JP3942221B2 - Automatic switching equipment line failure determination device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an automatic switching apparatus in which a plurality of terminal devices are accommodated and connected, and when the accommodated terminal device becomes unusable, for example, a failure of the terminal device itself or a line installed in the automatic switching apparatus The present invention relates to a line fault determination device for an automatic switching apparatus that can remotely determine whether a connection unit is faulty or a transmission line fault between a terminal device and a line connection unit.
[0002]
[Prior art]
Conventionally, when a terminal device accommodated and connected to such an automatic switching device becomes unusable for some reason, the terminal device is exchanged with another terminal device in order to confirm the failure location. I was trying to check if there was any change.
[0003]
If the operation state remains unchanged as a result of the confirmation, the line connection unit of the automatic switching apparatus is replaced with another line connection unit, and the operation state is confirmed again.
[0004]
As described above, according to the conventional method, the failure location of the terminal device or the line connection unit can be confirmed by checking the operation state after replacing the terminal device or the line connection unit.
[0005]
[Problems to be solved by the invention]
However, according to the conventional line failure determination method in the automatic switching apparatus, when confirming a line failure related to a terminal device accommodated and connected to the automatic switching apparatus, for example, when replacing the line connection unit of the automatic switching apparatus In some cases, it is necessary to turn off the automatic switching device, that is, to stop the exchange operation. In this case, the line during the call is disconnected, the terminal device is temporarily unavailable, There was a problem that it would cause a major hindrance to the service operation.
[0006]
Therefore, in order to deal with such problems, there are cases where hot-plug insertion / removal is performed so that the line connection unit can be replaced even during operation, but this will lead to an increase in price and to investigate one line. In addition, there is a problem that other lines cannot be used by replacing the line connection unit.
[0007]
In addition, according to the line fault determination method in the conventional automatic switching apparatus, when the exchange of the line connection unit of the automatic switching apparatus or the confirmation of the transmission path connecting the terminal device and the line connection unit, the customer side There is a problem in that it cannot be confirmed directly, and the maintenance company has to go to the customer side to check the operation state.
[0008]
In addition, it takes time because it is necessary to check the operating state on the customer side in this way, and since the cause of the failure is not known until going to the customer side, tools necessary for investigation and tools necessary for repair There was a problem that it was very annoying because it was necessary to bring a complete set.
[0009]
  The present invention has been made in view of the above-mentioned problems, and the first object of the present invention is that even if the terminal device accommodated and connected to the automatic switching apparatus becomes unusable, the customer side It is an object of the present invention to provide a line failure determination device for an automatic switching apparatus that can perform a line failure check operation without hindering service operations such as telephone reception.Another object of the present invention is to provide a line failure determination device for an automatic switching apparatus that can quickly check not only a terminal device and a line connection unit, but also a failure location on a transmission path between the terminal device and the line connection unit.
[0011]
  The second2An object of the present invention is to provide a line failure determination device for an automatic switching device that does not interfere with the operation service of a terminal device even during confirmation work.
[0012]
[Means for Solving the Problems]
  In order to achieve the first object, a line fault determination device for an automatic switching apparatus according to claim 1 of the present invention includes a line connection device for controlling a plurality of terminal devices, and accommodating and connecting the line connection device. A line fault determination apparatus for an automatic switching apparatus having a switching apparatus connected to a station line, wherein the line fault determination apparatus is connected to the switching apparatus and is connected to and connected to each line connection apparatus.And terminal equipment on the station line sideSwitching means for switching connection;SaidLocal line~ sideReceiving means for receiving a predetermined signal for starting a line failure determination test related to the terminal device accommodated and connected to the line connection device from the terminal device;SaidReceiving meansIs the firstWhen the predetermined signal is received, the test target terminal device involved in the line fault discrimination testWithout connecting the terminal equipment on the station line side via the line connection device in which the terminal equipment to be tested is accommodatedThe aboveBy switching meansMake a call connectionWhen the receiving means receives the second predetermined signal, the switching means communicates with the terminal equipment on the station line side and the other terminal equipment via the line connection device in which the terminal equipment to be tested is accommodated. Let them connectIn addition, these test target terminal devicesAnd other terminal equipmentWhen,On the local line sideA control means for determining a failure of a line related to the terminal device under test based on a call connection result with the terminal device;,It is characterized by having.
