JP2011078016A - Communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication system easily and properly inhibiting shortage of power supply and communication failures resulting from the connection of an excessive number of terminals. <P>SOLUTION: The communication system is equipped with: a plurality of terminals 50 connected to the same direct-current supply line 22 which is used both for power supply and communications; and a control unit 9 for managing the plurality of terminal 50, wherein the control unit 9 is configured to determine, during the connection of the terminals 50 to the direct-current supply line 22, whether the connection of the terminals 50 is restricted based on information on the terminals received from the connected terminals 50. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a communication system including a plurality of terminals connected on the same wiring used for power feeding and communication, and including a management device that manages power reception and communication of the plurality of terminals.

  In recent years, a system for distributing DC power as described in Patent Document 1 has been proposed as a power distribution system in a building such as a residence, a store, or an office building. In this power distribution system, home appliances and facilities can be controlled by performing power line carrier communication using a DC power carrier wiring as a medium.

  In such a power distribution system, power supply and communication of devices (terminals) connected to the wiring are managed in units of segments. Each segment is provided with a management device that manages a plurality of terminals connected to the wiring, and the power supply and communication of each terminal are controlled by such a management device.

  Depending on the connection status of the terminals to the wiring, the total amount of power received by each terminal may approach the upper limit of the power supply capability of the power supply apparatus, and the power supply apparatus may be overloaded. In such a case, it is necessary to restrict the connection of a part of the terminal connected to the wiring. Therefore, conventionally, in Patent Document 2, priorities are set in advance for each terminal connected to the wiring, and when it is determined that the power supply capability of the power supply device is insufficient based on the power used by each terminal, A system has been proposed in which power supply is restricted in order from the lowest to avoid overloading the power supply device.

JP 2009-178025 A JP 2009-165249 A

  By the way, in the above conventional system, in order to avoid overloading of the power supply device, it is necessary to grasp information on the power consumption of each terminal connected to the wiring. However, how to obtain such information is a problem. It becomes.

  In addition, when the number of terminals connected to the wiring increases, the parallel impedance may decrease and communication may become impossible. Such a communication failure occurs even if there is a margin in the power supply capability of the power supply device, and thus it is difficult to prevent it based only on the power used by the terminal.

  An object of the present invention is to provide a communication system capable of easily and accurately suppressing power supply shortage and communication failure due to excessive connection of terminals.

  In order to solve the above-described problem, the invention according to claim 1 is a communication system including a plurality of terminals connected to the same wiring used for power feeding and communication, and including a management device that manages the plurality of terminals. The gist of the management device is to determine whether or not the terminal connection is restricted based on terminal information received from the connected terminal when the terminal is connected to the wiring.

  In the above configuration, when a new terminal is connected to the wiring, information on the terminal is transmitted from the terminal to the management device. The management device receives this terminal information, and determines whether or not to restrict the connection of the terminal based on the information. In such a communication system, whether or not connection restriction can be performed is determined based on information transmitted from the terminal at the time of connection. Therefore, even if the management device does not know in advance information such as the power usage of each terminal, it is possible to perform connection restrictions as necessary. Therefore, according to the above configuration, power shortage and communication failure due to excessive connection of terminals can be easily and accurately suppressed.

  Incidentally, the terminal information here is information related to the specifications of the terminal necessary for management of communication and power supply, for example, information such as the unique address of the terminal, device type, communication amount, communication frequency, current consumption, priority, etc. Point to.

  According to a second aspect of the present invention, in the communication system according to the first aspect, the management device grasps the number of the terminals connected on the wiring from the terminal information and restricts connection based on the number of the terminals. The gist of this is to determine whether or not

  In the above configuration, the management device grasps the number of terminals connected on the wiring from the terminal information transmitted from the terminal at the time of connection, and determines whether or not the connection restriction is performed based on the number. In such a case, the management device only needs to know the number of terminals connected to the wiring. That is, the information that the management device must manage is only the number of terminals connected to the wiring. Therefore, according to the above configuration, it is possible to perform power supply shortage and communication failure due to excessive connection of terminals with a simpler configuration.

  The gist of the invention described in claim 3 is that, in the communication system according to claim 1 or 2, when the management device determines that the connection restriction has been implemented, it notifies the fact.

  In the above configuration, when the connection restriction is performed, the fact is notified. Therefore, the user or the contractor can easily and quickly know that the number of terminals connected to the wiring is excessive. Note that the notification at this time can be performed, for example, by turning on an indicator provided in a terminal or a management device, voice guidance, or the like.

  According to a fourth aspect of the present invention, in the communication system according to any one of the first to third aspects, when the management device determines that there is a connection restriction, a terminal that performs the connection restriction is provided. The gist is to prohibit data transmission.

  In the above configuration, when connection restriction is implemented, data transmission from the terminal that is the implementation target is prohibited. By prohibiting data transmission from the terminal in this way, it is possible to suppress the occurrence of communication failure due to an increase in communication traffic. In this case, if the reception function or the like of the terminal that has been subjected to connection restriction is maintained, the connection of the terminal can be automatically restored when the connection restriction becomes unnecessary.

  According to a fifth aspect of the present invention, in the communication system according to any one of the first to third aspects, when the management device determines that the connection restriction is performed, the terminal that performs the connection restriction receives power. The gist is to make it impossible.

  In the above configuration, when the connection restriction is implemented, the terminal that is the implementation target cannot receive power. That is, power supply to a terminal that is subject to connection restriction is prohibited. In such a case, it is possible to supply power to terminals other than those subjected to connection restriction without being insufficient, and to avoid malfunction of the terminal due to insufficient power supply.

