JP3777631B2 - Terminal network control device and terminal network control system using the same - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a terminal network control apparatus connected to an analog telephone line, and more particularly to a terminal network control apparatus used for communication control between a meter and a center terminal by automatic meter reading or the like.
[0002]
[Prior art]
In this type of conventional terminal network control device, a microcomputer is usually used for the control, but the power supply current is meaningless because the I / O port of the microcomputer changes from H to L or L to H due to noise or the like. Since there is a risk of draining the flow battery, it is necessary to perform the refresh operation of the I / O port from time to time. Also, it is sometimes necessary to check and refresh whether the state of the terminal network control device is normal. In the time interval, the oscillator was operated during standby, and the calendar function was used to interrupt the operation.
[0003]
[Problems to be solved by the invention]
However, the above configuration has the following problems. It is necessary to always operate the oscillator of the terminal network control device even during standby, and the power consumption accounts for the majority of the power consumption of the battery power of the terminal network control device, and the life of the terminal network control device is shortened. Had.
[0004]
[Means for Solving the Problems]
  The present invention solves the above-mentioned problems. As its first configuration, line communication means for communicating with a center terminal via a telephone line, and terminal communication means for performing transmission and reception with a meter for integrating a fluid flow rate of gas or the like. Charging / discharging interrupt means for outputting an interrupt signal when a predetermined voltage is obtained by charging and discharging, and controlling the line communication means and the terminal communication means, and charging / discharging Communication control means that is activated by an interrupt signal from the interrupting means and executes a check or refresh operation, and then initializes the charge / discharge interrupting means and returns to the stopped state, and power supply means for supplying power to the communication control meansAnd a discharge supply means for supplying the charge of the charge / discharge element of the charge / discharge interrupt means to the communication control means as power.It is composed of.
[0008]
  Also,SecondPower communication to the line communication means for communicating with the center terminal via the telephone line, terminal communication means for transmitting / receiving to / from the outside, communication control means for controlling the line communication means and the terminal communication means, and power to the communication control means. A terminal network control device comprising a power supply means for supplying power, a meter communication means for transmitting and receiving with the terminal communication means of the terminal network control device, a meter control means for integrating the flow rate of gas or controlling a gas shut-off valve, etc. Meter interrupt means for outputting an interrupt signal at time intervals and a meter comprising meter power supply means for supplying power to the meter control means, and the communication control means is activated by an interrupt signal from the meter interrupt means. After executing a check or refresh operation, the terminal network control system returns to the stop state.
[0009]
  Also,ThirdThe meter interrupt control means for controlling the operation of the meter interrupt means is provided in the meter, the terminal interrupt means for outputting an interrupt signal at an arbitrary time interval, and the terminal interrupt control for controlling the terminal interrupt means 6. A terminal network control system according to claim 5, wherein said terminal interrupt control means communicates with said meter interrupt control means and operates said meter interrupt means and said terminal interrupt means alternately. It is composed of.
[0011]
  Also,4thThe line communication means for communicating with the center terminal via the telephone line, the meter for integrating the flow rate of fluid such as gas, the terminal communication means for transmitting / receiving, the call signal for calling the telephone and detecting the interrupt signal Call signal interruption means for outputting, and communication control means for controlling the line communication means and the terminal communication means, and being activated by an interrupt signal from the call signal interrupt means and returning to a stopped state after executing a check or refresh operation And power supply means for supplying power to the communication control means.
[0014]
  Also,5thA communication means for communicating with the center terminal via a telephone line, a meter for integrating a flow rate of fluid such as gas, a terminal communication means for transmitting and receiving, and a sensor for detecting an external environmental change and outputting an interrupt signal From an interrupt means, a communication control means that controls the line communication means and the terminal communication means, and that is activated by an interrupt signal from the sensor interrupt means and performs a check or refresh operation and returns to a stopped state, and a power supply means It is configured.
[0015]
  Also,6thAs a configuration ofIn the fifth configurationSensor interrupt means detects the illuminance of light and generates an interrupt signalOutput.
