JP5049219B2 - Intercom system for housing complex - Google Patents

Description

  The present invention relates to an intercom system for collective housing.

  FIG. 17 shows an example of the configuration of a conventional general apartment house intercom system. In such an intercom system for an apartment house, a lobby intercom device 101 is installed in the lobby (common entrance) of the apartment house, a dwelling unit terminal 102 is installed in each dwelling unit of the apartment house, and a door phone is installed at the entrance of each dwelling unit. A vessel 103 is installed. A visitor at the lobby entrance can call the dwelling unit terminal 102 in the desired dwelling unit by using the lobby intercom device 101 to make a call with a householder in the dwelling unit. The user can call the dwelling unit terminal 102 in the desired dwelling unit 103 to make a call with the housekeeper in the dwelling unit. Furthermore, the lobby intercom device 101 and the dwelling unit terminal 102 are provided with a camera in the lobby intercom device 101 and a monitor screen in the dwelling unit terminal 102 as well as voice input / output means such as a microphone and a speaker. Image input / output means for displaying the image of the visitor at the entrance on the monitor screen of the dwelling unit terminal 102 is provided. At this time, audio and image data exchanged between the lobby intercom device 101 and the dwelling unit terminal 102 are transmitted in packets after being subjected to digital compression and modulation processing (see, for example, Patent Document 1).

  A communication packet transmitted from the lobby intercom apparatus 101 is first transmitted through the main trunk line L1 and then transmitted to the higher-speed backbone trunk line L2 via the transmission media converter 104. A plurality of transmission media converters 104 are connected to the backbone trunk line L2, and the communication packet is distributed as to which transmission media converter 104 should reach the dwelling unit terminal 102 according to each destination. The communication packet is transmitted again to the main line L1 via the transmission media converter 104 distributed according to the destination. A terminator 106 is connected to the end of the main line L1.

In the main line L1, a transmission media connector 107 may be inserted to compensate for signal loss due to long-distance transmission. The communication packet is relayed and amplified by the transmission media connector 107, and reaches the dwelling unit terminal 102 via the branching device 105 that branches the high impedance so as not to lower the impedance of the main trunk line L1.
JP 2005-136478 A

  In the conventional intercom system for collective housing, when the dwelling unit terminals 102 connected to the same main line L1 try to communicate with each other like a call between dwelling units, the communication packet is divided into two branches as shown in FIG. It is necessary to go through the device 105. However, when the communication packet is transmitted from the dwelling unit separate line L3 to the main trunk line L1 via the branching unit 105, and when it is transmitted from the main trunk line L1 to the dwelling unit separate line L3 via the branching unit 105, the signal is transmitted. The level will drop. Therefore, conventionally, when the dwelling units 102 connected to the same main trunk line L1 try to communicate with each other, the signal level of the communication packet is significantly attenuated because the two branching units 105 pass, and communication becomes impossible. The communication between the dwelling units 102 was not possible.

  This invention is made | formed in view of the said reason, The objective is to provide the intercom system for collective housing which can communicate between the dwelling unit terminals connected to the same trunk line.

  The invention of claim 1 is a common unit device that is installed at a common entrance of an apartment house and is capable of inputting and outputting voices, a dwelling unit terminal that is installed at each residence unit of the apartment house and is capable of inputting and outputting voices, One or a plurality of first trunk lines to which one or more shared unit devices or a plurality of dwelling unit terminals are connected, a branching device interposed between the first trunk line and each dwelling unit terminal, and first and second A first trunk line is connected to the first port, a second trunk line having a communication protocol different from that of the first trunk line is connected to the second port, and the first trunk line and the second trunk line are connected to each other. A converter that performs communication protocol conversion with the trunk line, and when the converter receives a signal at the first port, the converter is a dwelling unit that has a transmission destination of the received signal on the first port side. If there is, the received signal is amplified to a predetermined level and then transferred from the first port. If the transmission destination is a dwelling unit that exists on the second port side, the received signal is transferred from the second port, and the dwelling unit transmits a signal to the converter via the branching unit and the first trunk line. The communication is performed by receiving a signal from the converter via the first trunk line and the branching unit.

  According to the present invention, communication between dwelling units connected to the same trunk line is possible with a simple process of transferring after the amplification process of the signal output from the converter to the first trunk line.

  The invention according to claim 2 is the transmitter according to claim 1, wherein the first trunk line is a source address that is an address given to the dwelling unit terminal that first transmitted a signal, and the dwelling unit terminal that last transmitted the signal at the present time Or the transmitting terminal address that is an address given to the converter, the receiving terminal address that is the address given to the next dwelling unit or the converter that receives the signal, and the dwelling unit terminal that receives the signal last The destination address, which is the assigned address, is added to the signal for communication. On the second trunk line, the source address and the destination address are added to the signal for communication. The converter receives the signal. A first address table in which the source address and the transmission terminal address of the received signal are associated with either the first or second port of the converter, and the dwelling unit terminal , Characterized in that the address of the converter are connected via a first main line for transmitting a signal set to a default reception terminal address.

  According to the present invention, the converter distributes the signal based on the first address table, and performs a process of amplifying the signal to be output to the first trunk line and then transferring it to the same trunk line. Communication between connected dwelling unit terminals becomes possible.

  A third aspect of the present invention is that, in the second aspect, the dwelling unit terminal sets the transmission terminal address to the default reception terminal address if the source address and the transmission terminal address added to the received signal are different from each other. It is characterized by setting to.

  According to the present invention, since the dwelling unit terminal only needs to always transmit a signal to the same default receiving terminal address, dynamic processing is unnecessary, and communication processing can be simplified.

  According to a fourth aspect of the present invention, in the second or third aspect, the converter corresponds to the first port in the first address table in which the source address equivalent to the destination address of the signal received at the first port corresponds to the first port. If so, the received signal is transferred from the first port, and the source address equivalent to the destination address of the signal received at the first port corresponds to the second port in the first address table. If so, the received signal is transferred from the second port.

  According to the present invention, the converter performs packet filtering on the signal from the first trunk line based on the first address table, so communication between dwelling units connected to the same trunk line is different. Communication between dwelling unit terminals connected to the trunk line is possible.

  According to a fifth aspect of the present invention, in the converter according to any one of the second to fourth aspects, the source address having the same value as the destination address of the signal received at the second port is the first port in the first address table. , The received signal is transferred from the first port, and the source address equivalent to the destination address of the signal received at the second port corresponds to the second port in the first address table. If so, the received signal is discarded.

  According to the present invention, when the destination address of the signal received from the second trunk line is associated with the second trunk side, the converter discards the signal, so that the second trunk side The amount of communication traffic from the first to the first main line side can be suppressed.

  According to a sixth aspect of the present invention, in the transmitter according to any one of the second to fifth aspects, the converter has a source address having the same value as the destination address of the signal received at the first port and the second port in the first address table. If neither the first port nor the second port is supported, the received signal is discarded.

  According to this invention, when the destination address of the received signal is not registered in the first address table, the converter discards the signal, so that unnecessary signals can be reduced and communication traffic volume can be suppressed. It becomes possible.

  The invention of claim 7 is the third port connected to the first trunk line connected to the first trunk line and connected to the first trunk line on the side closer to the converter, the side farther from the converter. And a connection unit for amplifying a signal passing between the third and fourth ports, wherein the connection unit includes a source address of the received signal and a transmission terminal. A second address table in which an address is associated with one of the third and fourth ports of the connector is created.

  According to the present invention, even when a connector is provided to extend the communication distance on the first trunk line, communication between dwelling units connected to the same trunk line becomes possible.

  The invention according to claim 8 is the connector according to claim 7, wherein the connection unit has a source address equivalent to the destination address of the signal received at the third port corresponding to the third port in the second address table. If the received signal is discarded, and the source address equivalent to the destination address of the signal received at the third port corresponds to the fourth port in the second address table, the received signal is If the source address that is the same as the destination address of the signal transferred from the fourth port and received at the fourth port corresponds to the third port in the second address table, the received signal is transferred to the third port. If the source address that is the same as the destination address of the signal received from the fourth port and received at the fourth port corresponds to the fourth port in the second address table, the received signal is Characterized by transferring the fourth port.

