JP7469184B2 - Network Systems - Google Patents

Description

The present invention relates to a network system.

In recent years, various devices, such as industrial machinery and household electrical appliances, have communication functions and are connected to networks. In order to effectively use devices connected to a network, it is necessary to set communication conditions, such as IP addresses, subnet masks, and communication protocols, for each communication device in the control device that controls the network.

Many network systems have devices with multiple communication ports to which communication devices are individually connected in order to connect multiple communication devices to the network. For example, in the Ethernet, a widely used network standard, an RJ45 connector jack (female connector) specified in ISO 8877 is mainly used as such a communication port. Generally, in devices with multiple communication ports, the communication ports are numbered, and the communication device is connected to the communication port with the number for which the communication conditions are set in the control device. In other words, in conventional network systems, it is necessary to insert a plug (male connector) provided at the end of the cable extending from the communication device into the communication port with the same number as the number confirmed by the control device. However, if one only relies on the communication port number, there is a risk that the communication device will be connected to a communication port different from the communication port that was set.

For example, Patent Document 1 proposes providing a network switch (switching hub) with multiple communication ports with a graphical management module that displays a graphical management interface showing a topology diagram, floor plan, or map on the display device of the communication device connected to the communication port, in order to facilitate the configuration of communication devices connected to a network.

JP 2017-63417 A

In the system described in Patent Document 1, it is possible to obtain the connection status of a communication device and provide a graphical management interface only when the network switch and communication device are able to communicate. When it is necessary to set communication conditions for a communication port in the network control device to enable communication with a communication device, the communication device must be connected to the specific communication port for which the communication conditions have been set. For this reason, a network system is desired that can reliably connect a communication device to a communication port for which communication conditions have been set.

A network system according to one aspect of the present disclosure includes a plurality of communication ports to which communication devices can be connected, a communication control unit that individually controls communication with the communication devices via the communication ports, a communication setting unit that allows the communication control unit to set communication conditions with the communication devices for each communication port, an identification unit that visually identifies one of the plurality of communication ports, and an identification control unit that causes the identification unit to display the communication port that the communication setting unit will set when the communication setting unit sets the communication conditions for any of the communication ports.

This disclosure provides a network system that can reliably connect communication devices to communication ports for which communication conditions are set.

1 is a block diagram showing a configuration of a network system according to an embodiment of the present disclosure.

The disclosed embodiment will be described below with reference to the drawings. Figure 1 is a block diagram showing the configuration of a network system 1 according to one embodiment of the present invention.

The network system 1 includes a plurality of communication ports 10 to which communication devices 100 can be connected, a communication control unit 20 that individually controls communication with the communication devices via the communication ports 10, a communication setting unit 30 that allows the communication control unit 20 to set communication conditions with the communication devices 100 for each communication port 10, an identification unit 40 that displays a visual identification of one of the plurality of communication ports 10, an identification control unit 50 that causes the identification unit 40 to display a display identifying the communication port 10 that the communication setting unit 30 will set when the communication setting unit 30 sets the communication conditions for one of the communication ports 10, an input unit 60 that a user (such as a system administrator) uses to input communication conditions, and an output unit 70 that displays to the user the communication conditions, etc., that are being set by the communication setting unit 30.

The network system 1 can be configured with, for example, a single or multiple computer devices having a CPU, memory, etc., and executing appropriate programs, and one or more auxiliary devices (e.g., switching hubs) connected to the computer devices as necessary. Note that in FIG. 1, the network system 1 is shown as a network control device consisting of a single computer device. The computer device that is the main component of the network system 1 is not limited to a general-purpose computer device, and may be, for example, a numerical control device for machine tools, a robot control device, etc.

In the network system 1, the communication port 10, the communication control unit 20, the communication setting unit 30, the identification unit 40, the identification control unit 50, the input unit 60, and the output unit 70 are functionally divided, and do not necessarily have to be clearly divided in their physical structure and program structure. In addition, in the network system 1, some of the communication port 10, the communication control unit 20, the communication setting unit 30, the identification unit 40, the identification control unit 50, the input unit 60, and the output unit 70 may be configured by another device connected via a network or the like to a computer device that constitutes the other components.