[0017]
[Action]
The above configuration operates as follows.
[0018]
  The 1st structure of this invention outputs an interruption signal to a communication control means for every fixed time by utilizing the charging / discharging time of the charging / discharging element of a charging / discharging interruption means.Then, the discharge supply means supplies the power stored in the charge / discharge element to the communication control means, and the communication control means checks the state of the terminal network control device and refreshes it.
[0022]
  AlsoSecondIn this configuration, the meter interruption means outputs an interrupt signal to the terminal network control means via the meter communication means and the terminal communication means at any time. In response to the interrupt signal, the communication control means checks the state of the terminal network control device and refreshes it.
[0023]
  AlsoThirdThe terminal interrupt control means and the meter interrupt control means transmit and receive via the terminal communication means and the meter communication means to control the terminal interrupt means and the meter interrupt means, respectively, and operate them alternately. Like that.
[0025]
  Also4thThe call interruption means detects a call signal for calling a telephone connected to the terminal network control device from the outside, and outputs an interrupt signal to the communication control means. Then, the status check and refresh operation of the terminal network control device are performed by the interrupt signal.
[0028]
  Also5thIn this configuration, when a change in the external environmental state occurs, the sensor interrupt means detects this and outputs an interrupt signal to the communication control means. Then, the communication control means performs a status check and refresh operation of the terminal network control device by the interrupt signal.
[0029]
Furthermore6thIn the configuration, the optical sensor interrupt means detects when the external illuminance reaches a certain value, and outputs an interrupt signal to the communication control means. Then, the communication control means performs a status check and refresh operation of the terminal network control device by the interrupt signal.
[0031]
【Example】
Embodiments of the present invention will be described below with reference to the accompanying drawings.
[0032]
FIG. 1A shows a terminal network control apparatus according to an embodiment of the first configuration of the present invention. Moreover, (b) is a figure explaining the timing of charging / discharging of the capacitor | condenser of the apparatus.
[0033]
In FIG. 1A, 101 is a line communication means for communicating with the center terminal via a telephone line, 102 is activated by an interrupt signal from the charge / discharge interrupt means 106 while controlling the line communication means 101 and the terminal communication means 103. After executing the check or refresh operation, the communication control means for initializing the charge / discharge interrupt means 106 and returning to the stopped state, 103 for the terminal communication means for transmitting and receiving with a meter for integrating the flow rate of fluid such as gas, and 104 for communication control Power supply means for supplying power to the means 102; 105, a terminal network control device; 106, a charge / discharge interrupt means for outputting an interrupt signal when a predetermined voltage is obtained by charging and discharging of the charge / discharge element such as a capacitor; Is a center terminal, 202 is a telephone line, 203 is a diode bridge, and 204 is a terminal network control device.
[0034]
Next, the operation of the terminal network control apparatus will be described with reference to FIG.
During standby, the charge / discharge interrupt means 106 stores a charge by flowing a small amount of current through the charge / discharge element. When the electric charge is accumulated in a certain capacity, the charge / discharge interrupt means 106 outputs an interrupt signal to the communication control means 102 by detecting the voltage. The communication control means 102 is activated by the interrupt signal, and checks whether the I / O port of the microcomputer of the terminal network control device 105 is H → L or L → H due to noise or the like, refreshing the memory, Re-initialize the O port or check the battery voltage drop of the power supply means 104. After the processing, the communication control means 102 controls the charge / discharge interrupt means 106 to discharge the charge / discharge element and recharge it. By repeating this, an interrupt signal is output to the communication control means 102 at a constant time interval t as shown in FIG. Although the charging time is used in this embodiment, the same effect can be obtained even when the discharging time is used.
[0035]
A terminal network control apparatus according to an embodiment corresponding to the second configuration of the present invention will be described with reference to FIG.
[0036]
  The description of the same components and elements as those of the first embodiment described above will be omitted. The difference from the first configuration example is that power for charging the charge / discharge element of the charge / discharge interrupt means 106 is supplied from the telephone line 202.Is.