[0013]
The line connection device corresponds to a line connection unit (LIN) for controlling a terminal device accommodated and connected to the exchange device. The switching device includes a local line trunk, a speech path switch, and the like.
[0014]
The line fault discrimination test is, for example, when a terminal device becomes unusable, whether the cause of the unusability is due to a failure of the terminal device, a line connection device, or the terminal device and the line This is a test for discriminating whether the failure is caused by a failure in the transmission path between the connection devices.
[0015]
The predetermined signal transmitted from the terminal device on the office line corresponds to a dial signal by a special number, for example, a push button signal or a dial pulse signal.
[0016]
As the call connection result, when it is determined that the call state between the test target terminal device and the terminal device is normal, the test target terminal device and the line connection device are determined to be normal.
[0017]
Therefore, according to the line fault determining apparatus of the automatic switching apparatus according to claim 1 of the present invention, the line fault related to the test target terminal device is discriminated from a remote location in accordance with a predetermined signal from the terminal device on the office line. Therefore, even if a terminal device accommodated and connected to the automatic switching apparatus becomes unusable, it is possible to confirm a line failure related to the test target terminal device without going to the customer side.
[0018]
Furthermore, it is not necessary to turn off the power of the terminal device, line connection device, or automatic switching device when determining the line failure related to the terminal device under test, and this will interfere with other service operations such as telephone reception. There is nothing.
[0020]
  Also tryWithout going through the line connection device that connects to the terminal device under test,On the local line sideSince the terminal devices are connected to each other by telephone communication, it is possible to confirm a line failure in the transmission path between the terminal device to be tested and the line connection device.
[0021]
  In addition, the above2In order to achieve the object of the present invention,2The line fault determination device of the automatic switching device according to claim 1RecordIn addition to the configuration described above, the control means includes the terminal device to be testedOr the other terminal deviceWhenThe station line sideWhen a call operation by the test target terminal device is detected during a call connection with the terminal device, the test target terminal deviceOr the other terminal device and the station line sideThe call connection with the terminal device is disconnected, and call control related to the test target terminal device is executed.
[0022]
  Accordingly, the claims of the present invention2According to the line fault determination device of the automatic switching device described above,RecordIn addition to the effects listed above, even when a call connection related to the test target terminal device is in progress, if there is a call operation from the test target terminal device, the current call connection is disconnected and the test target terminal device Since the call is accepted, the service operation of the terminal device under test during the test connection is not hindered.
[0023]
As described above, according to the present invention, it is possible to identify the troubled part before going to the customer side, and the preparation and response method of tools necessary for repair can be performed in advance so that the service and work can be performed quickly. There is an effect that efficiency can be improved.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a telephone exchange system showing an embodiment of a line failure determination apparatus for an automatic exchange apparatus according to the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration inside a telephone exchange system showing an embodiment of the present invention.
[0025]
In FIG. 1, the telephone exchange system includes a plurality of terminal devices 2a and 2b and an automatic exchange device 1 that accommodates and connects these terminal devices 2a and 2b.
[0026]
The automatic switching apparatus 1 includes a station line trunk 14 connected to the office line, terminal devices 2a and 2b accommodated and connected to the automatic switching apparatus 1, and push button signals (hereinafter simply referred to as PB). PB receiving trunk (PBR) 15 for receiving the terminal device 2a, 2b, a line connection unit (LIN) 17 connected to the terminal device 2a, 2b, and a line switching trunk (for switching the connection between the terminal device 2a and the line connection unit 17) CHT) 18, a remote test control device (RTSTCNT) 19 for controlling the line switching trunk 18, and a communication path for switching and connecting the local line trunk 14, the PB receiving trunk 15, the line connection unit 17, and the line switching trunk 18. The central processing unit 1 that controls the switch 11 and the entire automatic switching apparatus 1 such as connection management of the communication path switch 11 When, and a storage device 13 that stores various control data and management data related to the control program and the control of the central processing unit 12. The central processing unit 12, the storage device 13, and the communication path switch 11 perform data transmission / reception via the bus 16.
[0027]
Next, the remote test control device (RTSTCNT) 19 will be described. FIG. 2 is a block diagram showing a schematic configuration inside the remote test control device 19.
