JP5591979B2 - Component mounting device and display device - Google Patents

Description

  The present invention relates to a component mounting apparatus and a display apparatus in which signals of multiple digital input / output ports for digitally controlling a plurality of control target devices are multiplexed to reduce wiring.

  The network I / O system includes a host computer, central communication means connected to the host computer, and a plurality of terminal communication means having digital input / output ports. A network is configured and used in a form such as a chain.

  Conventionally, data input / output between a host computer and a plurality of control target devices distributed in a distributed manner, such as sensors and actuators, has been performed by directly connecting each control target device to the host computer, which requires a lot of wiring. .

  A network I / O system connects a host computer and a plurality of control target devices distributed over a network, and multiplexes the signals of the digital input / output port to input data between the host computer and the plurality of control target devices. The output is realized by a simple connection with a small number of wires, and it is mainly used in fields where there are many devices to be controlled such as industrial machines such as automobiles, machine tools, chip mounters, and the arrangement of the devices is easily dispersed.

  Here, in order for each terminal communication unit connected to the host computer to communicate with the host computer to perform communication, it is necessary to set an identification number for designating the destination and source of communication in each terminal communication unit.

  Conventionally, the identification number setting in each terminal communication means is unique to each terminal communication means using a switch and ROM when a switch or ROM is provided in each terminal communication means and the network I / O system is installed in a machine. This is done by a method such as manually assigning non-overlapping values.

  Here, in the case of changing or adding the network configuration, not only the above-described resetting of the identification number of each terminal communication means, but also the control target device connected to the network configuration and each terminal communication means by the system user Therefore, it is necessary to accurately understand the type and identification number set for each terminal means, and to correctly construct the system. Conventionally, the network configuration of each terminal communication means, the type of control target device connected to each terminal communication means, and the identification number set for each terminal means have been checked manually.

  As a method for solving such a problem, a MAC (Media Access Control) address, which is a unique address, is set in advance when manufacturing the terminal communication means, and an IP (Internet Protocol) address is dynamically set for each communication card slot. A setting technique (Patent Document 1) is known. However, in the above method, address management must be maintained from the manufacturing stage to after being transferred to the user, which requires a large burden. In addition, when a widely used large-scale mechanism such as a MAC address cannot be used, it takes a lot of man-hours to newly set a unique address and manufacture a terminal communication unit.

JP-A-2005-260828

  One problem to be solved by the present invention is to solve the above-described problems caused by directly setting the identification number of each terminal communication means manually using a unique address, switch, ROM, or the like.

  Another problem to be solved by the present invention is that, in the prior art, the identification number assigned to each terminal communication means of the network I / O system, the network connection form, and the control target equipment connected to each terminal communication means The type cannot be recognized dynamically.

  To solve the above problems, one object of the present invention is to identify each terminal communication means based on the connection relation of the network, which does not require assignment of a unique address or direct setting using a switch, ROM or the like manually. This is to realize a dynamic and flexible setting method of numbers.

  Another object of the present invention is to dynamically recognize the identification number set for each terminal communication means in the network I / O system, the connection form of the network, and the type of the control target device connected to each terminal communication means. It is to realize a possible system.

  The present invention includes a display unit, and the display unit displays a central communication symbol, a terminal communication symbol, and a connection state symbol that represents a connection state between the central communication symbol and the terminal communication symbol A device is provided.

  In the component mounting apparatus, the terminal communication symbol includes an upstream communication port symbol.

  In the component mounting apparatus, the terminal communication symbol includes a downstream communication port symbol.

  In the component mounting apparatus, the display unit displays an identification number given to the terminal communication symbol.

  In the component mounting apparatus, the display unit displays the identification number in the terminal communication symbol.

  In the component mounting apparatus, the display unit displays a terminal type number.

  In the component mounting apparatus, a host computer, host computer interface means, digital input / output data storage means, identification number setting information storage means, identification number setting completion information storage means, at least one communication port and central communication A central communication means having a control means, and a plurality of terminal communication means having one upstream communication port and a plurality of downstream communication ports, at least one digital input / output port and a terminal communication control means. An upstream communication port of the means is a network I / O system connected to a communication port of the central communication means or a downstream communication port of any other terminal communication means in a plurality of terminal communication means, The identification number setting information storage means of the communication means includes the central communication means and the terminal communication. In the connection path when the stage is connected via the downstream communication port of another terminal communication means, the port numbers of the downstream communication ports of the terminal communication means that have passed in order from the central communication means are the numbers of the central communication means and the terminal communication means. Having the identification information setting information combining the route information combined by the number of other terminal communication means connected in between and the individual and non-overlapping identification numbers set in the terminal communication means, the terminal communication means, A network I / O system having identification number designating means for storing the identification number of the identification number setting information received from the upstream communication port is provided.

