JP4023009B2 - Terminal network controller - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a terminal network control apparatus.
[0002]
[Prior art]
FIG. 7 shows a block diagram of a conventional terminal network control apparatus. In the figure, reference numeral 1 denotes a terminal network control device which is connected to a telephone line 2 via terminals L1 and L2, and its input is connected to a communication processing unit 3 which performs connection control with the telephone line 2, modem communication and the like. The terminals L1 and L2 are connected to a relay unit 5 for connecting / disconnecting the terminals T1 and T2 to which the telephone 4 is connected. The relay unit 5 uses a well-known mechanical latching relay (not shown). ing. Terminals L 1 and L 2 are terminals for connecting a meter terminal such as a gas meter, and communicate with the control unit 7 via the meter interface unit 8. Further, the control unit 7 controls the communication processing unit 3 when the energization control of the coil of the relay unit 5 or the polarity reversal of the telephone line 2 is detected, and a modem circuit or the like provided in the communication processing unit 3 is not shown. A no-ringing signal (hereinafter, referred to as an NRS signal) reception processing and subsequent data communication and a terminal calling communication operation for calling from a meter terminal are performed.
[0003]
[Problems to be solved by the invention]
On the other hand, since the conventional terminal network control device uses a mechanical latching relay for the relay unit 5, the latching relay is reversed by an external impact or the like, so that the telephone line and the telephone are disconnected. There is a problem that cannot be used. SUMMARY OF THE INVENTION The present invention solves such conventional problems, and an object of the present invention is to provide a terminal network control device that prevents a telephone from becoming unusable.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention detects this state when the telephone line and the telephone are disconnected due to a malfunction of the relay, and resets the latching relay so that the telephone line and the telephone are immediately connected. Is provided. The reset means prevents the telephone line and the telephone from being disconnected and the telephone cannot be used.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
In order to solve the above problems, a communication processing unit that performs line connection control and communication control with a telephone line, a meter interface unit that performs communication with a meter terminal, and a telephone connected to the telephone line and the outside A relay unit that performs connection / disconnection, a contact state detection unit that detects a connection state between a telephone line of the relay unit and a telephone, the communication processing unit, the meter interface unit, and the relay unit, and the contact point A control unit for detecting the state of the state detection unit, and the control unit connects the relay unit when the contact state detection unit detects a disconnection state even though the disconnection control of the relay unit is not performed. By operating in the state, it is possible to reduce the state where the telephone becomes unusable because the telephone is disconnected from the telephone line due to a malfunction of the relay unit.
[0006]
Further, by detecting the output of the contact state detection unit with the interrupt input of the microcomputer constituting the control unit, it is possible to shorten the time from the occurrence of the relay malfunction until the relay is reset.
[0007]
In addition, by configuring the contact state detection unit to operate with the power of the telephone line, the contact state detection unit will not operate when it is not connected to the telephone line, and the terminal network control device is connected to the telephone line. It is possible to prevent wasteful consumption of power.
[0008]
Further, by providing a control unit that stops the communication operation when the contact state detection unit detects a malfunction of the relay during the communication operation, it is possible to prevent the communication malfunction.
[0009]
Further, by configuring the control unit to periodically check the output of the contact state detection unit, it is possible to reliably cope with a relay malfunction.
[0010]
【Example】
Embodiments of the present invention will be described with reference to the drawings.
[0011]
Example 1
In FIG. 1, reference numeral 1 denotes a terminal network control device which is connected to a telephone line 2 via terminals L1 and L2, and its input is connected to a communication processing unit 3 which performs connection control with the telephone line 2, modem communication and the like. . The terminals L1 and L2 are connected to a relay unit 5 for connecting / disconnecting the terminals T1 and T2 to which the telephone 4 is connected. The relay unit 5 uses a well-known mechanical latching relay (not shown). ing. Although not shown, this latching relay is provided with a set coil and a reset coil, and the built-in contacts can be controlled to be disconnected and connected by outputting pulses to the output terminals 7a and 7b of the control unit 7. .
[0012]
The relay unit 5 is connected to a contact state detection unit 6 that detects whether the relay contact is connected to the telephone line 2 and the telephone 4, and the output is input to the input terminal 7 c of the control unit 7. The Terminals M 1 and M 2 are terminals for connecting a meter terminal such as a gas meter, and communicate with the control unit 7 via the meter interface unit 8.
