JP2017126190A - Design support device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a design support device capable of achieving a reduction in load of a new network and improvement of design efficiency of a new HMI device at the time of replacement of an HMI device.SOLUTION: A design support device 1 comprises an acquisition section 42, and a signal-signal name conversion section 43. The acquisition section 42 acquires old plant control management specification information 40 in which an old display signal name associated with a display article of an old HMI device 5 is associated with an address of a first common memory storing a display signal. The signal-signal name conversion section 43 associates an address of the first common memory storing the display signal with a new address converted into an address format usable in a second common memory and a new display signal name obtained by converting the old display signal name into a name forma usable in a new HMI device without changing a relative position between addresses based on the old plant control management specification information 40 and a head address, and generates new plant control management specification information of a new HMI device 7.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a design support apparatus. In particular, in a control and monitoring system including an existing network in which a control device (controller) and an old HMI (Human Machine Interface) device transmit and receive signals via a common memory, and a new network having a common memory different from the existing network The present invention relates to a design support apparatus that supports the design of a new HMI apparatus when an old HMI apparatus is replaced with a new HMI apparatus on a new network.

  In general, in a plant control monitoring system centering on a steel plant or the like, a control device controls a plant based on an operation signal received from an operation panel mainly composed of hardware products. The control device accepts an operation signal from the HMI device that has, and based on this operation signal, the control device has suddenly changed to one that controls the plant.

  Furthermore, in such a control and monitoring system to which such an HMI device is applied, in order to flexibly respond to various requirements specifications of plant control and monitoring by the operator side, the HMI device has become multifunctional, and accordingly screen specifications. Has also increased.

  For example, in a control and monitoring system equipped with an HMI device used in a steel plant, a designer who designs the screen of the HMI device can display more than 10,000 display items and tens of thousands of operation signals displayed on the screen. It is necessary to register HMI interface signals such as display signals, and a means for improving the efficiency of design work has been desired.

  Patent Document 1 discloses a plant monitoring screen creation device that creates a graphical monitoring screen in which graphical data and device names are associated with each other by inputting arbitrary control program data for mechanization / automation of the design work. Has been proposed.

Japanese Patent Laid-Open No. 9-282025 Japanese Patent No. 4971226 Japanese Patent No. 5772639 JP 2014-48993 A

  In addition, with the recent increase in the scale of plants, the control and monitoring system has also been increased in scale. In such a large-scale plant control and monitoring system, the control device and the control device are connected via a network. In many cases, the configuration includes an HMI device. In order to realize high reliability and real-time performance, a network that can ensure data simultaneity by scan transmission (periodic broadcast transmission) using a common memory system is used for the network. In the control and monitoring system having such a configuration, definition information for transmitting and receiving operation signals and display signals between the control device and the HMI device via a common memory is necessary.

  However, when the plant monitoring screen creation device described in Patent Document 1 is applied to a control and monitoring system for a large-scale plant, the designer must manually input definition information for transmitting and receiving operation signals and display signals. As a result, a great burden is imposed on the designer, a huge amount of work time is required, and work errors are caused. In order to solve such a problem, Patent Document 2 accurately generates definition information for transmitting and receiving operation signals and display signals between a control device and an HMI device connected via a network. A design support apparatus that reduces work time and work mistakes has been proposed.

  Moreover, in the existing system composed of the control device and the HMI device, there are many cases in which the HMI device is preferentially updated early because the device deterioration is fast. When renewing an HMI device over a long period of time, there are cases where the specifications of the existing HMI device do not exist. In that case, it is necessary to restore the specifications of the existing HMI device, which requires enormous effort and time. In order to solve such a problem, Patent Document 3 describes a design that enables decoding of plant control monitoring screen software used in existing HMI devices and restoration of specifications and screen images from the software. Support devices have been proposed.