The communication device 100 is not particularly limited as long as it is connected via a network, and may be a numerical control device for a machine tool, a robot control device, a PLC (Programmable Logic Controller), various processing devices, various detection devices, a memory device, etc., or may be a control device for another network system.

The communication port 10 may have a connector (generally female type) that complies with standards such as RJ45, USB, RS232C, etc. Multiple communication ports 10 may be arranged in one or multiple housings. The communication port 10 may be a connector such as a hub that is connected to a computer device that constitutes another component of the network system 1.

The communication control unit 20 controls communication with the communication devices 100 via each communication port 10, and can perform control above the data link layer in the OSI reference model under communication conditions that comply with various standards. As a specific example, the communication control unit 20 can perform data transfer at the data link layer that complies with a standard that matches the connector of the communication port 10, such as Ethernet or USB. The communication control unit 20 can also perform control according to higher level control procedures such as error correction, retransmission control, and file transfer as communication conditions.

For this reason, the communication control unit 20 may be configured to have a setting storage unit 21 that stores the communication conditions set for each communication port 10, and a main control unit 22 that controls communication with the communication device 100 via the communication port 10 in accordance with the communication conditions stored in the setting storage unit 21.

The communication conditions stored in the setting memory unit 21 include information such as the IP address and subnet mask of the communication device 100 connected via each communication port 10, and the communication protocol applied to communication with the communication device 100.

The communication setting unit 30 sets the communication conditions with the communication device 100 via an arbitrary communication port 10. The communication conditions are set in the communication setting unit 30 using the input unit 60 and the output unit 70.

The communication setting unit 30 may be configured to have a setting processing unit 31 that provides a user interface for setting communication conditions, a working memory unit 32 that temporarily stores the communication conditions set by the setting processing unit 31, and a setting application unit 33 that transfers the communication conditions stored in the working memory unit 32 to the setting memory unit 21.

The setting processing unit 31 causes the output unit 70 to display a setting screen that prompts the user to select a communication port 10 and input the communication conditions of the selected communication port 10. Specifically, the setting processing unit 31 may be configured to prompt the user to input the necessary information by displaying, for example, a pull-down menu, a check box, a text box, or the like. In addition, it is preferable that the setting processing unit 31 provides a termination confirmation means, such as a button display, for confirming the completion of the setting of the communication conditions.

The working memory unit 32 stores the values input from the input unit 60 until the setting of the communication conditions is completed. When the setting processing unit 31 confirms that the setting of the communication conditions is completed, the setting application unit 33 transfers the communication conditions stored in the working memory unit 32 to the setting storage unit 21, thereby reflecting the communication conditions in the communication control by the main control unit 22.

The identification unit 40 changes the visual state so as to identify the communication port 10 for which the communication setting unit 30 has started setting the communication conditions, that is, the communication port 10 that the user has input as the target for setting the communication conditions. This allows the user to easily confirm the communication port 10 for which the communication conditions are being set, and ensures that the communication device 100 is connected to the communication port 10 for which the communication conditions are being set.

The identification unit 40 is preferably provided in each communication port 10. This prevents the user from misidentifying the communication port 10 for which the communication conditions are being set. The identification unit 40 preferably has a light-emitting element, such as a light-emitting diode, so that the user can easily recognize it. The identification unit 40 may also be configured to mechanically change its visual state. For example, the identification unit 40 may be configured to identify the communication port 10 to be set by the marker protruding from the housing or moving to a position visible through an opening.

The identification unit 40 may also be used as a light-emitting element that indicates the communication state of the communication port 10. Since many connectors have a light-emitting element that indicates the communication state, equipment costs can be reduced by using this light-emitting element as the identification unit 40 as well. In this case, it is preferable that the identification unit 40 identifies the communication port 10 for which the communication conditions are set by emitting light in a color or blinking pattern different from that when indicating the communication state. When identifying the communication port 10 for which the communication conditions are set, the identification unit 40 can be distinguished from the identification unit 40 that indicates the communication state of the communication port 10 by emitting light in a manner different from that when indicating the communication state. As a specific example, the identification unit 40 may change color in short cycles or blink in short cycles when identifying the communication port 10 for which the communication conditions are set.