[0037]
  Next, the operation of the terminal network control apparatus will be described with reference to FIG. During standbyCharge / discharge interrupt means 106Takes out a small amount of current from the telephone line 202 to the charge / discharge element and stores the charge. And when the charge is stored in a certain capacity, by detecting the voltageCharge / discharge interrupt means 106Outputs an interrupt signal to the communication control means 102. The communication control means 102 is activated by the interrupt signal, and checks the status of the terminal network control device 105, refreshes, or checks the battery voltage drop of the power supply means 104. After the processing, the communication control means 102Charge / discharge interrupt means 106The charge / discharge element is controlled to be discharged and recharged. By repeating this, an interrupt signal is output to the communication control means 102 at regular time intervals. Although the charging time is used in this embodiment, the same effect can be obtained even when the discharging time is used.
[0038]
A terminal network control apparatus according to an embodiment corresponding to the third configuration of the present invention will be described with reference to FIG.
[0039]
  The description of the same components and elements as those of the first embodiment described above is omitted. The difference from the example of the first configuration is that power for charging the charge / discharge element of the charge / discharge interrupt means 106 is supplied from the power supply means 104.Is.
[0040]
  Next, the operation of the terminal network control apparatus will be described with reference to FIG. During standbyCharge / discharge interrupt means 106The charge / discharge element takes out a small amount of current from the power supply means 104 and accumulates charges. And when the charge is stored in a certain capacity, by detecting the voltageCharge / discharge interrupt means 106Outputs an interrupt signal to the communication control means 102. The communication control means 102 is activated by the interrupt signal, and after the process of checking the state of the terminal network control device 105, refreshing or checking the battery voltage drop of the power supply means 104, the communication control means 102Charge / discharge interrupt means 106The charge / discharge element is controlled to be discharged and recharged. By repeating this, an interrupt signal is output to the communication control means 102 at regular time intervals. Although the charging time is used in this embodiment, the same effect can be obtained even when the discharging time is used.
[0041]
  FIG. 2 shows a terminal network control apparatus according to an embodiment corresponding to the fourth configuration of the present invention. In FIG. 2, 101 is a line communication means, 102 is a communication control means, 103 is a terminal communication means, 104 is a power supply means, 105 is a terminal network control device,107Is a line current interruption means, 110 is a line current interruption means107Discharge supply means for supplying the power stored in the charge / discharge element to the communication control means, 201 is a center terminal, 202 is a telephone line, 203 is a diode bridge, and 204 is a terminal network control device having a meter.
[0042]
  Next, the operation of the terminal network control apparatus will be described with reference to FIG. During standby, the line current interruption means 107 takes out a small amount of current from the telephone line 202 to the charge / discharge element and accumulates the electric charge. When the electric charge is accumulated in a certain capacity, the line current interruption means 107 outputs an interrupt signal to the communication control means 102 and outputs an interrupt signal to the discharge supply means 110 by detecting the voltage. The discharge supply means 110 is a line current interruption means.107The charge accumulated in the charge / discharge element is maintained at a constant voltage and supplied to the communication control means 102 as electric power. The communication control means 102 becomes an operation state by the interrupt signal and the supplied power, and performs a state check of the terminal network control device 105, a refresh or a battery voltage drop check of the power supply means 104. After the processing, the communication control means 102 controls the line current interrupt means 107 to recharge. By repeating this, an interrupt signal is output to the communication control means 102 at regular time intervals.
[0043]
In the present embodiment, the discharge supply means 110 is added to the terminal control device according to claim 2, but the same effect can be obtained by adding to the terminal network control device according to claim 1 or 3. be able to.
