JP2005033472A - Device for switching communication path - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication path switching device which inexpensively and surely prevents the disconnection of an IP network caused by an abnormal state of service interruption, etc., to always enable satisfactory data communication only by being attached to the existing communication path and is very excellent in practicality. <P>SOLUTION: This communication path switching device 4 is respectively provided between each terminal part 2 and the communication path 3 of the IP network established so as to connect each terminal part 2 to the communication path 3 connected to a host computer and to make data communicated through the communication path 3 communicate via each terminal part 2. The communication path switching device 4 comprises an abnormality detecting part 5 for detecting abnormality of the terminal part 2 and a switch part 6 set so as to switch an alternate communication path on which the data is communicated via the terminal part 2 to a directly connected communication path on which the data are communicated without going through the terminal part 2 to separate the terminal part 2 from the IP network when the abnormality detecting part 5 detects abnormality in the terminal part 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication path switching device provided in an IP network.
[0002]
[Prior art and problems to be solved by the invention]
A TCP / IP LAN (commonly referred to as an IP network) using an optical fiber composed of a host computer and a large number of terminal devices assigns a unique IP address to each terminal device, thereby allowing a large number of terminal devices to be Since it can be controlled by two optical fibers, it is widely used.
[0003]
However, since this IP network is formed by connecting terminal devices via a single communication path that is not a loop, that is, since data is communicated sequentially through each terminal device, any of the terminal devices When an abnormality such as a power failure or failure occurs, the network is interrupted by the terminal device in which the abnormality has occurred, and communication with a terminal device located on the terminal side of the network from this terminal device becomes impossible.
[0004]
Therefore, conventionally, each terminal device forming this IP network is attached with an uninterruptible power supply having a storage battery that can store power when energized and can supply power to this terminal device during a power failure, or looping the network to each terminal. Measures are taken to ensure good communication at all times by using two communication paths for data to the device and configuring it so that communication can be performed through the other communication path even if one of the communication paths is interrupted. ing.
[0005]
However, the above-mentioned uninterruptible power supply operates with the attached terminal equipment powering out twice a day with the second snow melting power, such as a snowpumping pump, or shutting down from spring to summer for a long time. If the time is short, sufficient electric power cannot be stored in the storage battery, so there is little electric power supplied at the time of a power failure, and a sufficient effect cannot be expected.
[0006]
On the other hand, when looping a network, naturally, it is inevitable that the network configuration is complicated, that is, the cost is increased, and if both terminals are blocked due to an abnormality in a plurality of terminal devices, the network will eventually be It is inevitable that it will be blocked.
[0007]
In view of the present situation as described above, the present invention eliminates the need to use an expensive device or a new communication path for preventing a power outage, and simply attaches to an existing communication path at low cost and reliably abnormalities such as a power outage It is an object of the present invention to provide a communication path switching device with excellent practicality capable of preventing the interruption of an IP network and always enabling good data communication.
[0008]
[Means for Solving the Problems]
The gist of the present invention will be described with reference to the accompanying drawings.
[0009]
The host computer 1 is composed of a plurality of terminal units 2 connected to the host computer 1. The host computer 1 and the plurality of terminal units 2 are connected to the communication path 3 connected to the host computer 1. Each terminal of the IP network that is set so that data communicated through the communication path 3 is communicated via each terminal unit 2 by being connected and connected through one communication path 3 that is not a loop. Each of the communication path switching devices provided between the unit 2 and the communication path 3. The communication path switching device 4 includes an abnormality detection unit 5 that detects an abnormality of the terminal unit 2 and the abnormality detection unit 5. When an abnormality is detected in the terminal unit 2, the detour communication path through which data is communicated via the terminal unit 2 is switched to a direct communication path through which data is communicated without going through the terminal unit 2. I Those of the communication path switching apparatus characterized by comprising the terminal portion 2 from the set switch unit 6 which to decouple from the network.
[0010]
In addition, the communication path switching device 4 is provided at each connection portion between the terminal unit 2 and the communication path 3 forming the IP network via the switch unit 6 of the communication path switching device 4. 2. The communication path switching apparatus according to claim 1, wherein the communication path switching apparatus is set.
