JPH03177996A - Invasion inspecting method in invader centralized monitoring device - Google Patents

Abstract

PURPOSE:To inspect whether or not the operation of an invasion sensor is performed normally from a monitoring station by cutting off or attenuating light between the phototransmitter and the photoreceiver of the invasion sensor based on a command signal for inspection. CONSTITUTION:When a TEST1 signal is outputted by operating the operating button of an invasion sensor panel 6 or performing keyboard input from the monitoring station 3, a power source for test is supplied to each invasion sensor detector 7 via terminal control equipment 5, and a testing circuit is operated, which stops the light transmission of the phototransmitter 5. When the light transmission is stopped, an alarm signal is sent to the monitoring station 3 via the invasion sensor detector 7 and the terminal control equipment 7, then, it is inspected whether or not the invasion sensor 4 is operated normally at the monitoring station 3. Similarly, when a TEST2 signal is outputted, the output of the phototransmitter 1 is lowered to the minimum light reception operating level of the invasion sensor 4, and since light reception from the phototransmitter 1 is disabled when the sensor 4 is dirty, it is possible to inspect for which invasion sensor 4 maintenance is required.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to an intrusion sensor inspection method in an intruder intensive monitoring device. This is to check whether the intrusion sensor is operating normally.

(Prior art) As shown in Fig. 3, the conventional intruder intensive monitoring system for a cave is equipped with an intrusion sensor A that detects the intrusion of an outsider at each of the large groove mouths of the cave. When sensor A detects an intruder to Omizoguchi, the sensor sends out a detection signal, which is transmitted from terminal control device B to monitoring station C via a dedicated line, etc.
This was so that Monitoring Station C could monitor the intrusion of outsiders into Omizoguchi.

This intrusion sensor A uses a limit switch, which is Ozoguchi's R (grating).

When the hatch etc.) is opened, ONL, terminal control device B
This allows the detection signal to be sent to.

These intrusion sensors A were inspected (maintenance inspection) once every 17 months to see if they were operating properly. Activate the intrusion sensor A, send a detection signal from the sensor A to the monitoring station C via the terminal control device B, check the signal at the monitoring station C, and check whether the sensor A is operating normally. I went to check on it.

(9, Problem to be solved by Ming) Since the intrusion sensor A is a limit switch, in the conventional inspection method, the door of the main groove entrance must be opened, and the door is located in the longitudinal direction of the tunnel. Because they are scattered in
Workers had to visit each door individually, consuming a great deal of effort (no openings) for inspection.

(Objective of the Invention) The object of the present invention is to provide a centralized intruder monitoring system that allows a worker to inspect six intrusion sensors without having to open the main entrance door one by one, and to inspect many of them in a short time. The object of the present invention is to realize an intrusion sensor inspection method.

(Means for Solving the Problems) A method for inspecting an intrusion sensor in a central monitoring device of the present invention is that the light received by the light receiver 2 from the light transmitter 1 is detected by an intruder as shown in FIGS. When the intruder is blocked, an intrusion sensor 4 is installed at each of the two or more entrances and exits to detect the intruder and transmit a detection signal to the monitoring station 3. In an intruder intensive monitoring device that allows a monitoring station 3 to monitor intruders, the light between the light transmitter l and the light receiver 2 of the intrusion sensor 4 is transmitted to the sensor 4 based on an inspection command signal. At that time, the monitor signal emitted from the intrusion sensor 4 is transmitted to the monitoring station 3, and the monitoring station 3 detects the waste intrusion sensor 4.
Item 6 is characterized in that it is possible to check whether or not it is operating normally.

