JP4088175B2 - Switching network system and telephone switching device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an exchange network system for connecting a plurality of telephone exchange devices via, for example, a digital leased line, and executing processing related to an exchange service between the telephone exchange devices and the telephone exchange device.
[0002]
[Prior art]
In a network system, for example, in a company having a plurality of branches and sales offices, a telephone exchange device such as a PBX (Private Branch Exchange) or a key telephone main device is installed in each branch or sales office. It is connected via a dedicated line. In this type of system, each telephone exchange device can perform inter-line communication and local line calls such as public networks, as well as extension communication between different telephone exchange devices and via different telephone exchange devices. It is possible to make / receive local line calls.
[0003]
By the way, in recent years, with the enhancement of the functionality of the above-mentioned telephone exchange device, when a DSS (Direct Station Selection) key that is a line key of the accommodated extension terminal is pressed, the associated other node (other telephone exchange device) Implementation of services that can display the state of an extension, receive a direct incoming call to the extension, and perform incoming call forwarding is also being studied (for example, Patent Documents 1 to 3).
[0004]
However, in the system described above, the dedicated line is occupied while the service is executed, which affects, for example, transmission of audio signals.
Therefore, a plurality of telephone exchanges are connected by a dedicated line, and are also connected by a LAN (Local Area Network) to transmit a signal that requires a real-time property such as an audio signal on the dedicated line, and a control signal in the LAN. An exchange network system has been proposed in which transmission of signals having a margin in real time is controlled independently and in parallel.
[0005]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2002-101197.
[0006]
[Patent Document 2]
JP 2002-152224 A.
[0007]
[Patent Document 3]
JP 2000-138717 A.
[0008]
[Problems to be solved by the invention]
However, in the above network system, since it is necessary for the own node to grasp the state of the extension terminal of the other node corresponding to the DSS key, it is necessary to access the other node via the LAN, and the load on the LAN is accordingly increased. As a result, it takes a lot of time for data transmission, and it becomes difficult to respond to the demand for increasing the number of DSS keys. In particular, the larger the scale of the system, the more prominent it becomes, which is very undesirable.
[0009]
Accordingly, an object of the present invention is to be able to efficiently realize additional services such as an extension status display of another node corresponding to the extension key of the extension terminal, a direct incoming call to the extension of the other node, and an incoming call transfer in real time. It is another object of the present invention to provide an exchange network system and a telephone exchange device thereof that can easily cope with an increase in the number of line keys.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is configured as follows.
(1) First of transmitting two or more telephone exchange apparatuses accommodating at least one extension capable of connecting an extension terminal at a terminal and a plurality of telephone exchange apparatuses and transmitting a first signal requiring real-time property The second signal transmission path and the first signal transmission path are connected to each other by a plurality of telephone exchanges, and a second signal that does not require real-time characteristics compared to the first signal is transmitted. Each of the plurality of telephone exchange devices includes a plurality of operation keys for designating at least a part of all the extension terminals accommodated in the own device, and the operation of the extension terminal corresponding to each of these operation keys. First state information indicating a state, a plurality of operation keys designating at least a part of all extension terminals accommodated in another device, and a second state indicating an operation state of the extension terminal corresponding to each of these operation keys information A storage means for storing in the recording medium, a state change detecting means for detecting a change in the operating state of all the extension terminals accommodated in the own device, and a first result in the recording medium based on a detection result by the state change detecting means. A first updating means for updating the storage contents of the state information, and a second signal using the first state information in the recording medium updated by the first updating means for the other plurality of telephone exchange devices as a second signal; Status information transmitting means for transmitting via the signal transmission path, receiving means for receiving the second status information sent from another telephone exchange device via the second signal transmission path, and reception by the receiving means And a second updating means for updating the storage content of the second state information in the recording medium based on the result.
[0011]
According to the invention of (1), the data transmitted from the telephone exchange device to the other telephone exchange device via the second signal transmission path is only the first status information updated in the own telephone exchange device, Further, the registered content of the second status information in the recording medium is updated based on the second status information sent from the other telephone exchange device via the second signal transmission path. Therefore, the second signal transmission path can be effectively used when each telephone switching device is shared, and the second status information stored and managed in the recording medium can be used without accessing other telephone switching devices. With a simple procedure, it is possible to perform appropriate additional service processing according to the state of each extension terminal of another telephone exchange device, and accordingly, the processing load on the telephone exchange device can be kept low. As a result, it is possible to easily cope with an increase in the number of operation keys.