  According to this invention, since the connector performs packet filtering on the signal on the first trunk line based on the second address table, communication traffic can be suppressed.

  The ninth aspect of the present invention provides the connector according to the seventh aspect, wherein the connection source has a source address equivalent to the destination address of the signal received at the third port corresponding to the third port in the second address table. If the received signal is transferred from the third port, and the source address equivalent to the destination address of the signal received at the third port corresponds to the fourth port in the second address table When the received signal is transferred from the fourth port and the source address equivalent to the destination address of the signal received at the fourth port corresponds to the third port in the second address table, the received signal is received. If the source address having the same value as the destination address of the signal received at the fourth port corresponds to the fourth port in the second address table Characterized in that it transfers the received signal from the fourth port.

  According to the present invention, since the processing on the third port side and the processing on the fourth port side are the same for the connector, there is no need to pay attention to the connection direction of the connector during construction. Simplification can be achieved.

  A tenth aspect of the present invention is that, in any one of the seventh to ninth aspects, the connector has a second source address having a source address equivalent to the destination address of the signal received at the third port and the fourth port. If neither the third port nor the fourth port is supported, the received signal is discarded.

  According to the present invention, when the destination address of the received signal is not registered in the second address table, the connector discards the signal, thereby reducing unnecessary signals and reducing the amount of communication traffic. It becomes possible.

  As described above, the present invention has an effect of enabling communication between dwelling units connected to the same trunk line.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 shows the configuration of an intercom system for an apartment house according to the present embodiment. Such an intercom system for an apartment house has a lobby intercom device 1 installed in a lobby (common entrance) of the apartment house, A dwelling unit terminal 2 is installed in each dwelling unit, and a door phone sub-unit 3 is installed at the entrance of each dwelling unit. A visitor at the lobby entrance can call the dwelling unit terminal 2 in the desired dwelling unit by using the lobby intercom device 1 to make a call with a householder in the dwelling unit. 3 can call the dwelling unit terminal 2 in the dwelling unit and make a call with the dweller in the dwelling unit. Further, the lobby intercom device 1 and the dwelling unit terminal 2 are provided with a camera in the lobby intercom device 1 and a monitor screen in the dwelling unit terminal 2 as well as voice input / output means such as a microphone and a speaker. Image input / output means for displaying an image of a visitor at the entrance on the monitor screen of the dwelling unit terminal 2 is provided. At this time, voice and image data exchanged between the lobby intercom device 1 and the dwelling unit terminal 2 are packetized and transmitted through digital compression and modulation processing.

  A communication packet transmitted from the lobby intercom apparatus 1 is first transmitted through the main trunk line L1 and then transmitted to the higher-speed backbone trunk line L2 via the transmission media converter 4. A plurality of transmission media converters 4 are connected to the backbone trunk line L2, and the communication packet is assigned to which of the transmission media converters 4 should reach the dwelling unit terminal 2 according to each destination. The communication packet is transmitted again to the main line L1 via the transmission media converter 4 distributed according to the destination. And the branching device 5 which branches the high impedance so as not to lower the impedance of the main line L1 is inserted on the main line L1, and the separate line L3 is wired from the branching device 5 to the dwelling unit terminal 2 of each dwelling unit. The communication packet on the main line L1 is transmitted from the branching unit 5 to the dwelling unit separate line L3 and reaches the dwelling unit terminal 2.

  The communication packet transmitted from the dwelling unit 2 is transmitted from the dwelling unit separate line L3 via the branching unit 5 to the main trunk line L1, and then transmitted to the backbone trunk line L2 via the transmission media converter 4, and again converted to transmission media. The device 4 travels along the main line L1 and reaches the lobby intercom apparatus 1. A terminator 6 is connected to the end of the main line L1.

  The communication protocol on the main trunk line L1 is a unique transmission method. The communication packet on the main trunk line L1 includes a source address SA (Source Address), a transmission terminal address TA (Transmitter Address), a reception terminal address RA (Receiver Address). ), A destination address DA (Destination Address). The communication protocol on the backbone trunk line L2 uses Ethernet (registered trademark), which is faster than the communication on the main trunk line L1, and the communication packet on the backbone trunk line L2 has a source address SA and a destination address DA. included.

  The source address SA is an address given to the dwelling unit 2 that first transmitted the communication packet, and the transmission terminal address TA is the dwelling unit 2 or transmission media converter that last transmitted the communication packet at the present time. 4, the receiving terminal address RA is the address given to the dwelling unit 2 or the transmission media converter 4 that receives the communication packet next, and the destination address DA is the address of the communication packet. This is the address assigned to the last-received dwelling unit 2.

  The transmission media converter 4 has a function of performing protocol conversion of communication packets between the two different communication protocols. When the communication packet is transmitted from the backbone trunk line L2 to the main trunk line L1, When each information of the transmission terminal address TA and the reception terminal address RA is added to the communication packet and the communication packet is transmitted from the main trunk line L1 to the backbone trunk line L2, each information of the transmission terminal address TA and the reception terminal address RA is It is deleted from the communication packet. Further, the conversion process is not performed on the source address SA and the destination address DA.

  Hereinafter, communication between the dwelling unit terminals 2 which is the gist of the present invention will be described. For example, when the dwelling unit terminal 2a communicates with the dwelling unit terminal 2b, the dwelling unit terminal 2a receives the source address SA [address of the dwelling unit terminal 2a], the sending terminal address TA [address of the dwelling unit terminal 2a], and the receiving terminal address RA [receiving] A communication packet in which the terminal default address] and the destination address DA [address of the dwelling unit terminal 2b] are set is transmitted.

  Here, the receiving terminal default address is an address given to the transmission media converter 4 connected to the main line L1 where each dwelling unit terminal 2a exists, and the transmission media converter seen from the main line L1 side. 4 self-addresses. The dwelling unit terminal 2a registers the transmission terminal address TA as the reception terminal default address when the transmission source address SA and the transmission terminal address TA set in the communication packet received so far are different from each other. In the packet transmission, unicast transmission to a specific dwelling unit terminal 2 becomes possible by setting the receiving terminal address RA [receiving terminal default address]. When the receiving terminal default address is not registered, it is possible to set only the receiving terminal address RA [FF] and the destination address DA [FF] and perform only broadcast transmission. That is, the receiving terminal default address is the address of the transmission media converter 4 set as the first transmission destination of the communication packet when each dwelling terminal 2 transmits the communication packet. Since it is only necessary to always transmit a communication packet addressed to the same receiving terminal default address, dynamic processing is not necessary, and communication processing can be simplified.

  As shown in FIG. 2, the transmission media converter 4 includes a port P21 connected to the main trunk line L1 and a port P20 connected to the backbone main line L2, and the transmission media converter 4 viewed from the main trunk L1 side. Self address is given. Then, the transmission media converter 4 receives communication packets whose receiving terminal address RA matches its own address among communication packets transmitted through the main trunk line L1, and receives all communication packets transmitted through the backbone trunk line L2. . When a communication packet is received, information on the source address SA, transmission terminal address TA, and reception port of the received communication packet is collected, and the source address SA, transmission terminal address TA, and port number are set as shown in FIG. They are stored in the bridge address table TB1 in association with each other, and the bridge address table TB1 is constructed. That is, the bridge address table TB1 includes the dwelling unit terminal 2 existing on the port P21 side (main trunk L1 side) of the port number [21] and the dwelling unit terminal existing on the port P20 side (backbone main line L2 side) of the port number [20]. 2 is recognizable, and is used for processing to distribute communication packets according to their destinations.

  FIG. 3 is a flowchart showing the operation of the transmission media converter 4 when receiving a communication packet from the dwelling unit terminal 2 on the main line L1 side. First, the communication packet from the dwelling unit terminal 2 on the main line L1 side is When the transmission media converter 4 receives via the port P21 (S1), it is determined whether or not the source address SA set in the received communication packet is registered in the bridge address table TB1 (S2). If the source address SA is registered in the bridge address table TB1, the port number of the port that actually received the communication packet is the port number corresponding to the source address SA of the communication packet in the bridge address table TB1. It is determined whether or not they are the same (S3), and if they are the same (that is, the port number of the port P21 on the main trunk L1 side) If [21]), data addition in the bridge address table TB1, without updating, the processing proceeds to step S6.

