JP6006968B2 - Equipment operation system and equipment control method - Google Patents

Description

The present invention relates to equipment operating system and equipment control how, in particular, on the operation of the equipment through the wireless communications.

  In production facilities such as factory process lines, operation panels are generally installed near each device and machine, and devices are operated using switches attached to the operation panel or wired touch screens. . For this reason, fixed or semi-fixed operation panels are installed for each device or area, and installation costs and maintenance costs of the operation panels account for a large proportion. When operating a device away from such a fixed or semi-fixed operation panel, two persons, one person monitoring the state of the machine and one person standing in front of the operation panel The linked operation is necessary.

  In response to such problems, in recent years, with the development of mobile terminals and tablet terminals, communication systems using wireless communication such as a wireless LAN (Local Area Network) have become common. In production facilities such as steel plants and rolling facilities, a communication method using a wireless LAN, an information / status indicator, a monitoring device, a sensor, and the like have been developed (for example, see Patent Document 1).

  As disclosed in Patent Document 1, by making the equipment control system wireless, it is possible to easily construct a network, and there is a merit that work such as wiring is unnecessary. If a lightweight portable terminal or tablet terminal can have the same function as the operation panel, it can be carried around, eliminating the need to install an operation panel for each device, greatly increasing the installation and maintenance costs of the operation panel. To decrease.

  It is also possible to move while holding the terminal or attach the terminal to a moving device. In addition, if the wireless terminal is in a range where wireless communication is possible, it is possible to display and operate the status of devices and machines from anywhere, and it is possible for one person to perform work that could not be operated without cooperation by two or more people. This will also lead to a reduction in personnel costs.

JP 2007-116424 A

  However, the wireless communication is unstable due to the influence of the surrounding environment, and therefore the reliability is lower than the wired communication method. Further, in a terminal such as a tablet terminal that performs an operation using a touch screen, disturbances such as water droplets and electromagnetic waves can cause erroneous operation and malfunction.

  In addition, since the wireless terminal can be carried freely, it is possible to operate devices that cannot be seen from the place where the operation is performed or devices at a remote location. For this reason, an accident may occur due to an erroneous operation without confirming a device far away from the wireless terminal. In order to solve such problems, measures and interlock techniques are required to prevent accidents due to erroneous operations or malfunctions when using a wireless terminal as a device or machine operation device.

  Note that the above-described problems are not limited to the case via wireless communication, but can be a problem similarly when using a portable information processing terminal as an operation terminal by flexibly connecting to a wired communication. . The present invention addresses the above-described problems, and an object thereof is to improve operation reliability in device operation via a portable information processing terminal.

One aspect of the present invention, there is provided a facility control system for operating the equipment by transmitting the operation information to the control information processing unit for controlling the equipment from a portable information processing terminal, the portable information processing terminal itself recognizing the area recognizing unit range location belongs as the area, based on a recognition result of the area, the operation information limiting unit for limiting the transmission of the operation information from the portable information processing terminal, the area the recognition results and a area notifying unit for notifying the control information processing device, the control information processing device, a equipment control unit for controlling the equipment according to the operation information received from the portable information processing terminal, wherein operation information and each for each area of identifying the area with reference to the operation target and the area corresponding information associated with permitted, information indicating the operation target included in the operation information If, based on the information indicating the recognition result of the area obtained from the area information section, viewed including an operation determination section for determining whether operation in accordance with the operation information, the operation information limiting unit, the Referring to the area correspondence information, if the operation for the operation target input by the user is not permitted in the recognized area, transmission of the operation content input by the user to the control information processing apparatus is prohibited. This restricts transmission of the operation information from the portable information processing terminal .

  By using the present invention, it becomes possible to improve the reliability of operation in device operation via a portable information processing terminal.

1 is a diagram illustrating an overall configuration of a system according to an embodiment of the present invention. It is a figure which shows the area which concerns on embodiment of this invention notionally. It is a figure which shows the function structure of the controller for control which concerns on embodiment of this invention. It is a figure which shows the function structure of the radio | wireless operation terminal which concerns on embodiment of this invention. It is a figure which shows the area corresponding | compatible information which concerns on embodiment of this invention. It is a figure which shows the area recognition information which concerns on embodiment of this invention. It is a figure which shows the area recognition threshold value information which concerns on embodiment of this invention. It is a flowchart which shows the operation | movement at the time of the radio | wireless operation terminal which concerns on embodiment of this invention transmits an operation command. It is a figure which shows the example of the information contained in the operation command which concerns on embodiment of this invention. It is a flowchart which shows the operation | movement when the radio | wireless operation terminal which concerns on embodiment of this invention recognizes an area. It is a flowchart which shows operation | movement at the time of the controller for control concerning embodiment of this invention processing an operation command. It is a figure which shows the example of the information contained in the status information which concerns on embodiment of this invention. It is a figure which shows the correlation information of the positioning range which concerns on other embodiment of this invention, and an area. It is a figure which shows the concept of the area which concerns on other embodiment of this invention, and an area identification code | symbol part. It is a figure which shows the correlation information of the access point and area which concern on other embodiment of this invention. It is a flowchart which shows the operation | movement of the display process of GUI in the radio | wireless operation terminal which concerns on other embodiment of this invention. It is a figure which shows the hardware constitutions of the radio | wireless operation terminal which concerns on embodiment of this invention, and the controller for control.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the present embodiment, a facility operation system that operates a large-scale production facility having a plurality of operation target parts and having operation ends provided at various positions for each operation target part via a wireless terminal. explain. FIG. 1 is a diagram illustrating an overall configuration of the facility operation system according to the present embodiment. As shown in FIG. 1, the facility operation system according to the present embodiment includes a plurality of wireless operation terminals 100, a plurality of access points 200, a control network 300, an operation screen 301, a database 302, a control controller 400, and a control target. Production equipment 500 is included.