  Further, the display device displays a central communication symbol, a terminal communication symbol, and a connection state symbol representing a connection state between the central communication symbol and the terminal communication symbol.

  Further, in the display device, the terminal communication symbol includes an upstream communication port symbol.

  Further, in the display device, the terminal communication symbol includes a downstream communication port symbol.

  Furthermore, the display device displays an identification number assigned to the terminal communication symbol.

  Further, in the display device, the identification number is displayed in the terminal communication symbol.

  Furthermore, the display device displays a terminal type number.

  Further, in the display device, a host computer, host computer interface means, digital input / output data storage means, identification number setting information storage means, identification number setting completion information storage means, at least one communication port and central communication control A plurality of terminal communication means having one upstream communication port, a plurality of downstream communication ports, at least one digital input / output port, and a terminal communication control means. The upstream communication port is a network I / O system connected to any one of the communication ports of the central communication means or any downstream communication port of any other terminal communication means in the plurality of terminal communication means, The identification number setting information storage means of the means includes the central communication means and the terminal communication means. Are connected through the downstream communication port of another terminal communication means, the port number of the downstream communication port of the terminal communication means that has passed in order from the central communication means is set between the central communication means and the terminal communication means. Provided in the terminal communication means, having identification number setting information combining path information combined with the number of other terminal communication means connected to the terminal and individual and non-overlapping identification numbers set in the terminal communication means. And a network I / O system having identification number designating means for storing the identification number of the identification number setting information received from the upstream communication port.

  In the component mounting apparatus and display apparatus having a network I / O system, the present invention dynamically assigns an identification number to each terminal communication means based on the connection relation of the network, thereby assigning unique addresses, switches, ROM This eliminates the need for setting such as the above, so that it is possible to significantly reduce the man-hours required during manufac- turing, system startup, and network configuration change.

  Further, the present invention can dynamically recognize the configuration of the network system according to the network form and the type of control target device connected to each terminal communication means, so that the recognized network system configuration is presented to the user. As a result, it is possible to easily add or change the system, and to easily recognize an artificial mistake in the system configuration.

It is a block diagram which shows the basic composition of the network I / O system of this invention. It is explanatory drawing of the packet format information used for the network communication of this invention. It is explanatory drawing of the route information stored in the route information storage means in Example 1. It is explanatory drawing of the screen display and function of the identification number setting application in Example 1. FIG. It is explanatory drawing about the setting procedure of the identification number in FIG. It is explanatory drawing of the route recognition information stored in the route information storage means in Example 2. It is explanatory drawing of the screen display and function of the identification number setting application in Example 2. FIG.

  Embodiments of the present invention will be described below with reference to the drawings.

[Basic system configuration]
FIG. 1 is a block diagram of a network I / O system according to Embodiment 1 of the present invention. The network I / O system of the present invention comprises a central communication means 110 connected to a host computer 100 and a terminal communication means 120. Further, a plurality of terminal communication means 120 are represented as a plurality of terminal communication means 120a to 120e depending on the arrangement on the network.

  The central communication unit 110 includes a host computer interface unit 160, a digital input / output data storage unit 140, an identification number setting information storage unit 141, a communication port 150, and a central communication control unit 130. The identification number setting information storage unit 141 further includes an identification number storage unit 141a for storing an identification number set for each terminal communication unit 120, and path information from the central communication unit 110 to the terminal communication unit 120 for each terminal communication unit 120. Path information storage means 141b for storing.

  The terminal communication unit 120 includes an upstream communication port 151, a plurality of downstream communication ports 152a and 152b, a digital input / output port 161, a terminal communication control unit 131, and an identification number designation unit 144.

  The upstream communication port 151 of the terminal communication unit 120 is connected to the communication port 150 of the central communication unit 110, or the downstream communication port 152a or the downstream communication port 152b in another terminal communication unit among all the terminal communication units 120, respectively. .