  According to a sixth aspect of the present invention, in the communication system according to any one of the first to third aspects, the management device receives a terminal that performs connection restriction when it is determined that connection restriction is performed. The gist is to stop functions other than the function and the return function.

  In the above configuration, only the reception function and the return function are maintained even in the terminal subjected to connection restriction. Therefore, the connection of the terminal can be automatically restored when the connection restriction becomes unnecessary.

  A seventh aspect of the present invention is the communication system according to any one of the first to sixth aspects, wherein when the management device determines that connection restriction has been performed, the connection of each terminal set in advance is determined. The gist is to select a terminal that performs connection restriction based on the priority of the network.

  In the above configuration, when a shortage occurs in the power supply capability or communication capability of the communication system, connection restrictions are made in order from the terminal with the lower priority set in advance. In this case, since the operation of the terminal with a high priority set in advance is maintained even when the connection restriction is performed, inconveniences associated with the connection restriction can be suppressed.

  The invention according to claim 8 is the communication system according to claim 7, wherein the management device includes a plurality of terminals having the same priority, and at least one connection restriction of the terminals having the priority is performed. When required, the gist is to implement connection restrictions for all terminals of that priority.

In the above configuration, when there are a plurality of terminals having the same priority, connection of such terminals is restricted at once.
The invention according to claim 9 is the communication system according to claim 7, wherein each of the terminals has a unique address, and there are a plurality of terminals having the same priority, and at least one of the terminals having the priority. When the execution of one connection restriction is required, the gist is to select a terminal that performs connection restriction according to the ascending or descending order of the addresses.

In the above configuration, when there are a plurality of terminals having the same priority, a terminal that performs connection restriction is selected according to the unique address of the terminal.
According to a tenth aspect of the present invention, in the communication system according to the seventh aspect, the management device grasps the frequency of use of each terminal connected on the wiring and includes a plurality of terminals having the same priority. When it is required to perform connection restriction of at least one of the terminals having the priority, the gist is to select the terminal that performs connection restriction in order from the least frequently used terminal.

  In the above configuration, if the priority is the same, the connection is restricted in order from the terminal with the lowest usage frequency.

  According to the present invention, insufficient power supply and communication failure due to excessive connection of terminals can be easily and accurately suppressed.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic which shows typically the whole structure of the residential power distribution system used as the installation object about 1st Embodiment of this invention. The schematic diagram which shows typically the structure of the segment used as the management unit of the direct current | flow apparatus in the said electrical distribution system for houses. The flowchart which shows the procedure of the process which concerns on implementation of connection restriction | limiting in 1st Embodiment. The schematic diagram which shows typically the structure of the terminal employ | adopted as 2nd Embodiment. The flowchart which shows the procedure of the process which concerns on implementation of connection restriction | limiting in 2nd Embodiment. The flowchart which shows the procedure of the process which concerns on implementation of connection restriction | limiting in 3rd Embodiment. The flowchart which shows the procedure of the process which concerns on implementation of connection restriction | limiting in 4th Embodiment. The flowchart which shows the procedure of the process which concerns on implementation of the connection restriction | limiting in 5th Embodiment. The flowchart which shows the procedure of the process which concerns on implementation of connection restriction | limiting in 6th Embodiment.

(First embodiment)
Hereinafter, a first embodiment embodying a communication system of the present invention will be described with reference to FIGS. FIG. 1 shows the overall configuration of a residential power distribution system to which the communication system of the present embodiment is applied.

  As shown in FIG. 1, a house is provided with a power supply system 1 that supplies power to various devices (such as lighting devices, air conditioners, home appliances, and audiovisual devices) installed in the house. The power supply system 1 operates various devices using a commercial AC power source (AC power source) 2 for home use as power, and also supplies the power of the solar cell 3 generated by sunlight to the various devices as a power source. The power supply system 1 supplies power not only to the DC device 5 that operates by inputting a DC power supply (DC power supply) but also to the AC device 6 that operates by inputting an AC power supply (AC power supply).

  The power supply system 1 is provided with a control unit 7 and a DC distribution board (with built-in DC breaker 8) as a distribution board of the system 1. The power supply system 1 is provided with a control unit 9 and a relay unit 10 as devices for controlling the operation of the DC device 5 in the house.

  An AC distribution board 11 for branching an AC power supply is connected to the control unit 7 via an AC power line 12. The control unit 7 is connected to the commercial AC power source 2 through the AC distribution board 11 and is connected to the solar cell 3 through the DC system power line 13. The control unit 7 takes in AC power from the AC distribution board 11 and DC power from the solar cell 3 and converts these powers into predetermined DC power as a device power source. Then, the control unit 7 outputs the converted DC power to the DC distribution board 8 via the DC system power line 14 or outputs it to the storage battery 16 via the DC system power line 15 to store the same power. To do. The control unit 7 can not only take AC power from the AC distribution board 11 but also convert DC power of the solar cell 3 and the storage battery 16 to AC power and supply it to the AC distribution board 11. The control unit 7 exchanges data with the DC distribution board 8 via the signal line 17.

  The DC distribution board 8 is a kind of breaker that supports DC power. The DC distribution board 8 branches the DC power input from the control unit 7 and outputs the branched DC power to the control unit 9 via the DC power line 18 or relays via the DC power line 19. Or output to the unit 10. Further, the DC distribution board 8 exchanges data with the control unit 9 through the signal line 20 and exchanges data with the relay unit 10 through the signal line 21.