  In step S2, if the source address SA set in the received communication packet is not registered in the bridge address table TB1, the bridge address table TB1 together with the transmission terminal address TA and the port number corresponding to the source address SA. And data in the bridge address table TB1 is added (S4).

  In step S3, if the port number of the port that actually received the communication packet does not match the port number corresponding to the source address SA of the communication packet in the bridge address table TB1, the communication in the bridge address table TB1. The port number corresponding to the packet source address SA is updated to the port number of the port that actually received the communication packet (S5).

  After the above steps S3 to S5, it is determined based on the destination address DA of the received communication packet (S6). If it is unicast transmission, the destination address DA of the received communication packet is determined. Determines whether it matches any source address SA in the bridge address table TB1 (S7). If the destination address DA of the received communication packet matches any source address SA in the bridge address table TB1, then the port number corresponding to the source address SA in the bridge address table TB1 is determined. (S8).

  If the determination result of the port number is [20], the communication packet in which each information of the transmission terminal address TA and the reception terminal address RA is deleted and only the transmission source address SA and the destination address DA are set is set to the signal level. Is then transferred to the backbone trunk line L2 from the port P20 (S9), and the process is terminated.

  If the determination result of the port number is [21], the transmission terminal address TA corresponding to the source address SA in the bridge address table TB1 is set as the reception terminal address RA of the communication packet (S10), and further the transmission medium A communication packet in which the self address of the converter 4 is set to the transmission terminal address TA of the communication packet (the information of each of the source address SA and the destination address DA is not changed) is amplified to a predetermined signal level. Later, the packet is transferred from the port P21 to the main line L1 (S11), and the process is terminated.

  In step S6, if it is determined that the transmission is not unicast transmission but broadcast transmission based on the destination address DA of the received communication packet, the process proceeds to step S9, where the transmission terminal address TA and the reception terminal address RA are determined. The communication packet in which only the source address SA and the destination address DA are set is transferred from the port P20 to the backbone trunk line L2, and the process ends.

  In step S7, if the destination address DA of the received communication packet does not match the source address SA in the bridge address table TB1, the received communication packet is discarded (S12), and the process ends.

  FIG. 4 shows the operation of the transmission media converter 4 when receiving a communication packet from the dwelling unit 2 on the backbone trunk L2 side (that is, a communication packet transmitted from another main trunk line L1 via the backbone trunk line L2). First, when the transmission media converter 4 receives a communication packet from the dwelling unit 2 on the backbone trunk L2 side via the port P20 (S21), the source address set in the received communication packet It is determined whether the SA is registered in the bridge address table TB1 (S22). If the source address SA is registered in the bridge address table TB1, the port number of the port that actually received the communication packet is determined. , The source address SA of the communication packet in the bridge address table TB1 If it is the same (that is, if it is the port number [20] of the port P20 on the backbone trunk L2 side), the data addition and update in the bridge address table TB1 are performed. Without proceeding to step S26.

  In step S22, if the source address SA set in the received communication packet is not registered in the bridge address table TB1, it is stored in the bridge address table TB1 together with the port number corresponding to the source address SA. Data in the address table TB1 is added (S24).

  In step S23, if the port number of the port that actually received the communication packet does not match the port number corresponding to the source address SA of the communication packet in the bridge address table TB1, the communication in the bridge address table TB1. The port number corresponding to the packet source address SA is updated to the port number of the port that actually received the communication packet (S25).

  After the above steps S23 to S25, it is determined whether or not unicast transmission is performed based on the destination address DA of the received communication packet (S26). If it is unicast transmission, the destination address DA of the received communication packet is determined. Determines whether it matches any source address SA in the bridge address table TB1 (S27). If the destination address DA of the received communication packet matches any source address SA in the bridge address table TB1, then the port number corresponding to the source address SA in the bridge address table TB1 is determined. (S28).

  If the determination result of the port number is [21], the transmission terminal address TA corresponding to the source address SA in the bridge address table TB1 is set as the reception terminal address RA of the communication packet (S29), and further the transmission medium A communication packet in which the self address of the converter 4 is set to the transmission terminal address TA of the communication packet (the information of each of the source address SA and the destination address DA is not changed) is amplified to a predetermined signal level. Later, the packet is transferred from the port P21 to the main line L1 (S30), and the process is terminated.

  If it is determined in step S26 that the transmission is broadcast, if the destination address DA of the communication packet received in step S27 does not match the source address SA in the bridge address table TB1, the port number is determined in step S28. If the determination result is [20], the received communication packet is discarded (S31), and the process ends.

  In this way, the transmission media converter 4 performs packet filtering on communication packets from the main trunk line L1 based on the bridge address table TB1, and therefore, between the dwelling unit terminals 2 connected to the same main trunk line L1. Communication and communication between the dwelling unit terminals 2 connected to different main trunk lines L1 are possible. Also, the transmission media converter 4 discards the communication packet when the destination address DA of the communication packet received from the backbone trunk L2 is associated with the backbone trunk L2 side. The amount of communication traffic to the main line L1 can be suppressed. Further, when the destination address DA of the received communication packet is not registered in the bridge address table TB1, the communication packet is discarded, so that unnecessary communication packets can be reduced and the communication traffic volume can be further suppressed.

  Next, the specific sequence when the dwelling unit terminal 2 performs communication via the transmission media converter 4 is shown in FIGS. FIG. 5 shows a sequence when the bridge address table TB1 is constructed. The self-address of the transmission media converter 4 for which the bridge address table TB1 is not yet constructed is [1], and the port number of the port P21 is [21. ], The port number of the port P20 is [20], and the address of the dwelling unit 2 that transmits the communication packet is [5].

  Here, the dwelling unit terminal 2 needs to set a receiving terminal default address to the receiving terminal address RA, when performing unicast communication. However, since the receiving terminal default address is not set in the initial state, only broadcast communication can be performed. At the time of broadcast communication, the receiving terminal address RA [FF] and the destination address DA [FF] are set.

  Then, when the dwelling unit terminal 2 broadcasts a communication packet in which the transmission source address SA [5], the transmission terminal address TA [5], the reception terminal address RA [FF], and the destination address DA [FF] are set (S41). The transmission media converter 4 that has received this communication packet via the port P21 associates the source address SA [5], the transmission terminal address TA [5], and the port number [21] with each other in the bridge address table TB1. Store. That is, it becomes possible to recognize that the dwelling unit 2 assigned the address [5] exists on the port P21 side (main trunk line L1 side) of the port number [21].

  Further, the transmission media converter 4 sets only the source address SA [5] and the destination address DA [FF] in the communication packet received from the dwelling unit terminal 2 on the main trunk line L1, and the backbone trunk line from the port P20. Broadcast transmission to L2 (S42). Then, as a reply to the broadcast transmission to the backbone trunk line L2, from the dwelling unit terminal 2 which is present on another main trunk line L1 via the backbone trunk line L2 and given the address [10], the source address SA [10], When a communication packet in which only the destination address DA [5] is set is transmitted by unicast (S43), the transmission media converter 4 that has received this communication packet via the port P20 sends it in the bridge address table TB1. The original address SA [10] and the port number [20] are stored in association with each other. That is, it becomes possible to recognize that the dwelling unit 2 assigned with the address [10] exists on the port P20 side (backbone trunk line L2 side) of the port number [20].

  The transmission media converter 4 adds the source address SA [10], the transmission terminal address TA [1], the reception terminal address RA [5], and the destination to the communication packet received from the dwelling unit terminal 2 on the backbone trunk L2 side. Address DA [5] is set, the signal level of this communication packet is amplified to a predetermined level, and then unicast transmission is performed from port P21 (S44).