[0044]
  FIG. 3 shows a terminal network control system according to an embodiment corresponding to the fifth configuration of the present invention. In FIG. 3, 101 is a line communication means for communicating with a center terminal via a telephone line, 102 is a communication control means for controlling the line communication means 101 and the terminal communication means 103, 103 is a terminal communication means for transmitting / receiving to / from the outside, 104 Is a power supply means for supplying power to the communication control means 102, 105 is a terminal network control apparatus, 111 is a meter communication means for transmitting / receiving to / from the terminal communication means 103 of the terminal network control apparatus 105, and 112 is an integrated flow rate of fluid such as gas. Meter control means 113 for controlling the gas shutoff valve, and a meter interrupt 113 for outputting an interrupt signal to the communication control means 102 to check whether the state of the terminal network control device 105 is normal or to perform a refresh operation. Means 114Meter interruption means 113 andA meter power supply means for supplying power to the meter control means 112, 201 is a center terminal, 202 is a telephone line, 203 is a diode bridge, and 204 is a terminal network control system having a meter.
[0045]
Next, the operation of the terminal network control system will be described with reference to FIG.
During standby, the meter interruption means 113 of the meter 204 transmits a signal to the terminal network control device 105 via the meter communication means 111 at an arbitrary time interval. Then, the terminal communication means 103 that has detected it transmits this to the communication control means 102, whereby the communication control means 102 enters an operating state, and checks the status of the terminal network control device 105, refreshes, or checks the battery voltage drop of the power supply means 104. .
[0046]
FIG. 4 shows a terminal network control system according to an embodiment corresponding to the sixth configuration of the present invention.
In FIG. 4, 101 is a line communication means, 102 is a communication control means, 103 is a terminal communication means, 104 is a power supply means, 105 is a terminal network control device, 111 is a meter communication means, 112 is a meter control means, and 113 is a meter allocation. 114, a meter power supply means, 115 outputs an interrupt signal to the communication control means 102, and controls the meter interruption means 113 for checking whether the terminal network control device 105 is in a normal state or performing a refresh operation. Meter interrupt control means 116 for outputting a interrupt signal to the communication control means 102 of the terminal network control apparatus 105 to check whether the state of the terminal network control apparatus 105 is normal or to perform a refresh operation. Means 117 controls the terminal interruption means 116 and communicates with the meter interruption control means 115 to perform the meter interruption means 113 and the terminal interruption. Terminal interrupt control means for operating the means 116 alternately 201 center terminal, 202 is a telephone line, 203 is a diode bridge, 204 is a terminal network control system with the meter.
[0047]
  Next, the operation of the terminal network control system will be described with reference to FIG. During standby, the meter interruption means 113 of the meter 204 transmits an interrupt signal to the terminal network control apparatus 105 via the meter communication means 111 at an arbitrary time interval. Then, the terminal communication means 103 that detects this transmits this to the communication control means 102, whereby the communication control means 102 enters an operating state, and checks whether the state of the terminal network control device 105 is normal or a refresh operation. Do. When the interrupt number of the meter interrupt means 113 exceeds a certain number, the meter interrupt control means 115 is connected to the terminal interrupt control means via the meter communication means 111 and the terminal communication means 103.117Terminal interruption means in the terminal network control device 105 this time116To output an interrupt signal. Then, the meter interrupt control means 115 stops the interrupt signal output by the meter interrupt means 113. Then, when the number of interrupts of the terminal interrupt means 116 exceeds a certain number, the terminal interrupt control means 117 communicates with the meter interrupt control means 115 to stop the interrupt signal output by the terminal interrupt means 116, This time, an interrupt signal is output by the meter interrupt means 113 and this is repeated.
[0048]
A terminal network control apparatus according to an embodiment corresponding to the seventh configuration of the present invention will be described with reference to FIG.
[0049]
  As described above, the same components as those described in the fifth embodiment are not described here. The difference from the example of the fifth configuration is that the meter interruption means 113 outputs an interrupt signal to the communication control means for every constant usage amount of gas or the like.Is.