  The wireless operation terminal 100 is a portable information processing terminal such as a smartphone, a PDA (Personal Digital Assistant), or a tablet terminal, and displays a GUI (Graphical User Interface) for operating the production facility 500 by displaying the GUI (Graphical User Interface). Functions as an operation terminal.

  The wireless operation terminal 100 communicates with any one of the plurality of access points 200 via a wireless communication interface such as a wireless LAN (Local Area Network) or Bluetooth (registered trademark), and the content of the operation input via the GUI. Is transmitted as an operation command which is operation information. For this reason, in the equipment operation system according to the present embodiment, it is possible to operate the production equipment 500 via the wireless operation terminal 100 even at positions other than the position of the operation screen 301 that is a fixed operation end. is there.

  As described above, the access point 200 is an access point for a wireless communication interface such as a wireless LAN or Bluetooth (registered trademark). The access point 200 is installed in various places around the production facility 500 and performs wireless communication with the nearby wireless operation terminal 100. The access point 200 is provided for each area obtained by dividing the operating range of the facility operation system into a plurality of areas.

  Thereby, the operation command transmitted via each access point 200 functions only with respect to the operation target part contained in each area among the operation target parts of the production facility 500. This is one of the gist according to the present embodiment. In order to realize this, the wireless operation terminal 100 has a function of determining whether an area to which the wireless operation terminal 100 belongs corresponds to a transmission destination of the operation command when transmitting the operation command in accordance with a user operation. .

  FIG. 2 is a diagram illustrating the concept of area division in the facility operation system according to the present embodiment. As shown in FIG. 2, each access point 200 is arranged corresponding to each area. Then, the wireless operation terminal 100 that wirelessly communicates with the access point 200 corresponding to each area and transmits an operation command can transmit the operation command to the operation target part of the production facility corresponding to each area. .

  The control network 300 is a wired network that connects each part in the facility operation system, and connects the access point 200, the operation screen 301, the database 302, and the control controller 400 to each other. As the control network 300, for example, Ethernet (registered trademark), Devicenet, and Profibus (registered trademark) are used.

  The operation screen 301 is an operation end connected to the control controller 400 via the control network 300, and is fixedly arranged at a predetermined position with respect to the production facility 500. The operation screen 301 is a user interface for operating the production facility 500 that has been used conventionally, and conventionally, the user can operate the production facility 500 only at the position where the operation screen 301 is disposed. .

  In the facility operation system according to the present embodiment, the database 302 stores information necessary for realizing narrowing down of operation target parts for each area as described above. The control controller 400 is a control information processing apparatus that controls the production facility 500 based on operation commands transmitted from the wireless operation terminal 100 and the operation screen 301. In addition, when controlling the production facility 500 based on the operation command transmitted from the wireless operation terminal 100, the control controller 400 determines the validity of the operation command according to the area to which the wireless operation terminal 100 belongs. .

  Next, a functional configuration of the control controller 400 according to the present embodiment will be described. As shown in FIG. 3, the control controller 400 according to the present embodiment includes an equipment control unit 401, an operation availability determination unit 402, a wireless terminal normal monitoring unit 403, a command reception unit 404, a display information transmission unit 405, and a network I / O. F406 is included.

  In the control controller 400, the facility control unit 401 outputs a control signal for controlling the production facility 500 based on the operation command transmitted from the wireless operation terminal 100. In addition, the equipment control unit 401 applies the operation determination result based on the area to which the wireless operation terminal 100 that is the operation command transmission source belongs, and narrows down the control signal output.

  In order to realize the narrowing down of the control signal output by the equipment control unit 401 described above, the operation availability determination unit 402 has an area to which the wireless operation terminal 100 that is a transmission source of the operation command belongs and an operation target part by the operation command. It is determined whether it is compatible. The wireless terminal normal monitoring unit 403 periodically confirms whether or not the wireless operation terminal 100 is operating normally by regularly communicating with the wireless operation terminal 100. In addition, the wireless terminal normal monitoring unit 403 also acquires information on the area to which the wireless terminal 100 belongs in confirming the operation state of the wireless operation terminal 100.

  The command receiving unit 404 receives an operation command from the wireless operation terminal 100 via the network. The command receiving unit 404 inputs the received operation command to the equipment control unit 401. The display information transmission unit 405 transmits information for updating the GUI displayed on the wireless operation terminal 100 via the network in accordance with the control state of the production facility 500 by the facility control unit 401. The network I / F 406 is an interface for the control controller 400 to communicate via the control network 300.