[0028]
In FIG. 2, the remote test control device 19 controls a line switching trunk 18 that switches and connects the terminal device 2 a and the line connection unit 17, and is involved in starting a remote test from a local line via the PB receiving trunk 15. When the special number PB signal is received, the received PB signal is then converted into the test target terminal device number relating to the test target terminal device 2a and the information on the terminal device number of the connection partner which is the counterpart terminal device 2b (called information). , The line switching trunk control unit 22 for controlling the line switching trunk 18 for switching and connecting the terminal device 2a to be tested and the line connection unit 17, the terminal device 2a and the line connection unit 17 A line switching unit (LIN) 17 on the automatic switching apparatus 1 side and a line switching trunk on the terminal equipment 2a side ( (HT) 18, a speech path control unit 23 for connecting to the test target terminal device 2 a based on the received called information, a dial pulse sending unit 24 for sending a terminal device number of a connection partner to be tested and connected, and a test connection being made The call detection unit 25 detects that the test target terminal device 2a has lifted the handset, and the guidance transmission unit 26 guides various information.
[0029]
The test target terminal device 2a corresponds to, for example, a terminal device subject to a connection test, which is suspected of a line failure, and the connection partner is a partner terminal device 2b connected to the test target terminal device 2a. It is equivalent to.
[0030]
Next, the registration list of the test target terminal device 2a stored in the storage device 13 of the automatic exchange device 1 will be described. FIG. 3 is an explanatory diagram showing a registration list of the test target terminal device 2a.
[0031]
In FIG. 3, the registration list is stored in the storage device 13 of the automatic switching apparatus 1, and corresponds to the connection position of the terminal device 2a to be tested and the connection position of the line switching trunk 18 corresponding to the terminal device 2a to be tested. Management.
[0032]
Next, the operation of the line failure determination process in the telephone exchange system shown in this embodiment will be described. FIG. 4 is a flowchart showing the operation sequence of the line failure determination process in the telephone exchange system shown in the present embodiment.
[0033]
The line fault determination processing is, for example, by connecting a test target terminal device 2a in the automatic switching apparatus 1 to a terminal device 2b in the automatic switching apparatus 1 by a tester's terminal device 3 from the office line side. This is a process of confirming the faulty part of the line related to the test target terminal device 2a based on the connection result.
[0034]
In FIG. 4, when the tester dials a special number for starting the line failure determination process via the station side terminal device 3 (step S11), the tester accepts the start of the line failure determination process, and calls the test target terminal device 2a. The special tone SDT that prompts the user to dial the test target terminal number corresponding to the number is heard (step S12). Thereafter, the tester dials the test target terminal number (step S13).
[0035]
When the automatic switching apparatus 1 receives the test target terminal number, it receives the test target terminal number and listens to the continuous tone CDT that prompts dial input of the counterpart terminal number corresponding to the telephone number of the counterpart terminal device 2b (step S14). ).
[0036]
Further, the tester dials the counterpart terminal number of the counterpart terminal device 2b connected via the line connection unit (EX1) 17 of the test target terminal device 2a (step S15).
[0037]
When the tester dials the partner terminal number, the remote test control device 19 receives the partner terminal number from the line connection unit 17 via the line switching trunk 18 and performs incoming control on the partner terminal device 2b. (Step S16).
[0038]
When this counterpart terminal device 2b responds to the incoming call (step S17), the tester connects the remote test control device 19, the line switching trunk 18, the line connection unit 17 of the terminal device 2a to be tested, and the line connection of the connection partner terminal device 2b. A test connection call can be made with the counterpart terminal device 2b via the unit 17 (step S18).
[0039]
Further, when the partner terminal device 2b disconnects the call of the test target terminal device 2a (step S19), another partner terminal device 2b selects again, so that the test connection can be continuously made.
[0040]
FIGS. 5 to 8 are state transition diagrams illustrating a remote connection test (line failure determination process) for determining a line failure in the automatic switching apparatus 1 by remote operation from the terminal device 3 on the office line. The numbers in the figure indicate the state numbers, EX1 is the line connection unit 17 of the terminal device 2a to be tested, EX2 is the line connection unit 17 of the partner terminal device 2b of the connection partner, COT is the line trunk 14, and PBR is PB signal receiving trunk 15, RSM is a register sender memory 31 for storing the dial number of the PB signal received by PBR 15, CHT is a line switching trunk 18, PDT is a dial tone, SDT is a special tone, CDT is a continuous tone , RBT is a ringing tone, BT is a busy tone, IR is a ringing signal, DP is a dial pulse signal, and PB is a PB signal. In addition, alphabets “A”, “B”, “C”, “D”, and “E” in the figure indicate transition of operations.