[0013]
The control unit 7 is constituted by a well-known microcomputer (hereinafter referred to as a microcomputer), which controls energization of the coil of the relay unit 5, monitors the output of the contact state detection unit 6, and reverses the polarity of the telephone line 2. When detected, the communication processing unit 3 is controlled, and although not shown, a modem circuit or the like provided in the communication processing unit 3 is operated to perform NRS signal reception processing and subsequent data communication and no ringing communication and transmission from the meter terminal. Performs terminal call communication operation for calling.
[0014]
FIG. 2 is a waveform of a main part for explaining the above operation. Waveform (2-1) is a voltage waveform at terminals T1 and T2, and V1 is normally 48V. A waveform (2-2) is an output waveform of the contact state detection unit 6. A waveform (2-3) is a voltage waveform of the output terminal 7a of the control unit 7. The line voltage V1 is normally applied to the terminals T1 and T2 from the telephone line, but when the contact of the relay unit 5 is reversed at time t1 due to an impact or the like and the terminals T1 and T2 are disconnected from the terminals L1 and L2, the terminal T1 , T2 is no longer applied with voltage.
[0015]
This state is detected by the contact state detection unit 6 and a waveform as shown by the waveform (2-2) is output and input to the input terminal 7c of the control unit 7. When the control unit 7 detects a signal from the contact state detection unit 6 after time T2, it outputs a reset pulse shown in the waveform (2-3) to the output terminal 7b. By this reset pulse, the contact of the relay unit 5 operates to connect the terminals L1 and L2 and the terminals T1 and T2.
[0016]
(Example 2)
FIG. 3 is a flowchart (a) and (b) showing the processing of the microcomputer when the input terminal 7c of the control unit 7 is processed as an interrupt input of the microcomputer. The flowchart (a) shows the operation of the interrupt process. When a signal indicating that the relay unit 5 malfunctions is input to the input terminal 7c of the control unit 7, the interrupt process 9 is processed. In step 10, the relay unit 5 is reset. The relay reset flag RF indicating whether or not to be set is set to 1. In step 11, other necessary processing as the terminal network control device is performed, and the interrupt processing is finished. The flowchart (b) shows the operation of the main processing. In step 12, the relay reset flag RF is confirmed. If the relay reset flag RF is not set, processing such as communication operation as a terminal network control device is performed in step 15. If it is confirmed in step 12 that the relay reset flag RF has been set, the relay reset flag RF is reset to 0 in step 13 and relay reset processing for outputting a reset pulse from the output terminal 7b of the control unit 7 in step 14 is performed. Works to do.
[0017]
(Example 3)
In FIG. 4, the communication processing unit 3 is provided with a diode bridge 3a and operates to make the polarity of the telephone line 2 non-polar. In addition, the relay unit 5 is provided with a contact constituted by the contacts 5a to 5f, a set coil (not shown) that brings the contact into a broken line state, and a reset coil that brings the contact into a connected state indicated by a solid line. 7 are controlled by pulses output from the output terminals 7a and 7b.
[0018]
The contact state detection unit 6 is connected from the contacts 5c and 5f of the relay unit 5 and includes diodes 6a and 6b, a protective resistor 6c, a bias resistor 6d, and a transistor 6e. When the contact of the relay unit 5 is switched to the state indicated by the dotted line due to a malfunction, the base current is supplied to the transistor 6e through one of the diodes 6a and 6b and the resistor 6c through the relay contact from the positive potential of either of the terminals L1 and L2. The transistor 6e is turned on, and the state is input to the input terminal 7c of the control unit 7. Since the transistor 6e operates with the voltage applied to the terminals L1 and L2, when the telephone line 2 is not connected to the terminals L1 and L2, the transistor 6e is not connected even if the contact of the relay unit 5 is a broken line. Do not work. Accordingly, when the terminals L1 and L2 are not connected to the telephone line 2, the control unit 7 and the relay unit 5 do not operate, so that it is possible to suppress the power consumption of the power source supplied to the circuit.
[0019]
(Example 4)
FIG. 5 shows a main part waveform diagram of the terminal network control apparatus 1. A waveform (5-1) is a voltage waveform at the terminals T1 and T2, a waveform (5-2) is a diagram showing a communication state of the communication processing unit 3, and a waveform (5-3) is an output waveform at the output terminal 7b of the control unit 7. Indicates. When the contact of the relay unit 5 is switched at time t1 due to an impact or the like and the voltage of the telephone line 2 is not generated at the terminals T1 and T2, the contact state detection unit 6 detects the state and the communication processing unit 3 is in communication. For example, the processing is stopped at time t2. Thereafter, the control unit 7 outputs a reset pulse to the output terminal 7b at time t3 to return the relay unit 5 to the reset state.