The identification unit 40 may change the display state according to the progress of the communication condition setting. This allows the user to check the progress of the communication condition setting work. The identification unit 40 may be configured to express the progress of the communication condition setting by the color or blinking pattern of the light-emitting element, but may also be configured to display characters or symbols, for example, a 7-segment LED, a 16-segment LED, a small liquid crystal display panel, etc., in order to clearly show the progress of the communication condition setting work.

The identification unit 40 may be provided adjacent to a group of communication ports 10 arranged side by side, and may be configured to display a number or the like that identifies the communication port 10. In this way, by having one identification unit 40 indicate for which of a group of communication ports 10 the communication conditions have been set, it is possible to suppress increases in device costs. In this case, the identification unit 40 may be, for example, a 7-segment LED, a 16-segment LED, a small liquid crystal display panel, or the like.

When the communication setting unit 30 starts setting the communication conditions, the specific control unit 50 causes the specific unit 40 to display the communication port 10 that has started setting the communication conditions as described above. Therefore, when the specific unit 40 also serves as a light-emitting element that indicates the communication state, it is preferable that the specific control unit 50 causes the specific unit 40 to emit light in a manner different from when indicating the communication state. In addition, the specific control unit 50 may obtain a status of the progress of the communication conditions from the communication setting unit 30 and change the state of the specific unit 40 according to the progress of the communication conditions.

The input unit 60 may be configured with an input device such as a mouse or a keyboard. The input unit 60 may also be configured integrally with an output unit 70 such as a touch panel. The input unit 60 may itself be one of the communication devices 100 that communicates via the communication port 10.

The output unit 70 may be configured by a display device such as a liquid crystal monitor or an organic EL monitor. The output unit 70 may itself be one of the communication devices 100 that communicates via the communication port 10.

As described above, the network system 1 includes an identification unit 40 that performs a display that visually identifies one of the multiple communication ports 10, and an identification control unit 50 that causes the identification unit 40 to perform a display that identifies the communication port that the communication setting unit 30 will set when the communication setting unit 30 sets the communication conditions for one of the communication ports 10. This allows the network system 1 to reliably connect the communication device 100 to the communication port 10 for which the user sets the communication conditions.

Although one embodiment of the network system according to the present disclosure has been described above, the scope of the present disclosure is not limited to the above-described embodiment. Furthermore, the effects described in the above-described embodiment are merely a list of the most favorable effects resulting from the network system according to the present disclosure, and the effects of the network system according to the present disclosure are not limited to those described in the above-described embodiment.

For example, in the network system according to the present disclosure, the communication setting unit may rewrite the communication conditions stored in the setting storage unit of the communication control unit each time, without temporarily storing the communication conditions input by the user one by one.

REFERENCE SIGNS LIST 1 network system 10 communication port 20 communication control unit 21 setting storage unit 22 main control unit 30 communication setting unit 31 setting processing unit 32 working storage unit 33 setting application unit 40 identification unit 50 identification control unit 60 input unit 70 output unit 100 communication device

Claims (4)

A plurality of communication ports to which communication devices can be connected;
a communication control unit that individually controls communication with the communication device via the communication port;
a communication setting unit capable of setting communication conditions between the communication control unit and the communication device for each of the communication ports;
an identification unit that performs a display for visually identifying one of the plurality of communication ports;
a specification control unit that causes the specification unit to display, when the communication setting unit sets a communication condition for any one of the communication ports, a display that specifies the communication port that the communication setting unit sets;
Equipped with
The specific control unit changes a manner of display on the specific control unit according to progress of setting the communication conditions . The network system according to claim 1, wherein the identification unit is provided in each of the communication ports. The network system according to claim 2, wherein the identification unit has a light-emitting element. The specifying unit also serves as a light emitting element indicating a communication state,
The network system according to claim 3 , wherein the specific control unit, when setting the communication conditions, causes the light emitting element to emit light in a mode different from that when indicating a communication state.

Images