[0041]
Now, the sequence of the remote connection test related to the line failure determination processing will be described using the state transition diagrams shown in FIGS.
[0042]
For example, when a maintenance contractor on the office line side receives a telephone call from the customer side of the terminal equipment 2a in the automatic switching apparatus 1 that the terminal equipment 2a cannot be used, the maintenance company uses the terminal equipment 3 on the office line side. Then, a call is made to the terminal device 2a that has been disabled.
[0043]
In step S21 shown in FIG. 5, the station line trunk 14 of the automatic switching apparatus 1 receives an incoming call from the station line side terminal apparatus 3 of the maintenance company because the line condition of the terminal apparatus 2a is empty.
[0044]
In step S <b> 22, the automatic switching apparatus 1 automatically responds to an incoming call from the station line side terminal device 3 to connect the PBR 15 and transmits the PDT to the station line side terminal device 3. When the maintenance company dials a special number for starting the line failure determination process via the station line side terminal device 3, the station line terminal device 3 of the maintenance company sends the PB signal of the special number to the station line trunk 14. Send. The PBR 15 of the automatic switching apparatus 1 receives the special number PB signal via the office line trunk 14.
[0045]
In step S23, the central processing unit 12 of the automatic switching apparatus 1 accumulates the PB signal received by the PBR 15 in the RSM 31 as dialed digits, and analyzes the dialed digits accumulated in the RSM 31 to start the line fault determination process. If it is determined that it is a special number, the line switching trunk 18 is captured, the line failure determination process is started, and the test target terminal number of the test target terminal device 2a is input. A special tone SDT for prompting is transmitted to the terminal device 3 on the station line side.
[0046]
When the central processing unit 12 of the automatic switching device 1 continues to receive the test target terminal number of the test target terminal device 2a arriving from the station line side terminal device 3 in step S24, the registration list stored in the storage device 13 is stored. If it is checked, if it is a corresponding terminal, the line switching unit (EX1) 17 is captured by the line switching trunk 18 corresponding to the test target terminal equipment 2a, and the input of the counterpart terminal number to be connected to the test target terminal equipment 2a is prompted. The continuous tone CDT is transmitted to the terminal device 3 on the line side.
[0047]
  thisStation side terminal equipment 3When selecting the other party terminal number of the other party terminal apparatus 2b to be connected to the test line, for example, when the station side terminal apparatus 3 performs a dial operation on a desired other party terminal number, Is received by PBR15. The central processing unit 12 in the automatic switching apparatus 1 is configured such that the counterpart terminal device 2b corresponding to the counterpart terminal number received by the PBR 15 is a normal extension terminal device, and the test target terminal device 2a is a DP (dial pulse). If it is an extension, the process proceeds to step S25 shown in FIG.
[0048]
In step S25 shown in FIG. 6, the automatic switching apparatus 1 transmits the previously received counterpart terminal number to the remote test control apparatus 19 by dial pulses via the line switching trunk 18.
[0049]
When the central processing unit 12 of the automatic switching apparatus 1 receives the counterpart terminal number relayed and transmitted via the line connection unit (EX1) 17 to be tested, the counterpart terminal device 2b corresponding to the counterpart terminal number If is empty, the process proceeds to step S26.
[0050]
  At step S26Station side terminal equipment 3InOffice trunk 14The RBT is transmitted via the line terminal, and the IR is transmitted to the counterpart terminal device 2b via the line connection unit (EX2) 17. That meansStation side terminal equipment 3The other party terminal device 2b is called.
[0051]
  The counterpart terminal device 2bStation side terminal equipment 3If the incoming call is answered, the process proceeds to step S27.
[0052]
  In step S27, the counterpart terminal device 2bStation side terminal equipment 3And become a test connection state. In this test connection state, the counterpart terminal device 2b,Station side terminal equipment 3In the state where the line switching trunk 18 and the office line trunk 14 are connected, the terminal equipment on the office line side3With remote instructionsStation side terminal equipment 3Is in a state in which a call is made to the counterpart terminal device 2b via the line connection unit (EX1) 17 corresponding to the terminal device 2a to be tested and the line connection unit (EX2) 17 corresponding to the counterpart terminal device 2b. is there.