  Further, a device to be controlled, such as a sensor or an actuator, is connected to the end of the digital input / output port 161 of the terminal communication unit 120.

  Next, the operation of the host computer 100 in this embodiment will be described. The host computer 100 stores the route information from the central communication means 110 to all the terminal communication means 120 created in advance according to the creation method described later and the identification number information set for all the terminal communication means 120. And stored in the identification number setting information storage means 141 via the host computer interface (IF) means 160.

  Further, the host computer 100 stores the output values from the digital input / output ports 161 of all the terminal communication means 120 in the digital input / output data storage means 140 of the central communication means 110 via the host computer IF means 160, and the host computer By checking the digital input values stored in the digital input / output data storage means 140 of the central communication means 110 via the IF means 160, the digital input values of all the terminal communication means 120 are confirmed.

Further, the central communication unit 110 includes a terminal type information storage unit 143, and the terminal communication unit 120 includes a terminal type number designation unit 145 corresponding thereto.
[Central communication means]
Next, the operation of the central communication means 110 in this embodiment will be described. The central communication unit 110 transmits / receives data to / from the host computer 100 via the host computer IF unit 160, and transmits / receives data to / from each terminal communication unit 120 via the communication port 150 controlled by the central communication control unit 130. I do.

  When the route information and identification number of each terminal communication means 120 are set in the identification number setting information storage means 141 by the host computer 100, the central communication control means 130 combines the route information and the identification number for each terminal communication means 120. The information is output to the communication port 150 as an identification number setting packet. Thereafter, the central communication control means 130 repeatedly outputs the identification number setting packets of all the terminal communication means 120 to the communication port 150, and sends the identification number setting completion packet indicating the completion of the identification number setting transmitted from the terminal communication means 120. When received, the transmission of the identification number setting information of the terminal communication means 120 serving as the transmission source is stopped.

  Further, when the digital output value is set in the digital input / output data storage unit 140, the central communication control unit 130 provides information obtained by combining the identification number and the digital output value in the terminal communication unit 120 corresponding to the set digital output value. It is output to the communication port 150 as a digital output packet. Further, when a digital input packet combining the identification number of each terminal communication unit 120 and the digital input value is input from the communication port 150, information on the digital input packet is stored in the digital input / output data storage unit 140.

The communication port 150 transmits each packet input from the central communication control unit 130 to the upstream communication port 151 of the connected terminal communication unit 120 and receives it from the upstream communication port 151 of the connected terminal communication unit 120. The received packet is output to the central communication control means 130.
[Terminal communication means]
Next, the operation of the terminal communication unit 120 in this embodiment will be described. Each terminal communication means 120 transmits / receives data to / from the connected device via the digital input / output port 161 by the terminal communication control means 131 and communicates with the central communication means 110 or other terminal communication means 120 via the upstream communication port 151. Data transmission / reception and data transmission / reception with the other terminal communication means 120 via the downstream communication port 152a or the downstream communication port 152b are performed.

  When the identification number setting packet is input from the upstream communication port 151, the terminal communication control unit 131 indicates that the tail of the data in the path information portion of the packet sets the identification number for the terminal communication unit 120. If the value is “1”, for example, the value stored in the identification number portion of the identification number setting packet is set as the identification number. In addition, if the end of the data in the path information portion is a value indicating the downstream communication port 152a, for example “2”, the end value is deleted, and the remaining data is transmitted to the downstream communication port 152a, and downstream communication is performed. If the value indicates the port 152b, for example “3”, the last value is deleted and the remaining data is transmitted to the downstream communication port 152b.

  Also, when a digital output packet is input from the upstream communication port 151, if the identification number information of the digital output packet matches the identification number of the terminal communication means, the digital output value of the digital output packet is changed to the digital input / output port 161. If they do not match, the packet is transmitted to the downstream communication port 152a and the downstream communication port 152b.

  If the digital input value changes, the terminal communication control means 131 transmits a digital input packet that combines the digital input value and its own identification number to the upstream communication port.

  The terminal communication control unit 131 outputs a packet to the upstream communication port 151 when a packet is input from the downstream communication port 152a or the downstream communication port 152b.

  FIG. 2 shows a packet format used for data communication. The packet format includes a data part 200 corresponding to transmission / reception data, a packet type part 201 indicating the type of packet, and an identification number part 202 indicating the identification number of the terminal communication means 120.