  Furthermore, an existing HMI device (hereinafter referred to as an old HMI device) connected to an existing network (hereinafter referred to as an old network) is replaced with a new HMI device (hereinafter referred to as a new network). There is an example of replacement to a new HMI device). Since the new network uses a common memory separate from the old network, a gateway (transfer device) that can be connected to the old and new networks at the same time is provided, and the operation signal from the new HMI device and the display signal from the control device are sent to the gateway. Must be transferred between the old and new networks via

  Since the address of the common memory is different between the old and new networks, the conventional gateway transfers the display signal transmitted from the control device of the old network to the new network as it is, and the address of the display signal transmitted from the control device is changed to the new HMI. It is necessary to provide a transfer program that reassigns the display signal address of the device from the beginning. As a result, for the display signal of tens of thousands of points, the display signal transferred from the control device and the input signal to the new HMI device are duplicated on the new network. It is an obstacle to work efficiency. Also, gateway expertise is required to apply a dedicated transfer program to the gateway.

  In the present invention, when the HMI device is replaced, the display signal transmitted from the control device of the old network is transferred to the new network as it is, and then used as a signal on the new network, thereby reducing the load on the new network and the new HMI. An object of the present invention is to provide a design support apparatus capable of improving the design efficiency of the apparatus.

In order to achieve the above object, the present invention shares a signal between a control device that transmits a display signal, an old HMI device that receives the display signal and displays a display product on a screen, and a gateway. A first network comprising a first common memory that
A second network including a second common memory for sharing a signal between the gateway and the new HMI device that receives the display signal and displays a display article on a screen;
The gateway is configured to directly transfer the signal of each address of the first common memory to each address after the head address specified in the second common memory without changing the relative position between the addresses. In the system, a design support device for supporting the design of the new HMI device,
An acquisition unit that acquires old plant control management specification information in which an old display signal name associated with a display article of the old HMI device and an address of the first common memory storing the display signal are associated;
Based on the old plant control management specification information and the head address, the address of the first common memory for storing the display signal can be used in the second common memory without changing the relative position between the addresses. New plant control management specification information of the new HMI device is generated by associating the new address converted into the address format with the new display signal name obtained by converting the old display signal name into a name format usable in the new HMI device. And a conversion unit.

  Further, from the new plant control management specification information, the information includes the new display signal name associated with the display article of the new HMI device, and the new address associated with the new display signal name, A tag variable information generating unit that generates tag variable information converted into a file format that can be read by the new HMI device.

  According to the present invention, the gateway transfers the signal of each address of the first common memory to each address of the second common memory without changing the relative position between the addresses. Further, the conversion unit is configured to use an address format that can be used in the second common memory without changing a relative position between the addresses of the first common memory that stores the display signal, based on the old plant control management specification information. The new plant control management specification information converted into is generated. By using this new plant control management specification information, the display signal transmitted from the control device of the old network can be transferred to the new network as it is, and then diverted and assigned as a signal on the new network. It is possible to reduce the load and improve the design efficiency of the new HMI device.

It is a block diagram which shows the structure of the control monitoring system 10 to which the design support apparatus 1 which concerns on Embodiment 1 of this invention was applied. It is the figure which showed an example of the monitoring screen displayed on the new HMI apparatus. It is a figure for demonstrating the data transfer between the networks by the gateway 6. FIG. It is a block diagram which shows the structure of the design assistance apparatus 1 which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the old plant control management specification information 40 produced | generated from the screen information of the old HMI apparatus 5. It is a figure which shows the example of conversion from the old plant control management specification information by the signal and signal name conversion part 43 to new plant control management specification information. 5 is a flowchart showing a processing routine for converting old plant control management specification information to generate new plant control management specification information in the design support apparatus 1 according to Embodiment 1 of the present invention. It is a flowchart which shows the process routine in which the design support apparatus 1 which concerns on Embodiment 1 of this invention produces | generates tag variable information.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In addition, the same code | symbol is attached | subjected to the element which is common in each figure, and the overlapping description is abbreviate | omitted.

Embodiment 1 FIG.
<System Configuration of Embodiment 1>
FIG. 1 is a configuration diagram showing a configuration of a control monitoring system 10 to which a design support apparatus 1 according to Embodiment 1 of the present invention is applied.

  As shown in FIG. 1, the control monitoring system 10 to which the design support apparatus 1 according to the first embodiment is applied includes an existing old network 2 as a first network and a new network 3 as a second network.