[0011]
The switch unit 6 of the communication path switching device 4 includes a movable switching terminal 7 and a direct connection side terminal 9 connected to the communication path 3, and a bypass side terminal 8 connected to the terminal unit 2. By connecting the movable switching terminal 7 and the detour side terminal 8, it is set to form the detour communication path, and by connecting the movable switching terminal 7 and the direct connection side terminal 9, the direct communication path is The communication path switching device according to any one of claims 1 and 2, wherein the communication path switching device is set to be formed.
[0012]
In addition, the switch unit 6 of the communication path switching device 4 is configured to switch the movable unit 7 when the abnormality detection unit 5 detects an abnormality of the terminal unit 2 with the movable switching terminal 7 connected to the bypass terminal 8. 4. The communication path switching apparatus according to claim 3, wherein the terminal 7 is movable and the connection destination is automatically switched from the bypass side terminal 8 to the direct connection side terminal 9.
[0013]
Further, the abnormality detecting unit 5 is provided with a voltage abnormality monitoring circuit 10 for detecting an abnormality of the terminal unit 2 by detecting a change in voltage of the terminal unit 2. The present invention relates to the communication path switching device according to any one of the items.
[0014]
In addition, the communication path switching device 4 is provided with a switch unit 6 at each of the data introduction side position and the data derivation side position of the communication path 3 connected to the data introduction unit and the data derivation unit of the terminal unit 2, respectively. The communication path switching apparatus according to any one of claims 1 to 5, wherein the communication path switching apparatus is characterized.
[0015]
The communication path switching device according to any one of claims 1 to 6, wherein the communication path 3 is formed by an optical communication cable made of an optical fiber.
[0016]
The communication path switching device according to claim 1, wherein an optical switch that switches a light path in an optical communication network is employed as the switch unit 6.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention (how to carry out the invention) considered to be suitable will be briefly described with reference to the drawings, showing its effects.
[0018]
When the terminal unit 2 on the IP network becomes unable to communicate due to an abnormality such as a power failure or failure, the terminal unit 2 is disconnected from the IP network, and the host computer 1 and Data is communicated favorably to other terminal units 2.
[0019]
Specifically, the abnormality is detected by the abnormality detection unit 5 in the terminal unit 2, and the data is transferred from the detour communication path through which the data is communicated by the switch unit 6 via the terminal unit 2 in which the abnormality has occurred. The terminal unit 2 can be disconnected from the IP network by switching to a direct communication path for communication without going through the terminal unit 2.
[0020]
That is, the present invention assumes that the terminal unit 2 in which an abnormality has occurred is not on the IP network, and the terminal unit in which an abnormality has occurred by the switch unit 6 using the existing communication path 3 constituting this IP network as it is. A direct communication path capable of communicating without going through 2 is formed so that the host computer 1 and the other terminal unit 2 can always communicate well.
[0021]
For example, the switching from the bypass communication path to the direct connection communication path is performed by connecting the switch unit 6 of the communication path switching device 4 to the movable switching terminal 7 and the direct connection side terminal 9 connected to the communication path 3 and the terminal unit 2. The bypass switching terminal 7 and the bypass connection terminal 8 are set so as to form the bypass communication path by connecting the movable switching terminal 7 and the bypass terminal 8. Can be easily performed simply by controlling the switching operation of the movable switching terminal 7 by setting so as to form the direct communication path.
[0022]
That is, switching between the bypass communication path and the direct communication path is very simple. For example, an existing optical switch can be used as it is, and can be realized at a very low cost.
[0023]
Therefore, unlike the conventional uninterruptible power supply, there is no need for complicated operation and configuration to store and supply electric power, and blocking of IP network due to abnormalities such as power failure is reliably prevented with extremely simple operation and configuration. In addition, in the configuration in which the conventional network is made into a loop, there is a problem that the network is eventually shut down when an abnormality occurs in a plurality of terminal units. Since communication can be established by disconnecting from the network, it is possible to reliably prevent the IP network from being blocked even if an abnormality occurs in the plurality of terminal units 2.
