JP2004208039A - Wiring support system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wiring support system by which respective devices constituting a communication system can be interconnected in a short period of time with a cable through a terminal or a connector and wiring information when the connection of the cable is changed can be prepared in a short period of time without any mistake. <P>SOLUTION: LED control signals are transmitted to the respective connectors which are mutually connected from an optical transmission part 51 with control of a connection guide control part 64. A connection state judging part 55 detects that the connectors which are originally to be connected are not connected and makes LED of the connector in a non-connected state emit light. A real wiring data generating part 58 generates real wiring data from peculiar data of the connector through which a reception signal in an optical transmission/reception part 52 passes. A collation part 56 collates real wiring data with original wiring data, recognizes the matching or unmatching of them, and makes LED of the connector where data are recognized to be unmatched emit light. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wiring support system that assists in guiding connection, confirming and changing the connection when connecting each device constituting a communication system, factory equipment, or the like with a cable via a terminal or a connector.
[0002]
[Prior art]
As a system for supporting cable wiring between terminals or connectors to which a predetermined device constituting a communication system or the like is connected, there is a circuit for preventing incorrect connection of a cable described in Patent Document 1 shown below. This circuit enables erroneous connection and connection failure of a cable to be confirmed in a short time, and is configured as follows.
[0003]
In a state where the connectors for connecting the devices are connected by a cable, the connection destination information of the connector is transmitted from the transmission means to the cable via the one connector. The transmitted connection destination information is received by the receiving means via the other connector connected to the cable. Then, the received connection destination information is compared with information on the receiving side connector itself set in the receiving means in advance, and the content of the comparison is displayed and can be confirmed.
[0004]
[Patent Document 1]
JP-A-5-134790 (page 2-3, FIG. 1)
[0005]
[Problems to be solved by the invention]
However, in the circuit configuration described in Patent Literature 1 described above, when connecting a connector, an operator himself has to refer to wiring information such as a wiring diagram to perform the connection. There is a problem that it takes more time as the number of target connectors increases.
[0006]
Also, if the connection is changed after connecting the cable, the actual wiring and the original wiring information will be different, so the wiring information must be recreated, which takes time or changes in the wiring information There is a problem that occurs.
These problems also occur when a cable is connected between terminals to which a predetermined device is connected.
[0007]
The present invention has been made in view of such a problem, and can connect each device constituting a communication system or the like in a short time when connecting each device with a cable via a terminal or a connector. It is an object of the present invention to provide a wiring support system that can create wiring information when a change is made without error in a short time.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the wiring support system according to claim 1 of the present invention is configured such that when a predetermined connection means is connected to each other by a cable among a plurality of connection means to which a predetermined device is connected, In the wiring support system that guides connection, a light emitting unit that is provided in each of the plurality of connecting units and emits light, a transmitting unit that transmits a signal to the plurality of connecting units, and is assigned to each of the plurality of connecting units. Storage means for storing wiring data for instructing which connecting means to connect, including the specific information obtained from the storage means, and the specific information of the connecting means connected to each other from the wiring data stored in the storage means. First recognition means for controlling the transmission means to transmit a light emission control signal for causing the light emission means to emit light to the connection means of the recognized unique information after the recognition. It is characterized in that was.
[0009]
According to this configuration, the light emission control signal is transmitted from the transmission means to each connection means connected to each other under the control of the first control means, so that the light emission means of each connection means emits light. It is possible to instantaneously recognize which of the connecting means should be connected by cable without error.
In the wiring support system according to a second aspect of the present invention, in the first aspect, a receiving unit connected to one of the plurality of connecting units connected to each other and receiving a signal passing through the connecting unit. And second control means for performing transmission / reception control for causing the reception means to receive a signal transmitted from the transmission means based on the wiring data stored in the storage means through connection means connected to each other by a cable. When the transmission / reception control is performed, when the reception unit detects that the signal is not received, the connection target connection units recognized from the wiring data referred to in the transmission / reception control are not connected. Determining means for determining that the connection state is established; wherein the first control means sends the light emission control signal to the connection means in an unconnected state determined by the determination means; It is characterized by performing control for transmitting.