[0050]
  Next, the operation of the terminal network control apparatus will be described with reference to FIG. When the meter 204 is on standbyMeter interruption means 113Transmits an interrupt signal to the terminal network control device 105 via the meter communication means 111 for each constant usage amount of gas or the like. Then, the terminal communication means 103 that has detected it transmits this to the communication control means 102, whereby the communication control means 102 becomes an operating state, and checks whether the state of the terminal network control device 105 is normal or a refresh operation. Do.
[0051]
FIG. 5 shows a terminal network control apparatus according to an embodiment corresponding to the eighth configuration of the present invention.
In FIG. 5, 101 is a line communication means, 102 is a communication control means, 103 is a terminal communication means, 104 is a power supply means, 105 is a terminal network control device, 119 is a user's telephone connected to the terminal network control device 105 A call signal interrupt means for detecting a call signal for calling and outputting an interrupt signal to the communication control means to check whether or not the terminal network control device 105 is in a normal state and a refresh operation, 201 is a center terminal , 202 is a telephone line, 203 is a diode bridge, and 204 is a terminal network controller.
[0052]
Next, the operation of the terminal network control apparatus will be described with reference to FIG.
During standby, the call signal interrupt means 119 monitors the telephone call signal coming to the telephone 205 connected to the terminal network control device 105, and outputs an interrupt signal to the communication control means 102 when this call signal is detected. To do. The communication control means 102 is activated by the interrupt signal, and checks whether the state of the terminal network control device 105 is normal or performs a refresh operation.
[0053]
A terminal network control apparatus according to an embodiment corresponding to the ninth configuration of the present invention will be described with reference to FIG.
[0054]
As described above, the same components as those described in the eighth embodiment are not described here. The difference from the example of the eighth configuration is that the call signal interrupt means 119 detects an off-hook of the user's telephone connected to the terminal network control device 105 and outputs an interrupt signal to the communication control means 102 to This is off-hook interrupt means 120 that performs a check or refresh operation to check whether the control device 105 is in a normal state.
[0055]
Next, the operation of the terminal network control apparatus will be described with reference to FIG.
During standby, the off-hook interrupt means 120 monitors the off-hook of the telephone set 205 connected to the terminal network control apparatus 105, and outputs an interrupt signal to the communication control means 102 when an off-hook is detected. The communication control means 102 is activated by the interrupt signal, and checks whether the state of the terminal network control device 105 is normal or performs a refresh operation.
[0056]
FIG. 6 shows a terminal network control apparatus according to an embodiment corresponding to the tenth configuration of the present invention.
In FIG. 6, 101 is a line communication means, 102 is a communication control means, 103 is a terminal communication means, 104 is a power supply means, 105 is a terminal network control device, 121 is a battery current on / off monitor of the power supply means 104 and abnormal If there is a port monitoring means for outputting an interrupt signal to the communication control means 102 to check whether the state of the terminal network control apparatus 105 is normal or performing a refresh operation, 201 is a center terminal, 202 is a telephone line, 203 Is a diode bridge and 204 is a terminal network control device.
[0057]
  Next, the operation of the terminal network control apparatus will be described with reference to FIG. Port monitoring means during standby121Monitors whether the power supply means 104 is supplying power to the non-operating part during standby. If it is supplied, an interrupt signal is output to the communication control means 102. Then, the communication control means 102 causes the terminal network control apparatus 105 to perform a refresh operation in case the battery voltage drop of the power supply means 104 is checked or the power supply is malfunctioned due to noise or the like by the interrupt signal.
[0058]
  FIG. 7 shows a terminal network control apparatus according to an embodiment corresponding to the eleventh configuration of the present invention. In FIG. 7, 101 is a line communication means, 102 is a communication control means, 103 is a terminal communication means, 104 is a power supply means, 105 is a terminal network control device, 122 detects an external environment change and interrupts the communication control means 102 Signal is output and the terminal network controller 105 is operating normally.StatusA sensor interrupt means for performing a check and refresh operation of the terminal, 201 is a center terminal, 202 is a telephone line, 203 is a diode bridge, and 204 is a terminal network control device including a meter.
[0059]
Next, the operation of the terminal network control apparatus will be described with reference to FIG.