  A plurality of DC devices 5, 5... Are connected to the control unit 9. These DC devices 5 are connected to the control unit 9 via a DC supply line 22 that can carry both DC power and data by a pair of lines. The DC supply line 22 superimposes a communication signal for transmitting data by a high-frequency carrier wave on a DC voltage serving as a power source for the DC device, so-called power line carrier communication. Transport to. The control unit 9 acquires the DC power supply of the DC device 5 via the DC power line 18 and controls which DC device 5 based on the operation command obtained from the DC distribution board 8 via the signal line 20. Know what to do. Then, the control unit 9 controls the operation of the DC device 5 by outputting a DC voltage and an operation command to the instructed DC device 5 via the DC supply line 22.

  A switch 23 that is operated when switching the operation of the DC device 5 in the house is connected to the control unit 9 via a DC supply line 22. In addition, a sensor 24 that detects a radio wave transmitted from an infrared remote controller, for example, is connected to the control unit 9 via a DC supply line 22. Therefore, not only the operation instruction from the DC distribution board 8 but also the operation of the switch 23 and the detection of the sensor 24, a communication signal is sent to the DC supply line 22 to control the DC device 5.

  A plurality of DC devices 5, 5... Are connected to the relay unit 10 via individual DC power lines 25. The relay unit 10 acquires the DC power supply of the DC device 5 through the DC power line 19 and determines which DC device 5 is to be operated based on an operation command obtained from the DC distribution board 8 through the signal line 21. To grasp. The relay unit 10 controls the operation of the DC device 5 by turning on / off the power supply to the DC power line 25 with respect to the instructed DC device 5 using a built-in relay. In addition, a plurality of switches 26 for manually operating the DC device 5 are connected to the relay unit 10, and the DC power line 25 is turned on and off by the relay by operating the switch 26, thereby enabling the DC unit 5 to operate the DC unit 5. The device 5 is controlled.

  The DC distribution board 8 is connected to a DC outlet 27 built in a house in the form of a wall outlet or a floor outlet, for example, via a DC power line 28. If a plug (not shown) of a DC device is inserted into the DC outlet 27, DC power can be directly supplied to the device.

  Further, a power meter 29 capable of remotely metering the amount of use of the commercial AC power supply 2 is connected between the commercial AC power supply 2 and the AC distribution board 11. The power meter 29 is equipped with not only a function of remote meter reading of the amount of commercial power used, but also a function of power line carrier communication and wireless communication, for example. The power meter 29 transmits the meter reading result to an electric power company or the like via power line carrier communication or wireless communication.

  The power supply system 1 is provided with a network system 30 that enables various devices in the home to be controlled by network communication. The network system 30 is provided with a home server 31 as a control unit of the system 30. The home server 31 is connected to a management server 32 outside the home via a network N such as the Internet, and is connected to a home device 34 via a signal line 33. The in-home server 31 operates using DC power acquired from the DC distribution board 8 via the DC power line 35 as a power source.

  A control box 36 that manages operation control of various devices in the home by network communication is connected to the home server 31 via a signal line 37. The control box 36 is connected to the control unit 7 and the DC distribution board 8 via the signal line 17 and can directly control the DC device 5 via the DC supply line 38. For example, a gas / water meter 39 capable of remotely metering the amount of gas used or the amount of water used is connected to the control box 36 and also connected to the operation panel 40 of the network system 30. The operation panel 40 is connected to a monitoring device 41 including, for example, a door phone slave, a sensor, and a camera.

  When the in-home server 31 inputs an operation command for various devices in the home via the network N, the home server 31 notifies the control box 36 of the instruction, and operates the control box 36 so that the various devices perform operations in accordance with the operation command. . The in-home server 31 can provide various information acquired from the gas / water meter 39 to the management server 32 through the network N, and accepts from the operation panel 40 that the monitoring device 41 has detected an abnormality. This is also provided to the management server 32 through the network N.

  Such power supply and communication management of each DC device 5 in the house is performed in units of segments including the control unit 9 and the DC supply line 22 connected thereto. Actually, the DC device 5, the switch 23, and the sensor 24 (hereinafter collectively referred to as a terminal) connected to each segment are connected to the same wiring (DC supply line 22). It has become.

  FIG. 2 shows the structure of such a segment. As shown in the figure, in each segment, a plurality of terminals 50 are connected to a DC supply line 22 extending from the control unit 9.

  As shown in the figure, the control unit 9 outputs the DC power input from the DC distribution board 8 to the DC supply line 22 via the high impedance section (High_Z section) 51 and also supplies the DC power to the communication power supply section 52. Is provided with a power feeding unit 53 that outputs to the power source. The communication power supply unit 52 includes a transmitter 54 that transmits a signal to the DC supply line 22, a receiver 55 that receives a signal from the DC supply line 22, and whether or not the terminal 50 is connected to the DC supply line 22. The power supply to the connection availability information generating unit 56 for determining the power supply is performed.

  On the other hand, each terminal 50 includes a power receiving unit 61 that receives DC power supplied through the DC supply line 22 via a high impedance unit (High_Z unit) 60. The power receiving unit 61 supplies the received DC power to the load power supply unit 62 that supplies power to the load of the terminal 50 and the communication power supply unit 63 that supplies power to the communication system of the terminal 50. The communication power supply unit 63 includes a processing unit 64 that performs various processes related to communication of the terminal 50, a transmission unit 65 that transmits signals to the DC supply line 22, and reception that receives signals from the DC supply line 22. Power is supplied to the unit 66. Further, the terminal 50 is provided with a terminal information generation unit 67 that generates terminal information to be transmitted to the control unit 9 when the terminal 50 is connected to the DC supply line 22. The terminal information generated by the terminal information generation unit 67 is transmitted to the control unit 9 via the processing unit 64, the transmission unit 65, and the DC supply line 22 when the terminal 50 is connected to the DC supply line 22. ing.

