JP3956119B2 - Telephone system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a telephone system for interconnecting a plurality of private branch exchanges that accommodate a plurality of terminal devices.
[0002]
[Related background]
When a multi-function telephone terminal (key telephone) having a plurality of buttons is used in a company office or a private business operator, etc., it is exclusively used for connecting a plurality of terminal devices such as a key telephone or a facsimile to a telecommunications carrier. Private branch exchange (PBX).
[0003]
The key telephone connected to the PBX can set a special function such as transfer and re-call as well as a telephone number such as one-touch dial, speed dial, and extension number for each key telephone. The setting information is registered and managed in the PBX in the premises that accommodates each key telephone.
[0004]
That is, a terminal device such as a key telephone connected to the PBX is configured to be able to use setting information (for example, a one-touch dial, an abbreviated dial) stored in the PBX in the premises where the PBX is installed. Yes.
[0005]
In such a telephone system using a key telephone, in particular, in a case where a key telephone is allocated and operated for each user, each user can arbitrarily set telephone number information, a special function, etc. to the key telephone. It is possible to improve the efficiency of business execution.
[0006]
Further, the connection between the PBX and the terminal device is performed by a dedicated wiring. However, since the length of the wiring is limited, the PBX is limited to the connection of terminal devices used exclusively on the same premises. For this reason, in corporations having a plurality of offices and factories, an independent PBX is installed and operated for each premises. For example, in a company having offices in Tokyo and Osaka, independent PBXs and key telephones are installed in the respective offices.
[0007]
[Problems to be solved by the invention]
In the above-described telephone system, even if the telephone system is the same, the setting information of the key telephone (terminal device) stored in each PBX is different. For this reason, for example, when an employee of the Tokyo office makes a business trip to the Osaka office and uses the terminal equipment of the Osaka office, the settings of telephone number information and special functions such as one-touch dial and speed dial are different. There is a problem of being bad.
[0008]
The present invention has been made in view of such circumstances, and the purpose of the present invention is to transmit various setting information of the own terminal device to other terminal devices in other terminal devices other than the own terminal device normally used by the user. An object of the present invention is to provide a telephone system having a simple configuration that can be used.
[0009]
[Means for Solving the Problems]
In order to achieve the above-described object, a telephone system according to the present invention includes a plurality of nodes composed of a plurality of private branch exchanges each accommodating a plurality of telephones, a communication line connecting the plurality of nodes to each other, and the communication And a server provided with exchange information storage means for storing address information and node information set in advance for each private branch exchange connected to the line,
The private branch exchange includes management means for managing setting information set for each of the accommodated telephones,
The server includes address notification means for comparing the node information input from the telephone with node information registered in advance in the exchange information storage means and notifying the telephone of the exchange address information,
Said phone can have a login means to log in to above constituting the switch on the basis of the notified exchange address information, the management unit of the private branch exchange that logged by the log-in means is actuated by the setting information managing It is a feature .
[0010]
Preferably, the private branch exchange includes personal information storage means for storing a plurality of personal information using the telephone, personal information input from the telephone, and personal information registered in the personal information storage means in advance. It is desirable to provide personal authentication means for permitting connection to the private branch exchange only when the personal information matches, and to prevent unauthorized access from outsiders, for example.
[0011]
More preferably, the server includes telephone information storage means for storing telephone identification information of each telephone, telephone identification information notified from the telephone, and telephone identification information registered in advance in the telephone information storage means. It is desirable to improve security by providing telephone authentication means for notifying the telephone of the exchange address information of the private branch exchange only when the telephone identification information is matched.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a telephone system according to the present invention will be described with reference to the drawings.
FIG. 1 is a schematic configuration diagram showing an example of a telephone system according to the present invention.
[0013]
A plurality of nodes 10 are provided with private branch exchanges (PBXs) 2 that perform exchange processing of key telephones (terminal devices) 1 in the nodes 10. The PBX 2 controls incoming / outgoing calls of the key telephone (terminal device) 1 connected in the node 10, and also provides a one-touch dial, extension number, special function key, etc. set for each key telephone (terminal device) 1. Manage setting information. The PBX 2 and the terminal device 1 are interconnected by a line such as a local area network (LAN).
[0014]
Incidentally, each node 10 is provided, for example, for each office or factory, and forms an independent telephone network. When the plurality of nodes 10 are interconnected, a protocol conversion device such as a router 4 or a gateway is provided in each node 10. A telephone system in which each node 10 is connected to a communication line 5 such as an IP network (for example, the Internet or a VPN: virtual private network) via the protocol conversion device so that the nodes 10 can communicate with each other. Built.
[0015]
A system management server 20 is connected to any node 10 of the telephone system. Although details will be described later, the system management server 20 holds the IP address of the PBX 2 existing in each node 10 and the terminal information of the key telephone (terminal device) 1 belonging to the telephone system, and the PBX 2 and the key telephone ( The terminal device 1 manages the connection.
