JP2010213369A - Relay device, transmission line structure, and method of connecting electronic apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a relay device, in which it is easy to lay cables for connecting electronic apparatuses installed in separate points with each other and it is possible to easily identify which cable terminal should be connected to which channel, a transmission path structure, and a method of connecting the electric apparatuses. <P>SOLUTION: A multibox 201 has a multicable connector 209, to which a multicable 202, where a plurality of communication cables 207 are bundled, is to be connected, and a plurality of cable connecting terminals 208, to which cable terminals can be connected. In the vicinity of each cable connecting terminal 208, an identifier 210, which can identify it uniquely, is displayed, and each of the cable connecting terminals 208 is connected to a terminal corresponding to some communication cable 207 of the multicable connector 209. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a transmission path structure that constitutes a transmission path that connects electronic devices.

  FIG. 8 shows a computer system in which each of five computers mounted (mounted) in a rack is connected to a storage apparatus installed in another location.

In the configuration shown in the figure, communication cables 24 that connect the computers in the racks 22a and 22b and the storage devices in the racks 23a and 23b are independent, and the communication cables 24 are laid under the floor.
In any of the racks 22a, 23a side and the racks 22b, 23b side, a plurality of communication cables 24 run out from under the floor, and it is difficult to distinguish which cable is connected to where.

  Further, if the communication cable 24 includes a similar appearance at the end, it is difficult to recognize where the opposite end is connected. That is, it is difficult to clearly distinguish a pair of cable terminals. For this reason, if the communication cable 24 is removed for some reason (for example, maintenance work), it becomes difficult to distinguish which cable should be connected to the device when reconnecting.

  Furthermore, when the number of computers connected to the storage apparatus is increased or the number of computers is increased, a communication cable 24 must be newly laid under the floor.

As a technique related to a method for connecting electronic devices, there is a “network wiring article and module desk” disclosed in Patent Document 1.
The network wiring box disclosed in Patent Document 1 has n × m network cables housed inside a box-shaped housing, and a pair of cable connectors and an m-type modular jack connector are arranged on the outer surface of the housing. A pair of cable connectors are connected to each other by network cables, and each network cable has a wiring cable for an external device branched every n and connected to the modular jack connector of each system. It is the composition which is.

Japanese Patent Application Laid-Open No. 10-066224

  As shown in FIGS. 3 and 4, the invention disclosed in Patent Document 1 is a construction of a LAN (Local Area Network) in an office, in other words, a plurality of network wiring boxes connected in series. Since the configuration is assumed to be used, a wiring cable for an external device is branched in the network wiring box. When this wiring state is applied to optical communication, it is necessary to add / drop an optical signal, an optical amplifier to amplify an optical signal to be sent to a network wiring box at the subsequent stage, etc. Patent Document 1 has no disclosure or suggestion related thereto. That is, the invention described in the cited document 1 assumes only communication by electric signals.

  In addition, when a plurality of network wiring boxes disclosed in Patent Document 1 are connected in series, the wiring cables in the network cable branch multiple times in each wiring box. In this case, multiple modular jacks can be connected to any wiring cable in the network cable at the same time, but such a connection state is a specific communication standard (IEEE802.3, etc.) among communications using electrical signals. Otherwise it is not acceptable. That is, the invention disclosed in the cited document 1 can be applied only to a specific electrical communication standard.

  Furthermore, the invention disclosed in Patent Document 1 has a problem that it is not possible to easily determine which modular jack of any network wiring box corresponds to which modular jack in another network wiring box.

  The present invention has been made in view of such problems, and can easily lay a cable for connecting electronic devices installed at distant locations, and easily determine which cable terminal is connected to which channel. It is an object of the present invention to provide a relay device, a transmission path structure, and an electronic device connection method that can be identified.

  In order to achieve the above object, the present invention includes, as a first aspect, a multi-cable connector to which a multi-cable in which a plurality of communication cables are grouped is connected, and a plurality of cable connection terminals to which the cable terminals can be connected. In the vicinity of each cable connection terminal, an identifier that can uniquely identify it is displayed. Each cable connection terminal is individually connected to a terminal corresponding to one of the communication cables of the multi-cable connector. The present invention provides a relay device characterized in that

  Moreover, in order to achieve the said objective, this invention is a 2nd aspect. WHEREIN: The relay apparatus provided with the some cable connection terminal which can connect a cable terminal to the both ends of the multi-cable which put the several communication cable together. The relay device has an identifier that can be uniquely identified in the vicinity of each cable connection terminal, and each cable connection terminal is individually connected to one of the communication cables of the multi-cable. A transmission line structure is provided.