  Further, the terminal 50 is provided with a switching unit 68 that connects and disconnects the terminal 50 to the DC supply line 22. The switching unit 68 operates based on a command from the processing unit 64.

  In the communication system according to the present embodiment, when the terminal 50 is connected to the DC supply line 22, the control unit 9 performs the connection restriction of the terminal 50 based on the terminal information received from the connected terminal 50. Judgment of the presence or absence of. Specifically, the control unit 9 grasps the number of terminals 50 connected on the DC supply line 22 from the terminal information, and determines whether or not connection restriction is performed based on the number.

  FIG. 3 shows a series of processing procedures related to such connection restriction. As shown in the figure, when the terminal 50 is connected to the DC supply line 22 (S100), the connected terminal 50 generates terminal information (S101) and transmits the generated terminal information to the control unit 9. (S102). The terminal information transmitted here includes information such as the unique address, device type, communication amount, communication frequency, current consumption, and priority of the terminal 50.

  When the control unit 9 receives the terminal information transmitted from the terminal 50 (S103), the connectability information generating unit 56 confirms how many terminals the connected terminal 50 is connected to the DC supply line 22. (S104). Then, the connectability information generating unit 56 checks whether or not the number of connected terminals 50 is equal to or less than the specified number (S105). The specified number is set in advance as the number of terminals 50 that can perform power feeding and communication without delay.

  If the number of connected terminals 50 is less than or equal to the specified number (S105: YES), the connectability information generating unit 56 generates a signal indicating that the connection is allowed (connectable signal), and the terminal connected this time 50 (S106). Then, the terminal 50 starts this operation in response to reception of such a connection enable signal (S107). Note that the terminal 50 before the start of the main operation performs only extremely short data transmission related to the transmission of the terminal information, and shifts to normal communication traffic with the start of the main operation.

  On the other hand, if the number of connected terminals 50 exceeds the specified number (S105: NO), the connection availability information generating unit 56 generates a signal indicating that the connection is not possible (connection impossible signal), and this time connection. Is transmitted to the received terminal 50 (S108). And the terminal 50 stops the operation | movement according to reception of such a connection impossible signal (S109). That is, the processing unit 64 controls the switching unit 68 to disconnect the terminal 50 from the DC supply line 22 in response to the reception of the connection impossible signal. This prevents the terminal 50 from receiving power.

  Incidentally, the control unit 9 at this time performs notification that the connection restriction has been performed. The notification at this time can be performed, for example, by turning on an indicator provided in the terminal 50 or the control unit 9 or by voice guidance.

  In this embodiment, the DC supply line 22 corresponds to the above wiring. Moreover, in this Embodiment, the control unit 9 becomes a structure corresponded to the said management apparatus.

In the present embodiment described above, the following effects can be obtained.
(1) In the communication system of the present embodiment, a plurality of terminals 50 are connected on the same DC supply line 22 used for power supply and communication, and the control unit 9 manages the power supply and communication management of the plurality of terminals 50. It is configured with. In the present embodiment, when the terminal 50 is connected to the DC supply line 22, the control unit 9 determines whether or not the connection restriction of the terminal 50 is performed based on the terminal information received from the connected terminal 50. I am doing so. In this embodiment, when a new terminal 50 is connected on the DC supply line 22, information on the terminal 50 is transmitted from the terminal 50 to the control unit 9. The control unit 9 receives the terminal information, and determines whether or not to limit the connection of the terminal 50 based on the information. In such a communication system, whether or not connection restriction can be performed is determined based on information transmitted from the terminal 50 at the time of connection. For this reason, even if the management device does not grasp in advance information such as the power usage of each terminal 50, it is possible to perform connection restrictions as necessary. Therefore, according to the present embodiment, insufficient power supply and communication failure due to excessive connection of terminals can be easily and accurately suppressed.

  (2) In the present embodiment, the control unit 9 grasps the number of terminals 50 connected on the DC supply line 22 from the terminal information, and determines whether or not connection restriction is performed based on the number of terminals. ing. In this embodiment, the control unit 9 grasps the number of terminals 50 connected on the DC supply line 22 from the terminal information transmitted from the terminal 50 at the time of connection, and implements connection restriction based on the number. The presence or absence is judged. The control unit 9 in such a case only needs to know the number of terminals 50 connected to the DC supply line 22. That is, the information that must be managed by the control unit 9 when determining whether or not connection restriction is performed is only the number of terminals 50 connected to the DC supply line 22. Therefore, according to the present embodiment, power supply shortage and communication failure due to excessive connection of the terminal 50 can be performed with a simpler configuration.

  (3) In the present embodiment, when the control unit 9 determines that the connection restriction is performed, the control unit 9 notifies the fact. Therefore, the user or the contractor can easily and quickly know that the number of terminals 50 connected to the DC supply line 22 is excessive.

  (4) In the present embodiment, the control unit 9 is configured to prevent the terminal 50 that implements connection restriction from receiving power when it is determined that connection restriction has been implemented. In this embodiment, power supply to the terminal 50 that is subject to connection restriction is prohibited. In such a case, power supply to the terminals 50 other than those subject to connection restriction can be performed without shortage, and malfunction of the terminal due to insufficient power supply can be avoided.

(Second Embodiment)
Next, a second embodiment that embodies the communication system of the present invention will be described with a focus on differences from the above-described embodiment with reference to FIGS. 4 and 5 together.