[0016]
Basically, in the telephone system configured as described above, the present invention is characterized in that the key telephone (terminal device) 1 connected to the PBX 2 of an arbitrary node is the user information for using the key telephone 1. On the basis of the above, it is possible to control as if the key telephone 1 is connected to the PBX 2 of another node.
[0017]
This will be specifically described with reference to the control sequence of FIG. In this figure, when a user of a key telephone (terminal device) 1a belonging to the node A goes to a business place where the telephone system of the node B is installed on a business trip or the like, the key telephone (terminal device) 1b of the node B is A control procedure for enabling use as a terminal device having the same setting as the key telephone (terminal device) 1a belonging to A will be described.
[0018]
First, the terminal device 1b under the management of the PBX 2b of the node B issues a login request to the server 20. The server 20 that has received this login request determines whether or not the login request of the terminal device 1b is acceptable. The determination of the server 20 is made based on the terminal authentication database shown in FIG.
[0019]
This terminal authentication database holds the identification information for each terminal device 1. Specifically, terminal information (TCP port number, UDP port number, terminal IP address, MAC address) of the terminal device 1, connection destination node information, and a user ID that identifies a user who uses the terminal device 1 It is made up of. Then, the server 20 compares the terminal address information stored in the terminal authentication database with the terminal address information of the login request source of the terminal device 1 that issued the login request, and the login of the matching terminal device 1 is performed. Allow requests only. And the server 20 gives the selection permission of a login destination node to the terminal device 1 which permitted this login request | requirement.
[0020]
The user of the terminal device 1b who is given permission to select the login destination node designates a node to log in to the server 20 (referring to node A in FIG. 2). Then, the server 20 that has received the designation of the login node gives the terminal device 1b permission to log in to the node A together with the IP address information of the PBX 2a of the node A. Incidentally, the IP address of the PBX 2 arranged for each node is stored and held in the server 20 as a node management database shown in FIG.
[0021]
By the way, the terminal device 1b that has received the login permission issues a login request to the PBX 2a of the node A based on the IP address information of the PBX 2a of the node A received from the server 20. On the other hand, the PBX 2a receiving this login request requests user authentication information (for example, a user ID and a password) from the terminal device 1b of the node B.
[0022]
Upon receiving the user authentication information request, the terminal device 1b displays the request on a display (not shown) provided in the terminal device 1b, and the user authentication information described above is displayed to the user of the terminal device 1b. Prompt for input. This user authentication information is input from the terminal device 1 b by the user of the terminal device 1 b and given to the PBX 2 a of the node A via the communication line 5.
[0023]
The PBX 2a compares and collates the contents of the user authentication information database shown in FIG. 4 prepared for each user and the user authentication information input from the terminal device b.
[0024]
As shown in FIG. 4, the user authentication information database includes a user ID for identifying a user, a password, and terminal information of the terminal device 1 used by the user. As a result of the user authentication, when a login request is made to the PBX 2a from a user who is permitted to log in, the PBX 2a notifies the server 20 that the login is permitted (login declaration) to permit the login. .
[0025]
On the other hand, the server 20 that has received this login declaration issues a terminal release instruction for the terminal device 1b under its management to the PBX 2b of the node B. Upon receiving this terminal release instruction, the PBX 2b stops the control of the terminal device 1b and notifies the server 20 that the PBX 2b has stopped the control of the terminal device 1b. At this time, the terminal device 1b is removed from the management of the PBX 2b.
[0026]
The server 20 that has received the control stop notification of the terminal device 1b notifies the PBX 2a of the control start permission in order to transfer the control of the terminal device 1b to the PBX 2a of the node A. Further, the server 20 registers the user ID in the area of the user ID being used in the terminal information database. The PBX 2a that has received this control start permission notifies the terminal device 1a of the control stop in order to prevent duplication control of the terminal device 1a in the node A used by the user. After this notification, the terminal device 1a stops the control until receiving a control start notification from the server 20 or a login request from another user who newly uses the terminal device 1a.
[0027]
On the other hand, the PBX 2a transmits a terminal start notification to the terminal device 1b under its management. Thereafter, the terminal device 1b can realize the same function as the terminal device 1a connected to the node A.
[0028]
The transmission control procedure in the telephone system configured as described above will be described in more detail based on the control sequence shown in FIG. This figure shows a means for the terminal device 1a under the control of the node A to make a call with the terminal device 1b under the control of the node B. That is, it is a diagram showing an interconnection between ordinary PBXs 2.
