activates this program and executes it like other applications under the control of the OS. Thereby, the computer functions as the device servers 1 and 2 that execute the above-described communication control processing.

  As mentioned above, although embodiment of this invention and the modification (Including what was written in the description, the following is the same) were demonstrated, this invention is not limited to these. The present invention includes a combination of the embodiments and modifications as appropriate, and a modification appropriately added thereto.

  The present invention is suitable when serial devices are controlled by a control server connected to a network.

1, 2, 2001, 2002: Device server, 4: Transport cart control device, 6: PLC, 7: Network, 8, 9: Serial transmission path, 10: Drive device, 31, 32, 2031, 2032: Control server, 41: control unit, 42A, 42B: communication unit, 51, 52: transport cart, 101, 301: CPU, 102, 302: main storage unit, 103, 303: auxiliary storage unit, 104, 304: network communication I / F , 105: serial communication I / F, 106, 305: bus, 111, 211: second conversion unit, 113, 2113, 2213: determination unit, 114, 214: switching notification unit, 115, 215: timing unit, 121, 221: Counter information / identification information storage unit, 311, 321: Carriage cart control unit, 312, 322: PLC control unit, 313, 323: Device Driver, 314, 324: counter update unit, 315, 325: connection destination setting unit, 316, 326: first conversion unit, 1000, 2000, 3000, 4000: communication control system, 2115, 2215: monitoring device server notification unit, 2317, 2327: Monitoring device server selection unit

Claims (14)