[0020]
(Example 5)
FIG. 6 is a flowchart (a) and (b) showing the processing of the microcomputer when the input terminal 7c of the control unit 7 is processed as an interrupt input of the microcomputer. The flowchart (a) shows the operation of the interrupt process. When a signal indicating that the relay unit 5 malfunctions is input to the input terminal 7c of the control unit 7, the interrupt process 9 is processed. In step 10, the relay unit 5 is reset. The relay reset flag RF indicating whether or not to be set is set to 1. In step 11, other necessary processing as the terminal network control device is performed, and the interrupt processing is finished. The flowchart (b) shows the operation of the main processing. In step 12, the relay reset flag RF is confirmed. If the relay reset flag RF is not set, processing such as communication operation as a terminal network control device is performed in step 15. If it is confirmed in step 12 that the relay reset flag RF has been set, the relay reset flag RF is reset to 0 in step 13 and relay reset processing for outputting a reset pulse from the output terminal 7b of the control unit 7 in step 14 is performed. Works to do.
[0021]
In step 16, a timer counting a predetermined time is monitored, and step 17 is processed when the predetermined time elapses. In step 17, the level of the input terminal 7 c of the control unit 7 is confirmed, and when it is detected that the contact of the relay unit 5 is malfunctioning, the relay reset flag RF is set to 1 in step 18. When the relay reset flag is set to 1, the relay unit 5 is reset in step 12 as described above.
[0022]
【The invention's effect】
As described above, according to the present invention, the contact state detection unit detects the disconnection state without performing relay disconnection control from the control unit in a state where the telephone line and the telephone are connected by the relay unit. By providing the control unit that operates the relay in the connected state, it is possible to reduce the state in which the telephone becomes unusable because the telephone is disconnected from the telephone line due to a malfunction of the relay.
[0023]
Further, by detecting the output of the contact state detection unit with the interrupt input of the microcomputer constituting the control unit, it is possible to shorten the time from the occurrence of the relay malfunction until the relay is reset.
[0024]
In addition, by configuring the contact state detection unit to operate with the power of the telephone line, the contact state detection unit will not operate when it is not connected to the telephone line, and the terminal network control device is connected to the telephone line. It is possible to prevent wasteful consumption of power.
[0025]
Further, by providing a control unit that stops the communication operation when the contact state detection unit detects a malfunction of the relay during the communication operation, it is possible to prevent the communication malfunction.
[0026]
Furthermore, by configuring the control unit to periodically check the output of the contact state detection unit, it is possible to reliably cope with the malfunction of the relay.
[Brief description of the drawings]
FIG. 1 is a block diagram of a terminal network control apparatus according to a first embodiment of the present invention. FIG. 2 is a timing chart of the apparatus. FIG. 3A is an external input of a microcomputer of a terminal network control apparatus according to a second embodiment of the present invention. Flowchart of interrupt processing (b) Flowchart of main processing of the microcomputer FIG. 4 is a block diagram of a terminal network control device in Embodiment 3 of the present invention. FIG. 5 is a timing diagram of the terminal network control device in Embodiment 4 of the present invention. [FIG. 6] (a) Flow chart of external input interrupt process of microcomputer of terminal network control apparatus in embodiment 5 of the present invention (b) Flow chart of main process of the microcomputer [FIG. 7] FIG. Block diagram [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Terminal network control apparatus 2 Telephone line 3 Communication processing part 4 Telephone 5 Relay part 6 Contact state detection part 7 Control part 8 Meter interface part

Claims (5)

A communication processing unit that performs line connection control and communication control with a telephone line, a meter interface unit that communicates with a meter terminal, a relay unit that connects and disconnects the telephone line and a telephone connected to the outside, Control for detecting a connection state between the telephone line of the relay unit and the telephone, control for controlling the communication processing unit, the meter interface unit, and the relay unit and detecting the state of the contact state detection unit And a terminal network control device that causes the relay unit to operate in the connected state when the contact state detection unit detects a disconnected state even though the disconnection control of the relay unit is not performed . 2. The terminal network control device according to claim 1, wherein the control unit is constituted by a microcomputer, and an output from the contact detection unit is connected to an interrupt input of the microcomputer. 2. The terminal network control device according to claim 1, wherein the contact state detection unit operates with electric power supplied from a telephone line. The terminal network control device according to claim 1, wherein the control unit stops the communication operation by the communication processing unit when the contact state detection unit detects the connection state in a state where the relay is controlled to be disconnected. 3. The terminal network control device according to claim 2, wherein the control unit periodically checks the output of the contact state detection unit at a preset time interval and operates the relay unit in the connected state when the contact is reversed.

Images