When waiting, the sensor interrupt means 122 outputs an interrupt signal to the communication control means 102 when it detects any change in the external environmental state. The communication control means 102 is activated by the interrupt signal, and checks whether the state of the terminal network control device 105 is normal or performs a refresh operation. After that processing, the communication control means 102 notifies the sensor interrupt means 122 that the interrupt processing has been completed. Then, the sensor interruption means 122 starts detecting external weather changes again.
[0060]
A terminal network control apparatus according to an embodiment corresponding to the twelfth configuration of the present invention will be described with reference to FIG.
[0061]
As described above, the description of the same elements as those described in the eleventh embodiment is omitted. The difference from the example of the eleventh configuration is an optical sensor interrupt means 123 in which the sensor interrupt means 122 detects the illuminance of light and outputs an interrupt signal.
[0062]
Next, the operation of the terminal network control apparatus will be described with reference to FIG.
At the time of standby, the optical sensor interruption means 123 outputs an interrupt signal to the communication control means 102 when the illuminance of external light exceeds a certain value. The communication control means 102 is activated by the interrupt signal, and checks whether the state of the terminal network control device 105 is normal or performs a refresh operation. After the processing, the communication control means 102 notifies the optical sensor interrupt means 122 that the interrupt process has been completed.
[0063]
A terminal network control apparatus according to an embodiment corresponding to the thirteenth configuration of the present invention will be described with reference to FIG.
[0064]
As described above, the description of the same components and elements as those described in the eleventh embodiment is omitted. The difference from the example of the eleventh configuration is a vibration sensor interruption means 124 in which the sensor interruption means 122 detects vibration and outputs an interrupt signal.
[0065]
Next, the operation of the terminal network control apparatus will be described with reference to FIG.
During standby, the vibration sensor interruption means 124 outputs an interrupt signal to the communication control means 102 when the vibration exceeds a certain value. The communication control means 102 is activated by the interrupt signal, and checks whether the state of the terminal network control device 105 is normal or performs a refresh operation. After the processing, the communication control means 102 notifies the vibration sensor interrupt means 123 that the interrupt process has been completed.
[0066]
【The invention's effect】
As is apparent from the above description, the terminal network control apparatus of the present invention provides the following effects.
[0067]
(1) Since the charge / discharge time of the charge / discharge element is used to check the state of the terminal network control device, refresh, or check the battery voltage drop at certain time intervals, the oscillator that created this time interval is operated. Therefore, the power consumption can be reduced and the terminal network control device can have a long life.
[0070]
  further,Since the charge charged in the charge / discharge element is used as power for the state check and refresh operation of the terminal network control device, the battery current can be consumed without wasting it.
[0071]
  (2)Since the status of the terminal network control device and the refresh operation are performed by an interrupt signal from the meter, it is possible to simultaneously check whether the communication between the terminal network control device and the meter is normal.
[0072]
  (3)Since the interruption operation during standby is alternately performed by the terminal network control device and the meter, the burden on each battery of the terminal network control device and the meter becomes uniform and the life is almost the same. Can be done at low cost.
[0074]
  (4)When the center side cannot communicate with the terminal network control device because it is an interruption due to a call signal, the terminal network control device status check, refresh or battery voltage drop check can be performed by calling from the center side.
[0077]
  (5)Since the interruption uses an external environmental change by the sensor, the sensor most suitable for the place where the terminal network control device is installed can be used by replacing the sensor.
[0078]
  (6)When the external illuminance is above or below a certain value by the optical sensor, an interrupt signal is output. Therefore, the terminal network control device status check, refresh operation or battery voltage drop check can always be performed once a day.
[Brief description of the drawings]
FIG. 1A is a block diagram of a terminal network control apparatus in first to third embodiments of the present invention.
(B) The figure explaining the charge / discharge timing of the capacitor in the same device
FIG. 2 is a block diagram of a terminal network control apparatus according to a fourth embodiment of the present invention.