  Next, the functional configuration of the wireless operation terminal 100 will be described. As shown in FIG. 4, the wireless operation terminal 100 according to the present embodiment includes a terminal control unit 101, an operation availability determination unit 102, a terminal function normality monitoring unit 103, a command transmission unit 104, a display information reception unit 105, a network I / O. F106 and area recognition unit 107 are included.

  The terminal control unit 101 causes the wireless operation terminal 100 to display information on a display unit such as an LCD (Liquid Crystal Display), obtains an operation performed by the user on the operation unit such as a touch panel, and performs operations of the entire wireless operation terminal 100. Control. On the display unit of the wireless operation terminal 100, a GUI corresponding to the operation target part of the production facility 500 selected by the user is displayed. Thereby, the user can use the wireless operation terminal 100 as an operation terminal of the production facility 500.

  The terminal control unit 101 has a function of transmitting an operation command via a network based on an operation by a user. At that time, the terminal control unit 101 applies the operation determination result based on the area to which its own wireless operation terminal 100 belongs, and narrows down operation command transmission. In order to realize narrowing down of the control signal output by the terminal control unit 101 described above, the operation availability determination unit 102 corresponds to the area to which the wireless operation terminal 100 belongs and the operation target part to which the operation command is transmitted. Determine whether or not. That is, the terminal control unit 101 and the operation availability determination unit 102 function as an operation information restriction unit in conjunction with each other.

  The terminal function normality monitoring unit 103 periodically checks the state of the terminal control unit 101 to confirm that the wireless operation terminal 100 is operating normally, and periodically transmits it to the control controller 400. Further, the terminal function normality monitoring unit 103 transmits information on the area recognized by the area recognition unit 107 to the control controller 400. That is, the terminal function normality monitoring unit 103 also functions as an area notification unit.

  The command transmission unit 104 transmits an operation command to the control controller 400 via the network according to the control of the terminal control unit 101. The display information receiving unit 105 displays information for displaying a part that changes according to the state of the production facility 500 in the GUI of the production facility 500 displayed on the display unit of the wireless operation terminal 100 or the state of the production facility 500. Or the status information of the production facility 500 for the GUI currently displayed (hereinafter referred to as display update information) is received from the control controller 400 via the network. The display information receiving unit 105 inputs the received display update information to the terminal control unit 101. Based on the display update information acquired in this way, the terminal control unit 101 updates the GUI displayed on the display unit of the wireless terminal 100.

  The network I / F 106 is a wireless communication interface for the wireless operation terminal 100 to communicate with the access point 200. The network I / F 106 is configured to be able to communicate with devices connected to the control network 300 via wireless communication with the access point 200. As a result, the wireless operation terminal 100 capable of performing wireless communication with the access point 200 can also communicate with devices connected to the control network 300.

  The network I / F 106 connects to the access point 200 having the strongest radio wave among the plurality of access points 200 that have received the radio wave. The network I / F 106 is connected to the control network 300 via wireless communication with the access point 200. Therefore, when connected to the access point 200, the network I / F 106 acquires address information in the control network 300 such as an IP (Internet Protocol) address from the access point 200.

  The area recognition unit 107 recognizes the area to which the wireless operation terminal 100 belongs. The area recognizing unit 107 according to the present embodiment recognizes an area to which its own wireless operation terminal 100 belongs based on the radio field strength of a plurality of access points 200 recognized by the network I / F 106 that is a wireless communication interface.

  Next, an example of information stored in the database 302 according to the present embodiment will be described. FIG. 5 is a diagram showing area correspondence information indicating a correspondence relationship between the operation target part and the area among the information stored in the database 302. As shown in FIG. 5, the area correspondence information includes “area” information for identifying each area as shown in FIG. 2, and a production facility 500 that can be operated by the wireless operation terminal 100 belonging to each area. Is associated with information on “manipulatable part” indicating the operation target part. In the example of FIG. 5, the operation target parts of the production facility 500 that can be operated by the wireless operation terminal 100 belonging to “area 001” are “part 001” and “part 002”.

  Based on the area correspondence information shown in FIG. 5, the operation availability determination unit 402 of the control controller 400 associates the area to which the wireless operation terminal 100 that is the transmission source of the operation command belongs with the operation target portion by the operation command. Determine whether or not. Further, based on the area correspondence information shown in FIG. 5, the operation availability determination unit 102 of the wireless operation terminal 100 corresponds to the area to which its own wireless operation terminal 100 belongs and the operation target part that transmits the operation command. Judge whether or not.

  FIG. 6 is a diagram showing area recognition information used for the area recognition unit 107 of the wireless operation terminal 100 to recognize the area to which the wireless operation terminal 100 belongs, among the information stored in the database 302. FIG. 7 is a diagram showing area recognition threshold information used for the area recognition unit 107 of the wireless operation terminal 100 to recognize and determine the area to which the wireless operation terminal 100 belongs among the information stored in the database 302. It is.