  The old network 2 and the new network 3 are networks that can ensure data simultaneity by scan transmission (periodic broadcast transmission) using a common memory system in order to realize high reliability and real-time performance. Specifically, this is a network including a common memory in which a memory is arranged in each node on a network having a plurality of nodes and virtually shares the same memory space by periodically exchanging information of each memory. Further, the capacity of the common memory (second common memory) of the new network 3 is larger than the capacity of the common memory (first common memory) of the old network 2, and the communication speed of the new network 3 is faster than that of the old network 2. .

  The old network 2 is connected with a control device 4, an old HMI device 5, and a gateway 6 that share the first common memory. Connected to the new network 3 are a gateway 6 sharing a second common memory and a new HMI device 7.

(New and old network)
In the old network 2, a display signal is transmitted from the control device 4 to the old HMI device 5 and an operation signal is transmitted from the old HMI device 5 to the control device 4 via the first common memory.

  The old HMI device 5 is replaced with the new HMI device 7 due to aging. Before the replacement, the old HMI device 5 displays a monitoring screen based on the screen information stored therein, and generates an operation signal based on the operation of the monitoring screen by the user, via the first common memory. The generated operation signal is transmitted to the control device 4. Further, the old HMI device 5 displays the display article on the monitoring screen based on the display signal received from the control device 4 via the first common memory. The monitoring screen includes a screen that is used for the user to monitor the plant that is the control target, and a screen that is used for the user to operate the plant that is the control target.

  The control device 4 controls various plant devices (not shown) based on the operation signal received from the old HMI device 5 via the first common memory. Further, the control device 4 generates a display signal for displaying the display article on the monitoring screen of the old HMI device 5 and transmits the display signal generated via the first common memory to the old HMI device 5.

  By the way, when the old HMI device 5 connected to the old network 2 is replaced with the new HMI device 7 connected to the new network 3, the old network 2 and the new network 3 have different communication standards. It is difficult to connect the new HMI device 7 directly to the old network 2, and it is also difficult to directly connect the control device 4 connected to the old network 2 to the new network 3. Therefore, a gateway 6 that can be simultaneously connected to the new and old networks is provided, and an operation signal from the new HMI device 7 and a display signal from the control device 4 are transferred between the new and old networks via the gateway 6.

  The gateway 6 is configured to transfer (copy) the signal of each address of the first common memory to each address after the head address designated by the second common memory without changing the relative position between the addresses. Yes.

  The new HMI device 7 is connected to the control device 4 via the old and new networks by being replaced from the old HMI device 5. The new HMI device 7 displays a monitoring screen based on the tag variable information and monitoring screen information stored therein. The monitoring screen includes a screen that is used for the user to monitor the plant that is the control target, and a screen that is used for the user to operate the plant that is the control target.

  Further, the new HMI device 7 generates an operation signal based on the operation of the monitoring screen by the user, and transmits the generated operation signal to the control device 4 through the old and new networks. Further, the new HMI device 7 displays the display article on the monitoring screen based on the display signal received from the control device 4 via the common memory of the old and new networks.

  The display signal transmitted from the control device 4 to the new HMI device is transmitted via the common memory of the old and new networks. The transmission method of the operation signal transmitted from the new HMI device 7 to the control device 4 is the common memory. It is not limited to the periodic transmission according to, but may be aperiodic message transmission according to the TCP / IP or UDP / IP standard protocol.

  FIG. 2 is a diagram illustrating an example of a monitoring screen displayed on the new HMI device 7. The old HMI device 5 also has a similar monitoring screen. As shown in FIG. 2, the displayed monitoring screen displays a display frame indicating an area for displaying a display article corresponding to an operation end of a plant device such as a heater or a pump, and each operation end includes An operation terminal name 21 and an operation display item 22 are displayed. Also, various display products 23 are arranged on the monitoring screen. When the user presses the display product 23 on the monitoring screen, an operation signal corresponding to the pressed display product 23 is generated. To do.

(gateway)
FIG. 3 is a diagram for explaining data transfer between networks by the gateway 6. As described above, the gateway 6 transfers (copies) the signal of each address of the first common memory 31 to each address after the start address designated by the second common memory without changing the relative position between the addresses. To do. Transfer is performed in units of one block, and one block is in units of 64 words.