  Moreover, in order to achieve the said objective, this invention is a relay apparatus provided with the several cable connection terminal which can connect a cable terminal to the both ends of the multi cable by which the several communication cable was put together as a 3rd aspect. An identifier that can uniquely identify the cable connection terminal is displayed near each cable connection terminal of the relay device, and each of the cable connection terminals is individually connected to one of the communication cables of the multi-cable. An electronic device connection method is provided, wherein an electronic device is connected to each relay device via a cable connection terminal.

  According to the present invention, it is possible to easily lay a cable for connecting electronic devices installed at remote locations, and to easily identify which cable terminal is connected to which channel. A method for connecting a road structure and an electronic device can be provided.

It is a figure which shows the structure of a multi box also as a relay apparatus which concerns on suitable embodiment of this invention. It is a figure which shows the structure of the transmission line structure which concerns on suitable embodiment of this invention. It is a figure which shows the structure of the computer system which concerns on 1st Embodiment which implemented this invention suitably. It is a figure which shows the structure of the multi box applied to the transmission-line structure of the computer system which concerns on 1st Embodiment. It is a figure which shows the structure of the cable connection terminal part of a multi box. It is a figure which shows the structure of the multi box applied to the transmission line structure which concerns on 2nd Embodiment which implemented this invention suitably. It is a figure which shows the structure of the multi box applied to the transmission-line structure based on 3rd Embodiment which implemented this invention suitably. It is a figure which shows the example of the system which connects the computer mounted in the rack to the storage apparatus installed in another place.

  FIG. 1 shows the configuration of a multi-box as a relay device according to a preferred embodiment of the present invention. The multi-box 201 includes a multi-cable connector 209 to which a multi-cable 202 in which a plurality of communication cables 207 are bundled is connected, and a plurality of cable connection terminals 208 to which cable terminals can be connected. An identifier 210 that can uniquely identify it is displayed in the vicinity, and each of the cable connection terminals 208 is individually connected to a terminal corresponding to one of the communication cables 207 of the multi-cable connector 209. Features.

  FIG. 2 shows a configuration of a transmission line structure according to a preferred embodiment of the present invention. In the transmission line structure 100, multi-boxes 101 and 103 each having a plurality of cable connection terminals 108 and 109 to which cable terminals can be connected are installed at both ends of a multi-cable 102 in which a plurality of communication cables 107 are grouped. In the multi-boxes 101 and 103, identifiers 110 and 111 for uniquely identifying the cable connection terminals 108 and 109 are displayed in the vicinity of the cable connection terminals 108 and 109. Each of the cable connection terminals 108 and 109 is connected to the multi-cable 102. It is characterized by being individually connected to one of the communication cables 107.

  In the multi-box and transmission line structure described above, the multi-boxes are connected by a multi-cable. The multi-cable is a cable for connecting electronic devices installed at distant locations, but can be laid easily. Further, since the identifier is displayed in the vicinity of the cable connection terminal, it is possible to easily recognize which cable connection terminal is connected to which channel based on the identifier.

  Hereinafter, a preferred embodiment of the present invention will be described by taking a computer system to which a multi-box or a transmission line structure adopting the above configuration is applied as an example.

[First Embodiment]
A first embodiment in which the present invention is suitably implemented will be described.
FIG. 3 shows a computer system in which a computer and peripheral devices are connected by applying the transmission line structure according to the present invention. This computer system has a configuration in which at least one computer mounted on each of the computer racks 6a and 6b is connected to a peripheral device mounted on the peripheral device racks 7a and 7b.

Each computer mounted on the computer rack 6 a and each peripheral device mounted on the peripheral device rack 7 a are connected to the multi-box 1 via the communication cable 4. On the other hand, each computer mounted on the computer rack 6 b and each peripheral device mounted on the peripheral device rack 7 b are connected to the multi-box 3 via the communication cable 5.
The multi box 1 and the multi box 3 are connected through a multi cable 2 laid under the floor.