  As shown in FIG. 6, the area recognition information includes “area” information for identifying each area as shown in FIG. 2, and the network I / F 106 of the wireless operation terminal 100 detects radio waves in each area. “Access point” information for identifying a possible access point 200 is associated. For example, the wireless operation terminal 100 belonging to “area 1” in FIG. 2 can detect the radio waves of the access point 200 corresponding to the area 2 in addition to the radio waves of the access point 200 corresponding to the area 1.

  Therefore, as shown in FIG. 6, in the area recognition information, a plurality of access points are associated with one area. The area recognizing unit 107 acquires the identification information of the access point 200 where the radio wave is detected from the network I / F 106, and refers to the information as shown in FIG.

  The area recognition threshold information is information for determining the area recognized based on the area recognition information as described above based on the radio wave intensity of each access point. As shown in FIG. 2 is associated with “area” information for identifying each area as shown in FIG. 2 and “radio field intensity threshold” information indicating the radio wave threshold of the access point to be detected in each area. ing.

  The area recognizing unit 107 acquires the detected radio field intensity from the network I / F 106 for each access point, and whether the radio field intensity threshold associated with the area recognized based on the area recognition information is satisfied. By confirming, the recognized area is determined.

  Next, an operation when the wireless operation terminal 100 according to the present embodiment transmits an operation command according to a user operation will be described with reference to a flowchart of FIG. As illustrated in FIG. 8, the terminal control unit 101 of the wireless operation terminal 100 first receives an operation from an operation unit such as a touch panel of the wireless operation terminal 100 (S801). At this time, the terminal control unit 101 acquires information indicating a target part to be operated among the respective units of the production facility 500, in addition to the operation content information.

  The terminal control unit 101 that has received the operation next acquires area information from the area recognition unit 107 (S802). The area information acquisition process by the area recognition unit 107 will be described later. When the area information is acquired from the area recognition unit 107, the terminal control unit 101 instructs the operation availability determination unit 102 to determine whether the operation is possible (S803). At this time, the terminal control unit 101 inputs the area information acquired from the area recognition unit 107 and the operation target site information acquired in S801 to the operation availability determination unit 102.

  Based on the instruction from the terminal control unit 101 and the information acquired from the terminal control unit 101, the operation availability determination unit 102 refers to the area correspondence information described with reference to FIG. The operation availability determination unit 102 refers to the “area” information in the information illustrated in FIG. 5 and extracts an area record corresponding to the area information acquired from the terminal control unit 101. Then, referring to the “operable part” of the extracted record, if the information on the operation target part acquired from the terminal control unit 101 is included in the “operable part”, it is determined that the operation is possible, and is included If not, it is determined that the operation is impossible. The operation availability determination unit 102 inputs information on the determination result to the terminal control unit 101.

  When the determination result indicating that the operation is possible is acquired from the operation availability determination unit 102 (S804 / YES), the terminal control unit 101 uses the operation command including the operation content information acquired in S801 and the information specifying the operation target part as a command. The data is transmitted to the transmission unit 104 (S805), and the process ends. Here, an example of information included in the operation command to be transmitted is shown in FIG.

  As shown in FIG. 9, the operation command transmitted in S805 includes “header information” indicating “operation command”, “operation content”, and “transmission source identifier” identifying the wireless operation terminal 100 that is the transmission source. And “operation target part” information is included. Here, as the “transmission source identifier”, for example, an IP (Internet Protocol) address, a MAC (Media Access Control) address, a number, an ID, a character string, or the like previously assigned to each operation terminal is used.

  On the other hand, when the determination result indicating that the operation is impossible is acquired from the operation enable / disable determination unit 102 (S804 / NO), the terminal control unit 101 prohibits the transmission of the operation command, cancels the operation, and displays on the display unit of the wireless operation terminal 100. An alert is displayed (S806), and the process is terminated.

  By such processing, the wireless operation terminal 100 can transmit an operation command only to the operation part corresponding to the area to which the wireless operation terminal 100 belongs, and therefore, the user who is the operator of the wireless operation terminal 100 is viewing. It is possible to prevent an operation with respect to a non-existing part, an erroneous operation with respect to an erroneous target, and the like, and realize a highly reliable operation even with an operation via wireless.

  Next, the area information acquisition operation by the area recognition unit 107 will be described with reference to the flowchart of FIG. As shown in FIG. 10, the area recognizing unit 107 measures the intensity of the radio wave received from each access point 200 by the function of the network I / F 106 that is a wireless communication interface (S1001).

  When acquiring the strength of the radio wave received from each access point 200, the area recognizing unit 107 refers to the area recognition information described in FIG. 6 based on the combination of the access points 200 from which the radio wave is received. The area to which it belongs is recognized (S1002). When the area recognizing unit 107 determines the recognition area, the area recognition threshold information described with reference to FIG. 7 is referred to, and whether the radio wave intensity of the access point determined to determine the recognized area is satisfied. It is confirmed whether or not (S1003).

  If the radio wave intensity is satisfied as a result of the determination in S1003 (S1004 / YES), the area recognition unit 107 determines the area recognized in S902 (S1005), and ends the process. For example, the area thus determined is notified in response to a request from the terminal control unit 101 in S802 of FIG. As described above, the area recognition unit 107 according to the present embodiment recognizes an area based on the radio waves of a plurality of access points.