[0010]
According to this configuration, it is possible to detect that the connecting means that should be connected to each other are not connected, and to emit light from the light emitting means of the unconnected connection means. The connection means in the unconnected state can be instantly recognized from among the connection means.
According to a third aspect of the present invention, in the wiring support system according to the first or second aspect, when the reception of the signal by the receiving unit is detected when the transmission / reception control is performed, the reception signal passes. Generating means for generating actual wiring data from the unique information of the connecting means; collating the actual wiring data generated by the generating means with the wiring data referred to at the time of the transmission / reception control; Or matching means for recognizing mismatch, wherein the first control means sends the light emission control signal to the transmitting means to the connecting means indicated by the actual wiring data recognized as mismatch by the matching means. The transmission is controlled.
[0011]
According to this configuration, it is possible to cause the light-emitting unit of the connection unit that has been erroneously connected to emit light. Therefore, after connecting the cable of the connection unit, it is possible to instantaneously recognize the connection unit in the incorrect connection state from the plurality of connection units. Can be.
A wiring support system according to a fourth aspect of the present invention performs control for storing the actual wiring data recognized as a match by the matching means in the storage means in any one of the first to third aspects. A third control means is provided.
[0012]
According to this configuration, it is possible to store the actual wiring data verified that the wiring is correct, and it is possible to utilize the actual wiring data for the subsequent wiring work.
Further, in the wiring support system according to a fifth aspect of the present invention, in the fourth aspect, the third control means converts the real wiring data recognized as a match by the matching means to the real wiring data corresponding to the real wiring data. It is characterized in that control is performed to overwrite the wiring data stored in the storage means.
[0013]
According to this configuration, it is possible to overwrite the actual wiring data verified that the wiring is correct. Therefore, when the wiring is changed, the actual wiring after the change and the wiring data stored in the storage unit are changed. Can always be in a matching state.
The wiring support system according to claim 6 of the present invention is the wiring support system according to any one of claims 1 to 3, wherein the third control unit stores the actual wiring data generated by the generation unit in the storage unit. The control is performed to store the information in the memory.
[0014]
According to this configuration, when new wiring is performed, the actual wiring data can be stored, so that it can be used for later wiring work.
Also, the wiring support system according to claim 7 of the present invention is characterized in that in any one of claims 4 to 6, there is provided a creating means for creating a wiring diagram from the actual wiring data stored in the storage means. Features.
[0015]
According to this configuration, a wiring diagram can be created in an actual wiring state.
The wiring support system according to claim 8 of the present invention is the wiring support system according to any one of claims 2, 3, and 7, wherein the unconnected state by the determination unit, the match or mismatch state by the matching unit, Display means for displaying at least one of the wiring diagrams created by the means.
[0016]
According to this configuration, it is possible to display and confirm any one of the unconnected state, the erroneously connected state, the normal connected state, and the wiring diagram corresponding to the actual wiring state of the connecting means.
According to a ninth aspect of the present invention, in the wiring support system according to any one of the first to eighth aspects, the connection means is at least one of a connector, a terminal, and an adapter.
According to this configuration, even if the connection means is any of the connector, the terminal, and the adapter, the same operation and effect as described above can be obtained.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Embodiment)
FIG. 1 is a block diagram illustrating a configuration of a wiring support system according to an embodiment of the present invention.
[0018]
The wiring support system shown in FIG. 1 connects an optical fiber cable to first to n-th devices 11-1 to 11-n constituting a communication system via first to n-th connectors 21-1 to 21-n. When connection (wiring) is performed in 31 to 33, the connection is supported.
However, it is assumed that the devices 11-1 to 11-n are connected to the corresponding connectors 21-1 to 21-n in advance. It is assumed that connectors (not shown) that are connected to the connectors 21-1 to 21-n in pairs in a male-female relationship are connected to both ends of the optical fiber cables 31 to 33. Each of the connectors 21-1 to 21-n may be called an adapter.