[0029]
First, the terminal device 1a makes a call to the terminal device 1b. The PBX 2a of the node A that has received this call inquires of the server 20 which PBX 2 should be connected to. Then, the server 20 notifies the address information of the corresponding PBX 2 to the PBX 2a (in this figure, the address of the PBX 2b is notified). Based on this address information, the PBX 2a outputs a call notification to the terminal device 1b managed by the PBX 2b.
[0030]
The PBX 2b that has received this call notification calls the terminal device 1b managed by the PBX 2b. The user of the terminal device 1b receives the incoming call and goes off-hook with the terminal device 1b. At this time, the terminal device 1b notifies the PBX 2b that the terminal device 1b has responded. Then, the PBX 2b notifies the PBX 2a that the terminal device 1b is off-hook (response).
[0031]
On the other hand, the PBX 2a that has received the response notification of the terminal device 1b notifies the terminal device 1a of the response of the terminal device 1b (with off-hook) and shifts to the call mode. Thus, a call process is performed between the terminal device 1a and the terminal device 1b.
[0032]
Next, a procedure for calling the terminal device 1b from the terminal device 1a when the terminal device 1b logs in to the PBX 2a of the node A will be described based on the control sequence shown in FIG.
[0033]
When calling the terminal device 1b from the terminal device 1a, first, the terminal device 1a notifies the PBX 2a of the number of the terminal device 1b (calling). The PBX 2a that has received the number of the terminal device 1b determines whether the terminal device 1 is under the control of the PBX 2a based on the information in the user authentication information database. As described above, this user authentication information database is stored in the PBX 2 of each node, and stores the user ID, password, and terminal information for each user.
[0034]
The PBX 2a can be seen from the information in the user authentication information database described above that the terminal device 1b is under the control of the PBX 2a. Therefore, the PBX 2a can call the terminal device 1b.
[0035]
When the terminal device 1b that has received this call is off-hooked, the PBX 2a is notified of the response of the terminal device 1b. Upon receiving the response from the terminal device 1b, the PBX 2a notifies the terminal device 1a that the terminal device 1b has responded, and permits call processing performed between the terminal device 1a and the terminal device 1b.
[0036]
Thus, according to the telephone system configured as described above, from the terminal device 1 belonging to a node other than the node normally used by the user of the terminal device 1 based on the user information using the terminal device 1, the communication line 5 The terminal device 1 can be connected to the PBX 2 of the node (own node) normally used by the user of the terminal device 1, and the same usability as the terminal device 1 installed in the own node can be realized.
[0037]
The above-described transmission control procedure is performed via the server 20, but the terminal database shown in the above-described embodiment is prepared inside any PBX 2 of the telephone system of the present invention, and the PBX 2 If a login request of an arbitrary terminal device 1 connected to the telephone system is received and login permission / rejection processing is performed, the same control as in the above-described embodiment can be performed.
[0038]
Next, a telephone system according to another embodiment of the present invention will be described with reference to FIGS. This telephone system applies a so-called common line signal system in which a control channel and a speech channel are independent as a digital dedicated line. This embodiment is different from the above-described embodiment of the telephone system in that the route search and the route determination are performed by using the route selection function of the digital leased line provided in the common line signal exchange (main apparatus). Thus, the server 20 is unnecessary.
[0039]
In a telephone system configured using such a digital leased line, for example, the terminal device 1b1 subordinate to the main device 6b in the node B is logged into the main device 6a of the node A and operates as the terminal device 1 of the node A. The case where it makes it explain is demonstrated. As shown in this figure, it is assumed that a node C is connected between the node A and the node B by a digital dedicated line (dedicated line AC and dedicated line CB).
[0040]
In a telephone system using such a digital leased line, when the terminal device 1b1 under the control of the main device 6b of the node B is switched to the control of the main device 6a of the node A, the node B is first operated by the operation from the terminal device 1b1. The main apparatus 6b is notified that the node A is to be controlled. Then, the main device 6b of the node B establishes a bidirectional link of control signals between the terminal device 1b1 and the main device 6a of the node A via the dedicated line AC and the dedicated line CB. At this time, the main device 6c of the node C establishes a logical link by transparently relaying a control signal exchanged between the terminal device 1b1 and the main device 6a.
[0041]
After the logical link is established, all the operation information of the terminal device 1b1 is relayed to the main device 6a of the node A via the main device 6b and the main device 6c, while the control information of the main device 6a of the node A is transferred to the terminal device 1b1. Relayed to. At this time, the logical link of the call is also transmitted between the node A and the terminal device 1b1 via the main device 6c of the node C. By doing in this way, it becomes possible for the terminal device 1b1 of the node B to receive the exchange control by the main device 6a of the node A as in the embodiment described above.
[0042]
An example of the control procedure of the telephone system using this leased line system will be described in more detail using the control sequence shown in FIG.
