JP2014158091A - Extension number setting system, extension number setting device, extension number setting method, and extension number setting program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To set an extension number depending on an installation position of a telephone machine without a need for a user to grasp identification information of the telephone machine and without inquiring the telephone machine when setting the extension number depending on the installation position.SOLUTION: An extension number setting device is provided for setting an extension number to a terminal in a network having a relay device and the terminal connected to the relay device. The extension number setting device associates one or more extension numbers with the relay device, and sets to the terminal one of the extension numbers associated with the relay device connected with the terminal itself.

Description

  The present invention relates to an extension number setting system, an extension number setting device, an extension number setting method, and an extension number setting program for setting an extension number.

  In general, an extension network is constructed by accommodating a plurality of IP telephones in an IP (Internet Protocol) -PBX (private branch exchanger). In such an extension network, an extension number is set for each IP telephone in the extension network.

  In this case, the extension number of the IP telephone is set manually from the IP telephone, or based on identification information unique to each IP telephone such as a MAC address (Media Access Control address) of the IP telephone. The method of automatically setting is taken.

  An example of such a technique is described in Patent Document 1. In the technique described in Patent Document 1, an extension number is associated with each MAC address of a plurality of terminals. After that, authentication by the MAC address is performed, and login by the same extension number from a plurality of telephone terminals having different MAC addresses is exclusively permitted. That is, even if the same extension number is assigned to a plurality of telephone terminals, the same extension number is prevented from being used simultaneously by the plurality of telephone terminals. As a result, the same extension number can be shared by a plurality of telephone terminals.

JP 2009-147819 A

  By using the technique as described above, an extension number can be automatically set based on identification information unique to each IP telephone such as a MAC address. However, with the technology as described above, the extension number of an IP telephone installed at a specific position cannot be automatically set to a desired number. This is because the extension number is set based on identification information unique to the IP telephone, not the installation position of the IP telephone.

  Therefore, for example, the setting is such that the extension numbers of a plurality of IP telephones installed in a certain area in the room are approximated or the extension numbers of a plurality of IP telephones installed in a certain room are approximated. Could not be done automatically.

  Here, the extension numbers are approximated, for example, that the first digits of the extension numbers are common. More specifically, the extension number in the first room where the first department exists is “3xx”, which starts with 3, and the extension number in the second room where the second department exists is “5xx”. "And the number starting with 5. Moreover, such a setting is general and a user's needs are very high.

  If it is desired to approximate the extension number according to the position information in this way, it is grasped in advance that which extension number is associated with which identification information, and the approximated extension number is associated. It was necessary to install the IP telephone in the same room. For this reason, for example, it has been difficult to newly use an IP telephone used in another room in another room.

  Further, if it is desired to arbitrarily set an extension number of an IP telephone existing at a specific position, it was necessary for the IP telephone to be installed at a specific position and manually set the extension number. Alternatively, it has been necessary to install an IP-PBX and an IP phone that can change the link (linkage) between the identification information of the IP phone and the extension number after installation.

  Such manual setting or post-change of automatically set extension numbers has become very complicated especially as the size of the extension network increases.

  Therefore, according to the present invention, when the extension number is set according to the installation position of the telephone, the user does not need to grasp the identification information of the telephone and does not ask which telephone it is. It is an object of the present invention to provide an extension number setting system, an extension number setting device, an extension number setting method, and an extension number setting program capable of setting an extension number.

  According to a first aspect of the present invention, there is provided an extension number setting device for setting an extension number for the terminal in a network comprising a relay device and a terminal connected to the relay device, the relay number setting device An extension number setting device, wherein one or more extension numbers are associated with a device, and one of the extension numbers associated with a relay device to which the terminal itself is connected is set to the terminal. Provided.

  According to a second aspect of the present invention, there is provided an extension number setting system comprising a relay device, a terminal connected to the relay device, and an extension number setting device for setting an extension number for the terminal, The extension number setting device is an extension number setting device provided according to the second aspect of the present invention, and the relay device is a terminal connected to the relay device with information for identifying the relay device itself. The terminal includes information for identifying the relay device itself received from the relay device in the extension number setting request, and transmits the information to the extension number setting device. A feature extension number setting system is provided.

  According to a third aspect of the present invention, a computer is caused to function as an extension number setting device that sets an extension number for the terminal in a network including a relay device and a terminal connected to the relay device. Any one of the extension numbers associated with one or more extension numbers associated with the relay device and associated with the relay device to which the terminal itself is connected. An extension number setting program is provided, which functions as an extension number setting device for setting.

  According to a fourth aspect of the present invention, extension number setting is performed by an extension number setting device that sets an extension number for the terminal in a network including a relay device and a terminal connected to the relay device. An extension number setting device that associates one or more extension numbers with the relay device and sets one of the extension numbers associated with the relay device to which the terminal is connected to the terminal. An extension number setting method is provided which is characterized in that it functions.