[0019]
Also, in the drawing, each device 11-1 to 11-n and each connector 21-1 to 21-n are shown connected by a cable, but each device 11-1 to 11-n is connected to each connector. 21-1 to 21-n may be directly connected. In the drawing, a first device 11-1, a second device 11-2, a fifth device 11-5, and a sixth device 11- are referred to as first to n-th devices 11-1 to 11-n. 6, the m-th device 11-m and the n-th device 11-n are shown as representatives. Accordingly, the connectors 21-1 to 21-n are shown connected to the devices 11-1 to 11-n.
[0020]
The feature of this wiring support system is that each connector 21-1 to 21-n is provided with an optical multiplexing / demultiplexing structure and LEDs (light emitting diodes) 41-1 to 41-n to be described later. A unit 52, an optical transmission / reception control unit 54, a connection state determination unit 55, a collation unit 56, an actual wiring data generation unit 58, a storage control unit 59, a wiring diagram creation unit 60, a display control unit 61, The configuration is provided with a display unit 62, a connection guidance control unit 64, and a wiring data storage unit 66.
[0021]
The optical multiplexing / demultiplexing structure is a structure in which a path for multiplexing or demultiplexing another optical signal is optically connected to an optical signal transmission path between the original devices in each of the connectors 21-1 to 21-n. is there. An optical transmission unit 51 or an optical transmission / reception unit 52 is connected to a path for multiplexing or demultiplexing via an optical fiber cable.
The wiring data storage unit 66 stores wiring data for connecting the devices 11-1 to 11-n via the connectors 21-1 to 21-n.
[0022]
As shown in FIG. 1, the wiring data is such that the unique data “1” to “n” of each of the devices 11-1 to 11-n are assigned to the connectors 21-1 to 21-n to be connected, and the unique data “ Data indicating which connectors 21-1 to 21-n are to be connected based on "1" to "n".
For example, when the wiring data indicates that the first connector 21-1 and the sixth connector 21-6 are to be connected, the wiring data is “1-6”, and the fifth connector 21-5 and the second connector 21-5 are connected. "5-2" when indicating connection with the 21-2, and "mn" when indicating connection between the m-th connector 21-m and the n-th connector 21-n. Suppose there is.
[0023]
The optical transmission / reception control unit 54 reads the wiring data stored in the wiring data storage unit 66, recognizes the transmission side connector to be connected from the wiring data, and sends the optical signal to the optical transmission unit 51. , And controls the optical transmission / reception unit 52 to receive the optical signal (hereinafter referred to as optical transmission / reception control).
When the optical transmission / reception control unit 54 detects that the optical signal is received by the optical transmission / reception unit 52 after the optical transmission / reception control, the optical transmission / reception control unit 54 recognizes the unique data of each connector through which the optical signal has passed, and Output to the actual wiring data generation unit 58. The optical transmission / reception control unit 54 can recognize to which connector the optical signal is transmitted from the optical transmission unit 51 and through which connector the optical signal is received by the optical transmission / reception unit 52. Can know the unique data of each connector that has passed.
[0024]
When the connection state determination unit 55 detects that the optical transmission / reception unit 52 has not received optical signals from all of the receiving-side connectors while being notified of the execution of the optical transmission / reception control from the optical transmission / reception control unit 54, It is determined that each connector to be connected is not connected, and the unique data of each connector is output to the display control unit 61 as unconnection result data together with information indicating that each connector is not connected. It is. The unconnected state indicates a state where the connectors that should be connected are not connected in a conductive state. For example, poor conduction at the connection between the connector and the cable, poor conduction at the connector or the cable itself.
[0025]
The actual wiring data generation unit 58 generates actual wiring data (actual wiring data) based on each unique data input from the optical transmission / reception control unit 54, and sends the actual wiring data to the matching unit 56 and the storage control unit 59. Output. The generation is performed as follows. For example, when each unique data is “1” and “6”, actual wiring data “1-6” is generated.