  In the example shown in FIG. 3, the address notation of the first common memory 31 is AW0 to AW32767, and the address notation of the second common memory 32 is XW0 to XW65536. The second common memory 32 has an address area twice that of the first common memory 31. Display signals from the control device 4 to the old HMI device 5 are assigned to address areas AW1000 to AW2000. XW2000 is designated as the head address, and the data (display signal) stored in the address area of AW1000 to AW2000 of the first common memory 31 is relative to the address area of XW2000 to XW3000 of the second common memory 32. Transferred (copied) without changing

(Design support equipment)
FIG. 4 is a configuration diagram showing the configuration of the design support apparatus 1 according to the first embodiment of the present invention. The design support apparatus 1 is a general-purpose computer including a processor, a memory, and an input / output interface. The functions of the units shown in FIG. 4 are realized by the processor executing a predetermined program stored in the memory.

  The input / output device 41 includes an input device such as a keyboard and a mouse operated by a user, and an output device such as a display. The input / output device 41 transmits a signal according to the operation of the user's input device to the acquisition unit 42, the editing unit 45, and the tag variable information generation unit 46. In addition, a signal from the editing unit 45 is output to the output device.

  The acquisition unit 42 acquires the old plant control management specification information 40 according to the acquisition signal from the input / output device 41. The old plant control management specification information 40 includes information associated with at least an old display signal name associated with the display article of the old HMI device 5 and an address of the first common memory storing the display signal. 5 is generated based on the screen information stored in 5. The old plant control management specification information 40 can be generated, for example, by using a method described in Japanese Patent No. 5772639, Japanese Patent Application Laid-Open No. 2014-48993, and the like.

  The elements included in the old plant control management specification information 40 will be described. FIG. 5 is a diagram illustrating an example of the old plant control management specification information 40 generated from the screen information of the old HMI device 5.

  The old plant control management specification information 40 illustrated in FIG. 5 includes a screen number 51 that is the number of the monitoring screen displayed on the old HMI device 5 and a number unique to the supplies (display supplies and operation supplies) on the monitor screen. A product number 52, product types 53 and 54 for uniquely identifying the product type, a comment 55 which is a description of the product (for example, the name of the product), an address 56 of the first common memory in which the operation signal is stored, and an operation signal The old operation signal name 57 indicating the name of the display signal, the address 58 of the first common memory in which the display signal is stored, and the old display signal name 59 indicating the name of the display signal are included.

  One record of the old plant control management specification information 40 is configured by information associated with the above-described elements. Each record of the old plant control management specification information 40 can specify a combination of three data of a monitor screen number, a product-specific product number, and a product type as a key.

  Although omitted in FIG. 5, the plant control management specification information element may include product position information and product attribute information on the monitoring screen. The attribute information includes, for example, the color of the operation button included in the article, the display name for displaying on the button, and the like.

  Returning to FIG. The signal / signal name conversion unit 43 generates new plant control management specification information for designing the new HMI device 7 from the old plant control management specification information 40.

  Specifically, the signal / signal name conversion unit 43 converts the address 58 of the first common memory storing the display signal into an address format usable in the second common memory without changing the relative position between the addresses. Generate a new address. Further, the signal / signal name conversion unit 43 generates a new display signal name obtained by converting the old display signal name 59 into a name format that can be used by the new HMI device 7. Then, the signal / signal name conversion unit 43 associates the generated new address with the new display signal name, and generates new plant control management specification information. The head position of the address for storing the display signal on the second common memory is the same address as the head address specified in the gateway 6 described above.

  Further, the signal / signal name conversion unit 43 converts the address 56 and the old operation signal name 57 of the first common memory for storing the operation signal in the same manner as the display signal described above, and includes it in the new plant control management specification information. . Further, the screen number 51, the product number 52, the product types 53 and 54, and the comment 55 of the old plant control management specification information 40 are diverted to the new plant control management specification information.

  FIG. 6 is a diagram illustrating an example of diverting old plant control management specification information by the signal / signal name conversion unit 43 to new plant control management specification information.

  The screen number 51, the product number 52, the product types 53 and 54, and the comment 55 of the old plant control management specification information are respectively changed to the screen number 61, the product number 62, the product types 63 and 64, and the comment 65 of the new plant control management specification information. It is diverted (copied) as it is.