  In the first embodiment, once the connection of the terminal 50 is rejected, the connection of the terminal 50 is automatically performed even if the number of terminals 50 connected thereafter decreases and the connection restriction can be released. Is not done. In the communication system according to the present embodiment, the terminal 50 is configured so that the terminal 50 is automatically connected in such a case.

  FIG. 4 shows the configuration of the terminal 50 according to this embodiment. In the terminal 50 of the present embodiment, the switching unit 69 is installed so as to connect / disconnect only the connection of the transmission unit 65 to the DC supply line 22. The terminal 50 is also provided with a switching unit 70 that connects and disconnects the load power source unit 62. In such a case, when the connection is restricted, transmission from the terminal 50 is prohibited, but the reception function of the terminal 50 is utilized. Incidentally, when the connection is restricted, the load power supply unit 62 of the terminal 50 is disconnected by disconnecting the switching unit 70.

  Here, in addition to the reception function, the return function of the terminal 50 is also maintained. The return function is a function for performing the main connection of the terminal 50 to the DC supply line 22 of the terminal 50 whose connection is restricted in accordance with a return command from the control unit 9 so that the terminal 50 is fully operated.

  FIG. 5 shows a series of processing procedures related to the connection restriction in the present embodiment. As shown in the figure, when the terminal 50 is connected to the DC supply line 22 (S200), the connected terminal 50 generates terminal information (S201), and transmits the generated terminal information to the control unit 9. (S202). When the control unit 9 receives the terminal information transmitted from the terminal 50 (S203), the connectability information generating unit 56 confirms how many terminals the connected terminal 50 is connected to the DC supply line 22. (S204). Then, the connectability information generating unit 56 checks whether or not the number of connected terminals 50 is equal to or less than the specified number (S205). If the number of connected terminals 50 is equal to or less than the specified number (S205: YES), the connectability information generating unit 56 generates a signal indicating that the connection is allowed (connectable signal) and is connected this time. It transmits to the terminal 50 (S206). Then, the terminal 50 starts this operation in response to reception of such a connection enable signal (S207).

  On the other hand, if the number of connected terminals 50 exceeds the specified number (S205: NO), the connection availability information generating unit 56 generates a signal indicating that the connection is impossible (connection impossible signal), and this time connection is established. Is transmitted to the received terminal 50 (S208). And the process part 64 of the terminal 50 cut | disconnects the switch part 69 according to reception of such a connection impossible signal, and stops functions other than the reception function and return function of the terminal 50 (S209).

  Thereafter, the control unit 9 periodically acquires terminal information of each terminal 50 connected to the DC supply line 22, and monitors whether there is a terminal 50 that has been removed or whose function has been stopped (S210). Then, when the number of connected terminals 50 is equal to or less than the specified number and the connection of the terminals 50 whose connection is restricted becomes possible (S211: YES), the control unit 9 transmits a connection enable signal to the terminal 50 (S206). Then, this operation of the terminal 50 is started (S207).

According to the present embodiment described above, in addition to the effects described in (1) to (3) above, the following effects can be further achieved.
(5) In the present embodiment, the control unit 9 prohibits data transmission from the terminal 50 that performs connection restriction when it is determined that connection restriction is performed. By prohibiting data transmission from the terminal 50 in this way, it is possible to suppress the occurrence of communication failure due to an increase in communication volume.

  (6) In the present embodiment, the control unit 9 stops functions other than the reception function and the return function of the terminal that performs connection restriction when it is determined that connection restriction is performed. In this embodiment, only the reception function and the return function are maintained even in the terminal 50 subject to connection restriction, and the connection of the terminal 50 is automatically established when the connection restriction becomes unnecessary. It will be possible to return.

(Third embodiment)
Next, a third embodiment that embodies the communication system of the present invention will be described with a focus on differences from the above-described embodiment with reference to FIG.

  In the above embodiment, when the number of terminals 50 connected to the DC supply line 22 exceeds the specified number, the connection of the newly connected terminals 50 is limited. However, in such a case, even if there are other terminals 50 that do not hinder the connection and do not have a high priority, the connection of the terminal 50 to be newly connected is limited. Become. Therefore, in the present embodiment, when the control unit 9 determines that the connection restriction is performed, the control unit 9 selects a terminal that performs the connection restriction based on the preset connection priority of each terminal 50. Yes.

  Specifically, in the present embodiment, when connecting to the DC supply line 22, the terminal 50 transmits information related to its own priority included in the terminal information. On the other hand, the control unit 9 creates and stores a priority list of each terminal 50 connected to the DC supply line 22 based on the received priority information. Then, when the number of connected terminals 50 exceeds the specified number, the control unit 9 refers to the list and performs connection restriction in order from the terminal 50 with the lowest priority.

  FIG. 6 shows a series of processing procedures relating to the connection restriction in this embodiment. As shown in the figure, when the terminal 50 is connected to the DC supply line 22 (S300), the connected terminal 50 generates terminal information (S301) and transmits the generated terminal information to the control unit 9. (S302). At this time, the terminal 50 includes information related to its own priority in the terminal information.

  When the control unit 9 receives the terminal information transmitted from the terminal 50 (S303), the connectability information generating unit 56 confirms the contents and generates a priority list of each terminal 50 (S304). Further, the connectability information generating unit 56 checks the number of terminals connected to the DC supply line 22 of the terminal 50 connected this time (S305), and the number of connected terminals 50 is equal to or less than the specified number. It is confirmed whether or not (S306). If the number of connected terminals 50 is less than or equal to the specified number (S306: YES), the connectability information generating unit 56 generates a signal indicating that the connection is allowed (connectable signal), and the terminal connected this time 50 (S307). Then, the terminal 50 starts this operation in response to the reception of such a connection enable signal (S308).