FIG. 4 shows the configuration of the multi-boxes 1 and 3.
The multi-boxes 1 and 3 include a plurality of cable connection terminals 8 and 9 to which the cable terminals 12 are connected, and each of the cable connection terminals 8 and 9 is connected to the cable 7 in the multi-cable 2. In addition, since a well-known structure can be applied to the internal configuration of the multi-boxes 1 and 3, a detailed description is omitted, but a configuration using either a passive circuit or an active circuit may be used.
As the multi-cable 2, an optical fiber channel, an electrical fiber channel, a SCSI (Small Computer System Interface) cable, a SAS (Serial Attached SCSI) cable, a SATA (Serial Advanced Technology Attachment) cable, or the like can be applied. However, in this embodiment, it shall be the same kind as the communication cables 4 and 5.
Here, the configuration in which the multi-cable 2 is fixed to the multi-boxes 1 and 3, that is, the case where the transmission line structure shown in FIG. 2 is used is taken as an example, but the multi-cable 2 is connected to the multi-boxes 1 and 3. On the other hand, it may be detachably connected. That is, the computer system according to the present embodiment can be configured using the multi-box 21 shown in FIG.

  As shown in FIG. 5, in the multi-box 1, an identifier (for example, a number) 10 that uniquely identifies them is displayed in the vicinity of each cable connection terminal 8. Similarly, in the multi-box 3, an identifier 11 for uniquely identifying them is displayed near the cable connection terminal 9.

  The same identifier is displayed in the multi box 1 and the multi box 3, and the cable connection terminals having the same identifier are paired. For example, the cable connection terminal 8 labeled “1” in the multi-box 1 is paired with the cable connection terminal 9 labeled “1” in the multi-box 3, and the paired cable connection terminals 8 Are connected via a multi-cable 2.

  When electronic devices (for example, a computer and peripheral devices) are connected to each other using the transmission structure according to the present embodiment, the communication cables 4, 5 The connection work is easy because it is only necessary to connect the two. In addition, the communication cables 4 and 5 between the multi-boxes 1 and 3 and the electronic device can be shortened.

  In addition, even when the electronic device is removed from the multi-boxes 1 and 3 due to maintenance inspection or device replacement, it can be easily recognized which cable connection terminals 8 and 9 should be connected to the electronic device. For this reason, electronic devices that are not scheduled to be connected are not erroneously connected. That is, even when the multi-boxes 1 and 3 are installed at remote locations, it is clear which cable connection terminals 8 and 9 are connected to which channel.

In addition, since the multi-cable 2 is used to connect the multi-boxes 1 and 3, the multi-boxes 1 and 3 can be easily laid under the floor with less man-hours. Moreover, a plurality of cables do not get tangled.
Furthermore, by laying the multi-cable 2 including the extra cable 7 in advance, it is only necessary to connect the electronic device and the multi-boxes 1 and 3 when adding the electronic device. That is, it is not necessary to newly lay a cable under the floor every time the number of electronic devices to be connected increases.

  Since the electronic devices are connected one-to-one via the multi-boxes 1 and 3 and the multi-cable 2, the electronic devices are not limited to electrical signals and are not limited to specific communication standards.

[Second Embodiment]
A second embodiment in which the present invention is suitably implemented will be described. FIG. 6 shows a multi-box configuration of the transmission line structure according to the present embodiment. As in the first embodiment, the multi-boxes 1 and 3 include a plurality of cable connection terminals 8 and 9, and each of the cable connection terminals 8 and 9 is connected to the cable 7 in the multi-cable 2. However, in this embodiment, the communication cables 4 and 5 connected to the cable connection terminals 8 and 9 are optical fibers, and the multi-cable 2 is a cable for electric signals. The multi-box 1 includes a communication signal converter 13 that performs conversion from an optical signal to an electric signal and conversion from an electric signal to an optical signal. From the communication cables 4 and 5 connected to the cable connection terminals 8 and 9. The input optical signal is converted into an electrical signal and then output to the multi-cable 2. The electrical signal input from the multi-cable 2 is converted into an optical signal and then output to the communication cables 4 and 5 connected to the cable connection terminals 8 and 9. Note that, similarly to the first embodiment, the multi-cable 2 may be configured to be detachable from the multi-boxes 1 and 3.

  In this example, the electrical signal is transmitted on the multi-cable 2 side, but an optical signal is transmitted on the multi-cable 2 side, and the communication cables 4 and 5 for transmitting the electrical signal are connected to the cable connection terminals 8 and 9. It is the same even if it is the structure made.

  Communication signal converters are not limited to the conversion of optical signals and electrical signals, but convert analog electrical signals to digital electrical signals, or adapt digital electrical signals that conform to any standard to other standards. It may be configured to perform conversion.