[0026]
The collation unit 56 collates the wiring data referred to when performing the optical transmission / reception control with the actual wiring data generated by the actual wiring data generating unit 58 so that the wiring data matches the actual wiring data. It is determined that they do not match, and this collation result data is output to the storage control unit 59 and the display control unit 61. In other words, if they do not match, the connectors that should be connected as indicated in the wiring data are not connected to each other, but are connected to another connector. This is called incorrect connection.
[0027]
When the matching result data from the matching unit 56 indicates a match, the storage control unit 59 stores the actual wiring data generated by the actual wiring data generating unit 58 in the wiring data storage unit 66. This storage may be overwritten on the wiring data from which the actual wiring data was obtained, or a storage area for the actual wiring data may be separately provided and stored. Here, it will be overwritten.
[0028]
The wiring diagram creation unit 60 creates a wiring diagram of the whole or a part of the communication system to be supported from the wiring data stored in the wiring data storage unit 66, and outputs the wiring diagram data to the display control unit 61. .
The display control unit 61 displays on the display unit 62 that the connector to be connected is in the unconnected state based on the unconnected result data of the connection state determination unit 55. Also, based on the matching result data of the matching unit 56, whether the actually wired connectors are correctly connected or not is displayed. Further, based on the wiring diagram data created by the wiring diagram creating unit 60, a wiring diagram of the whole or a part of the communication system is displayed.
[0029]
The connection guidance control unit 64 performs control for guiding the connection of the connector (hereinafter, referred to as connection guidance control). This connection guidance control is performed as follows. When the connectors 21-1 to 21-n are to be connected in a state where all the connectors 21-1 to 21-n are not connected, the wiring data is sequentially read from the wiring data storage unit 66, and this wiring data is used. An LED control signal is transmitted to each of the indicated connectors to be connected via the optical transmitting unit 51 and the optical transmitting and receiving unit 52. The LED control signal is a signal for blinking (or lighting) the LEDs 41-1 to 41-n provided in each of the connectors 21-1 to 21-n.
[0030]
When performing connection guidance control based on the unconnected result data input from the connection state determination unit 55, the connection guidance control unit 64 recognizes the unique data of each unconnected connector from the unconnected result data. The LED control signal is transmitted to the recognized connector of each unique data via the optical transmission unit 51 and the optical transmission / reception unit 52.
[0031]
Further, when the collation result data of the collation unit 56 indicates a mismatch, the connection guidance control unit 64 recognizes the unique data of each erroneously connected connector from the actual wiring data from the actual wiring data generation unit 58 that has mismatched. Then, an LED control signal is transmitted to the recognized connector of each unique data via the optical transmitting unit 51 and the optical transmitting / receiving unit 52.
[0032]
The operation of the wiring support system having such a configuration will be described.
First, a process for detecting an unconnected state and an erroneously connected state between connectors to be connected will be described with reference to the flowchart in FIG. However, it is assumed that each of the connectors 21-1 to 21-n is in a state of being connected by an operator while looking at a wiring diagram.
In step S1, the optical transmission / reception control unit 54 controls transmission / reception of an optical signal. First, the wiring data stored in the wiring data storage unit 66 is read, and the transmission side connector to be connected is recognized. For example, if the read wiring data is "1-6", the connector on the transmitting side is recognized as the connector 21-1 having the unique data "1" from this content. After this recognition, an optical signal is transmitted from the optical transmitter 51 to the connector 21-1.
[0033]
In step S2, the connection state determination unit 55 determines whether an optical signal has been received by the optical transmission / reception unit 52 when the execution of the optical transmission / reception control has been notified from the optical transmission / reception control unit 54. As a result, when it is determined that the connection has not been received, as shown in step S3, the connection state determination unit 55 recognizes that the connector 21-1 and the connector 21-6 to be connected are not connected. In this case, the unique data “1” and “6” are output to the display control unit 61 as unconnected result data together with information indicating that the connector 21-1 and the connector 21-6 are not connected.
[0034]
In step S4, under the control of the display control unit 61 having received the unconnection result data, the display unit 62 displays that the connectors 21-1 and 21-6 to be connected are not connected. .