[0012]
(2) The state information transmitting unit transmits the first state information when the first state information in the recording medium is updated by the first updating unit.
According to the invention of (2), every time the status information of the extension terminal of another telephone exchange apparatus is updated in the own telephone exchange apparatus, the update information can be always acquired in a timely manner.
[0013]
(3) The status information transmission means sends the first status information to the other plurality of telephone exchange devices when the first status information in the recording medium is updated by the first update means. A first transmission mode for transmitting via a signal transmission path, and a second transmission mode for transmitting a second status information acquisition request to a plurality of other telephone exchange devices at predetermined intervals via a second signal transmission path. And a mode selection control means for selectively executing the first and second transmission modes in accordance with a predetermined condition. The mode selection control means uses the amount of transmission information per unit time of the second signal transmission path for the determination of the predetermined condition.
[0014]
According to the invention of (3), by setting the transmission mode according to the state of the second signal transmission path, the first state information is immediately transmitted every time it is updated in the normal state, On the other hand, when the second signal transmission path is congested, an optimum request is obtained according to the state of the second signal transmission path, such as waiting for a predetermined time to elapse and transmitting a request for acquiring the second state information. Status information transmission can be performed.
[0015]
(4) The second signal transmitted through the second signal transmission path is a signal defined by UDP (User Datagram Protocol).
According to the invention of (4), there is no need to perform complicated processing such as retransmission and flow control for improving communication reliability, for example, as in TCP / IP, and this makes it possible to load the second signal transmission path. And the processing load of the telephone exchange device can be reduced.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic configuration diagram showing an exchange network system according to the present invention.
As shown in the figure, this system includes button telephone main apparatuses BT1 to BT4, and a digital dedicated line PN (having a communication channel (Bch) and a control channel (Dch) between these button telephone main apparatuses BT1 to BT4. PN1-2, PN1-3, PN2-3, PN3-4). These key telephone main devices BT1 to BT4 accommodate extension terminals T11 to T1i, T21 to T2m, T31, T41 to T4k, respectively, via extensions. The key telephone main devices BT1 and BT4 are connected to the public networks NW1 and NW2 via the office line L.
The key telephone main devices BT1 to BT4 are connected to a LAN (Local Area Network) 1.
[0017]
Next, a specific configuration of the key telephone main devices BT1 to BT4 will be described in detail with reference to FIG. Here, the key telephone main device BT1 will be described as a representative.
The key telephone main device BT1 includes a station line interface unit 11, an extension interface unit 12, a digital leased line interface unit 13, and a control unit 14, which are connected to each other via a voice bus 15 and a control bus 16. Has been.
[0018]
A station line L is connected to the station line interface unit 11 as necessary. The station line interface unit 11 performs a station line interface operation for the connected station line L. The office line interface operation includes transmission of a transmission signal to the public network NW and detection of an incoming signal from the public network NW. Further, the office line interface unit 11 exchanges various control information related to the office line interface operation with the control unit 14 via the control bus 16.
[0019]
A plurality of extensions are connected to the extension interface unit 12 as necessary. The extension interface unit 12 performs an extension interface operation related to the connected extension. The extension interface operation includes transmission of an incoming signal to each extension and detection of a transmission signal from each extension. The extension interface unit 12 exchanges various control information related to the extension interface operation with the control unit 14 via the control bus 16.
[0020]
A digital dedicated line PN is connected to the digital dedicated line interface unit 13 as necessary. The digital leased line interface unit 13 performs a digital leased line interface operation related to the connected digital leased line PN. The digital leased line interface operation includes transmission of a transmission signal to the digital leased line PN and detection of an incoming signal from the digital leased line PN. The digital leased line interface unit 13 exchanges various control information related to the digital leased line interface operation with the control unit 14 via the control bus 16.
[0021]
The control unit 14 includes a sub-control unit 141, a main control unit 142, a storage unit 143, a time switch 144, and a LAN interface unit (LAN I / F) 145. Among these, the sub-control unit 141, the main control unit 142, the storage unit 143, and the LAN interface unit 145 are connected to each other via the microcomputer bus 146. The time switch 144 is directly connected to the main control unit 142. A timer 147 is connected to the main control unit 142.
[0022]
The sub-control unit 141 exchanges control information between the control bus 16 and the microcomputer bus 146. The main control unit 142 executes overall control in the key telephone main device BT1 based on the control program and control data stored in the storage unit 143. The storage unit 143 stores a control program and control data for the main control unit 142 to execute processing, and particularly stores various data and the like during the exchange operation.