[0053]
  If this test connection is normal,TrialThe line connection unit (EX1) 17 corresponding to the test target terminal device 2a is normal, and the failure location is narrowed down to the transmission path connecting the test target terminal device 2a and the line connection unit (EX1) 17. If the test connection state is abnormal, it can be determined that either the test target terminal device 2a or the line connection unit (EX1) 17 connected to the automatic switching apparatus 1 is abnormal.
[0054]
When the counterpart terminal number is received in step S24, the central processing unit 12 in the automatic switching apparatus 1 determines that the counterpart terminal device 2b corresponding to the counterpart terminal number received by the PBR 15 is a normal extension terminal device. If the test target terminal device 2a is a PB (push button) extension, the process proceeds to step S28.
[0055]
In step S28, the PB signal is transmitted from the line switching trunk 18. Similarly, the PB signal transmitted from the line switching trunk 18 is transmitted from the test target terminal device 2a. It is processed as number reception. Subsequent processing is the same as Step S26 and Step S27, and is omitted.
[0056]
In step S25 or step S28, when the central processing unit 12 receives the counterpart terminal number relayed and transmitted via the line connection unit 17 corresponding to the test target terminal device 2a, the counterpart side corresponding to the counterpart terminal number If the terminal device 2b is blocked, the process proceeds to step S29.
[0057]
In step S29, the office line trunk 14 of the automatic switching apparatus 1 transmits a BT to the station line side terminal device 3 of the tester. When the tester listens to the BT, the test change code for changing the partner terminal device 2b is operated by the PB dial, and the process proceeds to step S30 shown in FIG.
[0058]
In step S30, upon receiving the PB for changing the counterpart terminal device 2b, the automatic switching apparatus 1 transitions to step S23 to receive the counterpart terminal number of the new counterpart terminal device 2b, and step S24. The test connection to the new counterpart terminal device 2b corresponding to the test target terminal device 2a is performed.
[0059]
If the counterpart terminal device 2b is an extension designation code to be tested in step S24, the process proceeds to step S31 shown in FIG.
[0060]
  In step S31, without going through the line connection unit 17 corresponding to the test target terminal device 2aVia a remote test control device 19 (not shown)The test target terminal device 2a is directly called from the line switching trunk 18, and the RBT is transmitted to the tester's office line side terminal device 3 and the IR signal is directly transmitted to the test target terminal device 2a.
[0061]
  When the test target terminal device 2a responds to an incoming call, the station trunk 14 and the line switching trunk 18 and the test target terminal device 2a are connected to perform a test call.(This will be the connection form shown in FIG. 14 described later). If this test is performed normally, it can be determined that the transmission path between the line connection unit 17 (EX1) for connecting to the automatic switching apparatus 1 and the terminal device 2a to be tested is normal.
[0062]
  When the terminal device 2a to be tested lifts the handset during the test connection in steps S24 to S32, the remote test control device 19 determines the call operation of the terminal device 2a to be tested via the line switching trunk 18 and switches the line. Switch trunk 18YouThe
[0063]
  The terminal device 2a to be tested temporarily suspends the switching test, and normal call connection becomes possible. The guidance transmission unit 26 of the remote test control device 19 transmits the test temporary suspension guidance transmitted from the line switching trunk 18 to the station line side terminal device 3. The tester of the station side terminal device 3 can recognize that the switching test of the test target terminal device 2a has been interrupted by listening to this guidance. Furthermore, another partner terminal device 2bWhen the test is performed, the process proceeds to step S23 by transmitting the PB signal of the test target code.
[0064]
9 to 14 are operation explanatory views showing connection switching operation of the line switching trunk 18.
[0065]
Now, the connection state related to the line switching trunk 18 at the normal time will be described. FIG. 9 is an explanatory diagram showing a connection state related to the line switching trunk 18 at the normal time.
[0066]
In FIG. 9, the SW1 relay 18 a and the SW2 relay 18 b are in an OFF state, and the test target terminal device 2 a is connected to the line connection unit (EX1) 17.
[0067]
FIG. 10 is an operation explanatory diagram showing the operation of the line switching trunk when a remote operation from the office line trunk 14, that is, a special number dial operation related to the activation of the line failure determination process from the station line side terminal device 3 is received. .
[0068]
In FIG. 10, the remote test control device 19 turns on the SW1 relay 18a of the line switching trunk 18 and switches the communication path to the line connection unit (EX1) 17 side. At this time, since the SW2 relay 18b is OFF in the test target terminal device 2a, the connection with the line connection unit (EX1) 17 is disconnected.