  According to a fifth aspect of the present invention, an extension number setting method performed in a system including a relay device, a terminal connected to the relay device, and an extension number setting device for setting an extension number for the terminal. The extension number setting device associates one or more extension numbers with the relay device, and the relay device transmits information for identifying the relay device itself to a terminal connected to the relay device. The terminal includes information for identifying the relay device itself received from the relay device in an extension number setting request and transmits the extension number setting device to the extension number setting device. In response to the setting request for the extension number, the setting device sends the terminal to the terminal based on information for identifying the relay device connected to the terminal itself to the terminal included in the setting request. The terminal itself connects It is extension setting method and setting one of associated extension number to which the relay device is provided.

  According to the present invention, when setting an extension number according to the installation position of the telephone, it is not necessary for the user to grasp the identification information of the telephone, and it is possible to respond to the installation position without asking which telephone it is. The extension number can be set.

It is an arrangement | positioning figure showing the example of arrangement | positioning of each apparatus contained in embodiment of this invention. It is a block diagram showing the basic composition of the embodiment of the present invention. It is a figure showing the example of the table utilized by embodiment of this invention. It is a sequence diagram showing the basic operation | movement of embodiment of this invention. It is a flowchart showing about the extension number determination process in embodiment of this invention. It is a figure showing the example of the table utilized in the 1st modification of embodiment of this invention. It is an arrangement drawing showing an example of arrangement of each device contained in the 1st modification of an embodiment of the present invention. It is a figure showing the example of the table utilized in the 2nd modification of embodiment of this invention. It is an arrangement | positioning figure showing the example of arrangement | positioning of each apparatus contained in the 2nd modification of embodiment of this invention.

  Next, before describing the embodiment of the present invention in detail, an outline of the present embodiment will be described first.

  In this embodiment, it is possible to automatically set an extension number designated for a specific location based on the position where the IP telephone is installed. For this purpose, in this embodiment, the location of each LAN switch, which is a relay device, is previously known. Thereby, the identification information for identifying a certain LAN switch becomes information for identifying this certain place where this certain LAN switch is installed.

  Further, in the present embodiment, the installation position of the LAN switch as a relay device is regarded as the installation position of the IP telephone. That is, it is considered that a certain IP telephone connected to a certain LAN switch installed in a certain place is also installed in this certain place. Therefore, the identification information for specifying the certain LAN switch is information for identifying the certain place where the certain LAN switch is installed. Then, the extension number is set not according to the identification information of the IP telephone but according to the identification information of the LAN switch (that is, information specifying the location). This makes it possible to automatically set an extension number designated for a specific location based on the position where the IP telephone is installed.

  More specifically, in the present embodiment, an LLDP (Link Layer Discovery Protocol) function is used to automatically set an extension number designated as a specific location from the location information of the IP telephone. Then, an IP telephone having an LLDP function is connected to a LAN switch having an LLDP function, the IP telephone receives and stores the LLDP positional information data transmitted from the LAN switch, and notifies the IP telephone of the positional information of the IP telephone. To send location information. The IP-PBX receives position information transmitted by each IP telephone, manages the position information collectively, and automatically sets the extension number of each IP telephone connected to a specific LAN switch.

  Here, the LLDP function is a function realized in conformity with LLDP. LLDP refers to IEEE 802.1AB formulated by the Institute of Electrical and Electronics Engineers, Inc. (IEEE). Although the official name of IEEE 802.1AB is “Station and Media Access Control Connectivity Discovery”, since it is generally called “LLDP”, it is also called “LLDP” in the description of this embodiment.

  In the past, network device vendors independently developed the same protocol as LLDP, so it was necessary to unify vendors, for example. However, since LLDP has been standardized, it has become possible to select compatible products without asking vendors. Therefore, this embodiment is advantageous in that it can be easily mounted.

  Next, the configuration of the embodiment of the present invention will be described in detail with reference to the drawings.

  Referring to FIG. 1, an extension number automatic setting system according to an embodiment of the present invention includes an IP-PBX 1, a LAN switch 2-1, a LAN switch 2-2, a LAN switch 2-3, an IP telephone set 3-1, an IP telephone set. 3-2, IP telephone 3-3, IP telephone 3-4, and IP telephone 3-5.

  Each IP telephone 3 (IP telephone 3-1, IP telephone 3-2, IP telephone 3-3, IP telephone 3-4, and IP telephone 3-5) includes a LAN switch 2-2 or a LAN switch 2-3, It is accommodated in the IP-PBX 1 via the LAN switch 2-1. Here, the IP-PBX 1 is a PBX (private branch exchanger) that manages calls between extensions of IP telephones and exchanges extensions and external lines. Each IP telephone 3 and the IP-PBX 1 realize communication in accordance with SIP (Session Initiation Protocol) which is one of IP (Internet Protocol).