[0024]
Also, for example, when an abnormality of the terminal unit 2 is detected by the abnormality detection unit 5 in a state where the switch unit 6 of the communication path switching device 4 is connected to the bypass side terminal 8 of the movable switching terminal 7, When the movable switching terminal 7 is movable and the connection destination is automatically switched from the bypass side terminal 8 to the direct connection side terminal 9, it is possible to prevent the IP network from being blocked more easily and reliably.
[0025]
Therefore, the present invention provides a communication path switching device with extremely high practicality that can reliably cut off the IP network due to a power failure or the like and can always perform good data communication at a low cost.
[0026]
【Example】
Specific examples of the present invention will be described.
[0027]
This embodiment comprises a host computer 1 and a plurality of terminal units 2 connected to the host computer 1, and the host computer 1 and the plurality of terminal units 2 are connected to a communication path 3 connected to the host computer 1. An IP network that is set so that data communicated through each communication path 3 is communicated via each terminal section 2 by connecting each terminal section 2 and connecting each through a single communication path 3 that is not a loop. The communication path switching device provided between each of the terminal units 2 and the communication path 3, the communication path switching device 4 includes an abnormality detection unit 5 that detects an abnormality of the terminal unit 2, and this abnormality Direct communication in which data is communicated without going through the terminal unit 2 from a detour communication path through which the data is communicated through the terminal unit 2 when an abnormality is detected in the terminal unit 2 by the detection unit 5 Cut to the route Ete is made of the set switch unit 6 which to decouple the terminal portion 2 from the IP network.
[0028]
The communication path switching device 4 of the present embodiment is set so as to be provided at the connection part between the terminal part 2 and the communication path 3 forming the IP network via the switch part 6.
[0029]
Specifically, the switch unit 6 of the communication path switching device 4 includes a movable switching terminal 7 and a direct connection side terminal 9 connected to the communication path 3, and a bypass side terminal 8 connected to the terminal unit 2. The movable switching terminal 7 and the bypass side terminal 8 are connected to set the bypass communication path, and the movable switching terminal 7 and the direct connection side terminal 9 are connected to each other as shown in FIG. As described above, the one set so as to form the direct communication path is adopted. Therefore, an existing optical switch generally used for switching the optical path in the optical communication network can be adopted as the switch unit 6.
[0030]
That is, as shown in FIG. 1, the communication path switching devices 4 of this embodiment are connected by the communication path 3, and the terminal unit 2 is connected to the communication path 3 through the communication path switching apparatus 4. An IP network is formed.
[0031]
In addition, the communication path switching device 4 is configured such that a switch unit 6 is provided at each of the data introduction side position and the data derivation side position of the communication path 3 connected to the data introduction unit and the data derivation unit of the terminal unit 2, respectively. .
[0032]
The switch unit 6 provided at the data introduction side position and the switch unit 6 provided at the data lead-out side position are provided in the communication path switching device in a state where the direct connection side terminals 9 are connected to each other.
[0033]
Specifically, the switch unit 6 provided at the data introduction side position of the communication path 3 and the switch unit 6 provided at the data output side position are respectively connected to the communication path 3 forming a direct communication path, This direct connection side terminal 9 is connected. The switch unit 6 is connected to the switch unit 6 of the other communication path switching device 4 by connecting the movable switching terminals 7 to the communication path 3.
[0034]
That is, in a state where the movable switching terminal 7 is connected to the bypass side terminal 8, data is introduced from the bypass side terminal 8 of the switch unit 6 at the data introduction side position to the terminal unit 2, and the switch unit 6 at the data lead-out side position. The data is derived from the detour-side terminal 8, and the movable switching terminal 7 of both switch units 6 is connected to the direct-connection side terminal 9 to form the direct communication path. The terminal unit 2 is disconnected (see FIG. 1).
[0035]
In addition, although a present Example is the structure which connected the direct connection side terminal 9 of the switch part 6 provided in the communication path switching device 4, respectively, it is good also as a structure which connected the direct connection side terminal 9 and the movable switching terminal 7. FIG. Moreover, it is good also as a structure which provided the one switch part 6 instead of providing the switch part 6 in the communication path switching apparatus 4 in this case, and can manufacture still more cheaply.
[0036]
The abnormality detection unit 5 employs a unit that can detect an abnormality of the terminal unit 2 by connecting to the terminal unit 2 or the switch unit 6 (one or more).