[0069]
Thereafter, the remote test control device 19 transmits the destination terminal number of the connection destination as dial information based on the received called party information as shown in FIG. This dial information is transmitted via the line connection unit (EX1) 17 and is connected to the counterpart terminal device 2b by the exchange processing of the automatic exchange apparatus 1.
[0070]
In this way, the communication path is formed by the office line trunk 14 -the remote test control device 19 -the line switching trunk 18 -the line connection unit (EX1) 17 -the partner terminal device 2b, and the line connection unit ( EX1) The normality of 17 has been confirmed.
[0071]
FIG. 12 is an operation explanatory diagram showing the operation of the line switching trunk 18 when the terminal device 2a to be tested performs a calling operation during the switching test.
[0072]
As shown in FIG. 12, the line switching trunk 18 performs loop detection and turns on the SW2 relay 18b. As a result, the remote test control device 19 turns off the SW1 relay 18a, the test connection is temporarily interrupted, and the communication path between the test target terminal device 2a and the counterpart terminal device 2b is disconnected. Thereafter, as shown in FIG. 13, the remote test control device 19 turns on the SW1 relay 18 a and enters a normal state.
[0073]
If the test target terminal device 2a is closed in this normal state, the outgoing call is detected again, and the call connection becomes possible via the line connection unit (EX1) 17 of the automatic switching apparatus 1.
[0074]
FIG. 14 is an operation explanatory diagram showing the operation of the line switching trunk 18 that is switched to confirm the normality of the transmission path from the line connection unit (EX1) 17 of the automatic switching apparatus 1 to the terminal device 2a to be tested.
[0075]
If the connection is made directly from the station side terminal device 3 to the test target terminal device 2a, the SW1 relay 18a of the line switching trunk 18 is turned off and the SW2 relay 18b is turned on via the remote test control device 19. The speech path is switched to the test target terminal device 2a side.
[0076]
If the incoming signal is transmitted in this state and the test target terminal device 2a responds to the incoming call, the connection of the station trunk 14-remote test control device 19-line switching trunk 18-test target terminal device 2a is established, and the call can be confirmed. Become. This confirms the normality of the transmission path.
[0077]
Therefore, according to the present embodiment, the line connection unit (EX1) 17 to which the test target terminal device 2a in the automatic switching apparatus 1 is connected by remote operation from the station line side terminal device 3 of the maintenance company, A line connection unit (EX2) 17 to which a normal terminal device in the automatic switching apparatus 1 is connected is connected, and based on the result of the call connection test, the test target terminal device 2a and the normal terminal device 2b are connected. If the call test is possible, the line connection unit 17 mounted on the automatic switching apparatus 1 is normal.
[0078]
If the call connection with the test target terminal device 2a can be established without going through the line connection unit 17 to which the test target terminal device 2a is connected, the transmission line connecting the test target terminal device 2a and the line connection unit 17 is normal. is there.
[0079]
In this way, it becomes possible to identify the troubled part before going to the customer side, preparation of tools necessary for repair and response method can be performed in advance, it can respond quickly and service and work efficiency can be improved effective.
[0080]
【The invention's effect】
According to the line fault determination apparatus of the automatic switching apparatus according to claim 1 configured as described above, the line fault related to the terminal device under test from a remote location in accordance with a predetermined signal from the terminal equipment on the office line Therefore, even if the terminal device accommodated and connected to the automatic switching device becomes unusable, it is possible to check the line trouble related to the terminal device under test without going to the customer side. .
[0081]
Furthermore, it is not necessary to turn off the power of the terminal device, line connection device, or automatic switching device when determining the line failure related to the terminal device under test, and this will interfere with other service operations such as telephone reception. There is nothing.
[0082]
Further, according to the line fault discriminating apparatus in the automatic switching apparatus according to claim 2 of the present invention, in addition to the effect of claim 1 above, the test object can be obtained without going through the line connecting apparatus connected to the terminal apparatus to be tested Since the terminal device and the terminal device are connected to each other by telephone, it is possible to confirm a line failure in the transmission path between the terminal device to be tested and the line connection device.
[0083]
According to the line fault determination device of the automatic switching apparatus according to claim 3 of the present invention, in addition to the effect of claim 1, the test target terminal can be connected even during a call connection related to the test target terminal device. If there is a call from the device, the current call connection is disconnected and the call from the terminal device under test is accepted, which hinders the service operation of the terminal device under test connection. There is no such thing.