  In the dwelling unit 2 on the main trunk line L1 side that has received the communication packet from the transmission media converter 4, the source address SA [10] and the transmission terminal address TA [1] set in the communication packet are different from each other. Therefore, this transmission terminal address TA [1] is registered in the reception terminal default address. That is, the dwelling unit 2 on the main line L1 side sets the receiving terminal address RA to the address [1] at the time of subsequent transmission of the communication packet.

  FIG. 6 shows a sequence when the dwelling unit terminals 2a and 2b on the same main line L1 communicate with each other. The dwelling unit terminal 2a is assigned the address [5], and the dwelling unit terminal 2b is assigned the address [6]. Both the dwelling unit terminals 2a and 2b set the self address “1” of the transmission media converter 4 as the receiving terminal default address. Further, in the bridge address table TB1 of the transmission media converter 4, the address [5] of the dwelling unit terminal 2a and the address [6] of the dwelling unit terminal 2b are set as the source address SA and the transmission terminal address TA on the main line L1 side. Stored in correspondence with the port number [21].

  First, when the dwelling unit terminal 2a unicasts a communication packet in which the source address SA [5], the transmission terminal address TA [5], the reception terminal address RA [1], and the destination address DA [6] are set (S51) The transmission media converter 4 that has received this communication packet via the port P21 refers to the bridge address table TB1, and the destination address DA [6] of the received communication packet is one of the addresses in the bridge address table TB1. It is determined whether or not the source address SA matches. In this case, the destination address DA [6] of the received communication packet matches the source address SA [6] in the bridge address table TB1, and the source address SA [6] in the bridge address table TB1 is set. The corresponding transmission terminal address TA [6] is set to the reception terminal address RA of the communication packet, and the self-address [1] of the transmission media converter 4a is set to the transmission terminal address TA of the communication packet (send packet The source address SA [5], the transmission terminal address TA [1], the reception terminal address RA [6], and the destination address DA [6]) are amplified from the port P21 to the main line after the signal level is amplified to a predetermined level. The packet is transferred to L1 (S52). The dwelling unit 2b given the address [6] receives this communication packet in which the receiving terminal address RA [6] is set.

  When the communication packet transmitted from the dwelling unit terminal 2a to the dwelling unit separate line L3 as described above is transmitted to the main trunk line L1 via the branching unit 5, a loss occurs in the branching unit 5 and the signal level decreases. . However, when transmitting the communication packet, the transmission media converter 4 amplifies the signal level of the communication packet to a predetermined level and transfers it, and the communication media converter 4 outputs the communication packet output to the main line L1. The signal level of the packet is restored to the original level. Then, after the communication packet is output from the transmission media converter 4 to the main line L1, it is transmitted from the main line L1 to the dwelling unit separate line L3 to which the dwelling unit terminal 2b is connected via the branching unit 5. Although the signal level lowers again due to the loss in the branching device 5 that passes through the branch, the signal level is only reduced by the single branching device 5. Therefore, during communication between the dwelling unit terminals 2, a signal level drop by the two branching devices 5 has conventionally occurred, but in this embodiment, the signal level drop by the one branching device 5 is suppressed. The signal level necessary for communication between the dwelling unit terminals 2 can be ensured, and communication between the dwelling unit terminals 2 becomes possible.

  In this way, the transmission media converter 4 distributes communication packets based on the address table TB1, and performs a process of amplifying the signal output to the main line L1, and then transfers the same main line L1. Communication between the dwelling unit terminals 2 connected to each other becomes possible.

  FIG. 7 shows a sequence when the dwelling unit terminals 2a and 2c on different main trunk lines L1 communicate with each other. The dwelling unit terminal 2a is assigned the address [5], and the dwelling unit terminal 2c is assigned the address [7]. The dwelling unit terminal 2a sets the self address “1” of the transmission media converter 4a as the receiving terminal default address, and the dwelling unit terminal 2c sets the self address “2” of the transmission media converter 4c as the receiving terminal default address. Yes. Further, in the bridge address table TB1a of the transmission media converter 4a, the address [5] of the dwelling unit terminal 2a corresponds to the port number [21] on the main line L1 side as the source address SA and the transmission terminal address TA. The address [7] of the dwelling unit terminal 2c is stored corresponding to the port number [20] on the backbone trunk L2 side as the source address SA. Further, in the bridge address table TB1c of the transmission media converter 4c, the address [7] of the dwelling unit terminal 2c corresponds to the port number [21] on the main line L1 side as the source address SA and the transmission terminal address TA. Although stored, information on the dwelling unit terminal 2a is not yet stored.

  First, when the dwelling unit terminal 2a unicasts a communication packet in which the source address SA [5], the transmission terminal address TA [5], the reception terminal address RA [1], and the destination address DA [7] are set (S61) The transmission media converter 4a that has received this communication packet via the port P21 refers to the bridge address table TB1a, and the destination address DA [7] of the received communication packet is any of the bridge address table TB1a. It is determined whether or not the source address SA matches. In this case, the destination address DA [7] of the received communication packet matches the source address SA [7] in the bridge address table TB1a, and the transmission terminal address TA and the reception terminal address RA are received from the received communication packet. The communication packet in which only the source address SA [5] and the destination address DA [7] are set is amplified to a predetermined level and then the port P20 is connected to the backbone trunk line L2. The packet is transferred (S62).

  The transmission media converter 4c that has received the communication packet transmitted to the backbone trunk line L2 via the port P20 refers to the bridge address table TB1c, and the destination address DA [7] of the received communication packet is the bridge address table. It is determined whether or not it matches any source address SA in TB1c. In this case, the destination address DA [7] of the received communication packet matches the source address SA [7] in the bridge address table TB1c, and the source address SA [7] in the bridge address table TB1c The corresponding transmission terminal address TA [7] is set to the reception terminal address RA of the communication packet, and the self-address [2] of the transmission media converter 4c is set to the transmission terminal address TA of the communication packet (send packet The source address SA [5], the transmission terminal address TA [2], the reception terminal address RA [7], and the destination address DA [7]) are amplified from the port P21 to the main line after the signal level is amplified to a predetermined level. The packet is transferred to L1 (S63). The dwelling unit 2c given the address [7] receives this communication packet in which the receiving terminal address RA [7] is set.

  In addition, the transmission media converter 4c does not register the source address SA [5] set in the received communication packet in the bridge address table TB1c, so the port number corresponding to the source address SA [5] [ 20] in the bridge address table TB1c, and data in the bridge address table TB1c is added.

  Next, when the dwelling unit terminal 2c unicasts the communication packet in which the transmission source address SA [7], the transmission terminal address TA [7], the reception terminal address RA [2], and the destination address DA [5] are set ( S64) The transmission media converter 4c that has received this communication packet via the port P21 refers to the bridge address table TB1c, and the destination address DA [5] of the received communication packet is stored in the bridge address table TB1c. It is determined whether or not it matches any of the source addresses SA. In this case, the destination address DA [5] of the received communication packet matches the source address SA [5] in the bridge address table TB1c, and the transmission terminal address TA and the reception terminal address RA are received from the received communication packet. The communication packet in which only the source address SA [7] and the destination address DA [5] are set is amplified to a predetermined level and then the port P20 is connected to the backbone trunk line L2. The packet is transferred (S65).

  The transmission media converter 4a that has received the communication packet transmitted to the backbone trunk line L2 via the port P20 refers to the bridge address table TB1a and the destination address DA [5] of the received communication packet is the bridge address table. It is determined whether or not it matches any source address SA in TB1a. In this case, the destination address DA [5] of the received communication packet matches the source address SA [5] in the bridge address table TB1a, and the source address SA [5] in the bridge address table TB1a The corresponding transmission terminal address TA [5] is set to the reception terminal address RA of the communication packet, and the self address [1] of the transmission media converter 4a is set to the transmission terminal address TA of the communication packet (send packet The original address SA [7], the transmission terminal address TA [1], the reception terminal address RA [5], the destination address DA [5]) are amplified from the port P21 to the main line after the signal level is amplified to a predetermined level. The packet is transferred to L1 (S66). The dwelling unit 2c assigned the address [5] receives this communication packet in which the receiving terminal address RA [5] is set.