  The data part 200 is given input / output data of the digital input / output port 161 of the terminal communication means 120 or route information of identification number setting information.

  For example, the packet type section 201 is “10” when the packet type is a digital input packet, “11” when the packet is a digital output packet, “20” when the packet is an identification number setting packet, and an identification number setting completion packet. “30” is given to the terminal type number packet, and “40” is given to the packet. The central communication control unit 130 and the terminal communication control unit 131 refer to the command unit 201 to determine the packet type and perform processing for each data.

When transmitting a packet from the central communication means 110 to the terminal communication means 120, the identification number section 202 is set with the identification number set in the terminal communication means 120 as the transmission destination, that is, the identification number of the transmission destination terminal communication means. When the packet is transmitted from the communication unit 120 to the central communication unit 110, the identification number unit 202 is set with the identification number set in the terminal communication unit 120 itself, that is, the identification number of the transmission source terminal communication unit.
[Create route information]
Here, a method of creating route information will be described with reference to FIG. The path information is obtained by sequentially arranging the numbers of the downstream communication ports 152a and 152b of the terminal communication unit 120 that have passed through from the central communication unit 110 to each terminal communication unit 120.

  For example, since the terminal communication means 120a in FIG. 1 is connected to the communication port 150 of the central communication means 110, the number “2” indicating the communication port 150 of the central communication means 110 and the target terminal communication means. The number “1” indicating That is, the route information is “1-2”.

Further, since the terminal communication unit 120b is connected to the downstream communication port 152a of the terminal communication unit 120a, the number “2” indicating the communication port 150 of the central communication unit 110 and the downstream communication port 152a of the terminal communication unit 120 are illustrated. It consists of a number “2” and a number “1” indicating that it is the target terminal communication means 120. That is, the route information is “1-2-2”.
[Setting identification number]
Next, an example of setting the identification number in each terminal communication unit 120 in FIG. 1 will be described.

  FIG. 4A is an example of a display screen on the display of the identification number setting application 400 by GUI (Graphical User Interface) used when creating identification number setting information in the host computer 100.

  The display screen of the identification number setting application 400 includes a network configuration setting unit 401, a terminal communication means information display unit 402, a process display unit 403 that displays the processing status of the host computer 100, and an identification number setting information generation button 430. Consists of

  The network configuration setting unit 401 includes a terminal communication means symbol 411 including a central communication means symbol 410, an upstream communication port symbol 414, downstream communication port symbols 415 a and 415 b, and a connection status symbol 412. . By the operation of the system user, the upstream communication port symbol 414 of the terminal communication means symbol 411 and the communication port symbol 413 of the central communication means symbol 410 are connected, or the upstream communication port symbol 414 and the downstream of another terminal communication means symbol 411 A network configuration is created on software by connecting either the communication port symbol 415a or 415b with the connection state symbol 412.

  Each terminal communication means symbol 411 has a function of setting an identification number on software, and the designated identification number is displayed in itself.

  The terminal communication unit information display unit 402 includes an identification number display unit 420 and a terminal type number display unit 421. An identification number is set in each terminal communication unit 120, and any of the host computer 100 and the plurality of terminal communication units 120 is set. After the communication becomes possible, the correspondence between the identification number of the terminal communication means 120 and the terminal type is displayed.

Here, when the system user creates the network form shown in FIG. 4A and presses the identification number setting information creation button 430, the identification number setting application 400 sets the identification number shown in FIG. 4B. Information is generated and stored in the identification number information storage means of the central communication means 110 via the host computer IF means 160.
[System procedure]
FIG. 5 is an explanatory diagram showing the processing procedure of the entire system when setting identification numbers to the terminal communication means 120a, 120b, and 120d in the present embodiment, and the identification of FIG. 4B generated above. Details of the processing procedure will be described based on the example of the number setting information.

  In the following examples, it is assumed that the terminal communication unit 120d is not initially connected to the network. The host computer 100 generates identification number setting information by the operation of the identification number setting application 400 (process 500), and the generated identification number setting information (table) is identified by the central communication unit 110 via the host computer IF unit 160. It is stored in the number setting information storage means 141 (process 510).

  The central communication unit 110 generates identification number setting packets for each terminal communication unit 120a, 120b, 120d, that is, three in this example based on the set identification number setting information (process 511). In this example, since the central communication means 110 includes only one communication port 150, the last value of the route information is all “2”.