  On the other hand, if the number of connected terminals 50 exceeds the specified number (S306: NO), the connectability information generating unit 56 checks the priority of each terminal 50 (S309), and the terminal with the lowest priority 50 is selected as a connection restriction target (S310). Then, the connectability information generating unit 56 transmits a signal indicating that the connection is impossible (connection impossible signal) to the selected terminal 50 (S311). The terminal 50 that has received such a connection disable signal disconnects its switching unit 69 and stops functions other than the reception function and the return function (S312).

  Thereafter, the control unit 9 periodically acquires terminal information of each terminal 50 connected to the DC supply line 22 (S313), and monitors whether there is a terminal 50 that has been removed or whose function has been stopped. Then, when the number of connected terminals 50 is less than the specified number and the connection of the terminal 50 whose connection is restricted becomes possible (S314: YES), the control unit 9 transmits a connection enable signal to the terminal 50 whose connection is restricted. (S307), this operation of the terminal 50 is started (S308).

According to the present embodiment described above, in addition to the effects described in (1) to (3), (5) and (6) above, the following effects can be further achieved.
(7) In the present embodiment, when the control unit 9 determines that the connection restriction is performed, the control unit 9 selects the terminal 50 that performs the connection restriction based on the preset connection priority of each terminal 50. I am doing so. In this embodiment, when a shortage occurs in the power supply capability or communication capability of the communication system, connection restrictions are made in order from the terminal 50 having a preset low priority. In this case, since the operation of the terminal 50 having a high priority set in advance is maintained even when the connection restriction is performed, inconveniences associated with the connection restriction can be suppressed.

(Fourth embodiment)
Next, a fourth embodiment that embodies the communication system of the present invention will be described with a focus on differences from the above-described embodiment with reference to FIG.

  In the third embodiment, the control unit 9 selects the terminal 50 that performs connection restriction based on the priority set in advance for each terminal 50 when performing connection restriction. However, depending on the situation, there may be a plurality of terminals 50 having the same priority. In such a case, it becomes a problem which of the terminals 50 having the same priority is restricted from being connected. . Therefore, in the present embodiment, when there are a plurality of terminals 50 having the same priority, and the control unit 9 is required to implement at least one connection restriction of the terminals 50 having the priority, all the terminals having the priority are requested. 50 connection restrictions are implemented.

  FIG. 7 shows a series of processing procedures related to the implementation of connection restriction in this embodiment. As shown in the figure, when the terminal 50 is connected to the DC supply line 22 (S400), the connected terminal 50 generates terminal information (S401) and transmits the generated terminal information to the control unit 9. (S402). At this time, the terminal 50 includes information related to its own priority in the terminal information.

  When the control unit 9 receives the terminal information transmitted from the terminal 50 (S403), the connectability information generating unit 56 confirms the contents and generates a priority list for each terminal 50 (S404). Further, the connectability information generating unit 56 checks the number of terminals connected to the DC supply line 22 of the terminal 50 connected this time (S405), and the number of connected terminals 50 is less than the specified number. It is confirmed whether or not (S406). If the number of connected terminals 50 is less than or equal to the specified number (S406: YES), the connectability information generating unit 56 generates a signal indicating that the connection is allowed (connectable signal), and the terminal connected this time 50 (S407). Then, the terminal 50 starts this operation in response to reception of such a connection enable signal (S408).

  On the other hand, if the number of connected terminals 50 exceeds the specified number (S406: NO), the connectability information generating unit 56 checks the priority of each terminal 50 (S409), and the terminal with the lowest priority All 50 are selected as connection restriction targets (S410). Then, the connection availability information generating unit 56 transmits a signal (connection impossible signal) indicating that the connection is impossible to the selected terminal 50 (S411). The terminal 50 that has received such a connection disable signal disconnects its switching unit 69 and stops functions other than the reception function and the return function (S412).

  Thereafter, the control unit 9 periodically acquires terminal information of each terminal 50 connected to the DC supply line 22 (S413), and monitors whether there is a terminal 50 that has been removed or whose function has been stopped. Then, when the number of connected terminals 50 is equal to or less than the specified number and the connection of the terminal 50 whose connection is restricted becomes possible (S414: YES), the control unit 9 transmits a connection permission signal to the terminal 50 whose connection is restricted. (S407), this operation of the terminal 50 is started (S408).

In the present embodiment described above, in addition to the effects described in (1) to (3) and (5) to (7) above, the following effects can be further achieved.
(8) In the present embodiment, when there are a plurality of terminals 50 having the same priority and the control unit 9 is required to implement at least one connection restriction for the terminals 50 of that priority, all of the priorities are given. The connection restriction of the terminal 50 is implemented. Therefore, even when there are a plurality of terminals 50 having the same priority, connection restriction can be performed without any problem.

(Fifth embodiment)
Next, a fifth embodiment that embodies the communication system of the present invention will be described with reference to FIG. 8, focusing on differences from the above embodiment.

  In the fourth embodiment, when there are a plurality of terminals 50 having the same priority and it is required to perform at least one connection restriction for the terminals 50 having the priority, the connection restriction for all the terminals 50 having the priority is provided. I was going to carry out. However, in such a case, even when the connection restriction should originally be performed for only one terminal 50, the connection of the plurality of terminals 50 may be restricted, which may cause waste. Therefore, in the present embodiment, when there are a plurality of terminals 50 having the same priority, and when it is required to restrict at least one connection of the terminal 50 having the priority, the order of the unique addresses set for each terminal 50 is determined. The terminal that performs connection restriction is selected.

