JP4501154B2 - Field equipment operation system - Google Patents

Description

  The present invention relates to a field device operation system, and more particularly to improvement of field device setting operation by a wireless portable terminal.

  Patent Document 1 discloses a configuration in which an operation confirmation unit is provided in a portable terminal device in an operation system that operates a device installed at a site using the portable terminal device.

  Patent Document 2 discloses a configuration in which wireless communication means is provided in a field device, IPv6 is assigned as a unique address, and GPS is provided as a position specifying means for the field device.

  Patent Document 3 discloses a configuration in which a field device is provided with a plurality of input / output means.

JP 2002-32166 A JP 2003-134261 A JP2004-21877

  Field devices measure and detect physical quantities such as temperature, pressure, flow rate, etc., and send them to control devices installed remotely from the measurement site. Sensor devices such as thermometers, pressure measuring devices, flow meters, and control devices It includes actuators such as valve positioners and switches that operate by receiving control signals transmitted from the plant. Various plants such as petrochemicals, foodstuffs, water and sewage, and steel manufacturing, and various buildings such as factories and buildings It is widely used in utility control systems such as air conditioning, water supply / drainage, power supply and security.

  Focusing on the transmission and reception of measurement data and control signals in these field devices, it has been generally performed via a cable in the past, but in recent years, it has been put into practical use via a wireless communication means (patents) Reference 2 and Patent Reference 3).

  FIG. 6 is a conceptual diagram of a field device operation system using such wireless communication. In FIG. 6, field devices 11 to 13 exchange measurement data and control signals with the wireless relay device 21 via wireless communication means, and field devices 14 to 16 receive the wireless relay device 22 via wireless communication means. Exchanges measurement data and control signals with The wireless relay devices 21 and 22 are connected to the control devices 41 and 42 via the cable 30.

  By the way, in setting operation of these field devices 11 to 16, an operator carries a portable terminal 50 having a human machine interface (HMI) function and goes to an installation site of the field devices 11 to 16, and the portable terminal 50 A predetermined setting operation by infrared rays or wireless communication is also performed on the field devices 11 to 16 to be operated via the.

  However, in the installation site of the field devices 11 to 16, a plurality of similar field devices are often installed, and the operation screen of the portable terminal 50 is often similar. As a result, there is a possibility that the operator may mistakenly operate the operation target field device.

  Therefore, in order to prevent such misidentification of the operation target field device, the field devices 11 to 16 and the portable terminal 50 are provided with operation confirmation means, respectively, and the operation confirmation means on the field device side is confirmed first, and then portable It has also been proposed to configure the field devices 11 to 16 so that they can be operated by confirming operations with the operation confirming means of the terminal 50 (see Patent Document 1).

  However, according to the conventional system configuration disclosed in Patent Document 1, it is necessary for the worker to grasp the installation position information of the operation target field device and move to the installation location of the operation target field device. Don't be. If the installation position information of the operation target field device is erroneously grasped, the installation position information of the operation target field device has been erroneously recognized at the stage of operating the operation confirmation unit provided in the portable terminal 50. Although it becomes clear, erroneous operations can be prevented in advance, but moving to the misidentified place is a wasteful work. There is a risk that the operation confirmation means on the field device side will be executed.

  In addition, according to the conventional system configuration disclosed in Patent Document 3, since there is no particular restriction on the operation from wireless communication, there are a plurality of field devices that use wireless communication means in the wireless communication range. If there is a stand, there is a risk that the field device is not operated by the operator.

  Furthermore, the conventional system shown in FIG. 6 does not have a means for displaying an operable state even when an operation by wireless communication becomes possible, so that the operation target field device operated by the operator from the portable terminal 50 is not detected. It cannot be confirmed visually.

  The present invention solves these conventional problems, and an object of the present invention is to realize a field device operation system capable of accurately guiding an operator to an installation position of an operation target field device and preventing an erroneous operation setting. There is.

In order to achieve such a problem, the invention according to claim 1 of the present invention is:
In the field device operation system in which the setting operation of field devices installed on site is performed with a wireless portable terminal,
The portable terminal includes an operating unit that performs each part of the operation setting, the communication mode and a communication mode switching unit for switching long distance and short distance between each field device in the set communication mode by the communication mode switching unit A transmission / reception unit that performs transmission / reception with each field device, a field device identification unit that measures received signal strength for each field device based on a transmission / reception result of the transmission / reception unit, and a measurement of the received signal strength of the field device identification unit A list creation unit for creating a signal strength list for each field device based on the result, a list display unit for displaying a list created by the list creation unit, and the operation unit from a list screen displayed on the list display unit A field that selects and designates the field device to be operated via the, and switches the communication mode for that field device to a short distance. It is composed of a vessel selecting unit,
Based on the received signal strength of the signal strength list for each field device displayed on the list display section, guidance is provided to the installation location of the field device to be operated in the direction in which the signal strength increases .

The invention according to claim 2 is the field device operating system according to claim 1,
The communication mode switching unit of the mobile terminal is configured to select a predetermined operation target field from a list screen displayed on the list display unit when the distance to the operation target field device is short and the operation target field device is visible. When the device is selected and designated, the communication mode for the operation target field device is switched to a short distance .

