JPS59153297A - Remote monitor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a remote monitoring device that connects a terminal device and a center device via a communication line, such as a telephone line, and monitors the status of the terminal device.

FIG. 1 is a diagram for explaining the connection state of this type of equipment, where 3 is a terminal device, 5 is a center device, 4 is a telephone exchange, and l
2a and 2a are sensors connected to the terminal device 3, and 6 is a display connected to the center device.

If there is a change in status such as an abnormality on the terminal device 3 side, the sensor 1
a(2a) operates and detects this. When this detection output is applied to the terminal device 3, the terminal device 3 sends a signal to the center device 5 to transmit the information and display it on the display 6.

This display (thus, the terminal device 3 side is now monitored).

However, regardless of the operation of the sensor 1a (2a), the terminal device 3 is activated for a certain period of time "j3 (for example, every month), and in this case, whether the operating state of the terminal device 3 is royal palace or not. , (for example, whether the power supply voltage is appropriate or not) is usually devised to improve reliability as a remote monitoring device.

Conventionally, there are methods based on actual sowing using a clock, etc. as a timing means for this purpose, and methods using a timer circuit, etc. that is started when the power is turned on (installed) of the device and output is obtained at fixed intervals. However, in the former case, when installing the terminal device 3, you must calibrate the clock and set the output so that the time does not change as much as possible between other terminal devices. No. Unfortunately, the clock still needed to be calibrated after installation. In the latter case, since the terminal devices are installed most often during the daytime, the above-mentioned activations at fixed time intervals will also be concentrated during the daytime, making reception impossible if a large number of terminal devices are installed. This caused other inconveniences.

The present invention solves these problems and will be explained in detail with reference to embodiments of the drawings.

FIG. 2 is a block diagram showing a conventional terminal device, 20],
, 202 is a sensor, 203 is a sensor input circuit, 204 is a startup control circuit, 205 is a clock, 206 is a transmission control unit for encoding information to be sent to the center device, and 207 is an automatic calling unit for calling the center device. , 208 is a connection terminal with a telephone line, 209 is a device number setting section, 210 is a detector that detects the operating state of the terminal device (for example, whether the power supply voltage is normal or not), and 211 is a detection input circuit. . Next, the operation will be explained.

Currently, there is a change in status such as an abnormality on the terminal device side, and the processor 2
If 01 responds, the signal will be sent to Zensa input circuit 2.
03, here it is converted to a predetermined No. 43 level, and one of its outputs is given to the activation control circuit 204.

As a result, the activation control circuit 204 sends an activation signal to the transmission control section 206 and the automatic calling section 207. Automatic calling unit 207 to which the activation signal has been given! At the same time, the telephone line is acquired, and the telephone number of the center device, which is stored in advance, is sequentially transmitted to call the center device. On the other hand, the transmission control unit 206 to which the activation signal is applied inputs the other output signal ε output from the sensor input circuit 203, and receives the signal from the sensor input circuit 203.
01 into a code corresponding to the response information, and also encodes the device number (address number of the terminal device) set in the device number setting section 209, and prepares to send these at predetermined time intervals. . When the center device calls, the automatic caller 207 detects this and sends this detection signal to the transmission controller 206, which sends the prepared code to the telephone line. do. This allows the center device to be notified of an abnormality on the terminal device side. Furthermore, a terminal device (this is provided with a timer, such as a clock 205, and is configured to give a signal to the activation control circuit 204 at fixed time intervals, for example, once every month).

When the 8-motion control circuit 204 is driven by the chair number, the automatic calling section 207 and the transmission control section 206 are activated in the same manner as described above, but in this case, the transmission control section 206 receives the output from the sensor input circuit 203. Not a signal, but a detection input circuit 21
The output signal of 1 and the device number are encoded and sent to the center device in the same manner as described above. This allows the center device to periodically monitor the operating status of the terminal device.