  First, the central communication unit 110 has the identification number setting information (first line in FIG. 4B) for the terminal communication unit 120a, that is, the first identification number “1” and the route information “1-2”. An identification number setting packet is transmitted. The central communication control means 130 deletes the last value from the route information of the first identification number setting packet, and sends the remaining first identification number setting packet to the communication port 150 (communication 550).

  The terminal communication unit 120a receives the first identification number setting packet via the upstream communication port 151, the path information in the first identification number setting packet is “1”, and therefore the last data is 1. Therefore, the identification number “1” is stored in the identification number designation unit 144 of the terminal communication unit 120a (process 520).

  The terminal communication unit 120a transmits an identification number setting completion packet to the central communication unit 110 via the upstream communication port 151 (communication 590). The central communication unit 110 stores the identification number setting completion information in the identification number setting completion information storage unit 142 every time an identification number setting completion packet is received, and the terminal communication unit that is the transmission source of the received identification number setting completion packet The transmission of 120 identification number setting information is stopped.

  The central communication unit 110 has the identification number setting information (second line in FIG. 4B) for the terminal communication unit 120b, that is, the identification number “2” and the route information “1-2-2”. An identification number setting packet is transmitted. The central communication control means 130 deletes the last value from the route information of the second identification number setting packet, and sends the remaining second identification number setting packet to the communication port 150 (communication 560).

  The terminal communication unit 120a receives the second identification number setting packet via the upstream communication port 151, and the route information in the second identification number setting packet is “1-2”. Therefore, the last data is Therefore, the last value is deleted, and the remaining second identification number setting packet is sent to the downstream communication port 152a (communication 561).

  The terminal communication unit 120b receives the second identification number setting packet via the upstream communication port 151, the path information in the second identification number setting packet is “1”, and therefore the last data is 1. Therefore, the identification number “2” is stored in the identification number designation unit 144 of the terminal communication unit 120b (process 530).

  The terminal communication unit 120b transmits an identification number setting completion packet to the central communication unit 110 via the upstream communication port 151 (communication 591).

  The central communication unit 110 has identification number setting information (third line in FIG. 4B) for the terminal communication unit 120d, that is, identification number “2” and route information “1-3-2-2”. 3 identification number setting packet is transmitted. The central communication control means 130 deletes the last value from the route information of the third identification number setting packet and sends the remaining third identification number setting packet to the communication port 150 (communication 570).

  The terminal communication unit 120a receives the third identification number setting packet via the upstream communication port 151, and the route information in the third identification number setting packet is “1-3-2”. Since the data is “2”, the last value is deleted and the remaining third identification number setting packet is sent to the downstream communication port 152a (communication 571).

  The terminal communication unit 120b receives the third identification number setting packet via the upstream communication port 151, and the route information in the third identification number setting packet is “1-3”. Therefore, the last data is Since it is “3”, the last value is deleted and the remaining third identification number setting packet is sent to the downstream communication port 152b (communication 572).

  Since the terminal communication unit 120d is not connected to the network, it cannot receive the third identification number setting packet (communication 572a).

  The host computer 100 refers to the identification information setting completion information storage means via the host computer IF means 160 (process 512), and uses the identification numbers “1” and “2” for which the setting has been completed, to use the terminal communication means 120a. , 120b is started (process 501).

  The central communication unit 110 periodically repeats the third identification number setting packet corresponding to the identification number “3” that has not been set to the communication port 150 (processing 513, communication 570, communication 571, communication 572a).

  When the terminal communication unit 120d is connected to the network, the terminal communication unit 120d receives the third identification number setting packet periodically transmitted from the upstream communication port 151 (communication 572b), and the path information in the third identification number setting packet is Since it is “1” and the last data is “1”, the identification number “3” is stored in the identification number designation unit 144 of the terminal communication unit 120d (process 540).

  The terminal communication unit 120d transmits an identification number setting completion packet to the central communication unit 110 via the upstream communication port 151 (communication 592).

  The host computer 100 refers to the identification information setting completion information storage unit via the host computer IF unit 160, and uses the identification numbers “1”, “2”, and “3” for which the setting has been completed, and uses the terminal communication unit 120a. , 120b and 120d are started (process 502). With the above operation, identification numbers can be set for a plurality of terminal communication means 120, and data can be transmitted and received between the host computer 100 and the digital input / output ports 161 of the plurality of terminal communication means 120. .