  The transmission line structure according to the present embodiment is the same as that of the first embodiment except that the communication method is converted in the multi-box, and the same effect can be obtained.

[Third Embodiment]
A third embodiment in which the present invention is preferably implemented will be described. FIG. 7A shows a multi-box configuration of the transmission line structure according to the present embodiment. The multi-boxes 1 and 3 according to the present embodiment are provided with a plurality of cable connection terminals 8 and 9 as in the first embodiment, and each cable connection terminal 8 and 9 is connected to the cable 7 in the multi-cable 2. Has been. Note that, similarly to the first embodiment, the multi-cable 2 may be configured to be detachable from the multi-boxes 1 and 3. However, in the present embodiment, the male cable connection terminals 8a and 9a and the female cable connection terminals 8b and 9b form a set, and an identifier is assigned to each set.

  The male-type cable connection terminals 8 a and 9 a and the female-type cable connection terminals 8 b and 9 b are connected to the same cable 7 in the multi-cable 2. In other words, the cable 7 in the multi-cable 2 is branched in the multi-boxes 1 and 3, and one is connected to the male cable connection terminals 8a and 9a and the other is connected to the female cable connection terminals 8b and 9b. ing.

  Further, the communication cables 4 and 5 can be connected only exclusively to the male cable connection terminals 8a and 9a and the female cable connection terminals 8b and 9b. For example, as shown in FIG. 7B, when the distance between the male cable connection terminals 8a and 9a and the female cable connection terminals 8b and 9b is narrowed and the communication cables 4 and 5 are connected to the other, What is necessary is just to make it interfere with a connection space.

  Since the multi box according to the present embodiment includes both male and female cable connection terminals, there is no fear that the communication cable cannot be connected to the multi box due to the difference in the shape of the connection terminals.

  Since the other effects are the same as those of the first embodiment, overlapping description is omitted.

  Each of the above embodiments is an example of a preferred embodiment of the present invention, and the present invention is not limited to these and can be variously modified.

1, 3, 21, 101, 102 Multi-box 2, 102, 202 Multi-cable 4, 5 Communication cable 6a, 6b Computer rack 7a, 7b Peripheral equipment rack 8, 9, 108, 109, 208 Cable connection terminal 8a, 9a Cable Connection terminal (male type)
8b, 9b Cable connection terminal (female type)
10, 11, 110, 111, 210 Identifier 12 Cable terminal 13 Communication signal converter 209 Multi-cable connector 100 Transmission path structure

Claims (7)

It has a multi-cable connector to which a multi-cable that bundles a plurality of communication cables is connected, and a plurality of cable connection terminals to which the cable terminal can be connected,
An identifier that can uniquely identify it is displayed in the vicinity of each cable connection terminal,
Each of the cable connection terminals is individually connected to a terminal corresponding to one of the communication cables of the multi-cable connector.   By converting a signal input from the multi-cable and a signal input through the cable terminal in a communication method different from the multi-cable, the multi-cable and a cable connected through the cable terminal The relay apparatus according to claim 1, further comprising a signal conversion unit that mediates transmission / reception of signals between them.   The relay device according to claim 1 or 2, wherein the cable connection terminal can exclusively connect either a male type or a female type terminal. A relay device equipped with a plurality of cable connection terminals capable of connecting cable terminals is installed at both ends of a multi-cable that bundles a plurality of communication cables.
In the relay device, an identifier that can uniquely identify it is displayed in the vicinity of each cable connection terminal,
Each of the cable connection terminals is individually connected to any one of the communication cables of the multi-cable.   The relay device connects the multi-cable and the cable terminal by converting the signal input from the multi-cable and the signal input via the cable terminal in a communication method different from the multi-cable. 5. The transmission line structure according to claim 4, further comprising signal conversion means for mediating transmission / reception of signals to / from a cable to be transmitted.   The transmission line structure according to claim 3 or 4, wherein the cable connection terminal can exclusively connect either a male type or a female type terminal. A relay device having a plurality of cable connection terminals capable of connecting cable terminals is installed at both ends of a multi-cable in which a plurality of communication cables are grouped,
In the vicinity of each cable connection terminal of the relay device, an identifier that can uniquely identify the cable connection terminal is displayed,
Each of the cable connection terminals is individually connected to any of the communication cables of the multi-cable,
An electronic device connection method, wherein an electronic device is connected to each of the relay devices via the cable connection terminal.

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