  Further, each LAN switch 2 (LAN switch 2-1, LAN switch 2-2, LAN switch 2-3) is a LAN switch including a function realized in conformity with LLDP. In the following description, a function realized in conformity with such LLDP is referred to as an “LLDP function”. Packet data compliant with LLDP is referred to as an “LLDP packet”. Packet data compliant with SIP is called “SIP packet”.

  Further, in this description, for convenience, it is assumed that the IP telephone 3-1 and the IP telephone 3-2 connected to the LAN switch 2-2 belong to the group 100. Further, it is assumed that the IP telephone set 3-3, the IP telephone set 3-4, and the IP telephone set 3-5 connected to the LAN switch 2-3 belong to the group 101. In the example shown in FIG. 1, the IP telephone 3 is not connected to the LAN switch 2-1, but the IP telephone 3 may be connected to the LAN switch 2-1. In that case, the IP telephone 3 connected to the LAN switch 2-1 belongs to a new group other than the group 100 and the group 101. That is, the IP telephone 3 connected to the LAN switch 2-1 belongs to the group 100 or the group 101 just because the LAN switch 2-1 is a higher layer than the LAN switch 2-2 and the LAN switch 2-3. It will not be.

  This is because, in this embodiment, the extension number is set without considering which layer the LAN switch 2 is in. Although details will be described later, in the present embodiment, an extension number is set based on the LAN switch 2 to which the IP telephone 3 is directly connected, which is closest to each IP telephone 3, and the level of the LAN switch 2 is what level. However, the extension number is set without considering which LAN switch 2 is the upper layer LAN switch 2.

  Furthermore, the network topology shown in FIG. 1 is merely an example, and does not limit the scope of application of the present embodiment. In the present embodiment, there are no particular restrictions on the number of LAN switches and IP telephones.

  Next, the internal configuration of each terminal in the present embodiment will be described in detail with reference to FIG.

  Referring to FIG. 2, IP telephone 3-1 includes a communication unit 31, an extension number setting unit 32, and a storage unit 33. The LAN switch 2-2 includes a communication unit 21 and an LLDP notification unit 22. Further, the IP-PBX 1 includes a communication unit 11, an extension number management unit 12, and a database 13. In this embodiment, the LAN switch 2-1 exists between the LAN switch 2-2 and the IP-PBX 1, but the illustration is omitted in FIG. Note that the LAN switch 2-1 (not shown) includes the same configuration as the LAN switch 2-2.

  The communication unit 31 of the IP telephone 3-1 performs communication conforming to the LLDP with the LAN switch 2-2 and transmits / receives LLDP packets. Further, the communication unit 31 performs communication based on SIP with the IP-PBX 1 via the LAN switch 2-2 and the LAN switch 2-1, and transmits and receives SIP packets.

  The extension number setting unit 32 has a function of setting the extension telephone number of the IP telephone 3-1. When the IP telephone 3-1 is initially connected to the present embodiment, the extension number is not yet associated with the IP telephone 3-1. In this case, the extension number setting unit 32 detects the connection to the present embodiment, accepts an operation from the user, or receives an LLDP packet transmitted from the LAN switch 2-2. Start setting the extension number for.

  Specifically, the SIP location information is created based on the LLDP location information included in the LLDP packet transmitted from the LAN switch 2-2. The LLDP packet transmitted from the LAN switch 2-2 is stored in the storage unit 33.

  Then, the created SIP location information and extension number setting request message are transmitted as SIP packets to the IP-PBX 1 via the LAN switch 2-2 and the LAN switch 2-1. Thereafter, since the SIP packet including the extension number is returned from the IP-PBX 1, it is received. Further, the extension number is grasped by referring to the received SIP packet, and the grasped extension number is set in the IP telephone 3-1. In addition to setting in the IP telephone 3-1, the extension number may be notified to the user by displaying the extension number on the screen.

  The storage unit 33 is a storage device that stores the LLDP packet transmitted from the LAN switch 2-2.

  The communication unit 21 of the LAN switch 2-2 performs communication based on the LLDP with the communication unit 31 and transmits / receives LLDP packets. The communication unit 31 relays communication conforming to the SIP between the IP-PBX 1 and the IP telephone set 3-1, that is, relays SIP packets transmitted and received between the IP-PBX 1 and the IP telephone set 3-1.

  The LLDP notification unit 22 includes the LLDP location information in the LLDP packet and transmits the LLDP position information to the IP telephone set 3-1 using the communication unit 21. The LLDP position information includes at least information for identifying and specifying the LAN switch 2-2. Specifically, information such as the name of the LAN switch 2-2, the MAC address of the LAN switch 2-2, or the management address of the LAN switch 2-2 is included. Note that these are merely examples, and the LAN switch 2-2 may be specified by other information.