A plurality of control servers for generating control information for controlling a plurality of devices connected to the network, and transmitting the control information to a plurality of device servers at time intervals within a preset reference time ;
The control information is received from the first control server by connecting to a first control server of the plurality of control servers connected to a plurality of devices via the network, and the received control information is and a plurality of device server to be transmitted to a device connected to the own device,
Any one of the plurality of device servers is
After receiving control information from the first control server, depending on whether new control information is received from the first control server within the reference time, the connection destinations of the plurality of device servers are set to the first A determination unit that determines whether to switch from the control server to a second control server other than the first control server among the plurality of control servers;
When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. A switching notification unit for transmitting a switching notification for switching to the second control server to another device server via the network,
Communication control system. A plurality of control servers connected to a network and generating control information for controlling a plurality of devices;
In order to detect whether or not a failure has occurred in the first control server from the first control server by connecting to a first control server of the plurality of control servers connected to a plurality of devices via the network. the counter information receives including control information, and a plurality of device server which transmits the received control information to the device which is respectively connected to the own device, comprising a,
Each time the plurality of control servers transmit the control information to the plurality of device servers, the counter value indicated by the counter information included in the transmitted control information is incremented or decremented by a preset value. A counter updating unit for updating the counter information,
Any one of the plurality of device servers is
The counter information included in the control information is monitored, and the connection destination of the plurality of device servers is determined from the first control server based on the history of the counter information of each of the plurality of control information received from the first control server. A determination unit that determines whether to switch to a second control server other than the first control server among the plurality of control servers ;
When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. A switching notification unit for transmitting a switching notification for switching to the second control server to another device server via the network,
Communication control system. A plurality of control servers connected to a network and generating control information for controlling a plurality of devices;
The control information is received from the first control server by connecting to a first control server of the plurality of control servers connected to a plurality of devices via the network, and the received control information is A plurality of device servers that transmit to devices connected to the device,
Upon receiving the control information, each of the plurality of devices sends response information corresponding to the received control information to any one of the plurality of control servers via any one of the plurality of device servers. Send
The control information and prior Symbol response information includes connection destination control server identification information for identifying the control server to which the connection destination of the plurality of device server,
Each of the plurality of control servers further includes a connection destination setting unit that sets the connection destination control server identification information,
Any one of the plurality of device servers is
Before SL based on the connection destination control server identification information included in the control information and previous Ki応 answer information received from the first control server, the plurality of control servers connect to a plurality of device server from the first control server A determination unit for determining whether to switch to a second control server other than the first control server ,
When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. A switching notification unit that transmits a switching notification for switching to the second control server to another device server via the network,
Communication control system. Each of the plurality of device servers can operate as the monitoring device server,
The determination unit;
The switching notification unit;
When operating as the monitoring device server, a monitoring device server notification unit that transmits a monitoring device server notification for notifying that it operates as the monitoring device server to another device server, and
When the other device server receives the monitoring device server notification, the other device server stops the operation of the determination unit, the switching notification unit, and the monitoring device server notification unit.
The communication control system according to any one of claims 1 to 3 . The control server selects one device server that operates as the monitoring device server from the plurality of device servers, generates first device server identification information of the selected device server, and transmits the first device server identification information to the plurality of device servers A monitoring device server selection unit for
The determination unit determines whether or not the first device server identification information and the second device server identification information given to the device match.
The monitoring device server notification unit transmits a monitoring device server change notification for notifying that the monitoring device server is changed to the device server to which the first device server identification information is given,
When the other device server receives the monitoring device server change notification, the other device server activates the determination unit, the switching notification unit, and the monitoring device server notification unit.
The communication control system according to claim 4 . A plurality of control servers connected to a plurality of devices, generating control information for controlling the plurality of devices, and transmitting the control information to a plurality of device servers at a time interval within a preset reference time . one first control server for out via the network to receive the control information from the first control server by connecting said plurality of transmitting the received control information to the respective device connected to the own device One of the device servers,
After receiving control information from the first control server, depending on whether new control information is received from the first control server within the reference time, the connection destinations of the plurality of device servers are set to the first A determination unit that determines whether to switch from the control server to a second control server other than the first control server among the plurality of control servers;
When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. A switching notification unit for transmitting a switching notification for switching to the second control server to another device server via the network,
Device server.   By connecting to a first control server of a plurality of control servers connected to a plurality of devices and generating control information for controlling the plurality of devices via the network, the first control server One of a plurality of device servers that receives control information including counter information for detecting whether or not a failure has occurred in the first control server, and transmits the received control information to a device connected to the own device. A device server,
  Each time the plurality of control servers transmit the control information to the plurality of device servers, the counter value indicated by the counter information included in the transmitted control information is incremented or decremented by a preset value. Update the counter information in the form
  The counter information included in the control information is monitored, and the connection destination of the plurality of device servers is determined from the first control server based on the history of the counter information of each of the plurality of control information received from the first control server. A determination unit that determines whether to switch to a second control server other than the first control server among the plurality of control servers;
  When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. A switching notification unit for transmitting a switching notification for switching to the second control server to another device server via the network,
  Device server.   By connecting to a first control server of a plurality of control servers connected to a plurality of devices and generating control information for controlling the plurality of devices via the network, the first control server A device server that receives control information and transmits the received control information to devices connected to the device;
  Upon receiving the control information, each of the plurality of devices sends response information corresponding to the received control information to any one of the plurality of control servers via any one of the plurality of device servers. Send
  The control information and the response information include connection destination control server identification information for identifying a control server that is a connection destination of the plurality of device servers,
  Each of the plurality of control servers sets the connection destination control server identification information,