FIG. 3 is a block diagram of a terminal network control system according to fifth and seventh embodiments of the present invention.
FIG. 4 is a block diagram of a terminal network control system according to a sixth embodiment of the present invention.
FIG. 5 is a block diagram of a terminal network control apparatus in the eighth and ninth embodiments of the present invention.
FIG. 6 is a block diagram of a terminal network controller in a tenth embodiment of the present invention.
FIG. 7 is a block diagram of a terminal network control apparatus in the 11th to 13th embodiments of the present invention.
[Explanation of symbols]
101 Line communication means
102 Communication control means
103 Terminal communication means
104 Power supply means
105 Terminal network controller
106 Charge / discharge interrupt means
107 Line current interruption means
108 Battery interruption means
110 Discharge supply means
111 Meter communication means
112 Meter control means
113 Meter interruption means
114 Meter power supply means
115 Meter interrupt control means
116 Terminal interruption means
117 Terminal interrupt control means
118 Flow interruption means
119 Call signal interruption means
120 Off-hook interruption means
122 Sensor interruption means
123 Optical sensor interruption means
124 Vibration sensor interruption means
201 Center terminal
202 Telephone line
204 meters
205 telephone

Claims (6)

A line communication means for communicating with the center terminal via a telephone line, a meter for integrating a flow rate of gas such as gas, a terminal communication means for transmitting and receiving, and a charge / discharge element such as a capacitor, and charging and discharging to a predetermined voltage Then, the charge / discharge interrupt means for outputting an interrupt signal, the line communication means and the terminal communication means are controlled and activated by the interrupt signal from the charge / discharge interrupt means to perform the check and refresh operations, and then the charge / discharge Communication control means for initializing the interrupt means and returning to the stopped state, power supply means for supplying power to the communication control means, and the communication control means using the charge of the charge / discharge element of the charge / discharge interrupt means as power A terminal network control device comprising discharge supply means for supplying to the terminal.   From line communication means for communicating with the center terminal via a telephone line, terminal communication means for transmitting and receiving to the outside, communication control means for controlling the line communication means and the terminal communication means, and power supply means for supplying power to the communication control means A terminal network control device, meter communication means for transmitting and receiving with the terminal communication means of the terminal network control device, meter control means for integrating the flow rate of fluid such as gas and controlling the gas shutoff valve, interrupt signal at any time interval And a meter power supply means for supplying power to the meter control means. The communication control means is activated by an interrupt signal from the meter interrupt means to execute a check or refresh operation. After that, the terminal network control system returns to the stopped state.   A meter is provided with meter interrupt control means for controlling the operation of the meter interrupt means, and terminal interrupt control means for outputting an interrupt signal at an arbitrary time interval and terminal interrupt control means for controlling the terminal interrupt means are provided in the terminal network. 3. The terminal network control system according to claim 2, wherein the terminal interrupt control means communicates with the meter interrupt control means and operates the meter interrupt means and the terminal interrupt means alternately.   Line communication means for communicating with the center terminal via a telephone line, a meter for integrating a flow rate of fluid such as gas, and terminal communication means for transmitting and receiving, and a call signal for detecting a call signal for calling a telephone and outputting an interrupt signal An interrupt means, a communication control means for controlling the line communication means and the terminal communication means, and being activated by an interrupt signal from the call signal interrupt means and performing a check or refresh operation, and returning to a stopped state; and the communication A terminal network control device comprising power supply means for supplying power to the control means.   A line communication means for communicating with the center terminal via a telephone line, a meter for integrating a fluid flow rate of gas or the like, a terminal communication means for transmitting / receiving, a sensor interrupt means for detecting an external environmental change and outputting an interrupt signal; A communication control unit that controls the line communication unit and the terminal communication unit and is activated by an interrupt signal from the sensor interrupt unit and returns to a stop state after executing a check or refresh operation; and supplies power to the communication control unit And a power supply means. 6. The terminal network control device according to claim 5, wherein the sensor interruption means detects the illuminance of light and outputs an interrupt signal.

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