  Further, for example, information other than the position information such as what number port of the LAN switch 2-2 is connected to the IP telephone 3-1 may be further included.

  The transmission of the LLDP position information by the LLDP notification unit 22 may be performed periodically (for example, every 30 seconds), an instruction from the IP telephone set 3-1 or the IP-PBX 1, or the power supply of the LAN switch 2-1 It may be performed in response to the input of.

  Further, the communication unit 11 of the IP-PBX 1 implements voice communication in the IP phone 3 by relaying the communication unit 21 and the like to transmit / receive SIP packets to / from the communication unit 31 of each IP phone 3. Similarly, transmission / reception of SIP packets with the extension number setting unit 32, which is processing unique to the present embodiment, is also performed using the communication unit 11 of the IP-PBX1. That is, the communication unit 11 receives a SIP packet including a SIP location information and an extension number setting request message from each IP telephone 3, and transmits a SIP packet including the extension number as a reply.

  The extension number management unit 12 includes a function for managing extension numbers. Specifically, an extension number is associated with each IP telephone 3 by referring to a database in which an extension number association table is stored. In addition, a SIP packet including the extension number is generated based on the associated extension number, and the generated SIP packet is transmitted to the extension number setting unit of the IP telephone 3 via the communication units 11,. 32.

  The database 13 stores information on extension numbers as a table. This point will be described with reference to FIG.

  The extension number correspondence table shown in FIG. 3 includes position information, LAN switch identification information, IP telephone identification information, and extension numbers as items. In the present embodiment, position information is set such as position information A, B, C. Each piece of position information corresponds to the LAN switch 2. Therefore, in this table, one piece of LAN switch identification information is stored corresponding to one piece of position information.

  Further, in this table, since it is assumed that there are N LAN switches 2 (N is an integer equal to or greater than 1), identification information of the LAN switch 2 also exists up to the LAN switch 2-N. As the identification information of the LAN switch 2 and the identification information of the IP telephone 3, the codes used in FIG. 1 (for example, “LAN switch 2-2”) are used as they are for convenience of explanation. It is an example. In the present embodiment, each IP telephone 3 or each LAN switch 2 may be associated with an ID unique to the present embodiment as identification information, but device-specific information such as a MAC address may be used as identification information as it is. Further, it is not always necessary to associate position information with all the LAN switches 2. For example, because of the arrangement of the LAN switch 2-1, only the other LAN switch 2 is directly connected to the LAN switch 2-1, and there is no plan to connect the IP telephone 3 directly to the LAN switch 2-1. In this case, there is no need to associate position information with the LAN switch 2-1. It should be noted that the correspondence between the LAN switch identification information and the position information in this table can be modified according to the use situation.

  The IP telephone identification information is registered in the table so as to correspond to the position information of the IP telephone 3 included in the SIP packet transmitted from each IP telephone 3.

  In addition, each IP telephone 3 is associated with an extension number corresponding to the position information. A specific operation for associating extension numbers will be described later.

  Above, description about the functional block of this embodiment is complete | finished. The IP telephone set 3-1, the LAN switch 2-2, and the IP-PBX 1 have functional blocks necessary for functioning as the IP telephone, the LAN switch, and the IP-PBX, in addition to the functional blocks shown in FIG. However, since this is not the gist of the present embodiment, illustration and description thereof are omitted.

  In addition, although the IP telephone 3-1 has been described as an example in FIG. 2 this time, other IP telephones 3 (IP telephone 3-2, IP telephone 3-3, IP telephone 3-4 and IP telephone 3-5) Also include an equivalent configuration. Each LAN switch 2 (LAN switch 2-1 and LAN switch 2-3) also has the same configuration as the LAN switch 2-2.

  Next, the operation of the present embodiment will be described in detail with reference to FIGS. 4 and 5. As in FIG. 2, the LAN switch 2-2 and the IP telephone set 3-1 will be described as an example, but the other LAN switch 2 and the IP telephone set 3 operate in the same manner. In addition, the LAN switch 2-2 and the LAN switch 2-1 are interposed in the communication between the IP telephone set 3-1 and the IP-PBX 1, but these LAN switches 2 only perform relaying, so that the illustration is shown. Omitted.

  First, the LAN switch 2-2 transmits an LLDP packet to the IP telephone 3-1 (step S51). As described above, this LLDP packet includes at least LAN switch identification information for identifying the LAN switch 2-2. The IP telephone 3-1 receives the LLDP packet and refers to the received LLDP packet. As a result, the IP telephone 3-1 acquires LAN switch identification information that is information indicating which LAN switch 2 the IP telephone 3-1 itself is connected to. In the present embodiment, as described at the beginning of the description of the present embodiment, the LAN switch identification information is information indicating the installation positions of both the LAN switch 2 and the IP telephone 3 connected thereto. Then, it will be referred to as “position information”. The IP telephone 3-1 stores the acquired position information in the storage unit 33.

