JP4357470B2 - Telephone exchange equipment - Google Patents

Description

  The present invention relates to a telephone exchange apparatus capable of connecting a digital communication network such as an ISDN network (Integrated Service Digital Network).

  Conventionally, in office buildings and business offices, a telephone exchange device such as a button telephone device or PBX (Private Branch Exchange) has been widely used. This type of telephone exchange device accommodates, for example, a telephone as an extension terminal, and makes a call by exchanging and connecting between the extension terminal and an external communication network such as a public network and between extension terminals. Further, an ISDN network is also included as an external communication network.

  By the way, the ISDN line interface in the telephone exchange apparatus is fixedly connected to the network side line on a one-to-one basis. In such a case, when any failure occurs in the ISDN line interface in the telephone exchange device, the number of serviceable lines decreases because the failed line is in a non-service state, and line busy occurs when there is a lot of traffic. Probability increases.

Therefore, in the prior art, a first method (for example, multiplexing / separating communication channel (B channel) information and control channel (D channel) information between a telephone exchange device and a terminal connected to an ISDN network (for example, Patent Document 1) and a second method (for example, Patent Document 2) that includes a standby communication adapter for ISDN line connection and holds the active communication adapter and the standby communication adapter in the same communication state. .
JP-A-6-205003 JP-A-4-172842.

  However, in the first method, the number of lines cannot be maintained, causing a service failure. Further, in the second method, it is necessary to switch from the working communication adapter to the standby communication adapter when a failure occurs due to a communication adapter abnormality or a station line abnormality.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a telephone exchange device that can avoid a failure with a simple procedure when a failure occurs in a station line or a station line interface unit.

In order to achieve the above object, the present invention is configured as follows.
A station line interface unit capable of connecting at least one station line is provided, at least one telephone terminal is accommodated, call information related to connection with the telephone terminal is set in the station line interface unit, and when a connection request occurs, In a telephone switching apparatus that executes connection processing with a telephone terminal by processing based on call information set in the office line interface unit, a spare station line interface unit that operates as a redundant system of the office line interface unit, A changeover switch that selectively connects between the office line interface unit, the office line and the backup station line interface unit, an abnormality detection unit that detects an abnormality in the station line interface unit, and an abnormality detected by the abnormality detection unit Is detected, the changeover switch is controlled so as to connect between the station line and the spare station line interface unit, It is obtained as a control means for setting the call information to the line interface unit.

  According to this configuration, a spare station line interface unit that operates as a redundant system of the station line interface unit is built-in, and switching between the spare station line interface unit and the station line is performed separately from the internal time switch. A switch is provided, and when an abnormality is detected in the office line interface unit, the changeover switch is controlled to connect the station line and the spare station line interface unit, and call information is set in the spare station line interface unit. ing.

  Accordingly, when an abnormality occurs in the station line interface unit, the connection destination of the station line is switched to the spare station line interface unit using the changeover switch, and as a result, the trouble is avoided and communication is continued by a simple procedure.

  When a plurality of the office line interface units are provided, the control unit detects the first office line when an abnormality is detected by the abnormality detection unit in the first and second office line interface units. A station line connected to the interface unit is connected to the spare station line interface unit, and a station line connected to the second station line interface unit is different from the first and second station line interface units. The changeover switch is controlled to be connected to the office line interface unit.

  According to this configuration, even when abnormalities in a plurality of office line interface units occur in the same time zone, these abnormalities can be handled relatively flexibly.

  A plurality of office line interface units, a first station line interface unit for capturing a communication channel for communication signal transmission of the first station line among the plurality of station line interface units, and a first station line Capture a communication channel of a different second office line and capture a control channel for transmitting a control signal necessary for performing control related to the communication channel of the second office line and the communication channel of the first station line When the second station line interface unit is included, the control unit switches the second station line to the spare station line interface unit when the abnormality detection unit detects an abnormality in the second station line interface unit. And the control related to the communication channel of the first station line included in the first station line with respect to the first station line interface unit when the backup station line interface unit is blocked during operation Characterized in that it comprises a means for capturing the control channel of the control signal transmission required to perform.

  According to this configuration, an abnormality is detected in the second station line interface unit connected to the second station line having the control channel for control signal transmission necessary for performing control related to the communication channel of the first station line. When the second station line is connected to the spare station line interface unit, and the spare station line interface unit is blocked during operation, the first station line interface unit is connected to the first station line interface unit. Since the control channel for control signal transmission necessary for performing the control related to the communication channel of the first office line is included in the first office line, it is possible to continue the conventional service without reducing the specifications. It becomes possible.