  On the other hand, if the radio wave intensity is not satisfied as a result of the determination in S1003 (S1004 / NO), the area recognizing unit 107 discards the area recognized in S902 and determines that the area cannot be recognized. Display an alert on the display. In this case, for example, even if area information is requested from the terminal control unit 101 in S802 of FIG. 8, an alert is output.

  Next, an operation when the control controller 400 receives an operation command from the wireless operation terminal 100 will be described with reference to a flowchart of FIG. As shown in FIG. 11, when the facility control unit 401 receives an operation command via the command receiving unit 404 (S1101), the facility control unit 401 instructs the operation availability determination unit 402 to determine whether or not to operate (S1102).

  In S1102, the equipment control unit 401 operates the status information of the wireless operation terminal 100 acquired by the wireless terminal normal monitoring unit 403 periodically communicating with the wireless operation terminal 100 in addition to the received operation command information. The information is input to the availability determination unit 402. FIG. 12 shows an example of status information.

  As shown in FIG. 12, the status information includes “header information” indicating status information, “status information” indicating the state of the wireless operation terminal 100, and areas recognized by the area recognition unit 107 in the wireless operation terminal 100. And “transmission source identifier” for identifying the wireless operation terminal 100 are included. The “sender identifier” shown in FIG. 12 uses the same type of information as the sender identifier included in the operation command described in FIG. That is, when an IP address is used as the source identifier of the operation command, the IP address is also used as the source identifier of the status information.

  In S1102, the equipment control unit 401 transmits the status information of the same wireless operation terminal to the wireless terminal based on the “transmission source identifier” included in the operation command and the “transmission source identifier” door included in the status information. Obtained from the normal monitoring unit 403 and input to the operation availability determination unit 402.

  When receiving an operation availability determination instruction, the operation availability determination unit 402 receives the area correspondence described in FIG. 5 based on the “operation target part” included in the operation command and the “area information” included in the status information. With reference to the information, it is determined whether or not an operation by the user is possible. The operation availability determination unit 402 refers to the “area” information in the information illustrated in FIG. 5 and extracts an area record corresponding to the “area information” included in the status information. Then, referring to “operable part” of the extracted record, if “operation target part” included in the operation command is included in “operable part”, it is determined that the operation is possible and included. Otherwise, it is determined that the operation is impossible. The operation availability determination unit 402 inputs information of the determination result to the equipment control unit 401.

  When the operation determination result is acquired from the operation determination unit 402 (S1103 / YES), the equipment control unit 401 performs operation control according to the operation information on the operation target part based on the operation command acquired in S1101. It performs (S1104). On the other hand, when an operation impossibility determination result is acquired from the operation enable / disable determination unit 402 (S1103 / NO), the equipment control unit 401 performs error processing without performing operation control (S1105), and ends the processing.

  In S1105, the facility control unit 401 transmits, for example, an alert notification indicating that operation is impossible to the wireless operation terminal 100 via the network. Thereby, the operator of the wireless operation terminal 100 that has transmitted the operation command can recognize that the operation is prohibited.

  As described above, in the facility operation system according to the present embodiment, since the operation by the wireless operation terminal 100 is enabled, the production facility 500 can be operated from a position other than the position where the operation screen 301 is disposed. Become. Then, as conceptually shown in FIG. 2, the production facility 500 is divided into a plurality of areas, and only the operation commands from the wireless operation terminals 100 belonging to each area are processed effectively. It is possible to avoid a decrease in operation reliability due to communication.

  Furthermore, in the equipment operation system according to the present embodiment, as shown in FIG. 8, when the wireless operation terminal 100 transmits an operation command, it determines whether transmission is possible based on the area, and receives the operation command. The controller 400 determines whether control is possible based on the area to which the wireless operation terminal 100, which is the source of the operation command, belongs, so it is possible to more reliably avoid a decrease in reliability.

  As described above, in the facility operation system according to the present embodiment, it is possible to improve operation reliability in device operation via wireless communication.

  In the above embodiment, as shown in FIGS. 1 and 2, each operation target portion included in one production facility 500 is taken as an example, but a plurality of facilities arranged in the factory are operated as targets. The facility may be associated with the area to determine whether or not the operation is possible.

  In the above embodiment, as described with reference to FIG. 10, the network I / F 106 has been described as an example of recognizing an area based on the radio field strength of a plurality of access points 200 receiving radio waves. A positioning system such as GPS (Global Positioning System) may be used. In this case, as shown in FIG. 13, the area recognition unit 107 recognizes an area based on information in which a range of position information that is immediately located by GPS and area identification information are associated with each other. In addition, if the area correspondence information described in FIG. 5 is information in which information indicating the range of the positioning result by GPS and “manipulatable part” are associated with each other, the positioning result by GPS is used as it is for determining whether or not to do so. Is possible.

  In addition, by incorporating a tag reader such as a camera or RFID (Radio Frequency IDentification) in the wireless operation terminal 100, the area can be recognized by a code, an image, and a tag. FIG. 14 is a diagram illustrating a form in which information obtained by encoding information indicating an operation target part is attached to each operation target part of the production facility 500. In the example of FIG. 14, a QR code (registered trademark) 303 in which information indicating an area is encoded is pasted.