  Next, the IP telephone 3-1 transmits an extension number setting request message to the IP-PBX 1 in the form of a SIP packet including the location information acquired from the LAN switch 2-2 (step S 52). That is, this message transmission is a message indicating an extension number setting request from the IP telephone 3-1, and is performed at least every time the IP telephone 3-1 acquires new position information.

  Further, even when the IP telephone set 3-1 has not acquired new location information, the location information may be periodically transmitted (extension number setting request). This is because the periodic transmission is performed, and when the entire table shown in FIG. 3 is rewritten, different extension numbers may be associated with the same position information. . That is, the extension number may be changed even if the position information is not changed.

  The IP-PBX 1 receives the position information and stores the received position information in the database 13. Then, the IP-PBX 1 performs an extension number determination process of assigning an extension number to the IP telephone according to the position information (step S53). A specific method of the extension number determination process will be described later with reference to FIG.

  Next, the IP-PBX 1 returns the extension number allocated according to the acquired position information to the IP telephone set 3-1 that is the transmission source of the extension number setting request by using a SIP packet (step S54). The IP telephone 3-1 receives the extension number and sets the extension number.

  Next, the operation of step S53 of this embodiment will be described in more detail with reference to the flowchart of FIG.

  First, when step S52 is completed, next step S53-1 is performed. In step S53-1, it is confirmed whether the IP telephone set 3-1 is already registered in association with the position information corresponding to the latest LAN switch identification information transmitted in step S52. Specifically, it is confirmed whether the IP telephone set 3-1 has been registered in association with the position information A corresponding to the LAN switch 2-2 in the table in the database 13 as shown in FIG. 3 (step S53). ).

  If it has already been registered (Yes in step S53-1), the same information only overlaps even if it is registered again, so the process proceeds to step S53-4 without performing registration.

  If the table itself is unregistered (No in step S53-1 (no registration)), the IP phone 3-1 is stored in the table in the database 13 and the latest LAN transmitted in this step S52. Registration is made in the item corresponding to the switch identification information (step S53-2). Specifically, the IP telephone set 3-1 is registered in association with the position information A corresponding to the LAN switch 2-2.

  Furthermore, there may be a case where the registered item does not correspond to the latest LAN switch identification information transmitted in the current step S52 (No in step S53-1). Registered)).

  This is the case, for example, when the IP telephone 3-1 has been connected to another LAN switch 2 other than the LAN switch 2-2 in the past, and the IP telephone 3-1 corresponds to this other LAN switch 2. This is a case where it is registered in association with the position information. That is, this is a case where the IP telephone 3-1 is connected to the LAN switch 2-2 from another LAN switch 2. In addition, although the position information different from the current position is associated with the LAN switch 2-2, there may be a case where the table in the database 13 is rewritten. In any case, the registration of the current IP telephone 3-1 is deleted, and the IP telephone 3 is newly added to the position information item corresponding to the latest LAN switch identification information transmitted in the current step S 52. -1 is registered. That is, the registered content is corrected (step S53-3).

  Taking the table shown in FIG. 3 as an example, “LAN switch 2-2” is currently transmitted as the LAN switch identification information, and the position information corresponding to the LAN switch 2-2 is “position Information A ". Here, it is assumed that IP telephone 3-1 is not registered in the item corresponding to position information A. Therefore, the IP-PBX 1 registers the IP telephone 3-1 in the item corresponding to the location information A.

  Next, in steps S53-4 to S53-10, an extension number is set in accordance with the position information corresponding to the IP telephone for which the extension number is set this time. That is, the location information is searched from the database 13, and the IP phone corresponding to the location information A is the extension number 1xx, the IP phone corresponding to the location information B is the extension number 2xx, and the IP phone corresponding to the location information C is the extension number 3xx. Set.

  In this example, the location information received together with the extension number setting request, that is, the location information corresponding to the IP phone 3-1 that is the target IP phone for which the extension number is set, is “location information A”. Yes in S53-4. Here, if it is assumed that “100” to “199” are associated as the extension numbers corresponding to the position information A, the extension telephone number set in the IP telephone 3-1 is “1xx”. Here, as an example, consider the case where the “xx” portion is associated in order from the youngest number among the unset numbers. In this case, since the youngest number “100” is already associated with the IP telephone 3-2, the next youngest number “101” is set as the extension number in the IP telephone 3-1.

  If the location information received together with the extension number setting request, that is, the location information corresponding to the IP phone 3-1 that is the IP phone for which the extension number is set, is not the location information A (step S53-4). No) proceeds to step S53-6 and confirms whether it is the position information B or not. Thus, the extension number is finally set while repeating the position information to be determined (steps S53-4 to S53-10).

  After the setting is completed, the process proceeds to step S54.