The invention according to claim 3 is the field device operating system according to claim 1 or 2,
When performing a setting operation on the operation target field device, the portable terminal blocks communication with other field devices existing in the vicinity by switching the communication mode to a short distance, thereby making the operation impossible. It is characterized by.

The invention according to claim 4 is the field device operation system according to any one of claims 1 to 3 ,
The field device confirms that the communication mode has been switched to a short distance, transmits a confirmation signal to the portable terminal, and displays that the device itself is in an operable state.

The invention according to claim 5 is the field device operating system according to claim 1,
Position information such as the distance and direction between each field device and the portable terminal is obtained from a GPS reception function incorporated in the portable terminal .

A sixth aspect of the present invention is the field device operating system according to the fifth aspect ,
The portable terminal also displays map information on a site where each field device is arranged.

  According to the present invention, an operator can be accurately guided to the installation position of the operation target field device, and erroneous operation setting for field devices other than the operation target field device can be prevented.

  In addition, by changing the display contents of the mobile terminal according to the installation location of the field device to be operated, if the environment specific to the installation location must be considered when setting the operation of the field device to be operated, Can visually attract attention.

  Furthermore, by changing the degree of operation access authority by the mobile terminal according to the installation location of the field device to be operated, the work to be started by re-recognizing the difference in operation access authority according to the installation location The degree of importance can be confirmed, and an inadvertent operation setting change by an operator can be prevented, and it is also effective as a countermeasure for preventing an operation setting change by an outside intruder.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the outline of the entire system of the present invention, and the same reference numerals are given to the parts common to FIG. In FIG. 1, field devices 61 to 63 exchange measurement data and control signals with the wireless relay device 21 via wireless communication means, and field devices 64 to 66 transmit the wireless relay device 22 via wireless communication means. Exchanges measurement data and control signals with In addition to the human machine interface (HMI) function by infrared or wireless communication similar to that shown in FIG. A field device list creation function, a communicable field device list display function, an operation target field device selection specification function, and the like are provided.

  It is assumed that the field devices 61 to 66 have a function of displaying that the setting operation by the mobile terminal 70 is possible. As such a setting operation possible state display means, a light emitting diode may be selectively turned on, or a liquid crystal display may be selectively displayed to indicate that the setting operation is possible.

  FIG. 2 is a block diagram showing a specific example of the main part of the mobile terminal 70 having such a function. The operation unit 71 performs operation settings for each unit. The communication mode switching unit 72 controls the communication mode between the portable terminal 70 and each field device to be a long distance or a short distance. The transmission / reception unit 73 performs transmission / reception between the portable terminal 70 and each field device in the communication mode set by the communication mode switching unit 72. The field device identification unit 74 measures the received signal strength for each field device based on the transmission / reception result of the transmission / reception unit 73. The list creation unit 75 creates a signal strength list for each field device as shown in FIG. 3 based on the measurement result of the received signal strength of the field device identification unit 74 and displays it on the list display unit 76. The field device selection unit 77 selects and designates the operation target field device from the list screen displayed on the list display unit 76 via the operation unit 71, and switches the communication mode for the operation target field device to a short distance.

Regarding the operation of the system configured as described above, a series of flows from when an operator approaches the operation target field device to be operated by the portable terminal 70 until the field device is operated will be described below.
1) The worker sets the communication mode of the portable terminal 70 to a long distance, and obtains a list of field devices that can communicate at that time. The list includes an identification code for identifying each field device, signal strength of wireless communication, field device installation position information, and the like. FIG. 3 shows an example in which a change in signal intensity according to the distance of the mobile terminal 70 for each field device is displayed as information on the positional relationship between the mobile terminal 70 and each field device 61-66.

2) The worker increases the signal strength of the field device (63 in the example of FIG. 1) to be operated while referring to the magnitude of the signal strength as the position information displayed on the display screen of the mobile terminal 70. Proceed in the direction.
3) When the distance from the operation target field device 63 becomes short and the operation target field device 63 becomes visible, the operator can view a list of communicable field devices displayed on the display screen of the mobile terminal 70. The operation target field device 63 is selected and specified from the list, and the communication mode is switched from a long distance to a short distance.

4) The selected operation target field device 63 transmits a confirmation signal indicating that the communication mode has been switched to the short distance to the portable terminal 70 and displays that it has become operable. At this point, communication with other field devices that have not transmitted confirmation signals is interrupted.
5) The operator performs a predetermined setting operation on the operation target field device 63 via the portable terminal 70 after confirming the operable state display of the operation target field device 63.

  With such a configuration, the worker is based on a list of field devices displayed on the display screen of the mobile terminal 70 and information such as received signal strength indicating the positional relationship between the mobile terminal 70 and each field device. Thus, the operation target field device can be accurately grasped and identified, and the setting operation can be performed efficiently even if a plurality of similar field devices are installed.