  In the example of FIG. 14, when operating the production facility 500 via the wireless operation terminal 100, the operator of the wireless operation terminal 100 first wirelessly operates the QR code (registered trademark) 303 attached to the production facility 500. Reading is performed by a camera mounted on the terminal 100. Then, the area recognition unit 107 recognizes the area to which the wireless operation terminal 100 belongs by decoding the read image of the QR code (registered trademark) 303.

  In the case of the example in FIG. 14, the wireless operation terminal 100 cannot recognize the area unless the QR code (registered trademark) 303 is read in the corresponding area. An effect can be obtained. In the case of such an aspect, if there is at least one access point 200 that transmits a strong radio wave capable of providing a wide access range without dividing the access point into a plurality as in the example of FIG. The same effect can be realized.

  The information encoded and attached for each target part of the production facility 500 may be information indicating the operation target part of the production facility 500 in addition to the information indicating the area described above. In this case, the wireless operation terminal 100 and the control computer 100 read the recognized area and the operable part by QR code (registered trademark) or RFID without using the information as shown in FIG. Based on the information, it is possible to determine whether or not direct operation is possible.

  In addition to the case where the encoded information as described above is read to recognize the area, wireless communication is performed based on image information generated by photographing an operation target part of the production facility 500 or a place in the factory. It is also possible to recognize the area to which the operation terminal 100 belongs. In this case, the database 302 includes an image obtained by photographing the operation target part of the production facility 500, each area in the factory, the feature value calculated from the image, and the “operable part” shown in FIG. Stores associated information.

  The terminal control unit 101 can be operated with reference to the information in the database 302 described above based on the image captured and generated by the camera mounted on the wireless operation terminal 100 and the feature value calculated from the image. Determine the site. In the control controller 400, the wireless terminal normal monitoring unit 403 receives the above-described image and feature value from the terminal function normal monitoring unit 103 of the wireless operation terminal 100, and refers to the information in the database 302 to operate the command. Judge the effectiveness of. Also according to such an aspect, it is possible to obtain the same effect as described above.

  In addition, since the radio communication radio wave is affected by the environment such as metal reflection and water vapor, a plurality of access points 200 are arranged on the assumption that the radio communication radio wave is connected to the access point 200 having the highest radio wave intensity. It is difficult to accurately determine the area to which the wireless operation terminal 100 belongs based on the radio wave intensity of one access point or only the connected access point.

  On the other hand, in the above embodiment, as described in FIG. 6, FIG. 7 and FIG. By setting the area recognition information and the area recognition threshold information, it is possible to accurately determine the area to which it belongs.

  However, when using a plurality of access points as described with reference to FIGS. 1 and 2, when the wireless operation terminal 100 belongs to a certain area, it is guaranteed that the wireless operation terminal 100 is connected to the access point 200 installed in that area. In this case, it is possible to determine the area to which the wireless operation terminal 100 belongs based on the connected access point 200.

  In this case, the area recognizing unit 107 acquires information for identifying the connected access point 200 from the network I / F 106, and based on the information that associates the area and the access point 200 as shown in FIG. Recognize In addition, since the range of the IP address given to the wireless operation terminal 100 is set for each access point 200, the area recognition unit 107 uses the IP assigned when the network I / F 106 connects to the access point 200. It is also possible to recognize the area based on the address.

  In this case, as described above, the control controller 400 determines whether control is possible based on the “area information” included in the status information acquired by the wireless terminal normal monitoring unit 403, and indicates the source of the operation command. Whether or not control is possible can be determined by determining the area to which the wireless operation terminal 100 belongs based on the IP address and referring to information as shown in FIG.

  Further, in the wireless operation terminal 100, when the operation command is transmitted by the process as described in FIG. 8, the user operates the terminal and is designated by the user by the function of the application software installed in the terminal. The GUI of the operation target part is displayed. At this time, since the display information receiving unit 105 of the wireless operation terminal 100 displays the latest information of the production facility 500 in the GUI, information on the state of the operation target part designated from the display information transmitting unit 406 of the control controller 400 is displayed. Receive. Thereby, the terminal control unit 101 displays the latest information of the operation target part specified by the user in the GUI of the operation target part.

  Here, the terminal control unit 101 displays the GUI display based on the determination result of the GUI display according to the area recognized by the area recognition unit 107 when displaying the GUI of the operation target part designated by the user. Can be limited. As a result, it is possible to further restrict the operation command transmission before and after, and to further improve the reliability of avoiding an erroneous operation.

  FIG. 16 is a flowchart showing the operation when the terminal control unit 101 displays the GUI of the operation target part in accordance with the user operation. As illustrated in FIG. 16, when the terminal control unit 101 receives an operation target part designation by a user operation (1601), the terminal control unit 101 acquires area information from the area recognition unit 107 (S1602), The operation is instructed to determine whether or not to operate (S1603).

  The operation enable / disable determining unit 102 determines whether or not an operation can be performed on the designated operation target part by the same process as the process described in FIG. 8, and notifies the terminal control unit 101 of the determination result. When the terminal control unit 101 obtains the determination result indicating that the operation is possible (S1604 / YES), the terminal control unit 101 receives information from the control controller 400 via the display information receiving unit 105, and displays the GUI of the designated operation target part. (S1605).