  In step S53 described above, the IP-PBX 1 assigns an extension number and notifies the IP telephone 3 of the assigned extension number. By partially modifying this, the IP-PBX 1 may transmit only a part of the extension number designated for each group belonging to the LAN switch 2 in accordance with the acquired position information. For example, if the extension number consists of three digits, only the information “5xx” may be transmitted. For example, the IP telephone 3 itself may finally determine the extension number based on the port number or the like. For example, it is assumed that the IP telephone 3-1 is connected to the port of the port number “9” of the LAN switch 2-2 by the LLDP function. In this case, “5xx” may be returned and the extension number may be set to “509” based on the information that the port number is “9”.

  In the present embodiment described above, an extension number can be set according to the installation position of the telephone.

  The reason is that the identification information of the LAN switch is regarded as the installation position of the telephone, and the extension telephone number is associated based on the identification information of the LAN switch.

  Further, in the present embodiment described above, it is possible to set an extension number according to the installation position without asking which telephone is the telephone.

  This is because, in this embodiment, the extension number is determined not on the telephone identification information but on the LAN switch identification information. That is, the extension telephone number is not associated with information unique to the telephone.

  Further, in the present embodiment described above, it is not necessary for the user to grasp the identification information of the telephone, and an extension number can be set according to the installation position.

  The reason is that this embodiment automatically sets the extension number. This also makes it very easy to manage user extension numbers.

  Moreover, although the above-described embodiment is a preferred embodiment of the present invention, the scope of the present invention is not limited only to the above-described embodiment, and various modifications are made without departing from the gist of the present invention. Implementation in the form is possible.

  Accordingly, a modification of the above-described embodiment will be described. These modifications relate to the association of extension numbers.

  First, a first modification will be described with reference to FIGS. 6 and 7. FIG. 6 is a table on the database 13 in this modification. In the above-described embodiment, the LAN switch identification information and the position information are associated with each other in a one-to-one relationship. However, in this modification, the LAN switch identification information and the position information are associated with each other in a many-to-one relationship.

  For example, as shown in FIG. 6, the LAN switch 2-2 and the LAN switch 2-3 are associated with the “position information A”. As a result, the extension number “1xx” can be set for both the IP telephone 3-x connected to the LAN switch 2-2 and the IP telephone 3-x connected to the LAN switch 2-3. .

  For example, as shown in FIG. 7, the extension number “1xx” can be set for the IP telephone 3-x connected to the adjacent LAN switch 2-2 and the LAN switch 2-3. Thereby, for example, even when the IP telephones 3-x are installed more than the number of units that can be connected to the LAN switch 2-2, the LAN switch 2-3 adjacent to the LAN switch 2-2 can be used to change the installation position. It is possible to set a corresponding extension number. In addition, even if two LAN switches (LAN switch 2-2 and LAN switch 2-3) are mixed in the same room due to the layout of the room, an extension number corresponding to the installation position of the same room is assigned. It becomes possible to set.

  Next, a second modification will be described with reference to FIGS. FIG. 8 is a table on the database 13 in this modification. In the above-described embodiment, the LAN switch identification information and the position information are associated with each other in a one-to-one relationship. In the first modification, the LAN switch identification information and the position information are associated with each other in a many-to-one relationship. In this modification, the LAN switch identification information and the position information are associated with each other by mixing many-to-one and one-to-many relationships.

  It is also conceivable to have only a one-to-many relationship without mixing with a many-to-one relationship. For example, the LAM switch 2-2 may be associated with the position information A (numbers 100 to 199) and the position information B (numbers 200 to 299). However, if this is the case, the numbers 100 to 299 may be assigned to the position information A. Therefore, in the second modified example, a mixed form will be described as an example.

  For example, as illustrated in FIG. 8, the “position information X” is associated with the LAN switch 2-2, the LAN switch 2-3, the LAN switch 2-5, and the LAN switch 2-6. Here, “position information X” is position information as a name but does not represent an actual position, but is logical fictitious position information for managing a spare extension number.

  An extension number is also associated with the position information X. In this example, the extension number “9xx” is associated with the position information X.

  Thus, for example, the extension number “1xx” or the extension number “9xx” is set for the IP telephone 3-x connected to the LAN switch 2-2. Similarly, for example, the extension number “2xx” or the extension number “9xx” is set for the IP telephone 3-x connected to the LAN switch 2-3.

  In this modification, extension numbers (“1xx”, “2xx”, “31x”, and “32x”) individually associated with each LAN switch 2 are assigned to the IP telephone 3-x, and extensions. Which number “9xx” is to be preferentially set is determined.

  For example, if extension numbers (“1xx”, “2xx”, “31x”, and “32x”) individually associated with each LAN switch 2 are set with priority, for example, the LAN switch 2- When the extension numbers “100” to “199” are all used due to the setting of the IP telephone 3-x connected to the LAN, the LAN switch 2-2 is connected when the unused “1xx” is exhausted. The extension number “9xx” is set for the first time for the IP telephone 3-x.