  When performing a setting operation on a field device to be operated, the communication mode can be switched to a short distance to cut off communication with other field devices existing in the vicinity, making the operation impossible. Can be prevented.

  Furthermore, when performing a setting operation on a field device, the state display means of the field device that is the target of the setting operation always indicates an operable state, so that an operator can check this to prevent erroneous operations. it can.

  In the embodiment of FIG. 1, the position information regarding the operation target field device and the portable terminal 70 is obtained based on the change in the received signal strength between the field devices 61 to 66 and the portable terminal 70. Incorporating a GPS reception function into the mobile terminal makes it possible to obtain positional information such as the distance and direction between each field device and the portable terminal.

  FIG. 4 is a block diagram showing a specific example of the main part of the portable terminal 80 having such a GPS reception function. The GPS receiver 81 receives GPS radio waves and outputs the current position information of the mobile terminal 80 to the field device distance azimuth calculator 82. The field device distance azimuth calculation unit 82 receives the installation position information of each field device from the field device position information unit 83. The installation position information of each field device may be measured by receiving GPS radio waves when the field device is installed. Alternatively, each field device may incorporate a GPS receiver, and the mobile terminal 80 May be transmitted as current location information each time a request is received. The field device distance azimuth calculating unit 82 calculates the distance and direction of each field device viewed from the mobile terminal 80 based on the position information obtained from the GPS receiving unit 81 and the field device position information unit 83. The calculation result of the distance and direction of each field device in the field device distance and direction calculation unit 82 is displayed on the field device distance and direction display unit 84. FIG. 5 shows a display example of the field device distance direction display unit 84.

  According to the configuration of FIG. 4, since the distance and direction to each field device are specifically displayed on the portable terminal 80, the worker more specifically indicates the positional relationship from the current position to the operation target field device. Even if multiple similar field devices are installed, work efficiency can be improved by reducing unnecessary movement.

  Note that the mobile terminal 80 may also display map information of the site where each field device is arranged.

  In addition, when a GPS receiver is incorporated in each field device, the latest position information can always be obtained even when the field device is moved, and the number of man-hours for data maintenance can be reduced.

  Also, by changing the display content such as the background color and display color of the display screen of the mobile terminal according to the installation location of the operation target field device, the environment specific to the installation location is taken into account when setting the operation of the operation target field device. When it is necessary, the operator can be visually alerted.

  Furthermore, by changing the degree of operation access authority by the mobile terminal according to the installation location of the field device to be operated, the work to be started by re-recognizing the difference in operation access authority according to the installation location The degree of importance can be confirmed, and an inadvertent operation setting change by an operator can be prevented, and it is also effective as a countermeasure for preventing an operation setting change by an outside intruder.

It is a block diagram which shows the outline | summary of the whole system of this invention. It is a block diagram which shows the specific example of the principal part of the portable terminal 70 of FIG. It is a signal strength list display example figure for every field apparatus. It is a block diagram which shows the specific example of the principal part of the portable terminal 80 which has a GPS receiving function. It is a display example figure of the field apparatus distance direction display part 84. FIG. It is a block diagram which shows the outline | summary of the conventional system.

Explanation of symbols

61-66 Field device 70,80 Mobile terminal

Claims (6)

In the field device operation system in which the setting operation of field devices installed on site is performed with a wireless portable terminal,
The portable terminal includes an operation unit that performs operation setting of each unit, a communication mode switching unit that switches a communication mode between each field device to a long distance and a short distance, and a communication mode that is set by the communication mode switching unit. A transmission / reception unit that performs transmission / reception with each field device, a field device identification unit that measures received signal strength for each field device based on a transmission / reception result of the transmission / reception unit, and a measurement of the received signal strength of the field device identification unit A list creation unit for creating a signal strength list for each field device based on the result, a list display unit for displaying a list created by the list creation unit, and the operation unit from a list screen displayed on the list display unit A field that selects and designates the field device to be operated via the, and switches the communication mode for that field device to a short distance. It is composed of a vessel selecting unit,
A field device operation system that guides to an installation location of an operation target field device in a direction in which the signal strength increases based on a received signal strength of a signal strength list for each field device displayed on the list display unit.   The communication mode switching unit of the mobile terminal is configured to select a predetermined operation target field from a list screen displayed on the list display unit when the distance to the operation target field device is short and the operation target field device is visible. 2. The field device operating system according to claim 1, wherein when a device is selected and designated, the communication mode for the operation target field device is switched to a short distance.   When performing a setting operation on the operation target field device, the portable terminal blocks communication with other field devices existing in the vicinity by switching the communication mode to a short distance, thereby making the operation impossible. The field device operation system according to claim 1 or 2, wherein   The field device confirms that the communication mode has been switched to a short distance, transmits a confirmation signal to the portable terminal, and displays that it is the only operable state. The field device operation system according to claim 3. 2. The field device operation system according to claim 1 , wherein position information such as a distance and a direction between each field device and the portable terminal is obtained from a GPS reception function incorporated in the portable terminal . The field device operating system according to claim 5 , wherein the portable terminal also displays map information of a site where each field device is arranged.

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