  As described above, when each communication packet transmitted from the dwelling unit terminals 2a and 2c to the dwelling unit separate line L3 is transmitted to the main trunk line L1 via the branching unit 5, a loss occurs in the branching unit 5 and the signal level Decreases. However, the transmission media converters 4a and 4c transfer the communication packet after amplifying the signal level of the communication packet to a predetermined level, and the transmission media converters 4a and 4c transfer the communication packet from the main line L1 or the transmission line. The signal level of the communication packet output to the backbone trunk line L2 is restored to the original level. Then, after the communication packet is output from the transmission media converter 4 to the main line L1, the communication packet is transmitted from the main line L1 via the branching unit 5 to the unit-by-unit line L3 to which the communication destination unit 2 is connected. At this time, the signal level is lowered again due to the loss in the branching device 5 that passes through the branching device. Therefore, even during communication between the dwelling unit terminals 2 via the backbone trunk line L2, the signal level is lowered by the two branching devices 5 in the past, but in the present embodiment, the single branching device 5 is used. The signal level is suppressed to be lowered, the signal level necessary for communication between the dwelling units 2 can be secured, and communication between the dwelling units 2 via the backbone trunk line L2 becomes possible.

(Embodiment 2)
FIG. 8 shows the configuration of the intercom system for collective housing of the present embodiment. Unlike the first embodiment, the transmission media connector 7 is different from the first embodiment in that the transmission media connector 7 is provided on the main trunk L1. Provided to compensate for signal loss due to long distance transmission on L1, the communication packet is relayed and amplified by the transmission media connector 7. In addition, the same code | symbol is attached | subjected to the structure similar to Embodiment 1, and description is abbreviate | omitted.

  Hereinafter, communication between the dwelling unit terminals 2 which is the gist of the present invention will be described.

  First, as shown in FIG. 9, the transmission media connector 7 has a port P22 connected to the main line L1a on the side closer to the transmission media converter 4, and a port connected to the main line L1b on the side far from the transmission media converter 4. P23 is provided, and two self-addresses are given: a self-address of the transmission media connector 7 viewed from the main line L1a side, and a self-address of the transmission media connector 7 viewed from the main line L1b side. Then, the transmission media connector 7 receives a communication packet in which the receiving terminal address RA matches the self address seen from the main line L1a among the communication packets transmitted through the main line L1a, and transmits the main packet L1b. Of the communication packets to be received, the communication packet whose receiving terminal address RA matches the self address seen from the main line L1b side is received. When a communication packet is received, information on the source address SA, transmission terminal address TA, and reception port of the received communication packet is collected, and as shown in FIG. 9, the source address SA, transmission terminal address TA, and port number are set. They are stored in the bridge address table TB2 in association with each other, and the bridge address table TB2 is constructed. That is, the bridge address table TB2 is the dwelling unit terminal 2 existing on the port P22 side (main trunk line L1a side) of the port number [22], and the dwelling unit terminal existing on the port P23 side (main trunk line L1b side) of the port number [23]. 2 is recognizable.

  FIG. 10 is a flowchart showing the operation of the transmission media connector 7 when a communication packet is received from the main line L1a-side dwelling unit terminal 2. First, the communication packet from the main line L1a-side dwelling unit 2 is When the transmission media connector 7 receives via the port P22 (S71), it is determined whether or not the source address SA set in the received communication packet is registered in the bridge address table TB2 (S72). If the source address SA is registered in the bridge address table TB2, the port number of the port that actually received the communication packet is the port number corresponding to the source address SA of the communication packet in the bridge address table TB2. It is determined whether or not they are the same (S73). If they are the same (that is, the port P on the main line L1a side) If the second port number [22]), data addition in the bridge address table TB2, without updating, the processing proceeds to step S76.

  In step S72, if the source address SA set in the received communication packet is not registered in the bridge address table TB2, the bridge address table TB2 together with the transmission terminal address TA and the port number corresponding to the source address SA. And data in the bridge address table TB2 is added (S74).

  In step S73, if the port number of the port that actually received the communication packet does not match the port number corresponding to the source address SA of the communication packet in the bridge address table TB2, the communication in the bridge address table TB2 The port number corresponding to the packet source address SA is updated to the port number of the port that actually received the communication packet (S75).

  After the steps S73 to S75, it is determined whether or not unicast transmission is performed based on the destination address DA of the received communication packet (S76). If it is unicast transmission, the destination address DA of the received communication packet is determined. Determines whether it matches any source address SA in the bridge address table TB2 (S77). If the destination address DA of the received communication packet matches any source address SA in the bridge address table TB2, the transmission terminal address TA corresponding to the source address SA in the bridge address table TB2 is communicated. The packet receiving terminal address RA is set (S78), and then the port number corresponding to the source address SA in the bridge address table TB2 is determined (S79).

  If the determination result of the port number is [23], the communication packet (source address SA, destination address) set to the transmission terminal address TA of the communication packet is the self address seen from the main line L1b side of the transmission media connector 7 After the signal level is amplified to a predetermined level, the packet is transferred from the port P23 to the main line L1b (S80), and the process ends.

  If the destination address DA of the communication packet received in step S77 does not match the source address SA in the bridge address table TB2, if the port number determination result is [22] in step S79, the received communication The packet is discarded (S82), and the process ends.

  If it is not unicast transmission in step S76, the destination address DA of the received communication packet is set to the receiving terminal address RA of the communication packet (S81), and the process proceeds to step S80.

  FIG. 11 is a flowchart showing the operation of the transmission media connector 7 when a communication packet is received from the main line L1b side dwelling unit terminal 2. First, the communication packet from the main line L1b side dwelling unit terminal 2 is When the transmission media connector 7 receives via the port P23 (S91), it is determined whether or not the source address SA set in the received communication packet is registered in the bridge address table TB2 (S92). If the source address SA is registered in the bridge address table TB2, the port number of the port that actually received the communication packet is the port number corresponding to the source address SA of the communication packet in the bridge address table TB2. It is determined whether or not they are the same (S93). If they are the same (that is, the port P on the main line L1b side) If third port number [23]), data addition in the bridge address table TB2, without updating, the processing proceeds to step S96.

  In step S92, if the source address SA set in the received communication packet is not registered in the bridge address table TB2, the bridge address table TB2 together with the transmission terminal address TA and the port number corresponding to the source address SA. And data in the bridge address table TB2 is added (S94).

  In step S93, if the port number of the port that actually received the communication packet does not match the port number corresponding to the source address SA of the communication packet in the bridge address table TB2, the communication in the bridge address table TB2 The port number corresponding to the packet source address SA is updated to the port number of the port that actually received the communication packet (S95).

  After the above steps S93 to S95, it is determined whether or not unicast transmission is performed based on the destination address DA of the received communication packet (S96). If it is unicast transmission, the destination address DA of the received communication packet is determined. Determines whether it matches any source address SA in the bridge address table TB2 (S97). If the destination address DA of the received communication packet matches any source address SA in the bridge address table TB2, the transmission terminal address TA corresponding to the source address SA in the bridge address table TB2 is communicated. The packet receiving terminal address RA is set (S98), and then the port number corresponding to the source address SA in the bridge address table TB2 is determined (S99).

  If the determination result of the port number is [22], the communication packet (source address SA, destination) with the self address seen from the main line L1a side of the transmission media connector 7 set as the transmission terminal address TA of the communication packet. After the signal level is amplified to a predetermined level, the packet is transferred from the port P22 to the main line L1a (S100), and the process is terminated.

  If the determination result of the port number is [23], the communication packet (source address SA, destination address) set to the transmission terminal address TA of the communication packet is the self address seen from the main line L1b side of the transmission media connector 7 After the signal level is amplified to a predetermined level, the packet is transferred from the port P23 to the main line L1b (S101), and the process is terminated.

  If the destination address DA of the communication packet received in step S97 does not match the source address SA in the bridge address table TB2, the received communication packet is discarded (S103), and the process ends.

  If it is not unicast transmission in step S96, the destination address DA of the received communication packet is set to the receiving terminal address RA of the communication packet (S102), and the process proceeds to step S100.