  By doing so, even if the extension number is not properly associated with the position information of each LAN switch 2 and the extension number that can be used is lost, the extension number “9xx” or the like is obtained. A spare number can be assigned.

  That is, at least until the extension number is exhausted, an extension number corresponding to the installation position can be set, and even if the extension number is exhausted, some extension number can be set.

  Depending on the application, the extension number “9xx” may be set with priority.

  Also, the extension number setting range may be different for each position information. For example, the extension number “100” to “199” or the extension number “200 to 299” is assigned to the position information “A” and the position information “B” in 100 ranges. Of course, the position information C and position information D may be associated with each other as extension number “31x” and extension number “32x”. That is, extension numbers may be assigned in a range of 10 such as extension numbers “310 to 319” and extension numbers “320 to 329”. A configuration example in the case of such allocation is an example shown in FIG.

  Referring to FIG. 9, the LAN switch 2-1 and the LAN switch 2-2 are assigned extension numbers in the range of 100 extension numbers, while the LAN switch 2-5 and the LAN switch 2-6 are assigned to the LAN switch 2-6. On the other hand, extension numbers are assigned in the range of 10 extension numbers.

  In FIG. 9, each LAN switch 2 is also associated with an extension number “9xx” in addition to an individual extension number associated with each LAN switch 2. This is because, as described with reference to FIG. 8, each LAN switch 2 is also associated with “9xx”, which is a spare extension number.

  Each of the IP-PBOX, LAN switch, and IP phone included in the extension number setting system can be realized by hardware, software, or a combination thereof. Also, an extension number setting method performed by cooperation of all or a part of the IP-PBOX, LAN switch, and IP telephone included in the extension number setting system, or an IP included in the extension number setting system. The extension number setting method performed by any of the PBOX, LAN switch, and IP telephone can be realized by hardware, software, or a combination thereof. Here, “realized by software” means realized by a computer reading and executing a program.

  The program may be stored using various types of non-transitory computer readable media and supplied to the computer. Non-transitory computer readable media include various types of tangible storage media. Examples of non-transitory computer readable media include magnetic recording media (for example, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (for example, magneto-optical disks), CD-ROMs (Read Only Memory), CD- R, CD-R / W, semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, random access memory (RAM)). Computers may be provided to a computer by a transitory computer readable medium, examples of transitory computer readable media include electrical signals, optical signals, and electromagnetic waves. The program can be supplied to the computer via a wired communication path such as an optical fiber or a wireless communication path.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Supplementary Note 1) An extension number setting device that sets an extension number for the terminal in a network including a relay device and a terminal connected to the relay device,
One or more extension numbers are associated with the relay device, and one of the extension numbers associated with the relay device to which the terminal is connected is set to the terminal. apparatus.

(Appendix 2) The extension number setting device according to appendix 1,
Information for receiving an extension number setting request from the terminal, including information for identifying the relay device to which the terminal itself is connected, and identifying the relay device An extension number setting device, wherein any one of the extension numbers associated with the relay device identified by (2) is returned to the requesting terminal.

(Supplementary note 3) The extension number setting device according to supplementary note 1 or 2,
The relay device to which the terminal is connected is an extension number setting device that is the relay device closest to the terminal in the network among a plurality of relay devices.

(Appendix 4) The extension number setting device according to any one of appendices 1 to 3,
The extension number associated with the relay device is duplicated between different relay devices, and the extension number duplicated between the different relay devices is set in the terminal connected to any one of the different relay devices. An extension number setting device.

(Supplementary Note 5) The extension number setting device according to any one of Supplementary Notes 1 to 4,
A part of the extension number corresponding to at least one certain relay apparatus is duplicated with another relay apparatus, and the other part of the extension number is not duplicated with another relay apparatus and is connected to the certain relay apparatus. An extension number that is set to the terminal that has been duplicated with the other relay device or an extension number that has not been duplicated with the other relay device in preference to the other. Number setting device.

(Appendix 6) The extension number setting device according to any one of appendices 1 to 5,
When a terminal for which the extension number has already been set is newly connected to another relay apparatus, one of the extension numbers associated with the other relay apparatus is newly set for the terminal. A feature extension number setting device.

(Supplementary note 7) An extension number setting system comprising a relay device, a terminal connected to the relay device, and an extension number setting device for setting an extension number for the terminal,
The extension number setting device is the extension number setting device according to any one of appendices 1 to 6,
The relay device transmits information for identifying the relay device itself to a terminal connected to the relay device,
The terminal includes information for identifying the relay device itself received from the relay device, and transmits the extension number setting device to the extension number setting device including the extension number setting request. system.