  As described above in detail, according to the present invention, when a failure occurs in the office line or the office line interface unit, it is possible to provide a telephone exchange device that can avoid the failure with a simple procedure.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a button telephone system according to an embodiment of the present invention, and 1 is a main apparatus.

  In the button telephone system, as shown in the figure, an ISDN network NW is arbitrarily connected to the main unit 1 and a plurality of telephone terminals T1 to Ti (i is a natural number) are arbitrarily connected through extensions. It is configured. The ISDN network NW is connected to the main device 1 via ISDN lines SL1 to SLn (n is a natural number).

  The main apparatus 1 further includes a call control unit 11, ISDN line interfaces 12-1 to 12-j (j is a natural number), terminal interfaces 13-1 to 13-i, a spare ISDN line interface 14, and a spare switching unit 15. I have. The call control unit 11, ISDN line interfaces 12-1 to 12-j, terminal interfaces 13-1 to 13-i, and backup ISDN line interface 14 are connected to each other via a voice bus 16 and a control bus 17. Yes.

  The backup switching unit 15 switches between the ISDN lines SL1 to SLn, the ISDN line interfaces 12-1 to 12-j, and the backup ISDN line interface 14 under the control of the call control unit 11.

  The call control unit 11 includes a circuit switching switch unit 111, a call processing / alarm detection unit 112, and a backup switching control unit 113. The circuit switching unit 111 is controlled between the ISDN line interfaces 12-1 to 12-j and the terminal interfaces 13-1 to 13-i and the terminal interfaces 13-1 to 13- 13 under the control of the call processing / alarm detecting unit 112. -I is arbitrarily switched and connected, and audio signals are transmitted and received between the ISDN line interfaces 12-1 to 12-j and the terminal interfaces 13-1 to 13-i.

  The call processing / alarm detection unit 112 transmits / receives various control signals related to interface operations to / from the ISDN line interfaces 12-1 to 12-j and the terminal interfaces 13-1 to 13-i. 17, the line switching switch unit 111 and the ISDN line interfaces 12-1 to 12-j are collectively controlled, and the operation as the main device 1 is realized. At this time, call information necessary for call processing is set for the ISDN line interfaces 12-1 to 12-j.

  The call processing / alarm detection unit 112 monitors the occurrence of an abnormality in the ISDN line interfaces 12-1 to 12-j. When an abnormality is detected, this detection information is notified to the standby switching control unit 113 and call information is set to the standby ISDN line interface 14.

  As an abnormality detection method, a method of monitoring whether or not the operation clock of each ISDN line interface 12-1 to 12-j continues for a predetermined number of times is used.

  Based on the detection information notified by the call processing / alarm detection unit 112, the standby switching control unit 113 converts, for example, the ISDN line SL1 connected to the ISDN line interface 12-1 in which a failure has been detected to the standby ISDN line. The standby switching unit 15 is controlled so as to be switched and connected to the interface 14.

  By the way, the ISDN line interfaces 12-1 to 12-j include DSU (Digital Signal Unit) units 121-1 to 121-j, B channel processing units 122-1 to 122-j, and D channel processing units, respectively. 123-1 to 123-j. The standby ISDN line interface 14 also includes a DSU unit 141, a B channel processing unit 142, and a D channel processing unit 143. Here, the DSU unit 121-1, the B channel processing unit 122-1, and the D channel processing unit 123-1 will be described as a representative.

  The DSU unit 121-1 terminates the ISDN line SL1. The B channel processing unit 122-1, for example, has an audio circuit for two channels, and processes an audio signal transmitted through the ISDN line SL1 based on the set call information. The D channel processing unit 123-1 transmits and receives D channel information to and from the call control unit 11.

Next, the operation in the above configuration will be described.
(Normal incoming call operation)
For example, the external telephone terminal TT1 makes a call specifying the telephone terminal T1 as a destination, and in response to this, an incoming signal including an incoming telephone number is sent from the ISDN network NW via the D channel of the ISDN line SL1 to the ISDN line interface 12. Suppose we arrive at -1. In this case, the call control unit 11 extracts the incoming telephone number from the incoming call destination data notified from the ISDN line interface 12-1, and transmits the incoming data to the telephone terminal T1 corresponding to the incoming telephone number to notify the incoming call. Let it be done.