[0037]
Specifically, the abnormality detection unit 5 is provided with a voltage abnormality monitoring circuit 10 capable of detecting voltage fluctuations, and the voltage abnormality monitoring circuit 10 is connected to the one switch unit 6. The voltage abnormality monitoring circuit 10 is connected to a lithium battery 11 as an auxiliary power source. It has been confirmed that this lithium battery 11 can be used for 7 to 15 years by an ON-OFF operation twice a day, and does not require running cost and has good maintainability. In addition, as the auxiliary power source, another power source such as a solar cell may be employed instead of the lithium battery 11, and in this case, the running cost can be further reduced.
[0038]
In addition, a photocoupler 12 is connected to the voltage abnormality monitoring circuit 10. The photocoupler 12 knows the power supply to the voltage abnormality monitoring circuit 10 and assists when the terminal unit 2 (switch unit 6) is not supplied with power (due to an abnormality such as a power failure or failure). Setting is made so that power is supplied from the lithium battery 11 as a power source, and the power supply from the auxiliary power source is confirmed, and the movable switching terminal 7 of the switch unit 6 is automatically moved to bypass the connection. It is set to switch from the side terminal 8 to the direct connection side terminal 9.
[0039]
Furthermore, in this embodiment, a manual changeover switch 13 is provided in the switch unit 6 so that the switch unit 6 can be manually switched.
[0040]
Each part will be specifically described. As the switch unit 6, an existing optical switch is used as described above.
[0041]
The communication path 3 is formed by an optical communication cable made of an optical fiber. Specifically, an IP network is formed by using a transmission communication path 3a composed of a transmission optical communication cable and a reception communication path 3b composed of a reception optical communication cable.
[0042]
The communication path switching device 4 according to the present embodiment is provided with the above-described switch unit 6 that is connected to the transmission communication path 3a composed of the transmission optical communication cable and the reception communication path 3b composed of the reception optical communication cable. It is.
[0043]
That is, the communication path switching device 4 according to the present embodiment has the above-described switches for the data introduction side position and the data derivation side position of the transmission communication path 3a and the data introduction side position and the data derivation side position of the reception communication path 3b. This is a configuration in which each section 6 is provided (four in total).
[0044]
The host computer 1 is connected to the terminal unit 2 via the communication path 3 to form an IP network, and the terminal unit 2 connected to the communication path 3 is set so as to be remotely controlled. In the figure, reference numeral 14 denotes a connection cable made of an optical fiber for connecting each part.
[0045]
The terminal unit 2 includes an existing optical converter that converts an optical signal into an electric signal and a plurality of terminal devices connected to the optical converter. As the terminal device, for example, a snow-pumping pump that is difficult to use the uninterruptible power supply device may be employed.
[0046]
That is, in this embodiment, since the individual terminal units 2 are selectively disconnected from the IP network to establish communication, even if an abnormality occurs in a plurality of terminal units 2, the blockage of the IP network can be reliably prevented. For example, even if a device with a limited period of use such as a snow extinguishing facility and a constantly energized type device coexist, they can be separated from the IP network separately, so that the period of use is limited Data communication hindrance can be reliably prevented.
[0047]
Since the present embodiment is configured as described above, the terminal unit 2 that has become unable to communicate due to an abnormality such as a power failure or failure is disconnected from the IP network, so that this communication does not pass through the terminal unit 2 that cannot communicate. Data is satisfactorily communicated to the host computer 1 and other terminal units 2 constituting the IP network.
[0048]
Specifically, when an abnormality is detected in the terminal unit 2 by the abnormality detection unit 5, the data is transferred from the detour communication path through which the data is communicated via the terminal unit 2 by the switch unit 6. The terminal unit 2 is disconnected from the IP network by switching to a direct communication path for communication without going through 2.
[0049]
Switching from the bypass communication path to the direct communication path can be easily performed by simply controlling the switching operation of the movable switching terminal 7. That is, the existing optical switch can be used as it is, and can be realized at a very low cost.