  As described above, the transmission media connector 7 performs packet filtering on the communication packet on the main line L1 based on the bridge address table TB2, and transmits the packet to extend the communication distance on the main line L1. Even when the media connector 7 is provided, communication between the dwelling units 2 connected to the same main line L1 becomes possible and communication traffic can be suppressed. Further, when the destination address of the received communication packet is not registered in the bridge address table TB2, the transmission media connector 7 discards the communication packet, thereby reducing unnecessary communication packets and further increasing the amount of communication traffic. Suppression is possible.

  Next, a specific sequence when the dwelling unit terminal 2 performs communication via the transmission media connector 7 is shown in FIGS. FIG. 12 shows a sequence for constructing the bridge address table TB1 of the transmission media converter 4 and the bridge address table TB2 of the transmission media connector 7, and the transmission media converter for which the bridge address table TB1 has not been constructed yet. 4 is [1], the port number of the port P21 is [21], the port number of the port P20 is [20], and the main line L1a of the transmission media connector 7 for which the bridge address table TB2 is not yet constructed. The main line that transmits the communication packet with the self address as viewed from [2], the self address as viewed from the main line L1b as [3], the port number of the port P22 as [22], and the port number of the port P23 as [23] The address of the dwelling unit terminal 2 on L1b is [5].

  Here, the dwelling unit terminal 2 exists on the main line L1b far from the transmission media converter 4, and when performing unicast communication, it is necessary to set the receiving terminal default address to the receiving terminal address RA. is there. However, since the receiving terminal default address is not set in the initial state, only broadcast communication can be performed. At the time of broadcast communication, the receiving terminal address RA [FF] and the destination address DA [FF] are set.

  Then, when the dwelling unit terminal 2 broadcasts and transmits a communication packet in which the source address SA [5], the transmission terminal address TA [5], the reception terminal address RA [FF], and the destination address DA [FF] are set (S101). The transmission media connector 7 that has received this communication packet via the port P23 associates the source address SA [5], the transmission terminal address TA [5], and the port number [23] with each other in the bridge address table TB2. Store. That is, it becomes possible to recognize that the dwelling unit 2 to which the address [5] is assigned exists on the port P23 side (main trunk line L1b side) of the port number [23].

  Further, the transmission media connector 7 sets the self address [2] viewed from the main line L1a to the transmission terminal address TA of the communication packet received from the dwelling unit 2 on the main line L1b side, and sets the signal level to a predetermined level. After amplification to the level, broadcast transmission is performed from the port P22 to the main trunk line L1a (S102).

  The transmission media converter 4 that has received this communication packet via the port P21 corresponds to the source address SA [5], the transmission terminal address TA [2], and the port number [21] in the bridge address table TB1. Store with attachments. That is, it becomes possible to recognize that the dwelling unit 2 to which the address [5] is assigned exists on the port P21 side (main trunk line L1a side) of the port number [21].

  Further, the transmission media connector 4 sets only the source address SA [5] and the destination address DA [FF] in the communication packet received from the transmission media connector 7 on the main trunk L1a side, and the signal level thereof is set. Is broadcasted from the port P20 to the backbone trunk line L2 (S103).

  Then, as a reply to the broadcast transmission to the backbone trunk line L2, from the dwelling unit terminal 2 which is present on another main trunk line L1 via the backbone trunk line L2 and given the address [10], the source address SA [10], When a communication packet in which only the destination address DA [5] is set is transmitted by unicast (S104), the transmission media converter 4 that has received this communication packet via the port P20 sends it in the bridge address table TB1. The original address SA [10] and the port number [20] are stored in association with each other. That is, it becomes possible to recognize that the dwelling unit 2 assigned with the address [10] exists on the port P20 side (backbone trunk line L2 side) of the port number [20].

  Next, the transmission media converter 4 sends the communication packet received from the dwelling unit 2 on the backbone trunk L2 side to the source address SA [10], the transmission terminal address TA [1], the reception terminal address RA [2]. The destination address DA [5] is set, the signal level of this communication packet is amplified to a predetermined level, and then unicast transmission is performed from the port P21 (S105).

  The transmission media connector 7 that has received the communication packet from the transmission media converter 4 via the port P22 has the source address SA [10], the transmission terminal address TA [1], the port number [22] in the bridge address table TB2. ] Are stored in association with each other. That is, it becomes possible to recognize that the dwelling unit 2 to which the address [10] is assigned exists on the port P22 side (main trunk line L1a side) of the port number [22].

  Next, the transmission media connector 7 adds the source address SA [10], the transmission terminal address TA [3], and the reception terminal address RA [5] to the communication packet received from the transmission media converter 4 on the main line L1a side. The destination address DA [5] is set, the signal level of this communication packet is amplified to a predetermined level, and then unicast transmission is performed from the port P23 (S106).

  In the dwelling unit 2 on the main trunk line L1b that has received the communication packet from the transmission media connector 7, the source address SA [10] and the transmission terminal address TA [3] set in the communication packet are different from each other. Therefore, this transmission terminal address TA [3] is registered in the reception terminal default address. That is, the dwelling unit 2 on the main trunk line L1b sets the receiving terminal address RA to the address [3] at the time of transmission of subsequent communication packets.

  FIG. 13 shows a sequence in a case where the dwelling unit terminals 2a and 2b on the same main line L1b communicate with each other. The dwelling unit terminal 2a is assigned the address [5] and the dwelling unit terminal 2b is assigned the address [6]. Both the dwelling unit terminals 2a and 2b set the self address “3” as viewed from the main line L1b of the transmission media connector 7 as the receiving terminal default address. Further, in the bridge address table TB1 of the transmission media converter 4, the address [5] of the dwelling unit terminal 2a and the self address [2] viewed from the main line L1a of the transmission media connector 7 are the source address SA and the transmission terminal. The address TA is stored corresponding to the port number [21] on the main trunk L1a side. Further, the bridge address table TB2 of the transmission media connector 7 includes the address [5] of the dwelling unit terminal 2a and the address [6] of the dwelling unit terminal 2b as the source address SA and the transmission terminal address TA on the main line L1b side. Stored in correspondence with the port number [23].

  First, when the dwelling unit terminal 2a unicasts a communication packet in which the source address SA [5], the transmission terminal address TA [5], the reception terminal address RA [3], and the destination address DA [6] are set (S111) The transmission media connector 7 that has received this communication packet via the port P23 refers to the bridge address table TB2, and the destination address DA [6] of the received communication packet is one of the addresses in the bridge address table TB2. It is determined whether or not the source address SA matches. In this case, the destination address DA [6] of the received communication packet matches the source address SA [6] in the bridge address table TB2, and the source address SA [6] in the bridge address table TB2 is set. The corresponding transmission terminal address TA [6] is set to the reception terminal address RA of the communication packet, and the self address [3] viewed from the main line L1b of the transmission media connector 7 is set to the transmission terminal address TA of the communication packet. The signal level of the set communication packet (source address SA [5], transmission terminal address TA [3], reception terminal address RA [6], destination address DA [6]) is amplified to a predetermined level. Later, the packet is transferred from the port P23 to the main line L1b (S112). The dwelling unit 2b given the address [6] receives this communication packet in which the receiving terminal address RA [6] is set.

  When the communication packet transmitted from the dwelling unit terminal 2a to the dwelling unit separate line L3 as described above is transmitted to the main trunk line L1b via the branching unit 5, a loss occurs in the branching unit 5 and the signal level decreases. . However, when transmitting the communication packet, the transmission media connector 7 transfers the communication packet after amplifying the signal level of the communication packet to a predetermined level, and the communication media output from the transmission media connector 7 to the main line L1b. The signal level of the packet is restored to the original level. The communication packet is output from the transmission media connector 7 to the main line L1b, and then transmitted from the main line L1b to the dwelling unit separate line L3 connected to the communication destination dwelling terminal 2b via the branching unit 5. At this time, the signal level is lowered again due to the loss in the branching device 5 that passes through the branching device. Therefore, during communication between the dwelling unit terminals 2, a signal level drop by the two branching devices 5 has conventionally occurred, but in this embodiment, the signal level drop by the one branching device 5 is suppressed. The signal level necessary for communication between the dwelling unit terminals 2 can be ensured, and communication between the dwelling unit terminals 2 becomes possible.