According to the method of the present embodiment, it is possible to set identification numbers for all terminal communication means 120 based on network route information without using a unique address, switch, ROM, etc.
Furthermore, the setting and changing of the identification numbers in all the terminal communication means 120 can be executed centrally from the host computer 100.

  This eliminates the need to assign a unique address at the time of manufacture, and eliminates the need for individual settings or changes using switches, ROM, etc. when a network I / O system is installed in the machine, resulting from incorrect settings of switches, ROM, etc. Identification number conflicts can also be prevented.

  In the configuration of FIG. 1, in this embodiment, the central communication unit 110 includes a terminal type information storage unit 143, and each terminal communication unit 120 includes a terminal type number designation unit 145. When the identification number is set, the terminal communication unit 120 outputs a terminal type packet including the terminal type number and the identification number stored in the terminal type number specifying unit 145 to the upstream communication port 151.

  When the terminal type packet is input from the downstream communication port 152a or the downstream communication port 152b, the terminal communication unit 120 outputs the terminal type packet input to the upstream communication port 151. When the terminal type packet is input from the communication port 151, the central communication unit 110 stores the terminal types of all the terminal communication units 120 in the terminal type information storage unit 143.

  The host computer 100 refers to the terminal type number of each terminal communication unit 120 stored in the terminal type information storage unit 143 of the central communication unit 110 and confirms the terminal type of each terminal communication unit 120. According to the method of this embodiment, the host computer 100 can confirm that the terminal communication means 120 connected to the network is the type of terminal expected.

Next, a second embodiment of the present invention will be described. The system configuration in the second embodiment is the same as that of the first embodiment shown in FIG.
[Terminal communication means]
The operation of the terminal communication unit 120 in this embodiment will be described. The terminal communication unit 120 generates a route recognition packet by the terminal communication control unit 131, transmits the route recognition packet to the central communication unit 110 or another terminal communication unit 120 via the upstream communication port 151, and the downstream communication port 152a or A route recognition packet with the terminal communication means 120 is received via the downstream communication port 152b.

  When the upstream communication port 151 is connected to the network, the terminal communication control unit 131 transmits a route recognition packet whose data part 200 is “1” to the upstream communication port 151. When a path recognition packet is input from the downstream communication port 152a or the downstream communication port 152b, the terminal communication control unit 131 sets a value indicating the downstream communication port 152a, for example, “2” if the input is from the downstream communication port 152a. If the input is from the downstream communication port 152b, a value indicating the downstream communication port 152b, for example, “3” is added to the end of the data portion 200 of the path recognition packet and transmitted to the upstream communication port 151.

  The central communication unit 110 adds a value indicating the communication port 150, for example, “2” to the end of the data portion 200 of the path recognition packet received from the communication port 150 by the central communication control unit 130, and sets the identification number. The information is stored in the route information storage means of the information storage means 141.

The host computer 100 recognizes the route information to each terminal communication unit 120 by referring to the route recognition information stored in the route information storage unit of the identification number setting information storage unit 141 via the host computer IF unit 160. To do.
[Route recognition information]
Here, a method of creating route recognition information will be described. FIG. 6 is an explanatory diagram showing information stored in the route information storage unit 141b. The route recognition information is transmitted as a route recognition packet from each terminal communication unit 120, and the port numbers of the downstream communication port 152a or the downstream communication port 152b of the terminal communication unit 120 that have passed through the route until reaching the central communication unit 110 are ordered. Route information is created by adding.

  For example, since the terminal communication unit 120a in FIG. 1 is connected to the communication port 150 of the central communication unit 110, the route recognition packet transmitted from the terminal communication unit 120a has a value of “1” in the initial state. When received by the central communication means 110, the central communication control means 130 adds the number “2” indicating the communication port 150 to the end. That is, the route recognition information is “1-2”.

  Further, since the terminal communication unit 120b is connected to the downstream communication port 152a of the terminal communication unit 120a, the route recognition packet transmitted from the terminal communication unit 120b has a value of “1” in the initial state, and the terminal communication When received by the means 120a, the terminal communication control means 131 adds the number “2” indicating the downstream communication port 152a to the end, transmits it to the upstream communication port 151, and receives it by the central communication means 110. The communication control means 130 adds the number “2” indicating the communication port 150 to the end. That is, the route recognition information is “1-2-2”.