[0050]
Therefore, unlike the conventional uninterruptible power supply, there is no need for complicated operation and configuration to store and supply electric power, and the interruption of the IP network due to abnormalities such as power failure is surely prevented with extremely simple operation and configuration. In addition, in the configuration in which the conventional network is looped, there is a problem that the network is eventually shut down when an abnormality occurs in a plurality of terminal units. In this embodiment, each terminal unit 2 is selectively selected. Since communication can be established by disconnecting from the IP network, even if an abnormality occurs in the plurality of terminal units 2, blocking of the IP network can be reliably prevented.
[0051]
Therefore, this embodiment is a highly practical communication path switching that can reliably and inexpensively prevent the interruption of the IP network due to an abnormality such as a power failure or failure in the terminal unit, and always enable good data communication. It becomes a device.
[0052]
【The invention's effect】
Since the present invention is configured as described above, it is extremely practical in that it can reliably and inexpensively prevent the interruption of the IP network due to an abnormality such as a power failure or failure in the terminal unit, and always enable good data communication. Communication path switching device.
[0053]
Further, in the invention described in claim 2, the communication path switching device is more practical than the present invention which can be realized more easily.
[0054]
In the invention according to claim 3, the communication path switching device can be realized more easily and at a lower cost by using an existing optical switch and is more practical.
[0055]
In the invention according to claim 4, the communication path switching apparatus is more practical than the terminal part in which an abnormality has occurred can be more reliably disconnected.
[0056]
In the invention according to claim 5, the communication path switching device is more practical than the terminal unit that can easily and reliably detect an abnormality.
[0057]
Further, in the inventions according to claims 6 to 8, the communication path switching device can be realized more easily and can be realized more easily.
[Brief description of the drawings]
FIG. 1 is a schematic explanatory diagram of this embodiment.
FIG. 2 is a schematic explanatory diagram of a switch unit of the present embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Host computer 2 Terminal part 3 Communication path 4 Communication path switching device 5 Abnormality detection part 6 Switch part 7 Movable switching terminal 8 Detour side terminal 9 Direct connection side terminal 10 Voltage abnormality monitoring circuit

Claims (8)

It consists of a host computer and a plurality of terminal units connected to the host computer. The host computer and the plurality of terminal units are connected to the communication path connected to the host computer, and each terminal unit is connected to the host computer. By connecting each via a communication path, the IP network set so that data communicated through this communication path is communicated via each terminal section is provided between each terminal section and the communication path. The communication path switching device includes an abnormality detection unit that detects an abnormality of the terminal unit, and data that passes through the terminal unit when the abnormality detection unit detects an abnormality in the terminal unit. Switch from the detour communication path communicated to the direct communication path through which data is communicated without going through this terminal section, and disconnect this terminal section from the IP network. Communication path switching apparatus characterized by comprising a set the switch portion. The communication path switching device is set so as to be provided at each connection portion between the terminal unit and the communication path forming the IP network via the switch unit of the communication path switching device. The communication path switching apparatus according to claim 1. The switch part of the communication path switching device has a movable switching terminal and a direct connection side terminal connected to the communication path, and a bypass side terminal connected to the terminal part, and the movable switching terminal and the bypass side terminal The connection is set to form the detour communication path, and the movable switching terminal and the direct connection side terminal are connected to set the direct connection communication path. The communication path switching device according to any one of 1 and 2. The switch part of the communication path switching device is configured such that, when an abnormality of the terminal unit is detected by the abnormality detection unit in a state where the movable switching terminal is connected to the bypass side terminal, 4. The communication path switching device according to claim 3, wherein the switch is set so as to automatically switch from the bypass side terminal to the direct connection side terminal. The voltage abnormality monitoring circuit which detects the abnormality of this terminal part by detecting the fluctuation | variation of the voltage of the said terminal part is provided in the said abnormality detection part, The any one of Claims 1-4 characterized by the above-mentioned. Communication path switching device. 2. The communication path switching device according to claim 1, wherein a switch unit is provided at each of a data introduction side position and a data derivation side position of a communication path connected to a data introduction unit and a data derivation unit of the terminal unit, respectively. The communication path switching device according to any one of? The communication path switching device according to claim 1, wherein the communication path is formed by an optical communication cable made of an optical fiber. The communication path switching device according to claim 1, wherein an optical switch that switches an optical path in an optical communication network is used as the switch unit.

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