By the way, the above-mentioned time limit means has conventionally been a clock that sets the real time as shown in Fig. 2, or a timer circuit that starts when the terminal device is installed (power is turned on). Regarding periodic activation by means, there are problems as described above.

FIG. 3 is a block diagram showing an embodiment of the present invention. Components similar to those in FIG. 2 are designated by the same reference numerals and redundant explanation will be omitted. 301 to 303 are device number setting sections, which are configured to be set as three-digit numbers, with 301 being the 1st place and 302 being the 1st place.
The 0th place and 303 are composed of switches for setting the 100th place digit, and the output thereof is applied to the transmission control unit 206 as in the conventional case, and the numerical information of each digit is also sent to the time limit means 304, which will be described later, in binary form. It is configured to be entered in code. 305 to 307 are decimal counters each having a load terminal, and 308 is a frequency divider circuit configured to frequency divide the output of the oscillator 309 and generate a clock signal for the counter 305 that counts the first digit. ing.

The counters 305 to 307 are configured such that their carry outputs are added as clock signals to the next counter, and the carry output of the 100th counter 307 is applied to the startup control circuit 204, and this output (thereby, the startup control Circuit 204 is activated.

310 is an inverter, and 311 and 312 are capacitors and resistors for applying a predetermined input signal to the inverter 310 when the terminal device is powered on.

The output of inverter 310 is connected to the load terminals of counters 305-307. In this embodiment, the activation control circuit 204 is driven once a month, and therefore the output clock of the frequency dividing circuit 308 is transmitted at a cycle of 720/'1000 per hour. It is configured.

Next, the operation will be explained.

The operation caused by the response of the sensors 201 and 202 is the same as that shown in FIG. 1, so the periodic activation which is the key point of the present invention described above will be explained. When the power is turned on, the oscillator 309 is driven, and its output is sent to the period divider circuit 308.
The frequency is divided into the above-mentioned period by , and its output is input as the clock of the counter 305. On the other hand, a predetermined pulse determined by the resistor 312 and the capacitor 31 is applied to the inverter 310, and its output is input to each counter 3σ5.
Since the counters 305 to 307 are given to the load terminals (Ll) of 307, the respective counters 305 to 307 are set in the device number setting units 301 to 303, and the numerical values of the numbers are loaded as initial values.

Therefore, after the power is turned on, the carry that is first output from the counter 307 is a count value that is decreased by the above initial value, and after that, since the load signal is not given, the carry is the maximum estimated value (1000 in the embodiment). ) will be output.

In other words, when a terminal device is installed, its device number determines the time for the first periodic startup, and thereafter it will be activated at a fixed cycle starting from that time, so the startup between each terminal device will be The time will be automatically distributed.

Further, according to the present invention, even if there is a temporary power outage on the terminal device side, the device operates in the same way as when it was installed, so there is no need for the periodic activation to be the same for each terminal device due to a power outage.

As explained above/as described above, according to the present invention, it is not affected by the installation time of the terminal device t°C, it eliminates the trouble of calibrating the real time, and moreover, it is possible to disperse the timing of periodic startup. The above-mentioned conventional problems can be solved.

[Brief explanation of drawings]

FIG. 1 is a block diagram for explaining the connection state of a conventional device of this type, FIG. 2 is a block diagram showing a conventional terminal device, and FIG. 3 is a block diagram of a terminal device according to the present invention. 3-・One terminal device, 5・Center device 201.2
02. Sensor, 204 Start-up control circuit, 20
5 - Clock 206 - Transmission control section, 305 to 307 decimal counter Patent applicant Daisuke Co., Ltd.: Daisuke Higo, representative of i-machine manufacturing

Claims (1)

[Claims] A center device and a terminal device are connected by a communication line, and the terminal device is configured to transmit status information of a sensor connected to the terminal device to the center device. A timer for monitoring at least a certain period of time; a self-exciting calling means for calling a center device by being activated by the output of the timer; and a device for sending out its own device number as information to the center device. a number setting means, and the output of the device number setting means is input as an initial value to the time limit means.