  On the other hand, when the determination result indicating that the operation is impossible is acquired (S1604 / NO), the terminal control unit 101 prohibits the GUI display of the designated operation target part, displays an alert (S1606), and ends the process. When the determination is performed at the GUI display stage as described above, the determination as to whether or not the operation command can be transmitted as described in FIG. 8 may be omitted. In this case, the terminal control unit 101 and the operation availability determination unit 102 that determine whether or not GUI display is possible function as an operation information restriction unit.

  As shown in FIG. 16, when the area recognition unit 107 recognizes the area in the wireless operation terminal 100 in addition to the mode in which the user recognizes the area after selecting the operation target part and determines whether or not to display the GUI, according to the recognition result. You may make it display the GUI of the operation target part which the terminal control part 101 determined automatically. Further, the options of the operation target part for displaying the GUI may be narrowed down in advance according to the recognition result of the area. In this way, by narrowing down the GUI that can be displayed according to the area recognition result, the above-described effects can be obtained.

  Further, in the above-described embodiment, the case where the GUI of the operation target part is displayed by the user's operation has been described as an example. However, when the GUI is displayed, the authentication process based on the user ID is performed, and only the authorized person A configuration that permits operation is also possible. In this case, the wireless operation terminal 100 determines whether or not to display the GUI of the operation target part designated by the user, according to information in which the ID for identifying the user is associated with the “operable part” shown in FIG.

  The user ID authentication function may be biometric authentication by collating fingerprints, voices, faces, irises, or the like, or authentication by collating tags such as RFID, QR code (registered trademark), and barcode. Alternatively, authentication by entering a password may be used.

  In the above embodiment, the description has been made on the assumption that the wireless operation terminal 100 performs wireless communication with the access point 200. Not only this but the same subject may arise if a portable information processor is used as an operation terminal. Accordingly, not only the communication mode between the wireless operation terminal 100 and the access point 200 but also a portable operation terminal is connected to an access point provided for each operation target part of the production facility 500 by wire. Even in this case, it is possible to obtain the same effect by applying the above embodiment.

  In such a case, as a recognition mode of the area to which the operation terminal belongs, a method of determining based on a wired access point, a method of determining by a positioning system such as GPS, the above-described code or RFID reading or It is possible to use a method of judging based on an image.

  The functions of the control controller 400 and the wireless operation terminal 100 as shown in FIGS. 3 and 4 are realized by a combination of software and hardware. With reference to FIG. 17, the hardware configuration of the control controller 400 and the wireless operation terminal 100 according to the present embodiment will be described.

  FIG. 17 is a diagram illustrating a hardware configuration for realizing the functional configurations of the control controller 400 and the wireless operation terminal 100 according to the present embodiment described in FIGS. As illustrated in FIG. 7, the control controller 400 and the wireless operation terminal 100 according to the present embodiment include the same information processing function configuration as a general server, a PC (Personal Computer), or the like. That is, the control controller 400 and the wireless operation terminal 100 according to the present embodiment include a CPU (Central Processing Unit) 10, a RAM (Random Access Memory) 20, a ROM (Read Only Memory) 30, an HDD (Hard Disk Drive) 40, and the like. An I / F 50 is connected via a bus 60.

  The CPU 10 is a calculation means, and controls the operation of the control controller 400 and the wireless operation terminal 100 as a whole. A plurality of CPUs 10 may be mounted via the bus 60. The RAM 20 is a volatile storage medium capable of reading and writing information at high speed, and is used as a work area when the CPU 10 processes information. The ROM 30 is a read-only nonvolatile storage medium and stores a program such as firmware. The HDD 40 is a non-volatile storage medium that can read and write information, and stores an OS (Operating System), various control programs, application programs, and the like. The HDD 40 may be another storage medium such as a readable / writable non-volatile memory, a volatile RAM, or a non-volatile RAM supplied with power. Alternatively, a system in which the OS, various programs, and data are read into the RAM 20 from another computer, a storage medium, or the ROM 30 at the time of power-on or startup, or initial startup, and the HDD 40 may not be mounted.

  The I / F 50 connects and controls the bus 60 and various hardware and networks. In the wireless operation terminal 100 according to the present embodiment, user interface devices such as a display unit for displaying a GUI of each part of the production facility 500 and an operation unit such as a touch panel for a user to operate are I. / F50 is connected. The network I / Fs 106 and 406 are realized by the I / F 105.

  In such a hardware configuration, a program stored in a storage medium such as the ROM 30 or the HDD 40 or an optical disk (not shown) is read into the RAM 20, or an OS and various programs are stored in the RAM 20 in advance, and the CPU 10 A software control unit is configured by performing calculations according to a program. The combination of the software control unit configured in this way and hardware constitutes a functional block that realizes the functions of the transmission control controller 400 and the wireless operation terminal 100 according to the present embodiment. Further, the control controller 400 may be an aggregate of a plurality of computers in which computers having a hardware configuration as shown in FIG. 17 are connected via a network, other interfaces, or a bus.