  FIG. 14 shows a sequence when a packet is transmitted from the dwelling unit terminal 2a on the main line L1b to the dwelling unit terminal 2c on the main line L1a. The dwelling unit terminal 2a has an address [5], and the dwelling unit terminal 2c has an address [6]. And the dwelling unit terminal 2a sets the self-address “3” seen from the main line 1b of the transmission media connector 7 as the receiving terminal default address, and the dwelling unit terminal 2c sets the transmission media conversion as the receiving terminal default address. The self address “1” of the device 4 is set. Further, in the bridge address table TB1 of the transmission media converter 4, the address [5] of the dwelling unit terminal 2a and the self address [2] viewed from the main line L1a of the transmission media connector 7 are the source address SA and the transmission terminal. The address TA is stored corresponding to the port number [21] on the main line L1a side, and the address [6] of the dwelling unit terminal 2c is used as the source address SA and the transmission terminal address TA on the main line L1a side port number [21]. 21]. Further, in the bridge address table TB2 of the transmission media connector 7, the address [5] of the dwelling unit terminal 2a corresponds to the port number [23] on the main line L1b side as the source address SA and the transmission terminal address TA. The address [6] of the dwelling unit terminal 2c and the self address [1] of the transmission media converter 4 correspond to the port number [22] on the main line L1a side as the source address SA and the transmission terminal address TA. Stored.

  First, when the dwelling unit terminal 2a unicasts a communication packet in which the source address SA [5], the transmission terminal address TA [5], the reception terminal address RA [3], and the destination address DA [6] are set (S121). The transmission media connector 7 that has received this communication packet via the port P23 refers to the bridge address table TB2, and the destination address DA [6] of the received communication packet is one of the addresses in the bridge address table TB2. It is determined whether or not the source address SA matches. In this case, the destination address DA [6] of the received communication packet matches the source address SA [6] in the bridge address table TB2, and the source address SA [6] in the bridge address table TB2 is set. The corresponding transmission terminal address TA [1] is set to the reception terminal address RA of the communication packet, and the self address [2] viewed from the main line L1a of the transmission media connector 7 is set to the transmission terminal address TA of the communication packet. The signal level of the set communication packet (source address SA [5], transmission terminal address TA [2], reception terminal address RA [1], destination address DA [6]) is amplified to a predetermined level. Later, the packet is transferred from the port P22 to the main trunk line L1a (S122).

  The transmission media converter 4 to which the address [1] is assigned receives this communication packet in which the receiving terminal address RA [1] is set via the port P21. Then, the transmission media converter 4 refers to the bridge address table TB1 and determines whether the destination address DA [6] of the received communication packet matches any source address SA in the bridge address table TB1. Determine whether. In this case, the destination address DA [6] of the received communication packet matches the source address SA [6] in the bridge address table TB1, and the source address SA [6] in the bridge address table TB1 is set. The corresponding transmission terminal address TA [6] is set to the reception terminal address RA of the communication packet, and the self address [1] of the transmission media converter 4 is set to the transmission terminal address TA of the communication packet (send packet The source address SA [5], the transmission terminal address TA [1], the reception terminal address RA [6], and the destination address DA [6]) are amplified from the port P21 to the main line after the signal level is amplified to a predetermined level. The packet is transferred to L1a (S123). The dwelling unit 2c assigned the address [6] receives this communication packet in which the receiving terminal address RA [6] is set.

  When the communication packet transmitted from the dwelling unit terminal 2a to the dwelling unit separate line L3 as described above is transmitted to the main trunk line L1b via the branching unit 5, a loss occurs in the branching unit 5 and the signal level decreases. . However, the transmission media converter 4 and the transmission media connector 7 transfer the communication packet after amplifying the signal level of the communication packet to a predetermined level. The signal level of the communication packet output from the connector 7 is restored to the original level. The communication packet is output from the transmission media converter 4 to the main trunk line L1a, and then transmitted from the main trunk line L1a to the dwelling unit separate line L3 to which the communication unit dwelling terminal 2c is connected via the branching unit 5. At this time, the signal level is lowered again due to the loss in the branching device 5 that passes through the branching device. Therefore, even during communication between the dwelling unit terminals 2 via the transmission media converter 4 and the transmission media connector 7, the signal level is lowered by the two branching devices 5 in the past. It is suppressed to a signal level drop by one branching unit 5, can secure a signal level necessary for communication between the dwelling unit terminals 2, and between the dwelling unit terminals 2 via the transmission media converter 4 and the transmission media connector 7. Communication becomes possible.

  FIG. 15 shows a sequence when a packet is transmitted from the dwelling unit terminal 2c on the main trunk line L1a to the dwelling unit terminal 2a on the main trunk line L1b. First, the dwelling unit terminal 2c sends the source address SA [6] and the transmission terminal address. When a communication packet in which TA [6], receiving terminal address RA [1], and destination address DA [5] are set is unicast transmitted (S131), the transmission media converter 4 that has received the communication packet via the port P21. Determines whether the destination address DA [5] of the received communication packet matches any source address SA in the bridge address table TB1 with reference to the bridge address table TB1. In this case, the destination address DA [5] of the received communication packet matches the source address SA [5] in the bridge address table TB1, and the source address SA [5] in the bridge address table TB1 is set. The corresponding transmission terminal address TA [2] is set to the reception terminal address RA of the communication packet, and the self-address [1] of the transmission media converter 4 is set to the transmission terminal address TA of the communication packet (transmission The source address SA [6], the transmission terminal address TA [1], the reception terminal address RA [2], the destination address DA [5]) are amplified from the port P21 to the main line after the signal level is amplified to a predetermined level. The packet is transferred to L1a (S132).

  The transmission media connector 7 assigned with the self address [2] viewed from the main line L1a receives the communication packet in which the receiving terminal address RA [2] is set via the port P22. Then, the transmission media connector 7 refers to the bridge address table TB2, and determines whether the destination address DA [5] of the received communication packet matches any source address SA in the bridge address table TB2. Determine whether. In this case, the destination address DA [5] of the received communication packet matches the source address SA [5] in the bridge address table TB2, and the source address SA [5] in the bridge address table TB2 is set. The corresponding transmission terminal address TA [5] is set as the reception terminal address RA of the communication packet, and the self address [3] viewed from the main line L1b of the transmission media connector 7 is set as the transmission terminal address TA of the communication packet. The signal level of the set communication packet (source address SA [6], transmission terminal address TA [3], reception terminal address RA [5], destination address DA [5]) is amplified to a predetermined level. Later, the packet is transferred from the port P23 to the main line L1b (S133). The dwelling unit 2a to which the address [5] is assigned receives this communication packet in which the receiving terminal address RA [5] is set.

  When the communication packet transmitted from the dwelling unit terminal 2c to the dwelling unit separate line L3 as described above is transmitted to the main trunk line L1a via the branching unit 5, a loss occurs in the branching unit 5 and the signal level decreases. . However, the transmission media converter 4 and the transmission media connector 7 transfer the communication packet after amplifying the signal level of the communication packet to a predetermined level. The signal level of the communication packet output from the connector 7 is restored to the original level. The communication packet is output from the transmission media connector 7 to the main line L1b, and then transmitted from the main line L1b to the dwelling unit separate line L3 to which the communication destination dwelling unit 2a is connected via the branching unit 5. At this time, the signal level is lowered again due to the loss in the branching device 5 that passes through the branch. However, the signal level is lowered only by the single branching device 5. Therefore, even during communication between the dwelling unit terminals 2 via the transmission media converter 4 and the transmission media connector 7, the signal level is lowered by the two branching devices 5 in the past. It is suppressed to a signal level drop by one branching unit 5, can secure a signal level necessary for communication between the dwelling unit terminals 2, and between the dwelling unit terminals 2 via the transmission media converter 4 and the transmission media connector 7. Communication becomes possible.

(Embodiment 3)
The intercom system for apartment houses of the present embodiment has the same configuration as that of the second embodiment, but the operation when the transmission media connector 7 receives a communication packet from the dwelling unit terminal 2 on the main trunk L1a side is the same as that of the second embodiment. This is different from the operation (see FIG. 10).