  Based on the control information received from the first control server and the connection destination control server identification information included in the response information, the connection destination of the plurality of device servers is changed from the first control server to the control server among the plurality of control servers. A determination unit for determining whether to switch to a second control server other than the first control server;
  When it is determined by the determination unit that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is transferred from the first control server to the other device server. A switching notification unit for transmitting a switching notification for switching to the second control server to another device server via the network,
  Device server. A plurality of control servers that generate control information for controlling a plurality of devices connected to the network, and that transmit the control information to a plurality of device servers at time intervals within a preset reference time, and a plurality of devices Is connected to the first control server of the plurality of control servers via the network to receive the control information from the first control server, and the received control information a communication control method using a plurality of device server to be transmitted to the connected equipment,
Any one of the plurality of device servers is
After receiving control information from the first control server, depending on whether new control information is received from the first control server within the reference time, the connection destinations of the plurality of device servers are set to the first Determining whether to switch from the control server to a second control server other than the first control server among the plurality of control servers;
When it is determined that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is changed from the first control server to the second control server with respect to other device servers. Transmitting a switching notification for notifying to switch to another device server via the network,
Communication control method.   A plurality of control servers that are connected to a network and generate control information for controlling a plurality of devices, and are connected to a plurality of devices and connected to one first control server of the plurality of control servers via the network A plurality of device servers for receiving the control information from the first control server and transmitting the received control information to devices connected to the own device, respectively,
  Each time the plurality of control servers transmit the control information to the plurality of device servers, counter information for detecting whether or not a failure has occurred in the first control server included in the transmitted control information indicates The counter information is updated in a form that increments or decrements the counter value by a preset value,
  Any one of the plurality of device servers is
  The counter information included in the control information is monitored, and the connection destination of the plurality of device servers is determined from the first control server based on the history of the counter information of each of the plurality of control information received from the first control server. Determining whether to switch to a second control server other than the first control server among the plurality of control servers;
  When it is determined that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is changed from the first control server to the second control server with respect to other device servers. Transmitting a switching notification for notifying to switch to another device server via the network,
  Communication control method.   A plurality of control servers that are connected to a network and generate control information for controlling a plurality of devices, and are connected to a plurality of devices and connected to one first control server of the plurality of control servers via the network A plurality of device servers for receiving the control information from the first control server and transmitting the received control information to devices connected to the own device, respectively,
  Upon receiving the control information, each of the plurality of devices sends response information corresponding to the received control information to any one of the plurality of control servers via any one of the plurality of device servers. Send
  The control information and the response information include connection destination control server identification information for identifying a control server that is a connection destination of the plurality of device servers,
  Each of the plurality of control servers sets the connection destination control server identification information,
  Any one of the plurality of device servers is
  Based on the control information received from the first control server and the connection destination control server identification information included in the response information, the connection destination of the plurality of device servers is changed from the first control server to the control server among the plurality of control servers. Determining whether to switch to a second control server other than the first control server;
  When it is determined that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is changed from the first control server to the second control server with respect to other device servers. Transmitting a switching notification for notifying to switch to another device server via the network,
  Communication control method. Computer
A plurality of control servers connected to a plurality of devices and generating control information for controlling the plurality of devices, and transmitting the control information to a plurality of device servers at time intervals within a preset reference time wherein the plurality of device server to the first receives the control information from the control server transmits the received control information to the respective device connected to the own device by connecting through a network to one first control server For any one of
After receiving control information from the first control server, depending on whether new control information is received from the first control server within the reference time, the connection destinations of the plurality of device servers are set to the first A determination unit that determines whether to switch from the control server to a second control server other than the first control server among the plurality of control servers;
When the determination unit determines that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is changed from the first control server to the second control server with respect to another device server. A switching notification unit for transmitting a switching notification for switching to the control server to another device server via the network;
Program to function as.   Computer
  One of the plurality of control servers included in the control information to be transmitted each time the control information connected to the plurality of devices is generated and the control information is transmitted to the plurality of device servers. A network is connected to the first control server that updates the counter information by incrementing or decrementing the counter value indicated by the counter information for detecting whether or not a failure has occurred in one first control server by a preset value. For any one of the plurality of device servers that receive the control information from the first control server by connecting via the device, and transmit the received control information to devices connected to the own device,
  The counter information included in the control information is monitored, and the connection destination of the plurality of device servers is determined from the first control server based on the history of the counter information of each of the plurality of control information received from the first control server. A determination unit that determines whether to switch to a second control server other than the first control server among the plurality of control servers;
  When the determination unit determines that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is changed from the first control server to the second control server with respect to another device server. A switching notification unit for transmitting a switching notification for switching to the control server to another device server via the network;
  Program to function as.   Computer
  When receiving control information including connection destination control server identification information for identifying a control server as a connection destination of a plurality of device servers, a plurality of response information including the connection destination control server identification information corresponding to the received control information is received. A plurality of control information for controlling a plurality of devices to be transmitted to any one of the plurality of control servers via any one of the device servers, and a plurality of the connection destination control server identification information are set. The control information is received from the first control server by connecting to one first control server of the control servers via a network, and the received control information is transmitted to each device connected to the own device. For any one of multiple device servers,
  Based on the control information received from the first control server and the connection destination control server identification information included in the response information, the connection destination of the plurality of device servers is changed from the first control server to the control server among the plurality of control servers. A determination unit for determining whether to switch to another second control server other than the first control server;
  When the determination unit determines that the connection destination of the plurality of device servers is switched from the first control server to the second control server, the connection destination is changed from the first control server to the second control server with respect to another device server. A switching notification unit for transmitting a switching notification for switching to the control server to another device server via the network;
  Program to function as.

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