[0023]
The time switch 144 is a channel of a digital signal transmitted through the audio bus 15 between the office line interface unit 11, the extension interface unit 12, and the digital dedicated line interface unit 13 in accordance with an instruction from the main control unit 142. Exchange.
The LAN interface unit 145 performs interface processing related to the exchange of control information between the microcomputer bus 146 and the LAN 1.
[0024]
By the way, in this embodiment, a node information management table 1431 is provided in the storage unit 143. In the node information management table 1431, as shown in FIG. 3, in addition to the extension number information of the extension terminals T11 to T1i connected to the own device, T21 to T2m connected to the key telephone main devices BT2 to BT4, respectively. Stores data representing the correspondence between the extension numbers of T31, T41 to T4k, the states of the extension terminals T11 to T1i, T21 to T2m, T31, T41 to T4k, and the DSS key extension terminals and the key information group. .
[0025]
The main control unit 142 includes a state change detection unit 1421, a local information update unit 1422, a transmission unit 1423, a reception unit 1424, and another node information update unit 1425. The state change detection unit 1421 detects a change in the operation state of all the extension terminals T11 to T1i accommodated in the key telephone main device BT1.
[0026]
Based on the detection result by the state change detection unit 1421, the local information update unit 1422 has a change in the node information management table 1431 when the operation state of each of the extension terminals T11 to T1i has changed. The status information corresponding to T11 to T1i is updated from “available” to “busy” or from “busy” to “empty”. Update from "available" to "calling", from "calling" to "empty", and from "calling" to "calling".
[0027]
When the state information corresponding to the extension terminals T11 to T1i having changed in the node information management table 1431 is updated, the transmission unit 1423 defines local information including the updated state information by the UDP protocol. It has a normal transmission mode in which it is converted into a signal format and transmitted via the LAN 1. Further, the transmission unit 1423 makes a local information acquisition request indicating the state of each of the extension terminals T21 to T2m, T31, T41 to T4k to the other key telephone main devices BT2 to BT4 at every time interval set in the timer 147. It has a periodic transmission mode in which it is converted into a signal format defined by the UDP protocol and transmitted via the LAN 1. Then, the amount of transmission information per unit time of LAN1 is measured, and when this measured value is less than a preset threshold value, the normal transmission mode is executed, and when it is equal to or greater than the threshold value, The periodic transmission mode is executed. Note that, as a method for measuring the transmission information amount of the LAN 1, for example, there is a method of counting the number of extension terminals whose state has changed per unit time.
[0028]
The receiving unit 1424 receives local information transmitted from the other key telephone main devices BT2 to BT4 via the LAN1.
The other node information updating unit 1425 updates the storage contents of the state information of each of the extension terminals T21 to T2m, T31, T41 to T4k in the node information management table 1431 based on the local information received by the receiving unit 1424. .
[0029]
Next, the operation of the system configured as described above will be described.
FIG. 4 is a sequence diagram showing information transmission / reception operations among, for example, the key telephone main device BT1, the key phone main device BT2, and the key phone main device BT3.
For example, assume that the operating state of the extension terminal T11 changes from the standby state to the calling state. Then, the key telephone main unit BT1 recognizes the change in the state of the extension terminal T11, updates the state corresponding to the extension terminal T11 in the node information management table 1431 from “empty” to “calling”, and this extension terminal. The state information including the extension telephone number of T11 and the updated “calling” is transmitted to the key telephone main apparatuses BT2 and BT3 via the LAN1.
[0030]
For example, it is assumed that the operating state of the extension terminal T21 has changed from a standby state to a call state. Then, the key telephone main device BT2 recognizes the change in the state of the extension terminal T21, updates the state corresponding to the extension terminal T21 in the node information management table 1431 from “empty” to “busy”, and this extension terminal. The extension telephone number of T21 and the updated status information including “busy” are transmitted to the key telephone main apparatuses BT1 and BT3 via the LAN1.
[0031]
The key telephone main device BT3 that has received the status information updates the extension status for each network DN associated with the node information management table 1431 and displays the extension status on the LED (Light Emitting Diode) of the associated DSS key.
[0032]
In the above processing, the same processing procedure as that for the key telephone main devices BT1, BT2, BT3 is executed for the key telephone main device BT4.