  When the telephone terminal T1 responds to this incoming call notification, communication between the telephone terminal T1 and the external telephone terminal TT1 on the ISDN network NW via the B channel of the ISDN line interface 12-1 and the ISDN line SL1. A link is formed. Thus, the user of the external telephone terminal TT1 can make a call with the user of the telephone terminal T1.

(Switching operation of ISDN line when abnormality is detected)
By the way, in the call control unit 11, the following abnormality determination / response control is performed for each ISDN line interface 12-1 to 12-j. FIG. 2 is a flowchart showing the control procedure and control contents.

  The call control unit 11 monitors the abnormality of each ISDN line interface 12-1 to 12-j (step ST2a). As this abnormality monitoring method, a method for monitoring whether or not the operation clock of each ISDN line interface 12-1 to 12-j continues for a predetermined number of times is used.

  Here, it is assumed that an abnormality due to the substrate failure occurs in the ISDN line interface 12-3, and the occurrence of this abnormality is detected by the call control unit 11. Then, the call control unit 11 moves from step ST2b to step ST2c, where the call information is set in the standby ISDN line interface 14, and the ISDN line SL3 connected to the ISDN line interface 12-3 is set in the standby ISDN. The standby switching unit 15 is controlled to be switched and connected to the line interface 14.

  When an abnormality occurs in the ISDN line interface 12-4 in the same time zone, the call control unit 11 connects the ISDN line SL4 connected to the ISDN line interface 12-4 to an empty ISDN line interface 12-7. Thus, the auxiliary switching unit 15 is controlled to be switched.

(Switching operation of ISDN line when shared D channel error is detected)
For example, as shown in FIG. 3, an ISDN line SL5 having a B channel and a D channel is connected to the ISDN line interface 12-5, and an ISDN line SL6 dedicated to the B channel is connected to the ISDN line interface 12-6. It shall be. The D channel of the ISDN line SL5 is shared with the B channel of the ISDN line SL6.

  At this time, the B channel processing unit 122-5 and the D channel processing unit 123-5 of the ISDN line interface 12-5 operate, and the D channel processing unit 123-6 of the ISDN line interface 12-6 does not operate. is there.

  In this state, it is assumed that an abnormality occurs in the D channel processing unit 123-5 in the ISDN line interface 12-5, and the occurrence of the abnormality is detected by the call processing / alarm detection unit 112 of the call control unit 11. Then, the ISDN lines SL5 and SL6 sharing the D channel fall out of control.

  Therefore, the call control unit 11 switches and controls the backup switching unit 15 so as to connect the ISDN line SL5 to the backup ISDN line interface 14 as shown in FIG. On the other hand, when the standby ISDN line interface 14 is in operation and blocked, the D channel processing unit 123-6 of the ISDN line interface 12-6 is operated, and the D channel processing unit 123-6 is informed of the D of the ISDN line SL6. Capture the channel. Thus, it is possible to continue the conventional service without reducing the specifications.

  As described above, in the above-described embodiment, the standby ISDN line interface 14 is built in the main apparatus 1, and the ISDN line SL1 to SLn and the ISDN line interfaces 12-1 to 12-j are separated from the line exchange switch unit 111. , A standby switching unit 15 is provided for connecting to the standby ISDN line interface 14. When an abnormality is detected in the ISDN line interface 12-1, the standby switching unit 15 is switched and connected to the ISDN line interface 12-1. The existing ISDN line SL1 is connected to the backup ISDN line interface 14, and call information is set to the backup ISDN line interface 14.

  Therefore, when an abnormality occurs in the ISDN line interface 12-1, the backup switching unit 15 switches the connection destination of the ISDN line SL1 to the backup ISDN line interface 14. As a result, the abnormality is avoided by a simple procedure and communication is continued. can do.

  Further, in the above embodiment, even if the abnormality of the ISDN line interfaces 12-1 and 12-2 occurs in the same time zone, the ISDN line SL1 connected to the ISDN line interface 12-1 is replaced with the spare ISDN line interface 14. On the other hand, the ISDN line SL2 connected to the ISDN line interface 12-2 is connected to the free ISDN line interface 12-7, so that these abnormalities can be handled relatively flexibly. it can.