10 CPU
20 RAM
30 ROM
40 HDD
50 I / F
100 wireless operation terminal 101 terminal control unit 102 operation availability determination unit 103 terminal function normality monitoring unit 104 command transmission unit 105 display information reception unit 106 network I / F
107 area recognition unit 200 access point 300 control network 301 operation screen 302 database 303 QR code 400 control controller 401 device control unit 402 operation availability determination unit 403 wireless terminal normal monitoring unit 404 command reception unit 405 display information transmission unit 406 network I / F
500 production facilities

Claims (7)

A facility operation system for operating equipment by transmitting operation information from a portable information processing terminal to a control information processing apparatus that controls the equipment,
The portable information processing terminal is
An area recognition unit that recognizes the range of the place to which it belongs as an area;
An operation information restriction unit that restricts transmission of the operation information from the portable information processing terminal based on the recognition result of the area;
An area notification unit that notifies the control information processing device of the recognition result of the area,
The control information processing apparatus includes:
An equipment control unit for controlling the equipment according to operation information received from the portable information processing terminal;
Information indicating the operation target included in the operation information is acquired from the area notification unit with reference to area correspondence information in which the information for identifying the area is associated with the operation target permitted for each area. An operation availability determination unit that determines whether or not an operation according to the operation information is performed based on information indicating the recognition result of the area,
The operation information restriction unit refers to the area correspondence information, and if the operation for the operation target input by the user is not permitted in the area recognized, the control information of the operation content input by the user A facility operation system that restricts transmission of the operation information from the portable information processing terminal by prohibiting transmission to a processing device. A facility operation system for operating equipment by transmitting operation information from a portable information processing terminal to a control information processing apparatus that controls the equipment,
The portable information processing terminal is
An area recognition unit that recognizes the range of the place to which it belongs as an area;
An operation information restriction unit that restricts transmission of the operation information from the portable information processing terminal based on the recognition result of the area;
An area notification unit that notifies the control information processing device of the recognition result of the area,
The control information processing apparatus includes:
An equipment control unit for controlling the equipment according to operation information received from the portable information processing terminal;
Information indicating the operation target included in the operation information is acquired from the area notification unit with reference to area correspondence information in which the information for identifying the area is associated with the operation target permitted for each area. An operation availability determination unit that determines whether or not an operation according to the operation information is performed based on information indicating the recognition result of the area,
The operation information restriction unit refers to the area correspondence information, and operates the operation target input by the user when the operation for the operation target input by the user is not permitted in the area recognized. A facility operation system that restricts transmission of the operation information from the portable information processing terminal by prohibiting display of an operation screen. The portable information processing terminal transmits operation information to the control information processing apparatus by performing wireless communication by connecting to any of a plurality of wireless communication access points,
The facility operation system according to claim 1, wherein the area recognition unit recognizes the area based on radio waves of each of the plurality of wireless communication access points. The area recognition unit recognizes the area by a combination of the plurality of wireless communication access points from which the portable information processing terminal is receiving radio waves, and the radio field intensity of any of the wireless communication access points for each area equipment control system according to claim 3 by comparison with the signal strength being received with a defined threshold value with, which is characterized in that determining the area recognized to. A plurality of area identification code parts encoded with information for identifying the area and attached to each area;
The facility operation system according to claim 1, wherein the area recognition unit recognizes the area based on information read and decoded from the area identification code unit. A facility control method for operating equipment by transmitting operation information from a portable information processing terminal that recognizes the range of the location to which it belongs as an area to a control information processing device that controls the equipment,
The control information processing apparatus includes:
Information indicating the operation target included in the operation information received from the portable information processing terminal with reference to area correspondence information in which the information for identifying the area is associated with the operation target permitted to be operated for each area And based on the information indicating the recognition result of the area acquired from the portable information processing terminal, whether or not the operation according to the operation information is possible,
Based on the determination result of the availability of the operation, the facility is controlled according to the operation information received from the portable information processing terminal,
The portable information processing terminal is
Refer to the area correspondence information based on the recognition result of the area, and when the operation for the operation target input by the user is not permitted in the recognized area, for the control of the operation content input by the user limiting the transmission of the previous SL operation information to the control information processing device by inhibiting transmission to the information processing apparatus,
A facility control method of notifying the control information processing apparatus of the recognition result of the area. A facility control method for operating equipment by transmitting operation information from a portable information processing terminal that recognizes the range of the location to which it belongs as an area to a control information processing device that controls the equipment,
The control information processing apparatus includes:
Information indicating the operation target included in the operation information received from the portable information processing terminal with reference to area correspondence information in which the information for identifying the area is associated with the operation target permitted to be operated for each area And based on the information indicating the recognition result of the area acquired from the portable information processing terminal, whether or not the operation according to the operation information is possible,
Based on the determination result of the availability of the operation, the facility is controlled according to the operation information received from the portable information processing terminal,
The portable information processing terminal is
To refer to the area correspondence information based on the recognition result of the area and operate the operation target input by the user when the operation for the operation target input by the user is not permitted in the area. Restricting transmission of the operation information from the portable information processing terminal by prohibiting display of the operation screen of
A facility control method of notifying the control information processing apparatus of the recognition result of the area.

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