[0033]
FIG. 5 is a flowchart showing the operation procedure and contents of the key telephone main device BT1.
The main control unit 142 of the key telephone main device BT1 measures the amount of transmission information per unit time of the LAN 1 (step ST5a), and determines whether or not the measured value is equal to or greater than a threshold value (step ST5b). .
[0034]
Here, if the measured value is less than the threshold value (No), the main control unit 142 shifts to the normal transmission mode, monitors the operation state for each of the extension terminals T11 to T1i (step ST5c), and changes the state. It is determined whether or not there has been (step ST5d). When there is a change, the main control unit 142 updates the state information of the extension terminals T11 to T1i in which change has occurred in the node information management table 1431 (step ST5e), and includes the updated state information. The local information is transmitted to the other key telephone main device BT2 via the LAN 1 (step ST5f).
[0035]
On the other hand, if the measured value is greater than or equal to the threshold value in step ST5b (Yes), the main control unit 142 shifts to the normal transmission mode and monitors the operating state of each extension terminal T11 to T1i (step ST5g). Then, it is determined whether or not a state change has occurred (step ST5h).
[0036]
When there is a change, the main control unit 142 updates the state information of the extension terminals T11 to T1i in which change has occurred in the node information management table 1431 (step ST5i).
[0037]
Subsequently, the main control unit 142 monitors whether or not the timer 147 has timed the acquisition request time of local information with respect to the other key telephone main device BT2, that is, the transmission time (step ST5j) until the transmission time is timed. Steps ST5g to ST5j are repeatedly executed. When the transmission time comes (Yes), the main control unit 142 creates a list of the extension terminals T21 to T2m to request acquisition of status information, and creates a DSSR packet based on this list (step ST5k), this DSSR packet is transmitted to the key telephone main unit BT2 (step ST5l).
[0038]
On the other hand, the key telephone main device BT2 starts the control process shown in FIG.
The main control unit 142 of the key telephone main device BT2 monitors the arrival of the DSSR packet (step ST6a). When the DSSR packet is received (Yes), the node information management table 1431 is referred to and each of the corresponding extension terminals T21 to T2m is referred to. A DSSA packet including status information, that is, a response packet is created (step ST6b), and this DSSA packet is transmitted to the requesting key telephone main device BT1 via the LAN 1 (step ST6c).
[0039]
Subsequently, the main control unit 142 of the key telephone main device BT2 creates a DSSN packet including state information of the corresponding extension terminals T21 to T2m each time the operation state of the extension terminals T21 to T2m changes (step ST6d). The DSSN packet is transmitted to the key telephone main device BT1 that is the request source via the LAN 1 (step ST6e).
[0040]
On the other hand, if it is reception other than the DSSR packet in step ST6a (No), the main control unit 142 determines whether or not it is reception of local information from the key telephone main device BT1, which is another node (step ST6a). ST6f) If it is local information (Yes), based on the status information of the extension terminals T11 to T1i included in the local information, the status information of the corresponding extension terminals T11 to T1i in the node information management table 1431 is obtained. Update (step ST6g).
The key telephone main device BT1 that has received the DSSA packet and the DSSN packet executes the same processing as the processing in the steps ST6f and ST6g. Further, the same procedure as the above processing procedure is also executed for the key telephone main devices BT3 and BT4.
[0041]
Thus, the user of the extension terminal T45 (extension number 501) of the key telephone main device BT4 looks at the LED of the DSS key corresponding to the extension terminal T42 (extension number 202) as shown in FIG. And the operation state of the extension terminal T21 can be known by looking at the LED of the DSS key corresponding to the extension terminal T21 (extension number 21200).
[0042]
In addition, the user of the extension terminal T46 (extension number 502) of the key telephone main device BT4 can know the operating state of the extension terminal T42 by looking at the LED of the DSS key corresponding to the extension terminal T42 (extension number 202). The operation state of the extension terminal T21 can be known by looking at the LED of the DSS key corresponding to the extension terminal T21 (extension number 21200) of the key telephone main device BT2, and the extension terminal T11 (extension number 10200) of the key phone main device BT1. ), The operation state of the extension terminal T11 can be known.
[0043]
As described above, in the above embodiment, in the normal transmission mode, the data transmitted from the key telephone main device BT1 to the key telephone main devices BT2 to BT4 via the LAN 1 is the state information of the extension terminals T11 to T1i whose state has changed. Further, in the key telephone main device BT1, in the node information management table 143 based on the status information of the extension terminals T21 to T2m, T31, T41 to T4k sent from the key phone main device BT2 via the LAN1. The registration contents of the status information corresponding to the extension terminals T21 to T2m, T31, T41 to T4k are updated.