  FIG. 8 shows a series of processing procedures related to the connection restriction in this embodiment. As shown in the figure, when the terminal 50 is connected to the DC supply line 22 (S500), the connected terminal 50 generates terminal information (S501), and transmits the generated terminal information to the control unit 9. (S502). At this time, the terminal 50 includes information regarding its own priority and its own unique address in the terminal information.

  When the control unit 9 receives the terminal information transmitted from the terminal 50 (S503), the connectability information generating unit 56 confirms the content and generates a priority list for each terminal 50 (S504). Further, the connectability information generating unit 56 confirms the number of terminals 50 connected to the DC supply line 22 of the currently connected terminal 50 (S505), and the number of connected terminals 50 is less than the specified number. It is confirmed whether or not (S506). If the number of connected terminals 50 is less than or equal to the specified number (S506: YES), the connectability information generating unit 56 generates a signal indicating that the connection is allowed (connectable signal), and the terminal connected this time 50 (S507). Then, the terminal 50 starts this operation in response to reception of such a connection enable signal (S508).

  On the other hand, if the number of connected terminals 50 exceeds the specified number (S506: NO), the connectability information generating unit 56 checks the priority of each terminal 50 (S509), and the terminal with the lowest priority 50 is selected (S510). Here, when there are a plurality of such terminals 50, the connectability information generating unit 56 confirms the unique address of each selected terminal 50 (S511), and restricts the connection of the highest terminal 50 in the address order. The target is selected (S512), and a signal indicating that the connection is impossible (connection impossible signal) is transmitted to the selected terminal 50 (S513). Note that the order of addresses related to the selection of the connection restriction target terminals at this time may be either descending order or ascending order.

  The terminal 50 that has received the connection impossibility signal disconnects its switching unit 69 and stops the functions other than the reception function and the return function (S514). Thereafter, the control unit 9 periodically acquires terminal information of each terminal 50 connected to the DC supply line 22 (S515), and monitors whether there is a terminal 50 that has been removed or whose function has been stopped. Then, when the number of connected terminals 50 is less than the specified number and the connection of the restricted terminal 50 becomes possible (S516: YES), the control unit 9 transmits a connection enable signal to the terminal 50 (S507). Then, this operation of the terminal 50 is started (S508).

In the present embodiment described above, in addition to the effects described in (1) to (3) and (5) to (7) above, the following effects can be further achieved.
(9) In the present embodiment, when there are a plurality of terminals 50 having the same priority, and when it is required to implement at least one connection restriction for the terminals 50 having the priority, the control unit 9 assigns each terminal 50 a respective one. A terminal that performs connection restriction is selected in ascending or descending order of the unique address. Therefore, even when there are a plurality of terminals 50 having the same priority, connection restriction can be performed without any problem. In this case, connection restriction is not performed on more terminals 50 than necessary, and connection restriction can be performed efficiently.

(Sixth embodiment)
Next, a sixth embodiment that embodies the communication system of the present invention will be described with reference to FIG. 9, focusing on differences from the above embodiment.

  In the present embodiment, the control unit 9 constantly monitors and grasps the usage frequency of each terminal 50 connected on the DC supply line 22. When there are a plurality of terminals 50 having the same priority, and it is required to perform at least one connection restriction for the terminal 50 having the priority, the terminal 50 that performs the connection restriction is selected in descending order of frequency of use. I have to.

  FIG. 9 shows a series of processing procedures related to the implementation of connection restriction in this embodiment. As shown in the figure, when the terminal 50 is connected to the DC supply line 22 (S600), the connected terminal 50 generates terminal information (S601), and transmits the generated terminal information to the control unit 9. (S602). At this time, the terminal 50 includes information related to its own priority in the terminal information.

  When the control unit 9 receives the terminal information transmitted from the terminal 50 (S603), the connectability information generating unit 56 confirms the contents and generates a priority list of each terminal 50 (S604). Further, the connectability information generating unit 56 confirms the number of terminals 50 connected to the DC supply line 22 of the currently connected terminal 50 (S605), and the number of connected terminals 50 is less than the specified number. It is confirmed whether or not (S606). If the number of connected terminals 50 is less than or equal to the specified number (S606: YES), the connectability information generating unit 56 generates a signal indicating that the connection is allowed (connectable signal), and the terminal connected this time 50 (S607). The terminal 50 starts this operation in response to the reception of such a connection enable signal (S608).

  On the other hand, if the number of connected terminals 50 exceeds the specified number (S606: NO), the connectability information generating unit 56 checks the priority of each terminal 50 (S609), and the terminal with the lowest priority 50 is selected (S610). Here, when there are a plurality of such terminals 50, the connection availability information generating unit 56 collects information on the usage frequency of each selected terminal 50 (S611), and connects the terminal 50 having the lowest usage frequency among them. A restriction target is selected (S612). Then, the control unit 9 transmits a signal indicating that the connection is impossible (connection impossible signal) to the selected terminal 50 (S613), and the terminal 50 that has received the connection impossible signal disconnects its switching unit 69. Then, functions other than the reception function and the return function are stopped (S614).

  Thereafter, the control unit 9 periodically acquires terminal information of each terminal 50 connected to the DC supply line 22 (S615), and monitors whether there is a terminal 50 that has been removed or whose function has been stopped. When the number of connected terminals 50 becomes less than the specified number and the connection of the terminals 50 whose connection is restricted becomes possible (S616: YES), the control unit 9 transmits a connection enable signal to the terminal 50 (S607). Then, this operation of the terminal 50 is started (S608).