(Supplementary Note 8) An extension number setting program for causing a computer to function as an extension number setting device for setting an extension number for the terminal in a network including a relay device and a terminal connected to the relay device. And
The computer,
One or more extension numbers are associated with the relay device, and the terminal functions as an extension number setting device for setting any of the extension numbers associated with the relay device to which the terminal itself is connected. Extension number setting program.

(Supplementary Note 9) An extension number setting method performed by an extension number setting device that sets an extension number for the terminal in a network including a relay device and a terminal connected to the relay device,
One or more extension numbers are associated with the relay device, and the terminal functions as an extension number setting device for setting any of the extension numbers associated with the relay device to which the terminal itself is connected. Extension number setting method.

(Supplementary Note 10) An extension number setting method performed in a system including a relay device, a terminal connected to the relay device, and an extension number setting device for setting an extension number for the terminal,
The extension number setting device associates one or more extension numbers with the relay device,
The relay device transmits information for identifying the relay device itself to a terminal connected to the relay device,
The terminal includes, in an extension number setting request, information for identifying the relay device itself received from the relay device, and transmits the extension number setting device to the extension number setting device.
In response to the extension number setting request, the extension number setting device, based on information for identifying the relay device to which the terminal itself is connected to the terminal included in the setting request, An extension number setting method characterized in that any one of extension numbers associated with a relay device to which the terminal itself is connected is set to the terminal.

  The present invention is suitable for setting a number in a network where a relay device exists.

1 IP-PBX
2 LAN switch 3 IP telephone 11 communication unit 12 extension number management unit 13 database 21 communication unit 22 LLDP notification unit 31 communication unit 32 extension number setting unit 33 storage unit

Claims (10)

An extension number setting device for setting an extension number for the terminal in a network comprising a relay device and a terminal connected to the relay device,
One or more extension numbers are associated with the relay device, and one of the extension numbers associated with the relay device to which the terminal is connected is set to the terminal. apparatus. The extension number setting device according to claim 1,
Information for receiving an extension number setting request from the terminal, including information for identifying the relay device to which the terminal itself is connected, and identifying the relay device An extension number setting device, wherein any one of the extension numbers associated with the relay device identified by (2) is returned to the requesting terminal. The extension number setting device according to claim 1 or 2,
The relay device to which the terminal is connected is an extension number setting device that is the relay device closest to the terminal in the network among a plurality of relay devices. The extension number setting device according to any one of claims 1 to 3,
The extension number associated with the relay device is duplicated between different relay devices, and the extension number duplicated between the different relay devices is set in the terminal connected to any one of the different relay devices. An extension number setting device. The extension number setting device according to any one of claims 1 to 4,
A part of the extension number corresponding to at least one certain relay apparatus is duplicated with another relay apparatus, and the other part of the extension number is not duplicated with another relay apparatus and is connected to the certain relay apparatus. An extension number that is set to the terminal that has been duplicated with the other relay device or an extension number that has not been duplicated with the other relay device in preference to the other. Number setting device. The extension number setting device according to any one of claims 1 to 5,
When a terminal for which the extension number has already been set is newly connected to another relay apparatus, one of the extension numbers associated with the other relay apparatus is newly set for the terminal. A feature extension number setting device. An extension number setting system comprising a relay device, a terminal connected to the relay device, and an extension number setting device for setting an extension number for the terminal,
The extension number setting device is the extension number setting device according to any one of claims 1 to 6,
The relay device transmits information for identifying the relay device itself to a terminal connected to the relay device,
The terminal includes information for identifying the relay device itself received from the relay device, and transmits the extension number setting device to the extension number setting device including the extension number setting request. system. An extension number setting program for causing a computer to function as an extension number setting device for setting an extension number for the terminal in a network comprising a relay device and a terminal connected to the relay device,
The computer,
One or more extension numbers are associated with the relay device, and the terminal functions as an extension number setting device for setting any of the extension numbers associated with the relay device to which the terminal itself is connected. Extension number setting program. An extension number setting method performed by an extension number setting device that sets an extension number for the terminal in a network including a relay device and a terminal connected to the relay device,
One or more extension numbers are associated with the relay device, and the terminal functions as an extension number setting device for setting any of the extension numbers associated with the relay device to which the terminal itself is connected. Extension number setting method. An extension number setting method performed in a system including a relay device, a terminal connected to the relay device, and an extension number setting device for setting an extension number for the terminal,
The extension number setting device associates one or more extension numbers with the relay device,
The relay device transmits information for identifying the relay device itself to a terminal connected to the relay device,
The terminal includes, in an extension number setting request, information for identifying the relay device itself received from the relay device, and transmits the extension number setting device to the extension number setting device.
In response to the extension number setting request, the extension number setting device, based on information for identifying the relay device to which the terminal itself is connected to the terminal included in the setting request, An extension number setting method characterized in that any one of extension numbers associated with a relay device to which the terminal itself is connected is set to the terminal.

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