[0044]
Therefore, it can be effectively used when the LAN1 is shared by the key telephone main apparatuses BT1 to BT4, thereby reducing the load on the LAN1, and the button telephone main apparatus BT1 can access other button telephone main apparatuses BT2 to BT4. Without using the terminal information management table 143, the extension terminals T21 of the other key telephone main devices BT2 to BT4 are processed in a simple procedure using the status information on the extension terminals T21 to T2m, T31, T41 to T4k stored and managed. Appropriate additional service processing according to the states of T2m, T31, and T41 to T4k can be performed, and the processing load on the key telephone main device BT1 can be reduced accordingly. Thereby, it is possible to easily cope with a request for increasing the number of DSS keys.
[0045]
Further, according to the embodiment, in the key telephone main device BT1, the state information of the extension terminals T21 to T2m, T31, T41 to T4k of the other key phone main devices BT2 to BT4 is updated in the normal transmission mode. Each time, the updated status information can be acquired in a timely manner.
[0046]
In the above embodiment, the key telephone main device BT1 sets the transmission mode according to the state of the LAN1, so that each time the state information of the extension terminals T11 to T1i is updated in the normal state. The state information is immediately transmitted to the other key telephone main devices BT2 to BT4. On the other hand, when the LAN 1 is congested, the extension terminals T21 to T21 of the other key phone main devices BT2 to BT4 wait for a certain period of time. Optimal state information transmission can be performed according to the state of the LAN 1, such as transmitting an acquisition request for the respective state information of T2m, T31, T41 to T4k. In addition to the LAN 1 communication traffic, date information and the like may be used as the switching condition.
[0047]
Furthermore, according to the above-described embodiment, by performing transmission / reception of information on the LAN 1 between the key telephone main devices BT1 to BT4 according to the UDP protocol, for example, communication reliability such as TCP / IP (Transmission Control Protocol / Internet Protocol) is achieved. Therefore, it is not necessary to perform complicated processing such as retransmission and flow control for improving the performance, thereby reducing the load on the LAN 1 and the processing loads on the key telephone main devices BT1 to BT4.
[0048]
The present invention is not limited to the above embodiment. In the above embodiment, an example in which both the normal transmission mode and the regular transmission mode are provided and these modes are selectively operated according to the communication traffic of the LAN 1 has been described. However, the present invention is not limited to this, and only the normal transmission mode may be provided.
[0049]
In the above embodiment, the example in which the key telephone main devices are connected by the digital dedicated line and the LAN has been described. However, the present invention is not limited to this, and the key telephone main devices are connected by a transmission path for transmitting a signal that requires real-time characteristics and a transmission path for transmitting a signal having a margin for real-time characteristics. There may be.
[0050]
In the above embodiment, the network system in which the key telephone main devices are connected by the digital dedicated line has been described as an example. However, the present invention can be applied to, for example, an IP telephone system.
Furthermore, in the above embodiment, an example of monitoring the status change of all the extension terminals accommodated in the key telephone main unit has been described. However, the status change of some of the extension terminals corresponding to the DSS key of all the extension terminals. May be monitored.
[0051]
In addition, the system configuration, the type of key telephone main device and its configuration, the type of extension terminal, the information transmission / reception procedure, the control procedure of each control and its contents are variously modified without departing from the gist of the present invention. Can be implemented.
[0052]
【The invention's effect】
As described above in detail, according to the present invention, additional services such as the status display of the extension of the other node corresponding to the line key of the extension terminal, the direct incoming call to the extension of the other node, the incoming call transfer, etc. can be efficiently performed in real time. It is possible to provide an exchange network system and a telephone exchange device thereof that can be realized well and can easily cope with an increase in the number of line keys.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an exchange network system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a specific configuration of the key telephone main device shown in FIG. 1;
FIG. 3 is a diagram showing an example of storage contents of a node information management table shown in FIG. 2;
FIG. 4 is a sequence diagram showing an information transmission / reception operation between key telephone main apparatuses in the embodiment;
FIG. 5 is a flowchart showing an operation procedure and contents of a key telephone main device when transmitting local information of the own node or a DSSR packet.