In the case of this unconnected state, as shown in step S5, guidance for connecting the unconnected connector is performed. First, the connection guidance control unit 64 recognizes the unique data “1” and “6” of each unconnected connector from the unconnected result data input from the connection state determination unit 55. Then, under the control of the connection guidance control unit 64, the LED control signal is transmitted from the optical transmitting unit 51 and the optical transmitting and receiving unit 52 to the recognized connectors 21-1 and 21-6.
[0035]
On the other hand, if it is determined in step S2 that the optical signal has been received by the optical transmission / reception unit 52, then as shown in step S6, the optical transmission / reception control unit 54 displays the unique data of the connector through which the received optical signal has passed. Be recognized. Then, each of the recognized unique data is output to the actual wiring data generation unit 58.
Next, in step S7, the actual wiring data generation unit 58 generates actual wiring data based on each unique data input from the optical transmission / reception control unit 54. For example, when each unique data is “1” and “6”, “1-6” of the actual wiring data is generated.
[0036]
In step S8, the collation unit 56 collates the actual wiring data "1-6" with the wiring data (original wiring data) "1-6" referred to when performing the optical transmission / reception control. As a result of the collation, as shown in step S9, the collation unit 56 determines whether the actual wiring data matches the original wiring data or not.
If the result is a match, in step S10, matching result data indicating the match is output from the matching unit 56 to the storage control unit 59, and the actual wiring generated by the actual wiring data generation unit 58 under the control of the storage control unit 59. Data “1-6” is stored in the wiring data storage unit 66. This storage is overwritten with the wiring data "1-6" from which the actual wiring data "1-6" is obtained.
[0037]
Further, in step S11, the matching result data indicating the match is output from the matching unit 56 to the display control unit 61, and by the display control based on the matching result data, the actually wired connectors 21-1 and 21- 6 is normally connected.
On the other hand, it is assumed that the collation result in step S9 is mismatched. This is a case in which the connectors for passing the optical signal received by the optical transceiver 52 are not the connectors 21-1 and 21-6 to be originally connected, but the connectors 21-1 and 21-2, for example. is there. In this case, the unique data “1” and “2” are recognized in step S6, and the actual wiring data “1-2” is generated in step S7. Therefore, if the actual wiring data "1-6" and the original wiring data "1-6" are collated in step S8, the collation results in step S9 do not match.
[0038]
In this case, in step S12, collation result data indicating a mismatch is output from the collation unit 56 to the display control unit 61, and the display control based on the collation result data causes the connector 21-1 to be connected to the connector 21-1 to be originally connected. 21-6 is not connected, and it is erroneously displayed that the connectors 21-1 and 21-2 are connected.
[0039]
In the case of this erroneous connection state, as shown in step S13, guidance for properly reconnecting the erroneously connected connector is performed. In the connection guidance control unit 64, since the matching result data of the matching unit 56 indicates mismatch, the unique data “1” of each erroneously connected connector is converted from the mismatched actual wiring data “1-2” of the actual wiring data generation unit 58. "And" 2 ". Then, under the control of the connection guidance control unit 64, the LED control signal is transmitted from the light transmitting unit 51 and the light transmitting and receiving unit 52 to the connector 21-1 and the connector 21-2 of the recognized unique data "1" and "2". Is sent.
[0040]
After the connection is corrected by the connection guidance control in steps S5 and S13, as shown in step S14, the process returns to step S1 to read out only the wiring data related to the corrected connection, and returns to the normal state shown in step S11. The same processing is repeated until the connection is confirmed.
Although not shown in the flowchart, after the normal connection is confirmed, the wiring diagram creation unit 60 uses the wiring data stored in the wiring data storage unit 66 to extract the entire or partial wiring diagram of the communication system to be supported. Then, the wiring diagram data is displayed on the display unit 62 under the control of the display control unit 61.
[0041]
In addition, in an initial state in which all the connectors 21-1 to 21-n are not connected, the connection guidance control unit 64 sequentially reads the wiring data from the wiring data storage unit 66, and sets the connection target indicated by the wiring data. An LED control signal is transmitted to each connector via the light transmitting unit 51 and the light transmitting / receiving unit 52. As a result, the LEDs 41-1 to 41-n of the connectors to be connected sequentially blink, so that the connection may be made in accordance therewith.