  When the central communication unit 110 receives the route recognition information from all the terminal communication units 120a to 120e, it stores it in the route information storage unit 141b as shown in FIG. Therefore, the host computer 100 can recognize the route information to all the terminal communication means 120 by referring to the route information storage means 141b via the host computer IF means 160.

Further, each terminal communication means 120 gives the terminal type number stored in the terminal type number specifying means 145 to the identification number portion 202 of the route recognition packet and transmits it, so that the central communication means 110 makes the route according to the above operation. The storage of the recognition information and the storage of the terminal type number in the terminal type number storage unit 143 can be performed at the same time, and the host computer 100 recognizes the terminal type number of each terminal communication unit 120 simultaneously with the recognition of the route information. Can do.
[Setting identification number]
FIG. 7 is an example of a display screen when the host computer 100 recognizes the configuration of the entire network based on the path information and the terminal type number recognized by the above method, and expresses the network configuration using a GUI.

  The display screen of the network configuration display setting application 700 includes a network configuration display unit 701, a terminal communication means information display unit 402, a process display unit 403, an identification number setting information generation button 430, and an identification number automatic setting button 730. The

  The network configuration display unit 701 includes a terminal communication means symbol 411 including a central communication means symbol 410, an upstream communication port symbol 414, and downstream communication port symbols 415a and 415b, and a control target connected to each terminal communication means 120. It consists of a control target device symbol 710 representing a device and a connection state symbol 412, an upstream communication port symbol 414 of the terminal communication means symbol 411, a communication port symbol 413 of the central communication means symbol 410, or another terminal communication means symbol 411. One of the downstream communication ports 415a and 415b is connected by a connection state symbol 412, and the network configuration recognized by the host computer 100 is automatically displayed.

  Each terminal communication means symbol 411 has a function of setting an identification number on software, and the designated identification number is displayed in itself.

  The terminal communication unit information display unit 402 includes an identification number display unit 410 and a terminal type number display unit 411. An identification number is set in each terminal communication unit 120, and any of the host computer 100 and the plurality of terminal communication units 120 is set. After the communication becomes possible, the correspondence between the identification number of the terminal communication means 120 and the terminal type is displayed.

  The identification number setting information generation button 430 generates an identification number setting table when pressed after setting an identification number to the terminal communication means symbol 411 of the network configuration displayed on the network configuration display unit 701, and generates a host computer. 100.

The identification number automatic setting button 730 is pressed after the network configuration is displayed on the network configuration display unit 701, so that the identification number is automatically set to each terminal communication means symbol 410 by software processing.
The identification number set here is set in each terminal communication means 120 in the procedure of the first embodiment.

  According to the method of the second embodiment, since the connection relationship between the network form and the control target device can be dynamically recognized and displayed on the application of the host computer 100, the system user can confirm the system configuration. It becomes easy.

  As a result, it is possible to reduce human error such as a connection error between the terminal communication unit 120 and the control target device, which occurs when the system is configured, added, or changed.

  In addition, since the identification number of each terminal communication unit 120 can be set without manually setting route information, the configuration, addition, and change of the system are facilitated.

  Here, a case where the network I / O system of the present invention is applied to a chip mounter which is one field of industrial machinery will be described. The chip mounter is used for manufacturing an electronic circuit board, and an electronic circuit element component is arranged on a printed wiring board and mounted to create a printed circuit board. Among the chip mounters, a device called the modular mounter is equipped with a dedicated component supply unit that combines many component supply devices and a plurality of component loading head units. The whole chip mounter device is controlled by controlling. In addition, the modular mounter attaches and detaches each unit to the chip mounter body according to the type of electronic circuit element parts or circuit board to be used, and a plurality of units having the same configuration or a combination of units having different configurations. Used in a different way. Therefore, in the control of the chip mounter using the network I / O system, each control device of each unit is assigned an identification number for communication that does not overlap each other. It is necessary to prevent duplication of identification numbers and setting mistakes due to incorrect mounting at the time and resetting of each identification number. In the chip mounter, for example, the central communication means can be mounted on the chip mounter control host computer, and a plurality of terminal communication means can be mounted on the exchange unit.