[0043]
First, the terminal device 1b1 issues a login request to the node A to the main device 6b of the node B. The main device 6b that has received the request for the login node searches and determines a connection route with the node A. The main device 6b of the node B whose route is determined by this search notifies the terminal device 1b1 of a login confirmation display.
[0044]
Receiving the login confirmation display, the terminal device 1b1 issues a login request to the main device 6a of the node A. This log-in request is signal-transparent-relayed by the main device 6 of the node B main device 6b and the node C main device 6c. On the other hand, the main device 6a of the node A that has received this login request requests the terminal device 1b1 to input the user ID and password as a login response. The login response of the main device 6a is signal-transparent relayed by the main device 6c and the main device 6b in the same manner as the login request described above.
[0045]
The user of the terminal device 1b1 that has received this login response inputs the user ID and password from the terminal device 1b1. Then, as described above, the user ID and the password input from the terminal device 1b1 are signal-transparent-relayed by the main devices 6b and 6c and transmitted to the main device 6a of the node A. The main device 6a compares this user information with the personal information stored and saved in the user authentication information database previously stored in the personal information storage means of the main device 6a, and the terminal that has made the login request only when they match. The login permission is notified to the device (terminal device 1b1 in this figure). At this time, the terminal device 1an used by the user under the control of the main device 6a is set in the idle state, and at the same time, the main device 6a controls the key lamp of the terminal device 1an and the control information of the display information with respect to the terminal device 1b1. To be notified.
[0046]
With this configuration, even in a telephone system using a digital leased line, a logical link is formed between the terminal device and the main device, so that the terminal device of another node is the same as in the above-described embodiment. Can be connected to the main device of the node to which the user of the terminal device belongs.
[0047]
Thus, according to the telephone system configured as described above, the PBX interconnected via the digital leased line can also use the terminal device other than the own node to which the user of the terminal device belongs based on the user information using the terminal device. From the node, the terminal device can be connected to the PBX of the own node via the communication line, and the same usability as the terminal device installed in the own node can be realized.
[0048]
In the above-described embodiment, the terminal device is authenticated by the server when logging in to the PBX of another node. However, in the case of a telephone system with a simple configuration that does not need to consider security, the authentication is omitted. It doesn't matter.
In addition, the present invention can be implemented with various modifications without departing from the spirit of the present invention.
[0049]
【The invention's effect】
As described above, according to the telephone system of the present invention, a terminal device can log in and connect to a PBX of another node from a terminal device of an arbitrary node based on user information using the terminal device. The terminal device can be connected to the PBX of the local node from a node other than the local node to which the user belongs, via the communication line, and the same usability as the terminal device installed in the local node can be realized. Such a great effect in practice can be achieved.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a telephone system according to an embodiment of the present invention.
FIG. 2 is a control sequence diagram showing a login procedure of the telephone system according to the embodiment of the present invention.
FIG. 3 is a diagram showing a terminal authentication database and a node management database in the server.
FIG. 4 is a diagram showing a user authentication information database in the private branch exchange.
FIG. 5 is a control sequence diagram showing a procedure for calling a node B terminal from a node A terminal;
FIG. 6 is a control sequence diagram showing a procedure for calling a node B terminal logging in to the node A from the node A terminal;
FIG. 7 is a diagram showing a schematic configuration of a telephone system according to another embodiment of the present invention using a dedicated line.
FIG. 8 is a control sequence diagram showing a login procedure of the telephone system according to another embodiment of the present invention.
[Explanation of symbols]
1 Terminal equipment 2 Private branch exchange (PBX)
4 router 5 communication line 10 node 20 server

Claims (3)

A plurality of nodes comprising a plurality of private branch exchanges each accommodating a plurality of telephones;
A communication line connecting these nodes to each other;
A server provided with exchange information storage means for storing address information and node information set in advance for each private branch exchange connected to the communication line,
The private branch exchange includes management means for managing setting information set for each of the accommodated telephones,
The server includes address notification means for comparing the node information input from the telephone with node information registered in advance in the exchange information storage means and notifying the telephone of the exchange address information,
Said phone can have a login means to log in to above constituting the switch on the basis of the notified exchange address information, the management unit of the private branch exchange that logged by the log-in means is actuated by the setting information managing A featured telephone system. The private branch exchange includes personal information storage means for storing a plurality of personal information for using the telephone;
Personal authentication means for collating personal information input from the telephone with personal information pre-registered in the personal information storage means and permitting connection to the private branch exchange only when the personal information matches. The telephone system according to claim 1, further comprising: The server includes telephone information storage means for storing telephone identification information of each telephone;
The telephone identification information notified from the telephone is compared with the telephone identification information registered in advance in the telephone information storage means, and only when the telephone identification information matches, the exchange address information of the private branch exchange is stored in the telephone. The telephone system according to claim 1, further comprising telephone authentication means for notifying to the telephone.

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