  The address 56 of the first common memory where the operation signal of the old HMI device 5 is stored and the address 58 of the first common memory where the display signal is stored are respectively changed without changing the relative position between the addresses of each record (the address is changed). Are converted into an address format usable in the second common memory, and become new addresses 66 and 68. It is assumed that the conversion rule is set in advance.

  The old operation signal name 57 indicating the name of the operation signal of the old HMI device 5 and the old display signal name 59 indicating the name of the display signal are each converted into a name format that can be used by the new HMI device 7, and the new operation signal name 67, the new display signal name 69. It is assumed that the conversion rule is set in advance.

  The storage unit 44 stores the new plant control management specification information generated by the signal / signal name conversion unit 43.

  FIG. 7 is a flowchart showing a processing routine for converting old plant control management specification information and generating new plant control management specification information in the design support apparatus 1 according to Embodiment 1 of the present invention. This processing routine is executed according to the income signal from the input / output device 41.

  In the processing routine shown in FIG. 7, first, in step S <b> 100, when the acquisition unit 42 receives an acquisition signal from the input / output device 41, the acquisition unit 42 acquires old plant control management specification information 40.

  Next, in step S110, the signal / signal name conversion unit 43 acquires the number of records (number of products) N from the old plant control management specification information 40, and substitutes 1 as an initial value for a variable i indicating the record number.

  Next, in step S120, the signal / signal name conversion unit 43 determines whether or not the determination condition i ≦ N is satisfied.

  If it is determined in step S120 that i ≦ N, the signal / signal name conversion unit 43 acquires the i-th record from the old plant control management specification information 40 in step S130. The signal / signal name conversion unit 43 uses the first common memory address 56 for storing the operation signal included in the i-th record and the first common memory address 58 for storing the display signal in the second common memory, respectively. Convert to a possible address format to make new addresses 66 and 68. Here, the conversion rule is defined so as not to change the relative position of the address between the records.

  In step S130, the signal / signal name conversion unit 43 further includes an old operation signal name 57 indicating the name of the operation signal of the old HMI device 5 included in the i-th record, and an old display signal name 59 indicating the name of the display signal. Are converted into a name format that can be used by the new HMI device 7, respectively, to obtain a new operation signal name 67 and a new display signal name 69.

  Further, in step S130, the signal / signal name converter 43 converts the screen number 51, the product number 52, the product types 53 and 54, and the comment 55 included in the i-th record into the screen number 61, the product number 62, and the product type. 63 and 64 and the comment 65 are used as they are.

  In step S140, i + 1 is substituted for variable i, and the processing is continued from step S120. When conversion for all records is completed and it is determined in step S120 that i> N, the new plant control management specification information is stored in the storage unit 44 (step S150). Thereafter, this routine is terminated.

  Returning to FIG. The new plant control management specification information stored in the storage unit 44 can be edited based on the operation of the user. The editing unit 45 edits the new plant control management specification information in accordance with the editing signal from the input / output device 41. For example, the new address 66 of the second common memory in which the operation signal is stored is edited by the user's operation.

  From the new plant control management specification information, the tag variable information generation unit 46 creates a new display signal name 69 associated with the display product and a new address associated with the new display signal name 69 for each display product of the new HMI device 7. 68, and tag variable information converted into a file format that can be read by the new HMI device 7 is generated. The tag variable information preferably includes a new operation signal name 67 related to the operation signal and a new address 66 associated with the new operation signal name 67.

  FIG. 8 is a flowchart illustrating a processing routine in which the design support apparatus 1 according to Embodiment 1 of the present invention generates tag variable information. This processing routine is executed for each tag variable information generation signal from the input / output device 41.

  In the processing routine shown in FIG. 8, first, in step S <b> 200, the tag variable information generation unit 46 acquires new plant control management specification information from the storage unit 44.

  Next, in step S210, the tag variable information generation unit 46 acquires the number of records (the number of supplies) N from the new plant control management specification information, and substitutes 1 as an initial value for a variable i indicating the record number.

  Next, in step S220, the tag variable information generation unit 46 determines whether or not the determination condition i ≦ N is satisfied.