DESCRIPTION OF SYMBOLS 100 Host computer 110 Central communication means 120, 120a-120e Terminal communication means 130 Central communication control means 131 Terminal communication control means 140 Digital input / output data storage means 141 Identification number setting information storage means 141a Identification number storage means 141b Path information storage means 142 Identification number setting completion information storage unit 143 Terminal type information storage unit 144 Identification number designation unit 145 Terminal type number designation unit 150 Communication port 151 Upstream communication port 152a, 152b Downstream communication port 160 Host computer IF unit 161 Digital input / output port

Claims (14)

Central communication means having a host computer, host computer interface means, digital input / output data storage means, identification number setting information storage means, identification number setting completion information storage means, communication port and central communication control means, and one upstream communication A plurality of terminal communication means each having a port, a plurality of downstream communication ports, a digital input / output port, and a terminal communication control means, and assigned with a terminal identification number, wherein the upstream communication port of the terminal communication means is the central communication A network I / O system connected to any one of the communication ports or any downstream communication port of the plurality of terminal communication means , comprising a central communication symbol, a terminal communication symbol, the central communication symbol, and the terminal communication symbol; When having a display portion that displays a connection status symbols to represent the connection status bets To, in the component mounting apparatus having a plurality of units having a control device,
The terminal communication means is provided in the control device of the unit, and passes through the route recognition information transmitted to the central communication means as a route recognition packet in the middle of the terminal communication means. It is configured to create the route information by adding the port numbers of the downstream communication ports in order, and the host computer assigns an individual communication identification number to the control device of the unit, and the display unit Recognizes the configuration of the entire network based on the route information and the terminal type number, and displays the network configuration . The component mounting apparatus according to claim 1,
The component mounting apparatus, wherein the terminal communication symbol includes an upstream communication port symbol. In the component mounting apparatus according to claim 2,
The component mounting apparatus, wherein the terminal communication symbol includes a downstream communication port symbol. In the component mounting apparatus according to claim 3,
The component mounting apparatus, wherein the display unit displays an identification number assigned to the terminal communication symbol. In the component mounting apparatus according to claim 4,
The component mounting apparatus, wherein the display unit displays the identification number in the terminal communication symbol. In the component mounting apparatus according to claim 5,
The component mounting apparatus, wherein the display unit displays a terminal type number. The component mounting apparatus according to claim 1 ,
Identification number setting information storage unit before Symbol central communication unit, in the connection path when said central communication means and said terminal communication means is connected via a downstream communication port of another terminal communication unit, the central communication unit Route information combining the port numbers of the downstream communication ports of the terminal communication means that have passed in sequence by the number of other terminal communication means connected between the central communication means and the terminal communication means, and individual and set in the terminal communication means A network I / O system having identification number setting information combined with non-overlapping identification numbers, wherein the terminal communication means has identification number designating means for storing the identification number of the identification number setting information received from an upstream communication port A component mounting apparatus comprising: Central communication symbol and
A terminal communication symbol;
Displaying a connection state symbol representing a connection state between the central communication symbol and the terminal communication symbol ;
The central communication symbol, the terminal communication symbol, and the connection state symbol are determined based on route information and a terminal type,
The display device is characterized in that the path information is created by sequentially adding port numbers of downstream communication ports of the terminal communication means that have passed in the middle of reaching the central communication means . The display device according to claim 8, wherein
The display device, wherein the terminal communication symbol includes an upstream communication port symbol. The display device according to claim 9, wherein
The display device, wherein the terminal communication symbol includes a downstream communication port symbol. The display device according to claim 10.
A display device that displays an identification number assigned to the terminal communication symbol. The display device according to claim 11,
A display device that displays the identification number in the terminal communication symbol. The display device according to claim 12,
A display device that displays a terminal type number. The display device according to claim 8 , wherein
Identification number setting information storage unit before Symbol central communication unit, in the connection path when said central communication means and said terminal communication means is connected via a downstream communication port of another terminal communication unit, the central communication unit Route information combining the port numbers of the downstream communication ports of the terminal communication means that have passed in sequence by the number of other terminal communication means connected between the central communication means and the terminal communication means, and individual and set in the terminal communication means A network having identification number setting information combined with an identification number that does not overlap, and having identification number designating means that is provided in the terminal communication means and stores the identification number of the identification number setting information received from the upstream communication port A display device comprising an I / O system.

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