  FIG. 16 shows an operation when the transmission media connector 7 receives a communication packet from the dwelling unit 2 on the main line L1a side in the present embodiment. Then, after steps S71 to S75 similar to those of the second embodiment, it is determined whether or not unicast transmission is performed based on the destination address DA of the received communication packet (S76). It is determined whether or not the destination address DA of the communication packet matches any source address SA in the bridge address table TB2 (S77). If the destination address DA of the received communication packet matches any source address SA in the bridge address table TB2, the transmission terminal address TA corresponding to the source address SA in the bridge address table TB2 is communicated. The packet receiving terminal address RA is set (S78), and then the port number corresponding to the source address SA in the bridge address table TB2 is determined (S79).

  If the determination result of the port number is [22] in step S79, the received communication packet is discarded in the second embodiment. However, in this embodiment, the transmission media connector is not discarded without discarding the received communication packet. The communication address (the source address SA and the destination address DA are not changed) is set to the signal level of the communication packet in which the self-address seen from the main line L1a is set to the transmission terminal address TA of the communication packet. After amplification to the level, the packet is transferred from the port P22 to the main trunk line L1a (S83). In a normal system, when the transmission media connector 7 receives a communication packet from the dwelling unit 2 on the main trunk L1a side, it is impossible to transfer the communication packet to the main trunk L1a side. Although the process does not proceed to step S83, the present embodiment has the following advantages.

  In the present embodiment, the operation of the transmission media connector 7 when receiving a communication packet from the main unit L1a side dwelling unit 2 receives the communication packet from the main line L1b side dwelling unit 2 shown in FIG. In the same manner as the operation of the transmission media connector 7 in this case, it is not necessary to distinguish the operation on the port P22 side of the transmission media connector 7 from the operation on the port P23 side. Accordingly, since the transmission media connector 7 has the same processing on the port P22 side and processing on the port P23 side, it is not necessary to pay attention to the connection direction at the time of construction, and the construction can be simplified. .

It is a figure which shows the structure of the intercom system for apartment houses of Embodiment 1. FIG. It is a figure which shows a transmission media converter same as the above. It is a figure which shows the operation | movement flowchart of a transmission media converter same as the above. It is a figure which shows the operation | movement flowchart of a transmission media converter same as the above. It is a figure which shows the sequence at the time of bridge address table construction same as the above. It is a figure which shows the sequence at the time of communication by dwelling unit terminals same as the above. It is a figure which shows the sequence at the time of communication by dwelling unit terminals same as the above. It is a figure which shows the structure of the intercom system for apartment houses of Embodiment 2. FIG. It is a figure which shows the transmission media connection device same as the above. It is a figure which shows the operation | movement flowchart of a transmission media connector same as the above. It is a figure which shows the operation | movement flowchart of a transmission media connector same as the above. It is a figure which shows the sequence at the time of bridge address table construction same as the above. It is a figure which shows the sequence at the time of communication by dwelling unit terminals same as the above. It is a figure which shows the sequence at the time of communication by dwelling unit terminals same as the above. It is a figure which shows the sequence at the time of communication by dwelling unit terminals same as the above. FIG. 10 is a diagram illustrating an operation flowchart of the transmission media connector according to the third embodiment. It is a figure which shows the structure of the conventional intercom system for apartment houses. It is a figure which shows the communication by dwelling unit terminals same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Lobby intercom 2 Dwelling unit terminal 3 Door phone handset 4 Transmission media converter 5 Branching device 6 Terminator L1 Main line L2 Backbone main line L3 Dwelling unit separate line

Claims (10)

A common unit installed at the common entrance of the apartment building and capable of voice input and output,
A dwelling unit that is installed in each dwelling unit of the apartment house and capable of voice input and output;
One to a plurality of first trunk lines to which one or more shared device or a plurality of dwelling unit terminals are connected;
A branching device interposed between the first trunk line and each dwelling unit,
A first main line connected to the first port; a second main line having a communication protocol different from that of the first main line is connected to the second port; A converter for converting a communication protocol between the main trunk line and the second trunk line,
When the signal is received at the first port, the converter amplifies the received signal to a predetermined level after the first signal is amplified if the transmission destination of the received signal is the first port side. If it is a dwelling unit that is transferred from the port and the destination of the received signal is on the second port side, the received signal is transferred from the second port,
The dwelling unit terminal performs communication by transmitting a signal to the converter via the branching unit and the first trunk line, and receiving the signal from the converter via the first trunk line and the branching unit. Residential intercom system. In the first trunk line, a source address that is an address given to the dwelling unit terminal that first transmitted a signal and a transmission that is an address given to the dwelling unit that last sent the signal or the converter at the present time Signal the terminal address, the receiving terminal address that is the address given to the next dwelling unit or converter that receives the signal, and the destination address that is the address given to the last dwelling unit that receives the signal To communicate with
In the second trunk line, communication is performed by adding the source address and the destination address to the signal,
The converter creates a first address table in which the source address and the transmission terminal address of the received signal are associated with one of the first and second ports included in the converter,
The intercom system for collective housing according to claim 1, wherein the dwelling unit terminal sets the address of the converter connected via the first trunk line to a default receiving terminal address and transmits a signal.   The said dwelling unit terminal sets the said transmitting terminal address to the said default receiving terminal address, if the transmission source address and the transmitting terminal address which are added to the received signal differ from each other. Intercom system for multiple dwelling houses.   If the source address having the same value as the destination address of the signal received at the first port corresponds to the first port in the first address table, the converter sends the received signal from the first port. If the source address that is the same as the destination address of the signal transferred and received at the first port corresponds to the second port in the first address table, the received signal is transferred from the second port. The intercom system for collective housing as claimed in claim 2 or 3.   If the source address equivalent to the destination address of the signal received at the second port corresponds to the first port in the first address table, the converter sends the received signal from the first port. If the source address that is the same as the destination address of the signal transferred and received at the second port corresponds to the second port in the first address table, the received signal is discarded. The intercom system for collective housing according to any one of claims 2 to 4.   In the converter, a source address equivalent to a destination address of a signal received at the first port and the second port corresponds to either the first port or the second port in the first address table. 6. The intercom system for collective housing according to any one of claims 2 to 5, wherein if it is not, the received signal is discarded. A third port inserted in the first trunk line to connect the first trunk line on the side close to the converter, and a fourth port to connect the first trunk line on the side far from the converter; A connector for amplifying a signal passing between the third and fourth ports;
The connector creates a second address table in which the source address and the transmission terminal address of the received signal are associated with one of the third and fourth ports of the connector. The intercom system for apartment houses according to any one of claims 1 to 6.   The connector discards the received signal if the source address having the same value as the destination address of the signal received at the third port corresponds to the third port in the second address table; If the source address having the same value as the destination address of the signal received at this port corresponds to the fourth port in the second address table, the received signal is transferred from the fourth port, and the fourth port If the source address equivalent to the destination address of the signal received in step 2 corresponds to the third port in the second address table, the received signal is transferred from the third port and received by the fourth port. If the source address equivalent to the destination address of the received signal corresponds to the fourth port in the second address table, the received signal is transferred from the fourth port. Collective housing intercom system of claim 7, wherein that.   If the source address equivalent to the destination address of the signal received at the third port corresponds to the third port in the second address table, the connector receives the received signal from the third port. If the source address equivalent to the destination address of the signal transferred and received at the third port corresponds to the fourth port in the second address table, the received signal is transferred from the fourth port. If the source address equivalent to the destination address of the signal received at the fourth port corresponds to the third port in the second address table, the received signal is transferred from the third port, If the source address equivalent to the destination address of the signal received at port 4 corresponds to the fourth port in the second address table, the received signal is transferred from the fourth port. Collective housing intercom system of claim 7, wherein Rukoto.   In the connector, a source address equivalent to a destination address of a signal received at the third port and the fourth port corresponds to either the third port or the fourth port in the second address table. The intercom system for collective housing according to any one of claims 7 to 9, wherein if it is not, the received signal is discarded.

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