In the present embodiment described above, in addition to the effects described in (1) to (3) and (5) to (7) above, the following effects can be further achieved.
(10) In the present embodiment, the control unit 9 grasps the frequency of use of each terminal 50 connected on the DC supply line 22, and there are a plurality of terminals having the same priority, and the terminal having the priority. When it is required to perform at least one connection restriction of 50, the terminal 50 that performs the connection restriction is selected in descending order of frequency of use. Therefore, even when there are a plurality of terminals 50 having the same priority, connection restriction can be performed without any problem. In this case, connection restriction is not performed on more terminals 50 than necessary, and connection restriction can be performed efficiently.

Each embodiment described above can be implemented with the following modifications.
In the first embodiment, the switching unit 68 physically disconnects the DC supply line 22 and the terminal 50 from each other. However, if power supply from the power receiving unit 61 of the terminal 50 to the load power supply unit 62 is prohibited, power reception of the terminal 50 can be generally prohibited. That is, in this case, power is continuously supplied to the communication system of the terminal 50, but the power consumption for communication is insignificant compared to the power consumed by the load of the terminal 50, so the terminal at this time Power supply to 50 is substantially prohibited. Therefore, even if the switching unit is configured to disconnect the power receiving unit 61 and the load power source unit 62 of the terminal 50, it is possible to substantially prohibit the power reception of the terminal 50.

  In the second embodiment, the switching unit 69 physically disconnects the connection between the DC supply line 22 and the transmission unit 54, thereby prohibiting transmission from the terminal 50 that performs connection restriction. . Prohibition of transmission in such a case can be implemented not only by such hardware but also by software.

  In the above embodiment, the presence / absence of connection restriction is determined based on the number of terminals 50 connected to the DC supply line 22. However, from the terminal information received from the terminal 50, information other than the number of connected devices, for example, information such as the communication amount and power consumption of each terminal 50 can be grasped, and connection restriction is performed based on information other than the number of connected devices. The presence or absence may be determined.

  In the above embodiment, the terminal 50 newly connected to the DC supply line 22 uses the control unit 9 as its terminal information including its own unique address, device type, communication amount, communication frequency, current consumption, priority, and the like. Had to send to. However, priority level information is not required when connection-restricted terminals are not selected based on priority. Further, when determining whether or not connection restriction is performed based on the number of connected terminals 50, it is sufficient to transmit only information such as a unique address necessary for communication, and other information can be omitted arbitrarily.

  In the above embodiment, the control unit 9 performs notification to that effect when the connection restriction is implemented. However, when the implementation is clear from the operation of the terminal 50 without performing the notification. May omit the notification.

  In the above embodiment, a case has been described in which a plurality of terminals are connected on the DC supply line 22 and the present invention is applied to a communication system using the DC supply line 22 for power feeding and communication. However, the communication system of the present invention can also be applied to a communication system that uses wiring for supplying AC power for power supply and communication and includes an AC device that operates with AC power as a terminal.

  DESCRIPTION OF SYMBOLS 9 ... Control unit (51 ... High impedance part (High_Z part), 22 ... DC supply line (wiring), 52 ... Communication power supply part, 53 ... Power feeding part, 54 ... Transmission part, 55 ... Reception part, 56 ... Connection availability information Generating unit), 50 ... terminal (60 ... high impedance unit (High_Z unit), 61 ... power receiving unit, 62 ... load power source unit, 63 ... communication power source unit, 64 ... processing unit, 65 ... transmitting unit, 66 ... receiving unit, 67 ... terminal information generation unit, 68, 69, 70 ... switching unit).

Claims (10)

In a communication system including a plurality of terminals connected on the same wiring used for power supply and communication, and including a management device that manages the plurality of terminals,
The management device determines whether or not the terminal is restricted based on terminal information received from the connected terminal when the terminal is connected to the wiring. The communication system according to claim 1, wherein the management device grasps the number of the terminals connected on the wiring from the terminal information, and determines whether or not connection restriction is performed based on the number. The communication system according to claim 1, wherein when the management device determines that connection restriction has been performed, the management device notifies the fact. The communication system according to any one of claims 1 to 3, wherein the management device prohibits data transmission from a terminal that performs connection restriction when it is determined that connection restriction is performed. The communication system according to any one of claims 1 to 3, wherein when the management device determines that connection restriction is performed, a terminal that performs connection restriction cannot receive power. The communication system according to any one of claims 1 to 3, wherein the management device stops functions other than the reception function and the return function of a terminal that performs connection restriction when it is determined that connection restriction is performed. The said management apparatus selects the terminal which enforces connection restriction | limiting based on the priority of the connection of each terminal set beforehand, when it is judged that connection restriction enforcement is carried out. The communication system described. When there are a plurality of terminals having the same priority, and the management device is required to perform connection restriction of at least one terminal of the priority, the management device implements connection restriction of all terminals of the priority. The communication system according to claim 7, wherein the communication system is characterized. Each of the terminals has a unique address,
When there are a plurality of terminals having the same priority and it is required to perform connection restriction of at least one terminal of the priority, a terminal that performs connection restriction according to the ascending or descending order of the addresses is selected. The communication system according to claim 7. The management device grasps the usage frequency of each terminal connected on the wiring, and there are a plurality of terminals having the same priority, and at least one connection restriction of the terminal having the priority is required. 8. The communication system according to claim 7, wherein a terminal that performs connection restriction is selected in order from the least frequently used one.

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