[0042]
According to such a wiring support system of the present embodiment, the LED of each connector is transmitted by transmitting the LED control signal from the light transmitting unit 51 to each connector connected to each other under the control of the connection guidance control unit 64. Since the light is emitted, it is possible to instantly recognize which of the plurality of connectors should be connected to the cable without error. Therefore, when the devices 11-1 to 11-n constituting the communication system and the like are connected by the optical fiber cables 31 to 33 via the connectors 21-1 to 21-n, they can be connected in a short time.
[0043]
Further, the connection state determination unit 55 detects that the connectors that should be connected are not connected to each other, and allows the LED of the connector in the unconnected state to emit light. An unconnected connector can be instantly recognized from the connectors.
Further, the actual wiring data generating unit 58 generates actual wiring data from the unique data of the connector through which the signal received by the optical transmitting / receiving unit 52 has passed, and the matching unit 56 compares the actual wiring data with the original wiring data. The matching or mismatch is recognized by collation, and the LED control signal is transmitted by the connection guidance control unit 64 to the connector indicated by the actual wiring data recognized as mismatching. The LED can emit light. Therefore, after the connector is connected to the cable, the connector in the erroneously connected state can be instantly recognized from the plurality of connectors.
[0044]
Further, since the actual wiring data verified that the wiring is correct can be stored in the storage control unit 59, it is possible to utilize the actual wiring data for the later wiring work. Therefore, it is possible to create the wiring information when the connection of the cable is changed without error in a short time.
In addition, since the storage control unit 59 can overwrite the actual wiring data for which the wiring has been verified to be correct, when the wiring is changed, the real wiring after the change and the wiring data storage unit 66 are stored. The stored wiring data can always be brought into a matching state.
[0045]
Further, since the wiring diagram creation unit 60 creates the wiring diagram from the actual wiring data stored in the wiring data storage unit 66, the wiring diagram can always be created in the actual wiring state.
The display control unit 61 also displays, on the display unit 62, the unconnected state of the connection state determination unit 55, the matching or mismatching state of the matching unit 56, and the wiring diagram created by the wiring diagram creation unit 60. Since it is displayed, any one of the unconnected state, the erroneously connected state, the normal connected state, and the wiring diagram corresponding to the actual wiring state of the connector can be displayed and confirmed.
[0046]
In addition, the actual wiring data generated by the actual wiring data generating unit 58 may be directly stored in another storage area of the wiring data storage unit 66 without performing the collation by the collating unit 56. In this case, when new wiring is performed, the actual wiring data can be stored, so that it can be used for later wiring work.
The wiring support system according to the embodiment described above is based on the premise that the devices 11-1 to 11-n are connected to the connectors 21-1 to 21-n. However, the same effect can be obtained even with a terminal having an optical multiplexing / demultiplexing structure having an LED.
[0047]
Further, the present wiring support system can be applied to an exchange. In this case, the connectors 21-1 to 21-n or the terminals are fixed to the wiring rack. Even in such an exchange, the same effect as described above can be obtained.
Furthermore, it is assumed that the devices 11-1 to 11-n are connected by optical fiber cables 31 to 33 via connectors 21-1 to 21-n, and communicate with optical signals. The present wiring support system can be similarly applied to a configuration in which communication is performed by electric signals using a metal cable.
[0048]
【The invention's effect】
As described above, according to the present invention, the light emission control signal is transmitted from the transmission means to each connection means (or terminal) connected to each other, thereby causing the light emission means provided in each connection means to emit light. It is possible to instantly recognize which of the plurality of connection means should be connected to the cable without error. Therefore, each device constituting a communication system or the like can be connected in a short time when connected by a cable via the connection means.
[0049]
Further, since it is possible to detect that the connecting means that should be connected to each other are not connected, and to emit the light emitting means of the connecting means in the unconnected state, a plurality of connecting means can be connected after the cable connection of the connecting means. It is possible to instantly recognize an unconnected connection means from inside.