  Further, in the above embodiment, when an abnormality is detected in the ISDN line interface 12-5 connected to the ISDN line SL5 having the D channel shared with the ISDN line SL6, the ISDN line SL5 is connected to the spare ISDN line interface 14. On the other hand, when the standby ISDN line interface 14 is in operation and blocked, the ISDN line interface 12-6 is made to capture the D channel included in the ISDN line SL6, so that the specification is not reduced. Conventional services can be continued.

  The present invention is not limited to the above embodiment. For example, in the above-described embodiment, the method of detecting an abnormality by monitoring whether or not the operation clock of each ISDN line interface 12-1 to 12-j continues for a predetermined number of times has been described. However, the present invention is not limited to this, and each ISDN line SL1 to SLn is temporarily connected to the spare ISDN line interface 14 by using the standby switching unit 15, and whether the cause of the abnormality is caused by the ISDN lines SL1 to SLn or the ISDN line interface 12- A method of determining whether the malfunction is caused by an operation abnormality in 1 to 12-j may be used. In this way, it is possible to detect an abnormality in the ISDN lines SL1 to SLn itself.

  Furthermore, in the above-described embodiment, the example in which the abnormal operation of the ISDN line interfaces 12-1 to 12-j is detected by detecting the clock interruption has been described. However, the present invention is not limited to this, and either a board non-mounting fault in the ISDN line interfaces 12-1 to 12-j or a link establishment fault with the ISDN lines SL1 to SLn may be detected. As a technique for detecting a board non-mounting failure in the ISDN line interfaces 12-1 to 12-j, whether or not the ISDN line interfaces 12-1 to 12-j are periodically sent back to the ISDN line interfaces 12-1 to 12-j is determined. By determining, it is possible to detect an unmounted board failure. Further, as a technique for detecting a link establishment failure with the ISDN lines SL1 to SLn, it can be detected by determining whether or not a communication link can be established correctly when establishing a communication link with the ISDN network NW.

  In addition, the type of exchange system (not limited to the button telephone system but may be PBX), the configuration of the main unit, the type of station line other than the ISDN line, the procedure of abnormality determination / response control and the contents thereof, etc. Various modifications can be made without departing from the scope of the present invention.

The block diagram which shows the structure of the button telephone system concerning one Embodiment of this invention. The flowchart which shows the procedure and content of abnormality determination and response control of the call control part in the embodiment. The figure for demonstrating a mode that abnormality occurred in the ISDN line interface in the same embodiment. FIG. 5 is a diagram for explaining an ISDN line switching operation when an abnormality occurs in the ISDN line interface in the embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Main apparatus, 11 ... Call control part, 12-1 to 12-j ... ISDN line interface, 13-1 to 13-i ... Terminal interface, 14 ... Backup ISDN line interface, 15 ... Backup switching part, 16 ... Voice bus, 17 ... Control bus, 111 ... Circuit switch unit, 112 ... Call processing / alarm detection unit, 113 ... Preliminary switching control unit, 121-1 to 121-j, 141 ... DSU unit, 122-1 to 122- j, 142 ... B channel processing unit, 123-1 to 123-j, 143 ... D channel processing unit, T1 to Ti ... telephone terminal, NW ... ISDN network, SL1 to SLn ... ISDN line.

Claims (2)

And having a plurality of station line interface unit for sharing the control channel comprises a data transmission channel is a control channel and the channel for data transmission of at least one channel of the possible control signal transmission connects the office line, at least one It accommodates two telephone terminals, sets call information related to connection with the telephone terminal to the office line interface unit, and causes processing based on the call information set in the office line interface unit when a connection request occurs. In the telephone exchange device that executes connection processing with the telephone terminal,
A spare station line interface unit operating as a redundant system of the station line interface unit;
An abnormality detecting means for detecting an abnormality of any one of the control channels provided in the office line interface unit , the office line, and the office line interface unit, by separating a cause location ;
When an abnormality is detected in the control channel provided in the first station line interface unit of the plurality of station line interface units by the abnormality detection means and the spare station line interface unit is blocked, Control means for capturing a control channel provided in a second office line interface unit of the plurality of office line interface units and setting the call information in the second office line interface unit. A telephone exchange device. 2. The telephone exchange device according to claim 1, wherein the abnormality detecting means detects at least one of a board non-mounting fault, a clock disconnection, and a link establishment fault with the line in the office line interface unit.

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