[0084]
As described above, according to the present invention, it is possible to identify the troubled part before going to the customer side, and the preparation and response method of tools necessary for repair can be performed in advance so that the service and work can be performed quickly. There is an effect that efficiency can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration inside a telephone exchange system showing an embodiment of a line failure determination apparatus of an automatic exchange apparatus according to the present invention.
FIG. 2 is a block diagram showing a schematic configuration inside the remote test control apparatus shown in the present embodiment.
FIG. 3 is a configuration diagram of a registration list stored in a storage device inside the automatic exchange apparatus according to the present embodiment.
FIG. 4 is a flowchart showing an operation sequence and processing operation of a line failure determination process in the present embodiment.
FIG. 5 is a state transition diagram illustrating a remote connection test for discriminating a line failure inside the automatic switching apparatus by remote operation from a terminal device on a station line in the present embodiment.
FIG. 6 is a state transition diagram illustrating a remote connection test for determining a line failure inside the automatic switching apparatus by remote operation from a terminal device on a station line in the present embodiment.
FIG. 7 is a state transition diagram illustrating a remote connection test for determining a line failure inside the automatic switching apparatus by remote operation from a terminal device on a station line in the present embodiment.
FIG. 8 is a state transition diagram illustrating a remote connection test for discriminating a line failure inside the automatic switching apparatus by remote operation from a terminal device on a station line in the present embodiment.
FIG. 9 is an explanatory diagram showing a normal switch state of the line switching trunk in the present embodiment;
FIG. 10 is an operation explanatory diagram showing a SW operation when a line switching trunk switching test is started in the present embodiment;
FIG. 11 is an operation explanatory diagram showing a SW operation during a line switching trunk switching test call in the present embodiment;
FIG. 12 is an operation explanatory diagram showing a SW operation at the time of a calling operation by the test target terminal device during the line switching trunk switching test in the present embodiment.
FIG. 13 is an operation explanatory diagram showing a SW operation at the time of a calling operation by the test target terminal device during the line switching trunk switching test in the present embodiment.
FIG. 14 is an operation explanatory diagram illustrating a SW operation of a line switching trunk during a transmission path test between a test target terminal device and a line connection unit in the present embodiment.
[Explanation of symbols]
1 Automatic changer
2a Terminal equipment (terminal equipment to be tested)
2b Terminal equipment (other equipment)
3 Station side terminal equipment (terminal equipment)
11 Communication path switch (switching means)
12 Central processing unit (control means)
15 PB signal receiving trunk (PBR; receiving means)
17 Line connection unit (LIN; EX1, EX2; Line connection device)
18 Line switching trunk (CHT; switching means)
19 Remote test control device (RTSTCNT; control means)

Claims (2)

In a line fault determination apparatus for an automatic switching apparatus having a line connecting apparatus for controlling a plurality of terminal devices, and accommodating and connecting the line connecting apparatus, and an switching apparatus connected to a station line,
The line fault determination device
A switching means for switching and connecting the terminal device accommodated and connected to each line connection device and the terminal device on the office line side while connecting to the exchange device;
From the terminal equipment of the central office line side, receiving means for receiving a predetermined signal to activate the line failure determination tests involving the housing the terminal equipment connected to the line connection unit,
When the receiving means receives the first predetermined signal, the test target terminal device involved in the line fault discrimination test and the terminal device on the station line side are not passed through the line connection device in which the test target terminal device is accommodated. on, the switching means by then call connection, when the receiving means receives a second predetermined signal, the station line side terminal equipment and other terminal equipment and the test object terminal equipment line connection is accommodated device through, Rutotomoni to call connection by said switching means, and these tests the target terminal equipment and other terminal equipment, based on the call connection results between the office line terminal device, the circuit relating to the test subject terminal equipment A control means for determining a fault ;
An apparatus for discriminating a line failure of an automatic switching apparatus, comprising: The control means detects the call operation by the test target terminal device during a call connection between the test target terminal device or the other terminal device and the terminal device on the station line side, and the test target terminal device or said other terminal device, and disconnects the call connection with the terminal equipment of the station line side, claim 1 Symbol placement automatic exchange apparatus and executes a call control related to the test subject terminal device Line fault determination device.

Images