Also, when transmission / reception control is performed, actual wiring data is generated from the unique data of the connection means through which the received signal has passed, and the actual wiring data is compared with the original wiring data to recognize a match or mismatch between the two, Since the LED of the connecting means indicated by the actual wiring data recognized as mismatch is made to emit light, after connecting the cable of the connecting means, it is possible to instantly recognize the incorrectly connected connecting means from the plurality of connecting means. it can.
In addition, since the actual wiring data verified that the wiring is correct can be stored, it can be used for a later wiring operation. Therefore, it is possible to create the wiring information when the connection of the cable is changed without error in a short time.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a wiring support system according to an embodiment of the present invention. FIG. 2 is a block diagram showing an embodiment of the present invention.
FIG. 2 is a flowchart for explaining the operation of the wiring support system.
[Explanation of symbols]
11-1 to 11-n1 device
21-1 to 21-n connectors
31-33 Optical fiber cable
41-1 to 41-n LED
51 Optical transmitter
52 Optical transceiver
54 Optical Transmission / Reception Controller
55 connection status judgment unit
56 Collation unit
58 Actual wiring data generator
59 Memory control unit
60 Wiring diagram creation unit
61 Display control unit
62 Display
64 connection guidance control unit
66 Wiring data storage

Claims (9)

In a wiring support system that guides the connection when connecting predetermined connection means with a cable among a plurality of connection means to which a predetermined device is connected,
A light-emitting unit that is provided in each of the plurality of connection units and emits light;
Transmitting means for transmitting a signal to the plurality of connecting means,
Storage means for storing wiring data indicating which connection means to connect, including unique information assigned to each of the plurality of connection means,
After recognizing the unique information of the connecting means connected to each other from the wiring data stored in the storage means, the transmitting means outputs a light emission control signal for causing the light emitting means to emit light. A first control means for controlling transmission to the connection means. A receiving unit that is connected to one of the plurality of connecting units that are connected to each other and receives a signal that has passed through the connecting unit,
A second control unit that performs transmission / reception control for causing the reception unit to receive a signal transmitted from the transmission unit based on the wiring data stored in the storage unit via a connection unit that is cable-connected to each other;
When the transmission / reception control is performed, when the reception unit detects the non-reception of the signal, the connection target connection units recognized from the wiring data referred to in the transmission / reception control are not connected. Determining means for determining the state,
2. The apparatus according to claim 1, wherein the first control unit controls the transmission unit to transmit the light emission control signal to a connection unit in a disconnected state determined by the determination unit. 3. Wiring support system. When the transmission / reception control is performed, when the reception of a signal by the reception unit is detected, a generation unit that generates actual wiring data from the unique information of the connection unit through which the reception signal has passed,
The actual wiring data generated by the generating means, and a matching means for comparing the wiring data referred to at the time of the transmission and reception control to recognize a match or mismatch of both,
The first control means controls the transmission means to transmit the light emission control signal to a connection means indicated by the actual wiring data recognized as a mismatch by the collation means. Item 3. The wiring support system according to item 1 or 2. 4. The apparatus according to claim 1, further comprising a third control unit configured to perform a control of storing the actual wiring data recognized as a match by the matching unit in the storage unit. 5. Wiring support system. The third control means performs control of overwriting the actual wiring data recognized as a match by the matching means with wiring data stored in the storage means corresponding to the actual wiring data. The wiring support system according to claim 4. 4. The wiring support according to claim 1, wherein the third control unit performs control of storing the actual wiring data generated by the generation unit in the storage unit. 5. system. 7. The wiring support system according to claim 4, further comprising a creating unit that creates a wiring diagram from the actual wiring data stored in the storage unit. 8. 3. A display unit for displaying at least one of an unconnected state by the determination unit, a match or mismatch state by the comparison unit, and a wiring diagram created by the creation unit. 8. The wiring support system according to any one of claims 3, 3 and 7. The wiring support system according to any one of claims 1 to 8, wherein the connection unit is at least one of a connector, a terminal, and an adapter.

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