FIG. 6 is a flowchart showing the operation procedure and contents of the key telephone main unit when local information of the own node or a DSSR packet is received.
FIG. 7 is a sequence diagram showing a correspondence relationship between a DSS key and an extension terminal in the extension terminal according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... LAN (Local Area Network), 11 ... Station line interface unit, 12 ... Extension interface unit, 13 ... Digital leased line interface unit, 14 ... Control unit, 15 ... Voice bus, 16 ... Control bus, 141 ... Sub-control part , 142 ... main control unit, 143 ... storage unit, 144 ... time switch, 145 ... LAN interface unit, 146 ... microcomputer bus, 147 ... timer, 1421 ... state change detection unit, 1422 ... local information update unit, 1423 ... transmission unit , 1424 ... receiving unit, 1425 ... other node information updating unit, 1431 ... node information management table, BT1 to BT4 ... button telephone main unit, PN ... digital dedicated line, T11 to T1i, T21 to T2m, T31, T41 to T4k ... Extension terminal, L ... office line, NW1, NW2 ... public network.

Claims (3)

Two or more telephone exchange apparatuses accommodating at least one extension capable of connecting an extension terminal to a terminal, and a first signal transmission for connecting the plurality of telephone exchange apparatuses and transmitting a first signal requiring real-time property Road,
A second signal transmission path that connects the plurality of telephone exchanges independently of the first signal transmission path and transmits a second signal that does not require real-time characteristics compared to the first signal; Comprising
Each of the plurality of telephone exchange devices is
A plurality of operation keys designating at least a part of all the extension terminals accommodated in the own apparatus, first status information indicating the operation state of the extension terminal corresponding to each of these operation keys, and all the accommodation keys accommodated in the other apparatus A plurality of operation keys for designating at least a part of the extension terminals, and storage means for storing second state information indicating the operation state of the extension terminals corresponding to each of these operation keys in a recording medium;
State change detection means for detecting a change in the operating state of all extension terminals accommodated in the own device;
First updating means for updating the storage content of the first state information in the recording medium based on the detection result by the state change detecting means;
A state in which the first state information in the recording medium updated by the first updating unit is transmitted as the second signal to the other plurality of telephone exchange devices via the second signal transmission path. Information transmission means;
Receiving means for receiving second state information sent from the other telephone exchange device via the second signal transmission path;
A second updating unit for updating the storage content of the second state information in the recording medium based on a reception result by the receiving unit;
The state information transmitting means includes
When the first status information in the recording medium is updated by the first update means, the first status information is transmitted to the other plurality of telephone exchange devices via the second signal transmission path. A first transmission mode for transmitting
A second transmission mode in which an acquisition request for the second state information is transmitted to the plurality of other telephone exchange devices at predetermined time intervals via the second signal transmission path;
A switching network system comprising: mode selection control means for selectively executing the first and second transmission modes according to a predetermined condition . It said mode selection control means, the switching network system according to claim 1, which comprises using a transmission information amount per unit of time the second signal transmission line to the judgment of a predetermined condition. A telephone exchange device used in the exchange network system according to claim 1,
A plurality of operation keys designating at least a part of all the extension terminals accommodated in the own apparatus, first status information indicating the operation state of the extension terminal corresponding to each of these operation keys, and all the accommodation keys accommodated in the other apparatus A plurality of operation keys for designating at least a part of the extension terminals, and storage means for storing second state information indicating the operation state of the extension terminals corresponding to each of these operation keys in a recording medium;
State change detection means for detecting a change in the operating state of all extension terminals accommodated in the own device;
First updating means for updating the storage content of the first state information in the recording medium based on the detection result by the state change detecting means;
A state in which the first state information in the recording medium updated by the first updating unit is transmitted as the second signal to the other plurality of telephone exchange devices via the second signal transmission path. Information transmission means;
Receiving means for receiving second state information sent from the other telephone exchange device via the second signal transmission path;
A second updating unit for updating the storage content of the second state information in the recording medium based on a reception result by the receiving unit;
The state information transmitting means includes
When the first status information in the recording medium is updated by the first update means, the first status information is transmitted to the other plurality of telephone exchange devices via the second signal transmission path. A first transmission mode for transmitting
A second transmission mode in which an acquisition request for the second state information is transmitted to the plurality of other telephone exchange devices at predetermined time intervals via the second signal transmission path;
A telephone exchange apparatus comprising: mode selection control means for selectively executing the first and second transmission modes according to a predetermined condition .

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