  If it is determined in step S220 that i ≦ N, in step S230, the tag variable information generation unit 46 acquires the i-th record from the new plant control management specification information. The tag variable information generation unit 46 includes a new display signal name 69 associated with the display article of the i-th record and a new address 68 associated with the new display signal name 69, and can be read by the new HMI device 7. Generate tag variable information converted to file format. The tag variable information may include a new operation signal name 67 and a new address 66 related to the operation signal.

  In step S240, i + 1 is substituted into the variable i, and the processing is continued from step S220. When conversion for all the records is completed and it is determined in step S220 that i> N, the tag variable information generation unit 46 outputs tag variable information 47 (step S250). Thereafter, this routine is terminated.

  The output tag variable information 47 is set in the new HMI device 7. By setting the tag variable information, the new HMI device 7 receives the display signal from the second common memory, acquires the new display signal name corresponding to the display signal from the tag variable information, and associates it with the new display signal name. The signal contents can be reflected on the display article on the monitor screen.

(effect)
As described above, according to the system of the present embodiment, the first common memory and the second common memory 32 have different address systems, and each display signal transmitted by the control device 4 is transmitted from the first common memory by the gateway 6. It is transferred as it is to the second common memory. That is, the configuration (arrangement) of the addresses 58 on the first common memory of each display signal is followed by the configuration (arrangement) of the new addresses 68 of the respective display signals on the second common memory.
In the present invention, paying attention to this point, the signal / signal name conversion unit 43 assigns the address 58 on the first common memory for each display signal according to a conversion rule that specifies the head address and does not change the relative position between the addresses. After conversion, a new address 68 on the second common memory is automatically assigned. Therefore, regarding the address design of the display signal of the new HMI device 7, it is not necessary to manually assign a new address on the second common memory, and the design efficiency of the new HMI device 7 can be improved.
In addition, since the new HMI device 7 in which the tag variable information 47 is set can directly reference (reuse) each display signal transferred from the first common memory to the second common memory as a display signal on the new network 3. The load on the new network 3 can be reduced without duplication of display signals on the second common memory. Further, a dedicated transfer program is not required for receiving the display signal of the new HMI device 7.

DESCRIPTION OF SYMBOLS 1 Design support apparatus 2 Old network 3 New network 4 Control apparatus 5 Old HMI apparatus 6 Gateway 7 New HMI apparatus 10 Control monitoring system 21 Name of operation end 22 Operation display item 23 Display article 31 First common memory 32 Second common memory 40 Old plant control management specification information 41 Input / output device 42 Acquisition unit 43 Signal / signal name conversion unit 44 Storage unit 45 Editing unit 46 Tag variable information generation unit 47 Tag variable information 51, 61 Screen number 52, 62 Product number 53, 54, 63, 64 Product type 55, 65 Comment 56 Address of first common memory 57 where operation signal is stored 57 Old operation signal name 58 Address of first common memory where display signal is stored 59 Old display signal name 66 Operation signal is stored New address of second common memory 67 New operation signal name 68 Display signal New address 69 New display signal name of the second common memory to be

Claims (2)

A control device that transmits a display signal; an old HMI device that receives the display signal and displays a display article on a screen; and a first network that includes a first common memory that shares the signal with the gateway;
A second network including a second common memory for sharing a signal between the gateway and the new HMI device that receives the display signal and displays a display article on a screen;
The gateway is configured to directly transfer the signal of each address of the first common memory to each address after the head address specified in the second common memory without changing the relative position between the addresses. In the system, a design support device for supporting the design of the new HMI device,
An acquisition unit that acquires old plant control management specification information in which an old display signal name associated with a display article of the old HMI device and an address of the first common memory storing the display signal are associated;
Based on the old plant control management specification information and the head address, the address of the first common memory for storing the display signal can be used in the second common memory without changing the relative position between the addresses. New plant control management specification information of the new HMI device is generated by associating the new address converted into the address format with the new display signal name obtained by converting the old display signal name into a name format usable in the new HMI device. A conversion unit to
A design support apparatus comprising: From the new plant control management specification information, the information includes the new display signal name associated with the display article of the new HMI device and the new address associated with the new display signal name. A tag variable information generation unit for generating tag variable information converted into a file format readable by the device;
The design support apparatus according to claim 1, further comprising:

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