(Function) The intrusion sensor and inspection method of the present invention include the feeding and inspection of the intrusion sensor 4.
The light between the light receivers 2" A and 2 is cut off or weakened based on the inspection command signal transmitted from the monitoring station 3, intrusion sensor, or inspection board 6 to the same sensor 4, and when an intrusion occurs, The monitor signal generated from the sensor 4 is transmitted to the monitoring station 3 so that the function of each intrusion sensor 4 can be inspected by the monitoring station 3, so if the light is blocked by the inspection command signal, Since the state is the same as if an intruder had entered between the transmitting and receiving light i1.2 (pseudo intrusion state), it is possible to check whether the intrusion sensor 4 is operating normally while staying at the monitoring station 3. can.

In addition, if the intensity of the light between the transmitter and receiver 1.2 is lowered to the minimum light reception level of the intrusion sensor 4 by the command signal for the second inspection from the monitoring station 3 or the intrusion sensor inspection panel 6, the intrusion sensor 4
If the sensor 4 is not dirty with dust, etc., the same state as before lowering the light reception level will continue, but if the sensor 4 is dirty, the light receiver 2 will not be able to receive the light from the light transmitter 1, and the state will change. Since the intrusion sensors 4 are monitored by the monitoring station 3, it is possible to check which intrusion sensor 4 is dirty while staying at the monitoring station 3. That is, it is possible to check the intrusion sensor 4 for dirt by creating the same state (pseudo dirt state) in which either or both of the transmitting and receiving light R31, 2 are dirty.

(Example of Actual Corridor) FIG. 1 is an embodiment of the intrusion sensor inspection method in the intruder intensive monitoring device of the present invention. In this figure, 3 is a monitoring station, 5 is a terminal control device, 6 is an intrusion sensor inspection panel, 7 is an intrusion sensor detector, 1 is a light transmitter, 2 is a light receiver, 4 is a light transmitter l and a light receiver 2. This is an intrusion sensor consisting of.

The monitoring station 3 includes a terminal control device 5. A signal is transmitted to the intrusion sensor 4 via the intrusion sensor detector 7, and a signal is received from the intrusion sensor 4 via the intrusion sensor detector 7 and the terminal control device 5. This monitoring station 3 has a keyboard, display, etc.! The intrusion sensor 4 is equipped with four devices that can be used to send a command signal for intrusion inspection to the intrusion sensor 4.

As the intrusion sensor 4, an infrared sensor or the like is used that transmits and receives infrared rays between a light transmitter 1 and a light receiver 2 that face each other. This intrusion sensor 4 is designed to detect that someone has intruded when infrared rays are rejected due to someone passing between the light transmitter 1 and the light receiver 2, for example.

The terminal controller 5 transmits an inspection command signal sent from the monitoring station 3 or the intrusion sensor or inspection board 6 to the intrusion sensor detector 7, and conversely monitors the signal from the detector 7. This is what is transmitted to station 3.

The inspection command signal may be, for example, an intrusion inspection signal (TESTI signal) for creating a pseudo-same state with one outsider +4 people (retreating light from the light transmission 231), or an intrusion inspection signal (TESTI signal) for intrusion sensor 4. There is a contamination check signal (TEST2 signal) for creating a pseudo condition similar to when the light source is soiled with dust or the like (lowering the light intensity from the light transmitter 23I).

The inspection command E may be sent out from the monitoring station 3, but it may also be sent out from the intrusion sensor point keyboard 6. In other vehicle inventions, the intrusion sensor point keyboard 6 may be
Signal generator 23 that generates the STI signal and the TEST2 signal
are built-in, and operation buttons 6a and 6b for generating signals from these signal generators are attached externally.

In the present invention, the user operates the operation button of the intrusion sensor inspection panel 6 shown in FIG.
When the ESTI signal is output, test power is supplied to each intrusion sensor detector 7 via the terminal 11i11fil device 5, and the test circuit is operated by this test power to stop light transmission from the light transmitter l. When the light transmission stops, an alarm signal is sent to the monitoring station 3 via the intrusion sensor detector 7 and the terminal control device 5, and the monitoring station 3 checks whether the intrusion sensor 4 is normal.

Similarly, when the operation button on the intrusion sensor inspection panel 6 is operated or the TEST2 signal is output manually from the keyboard of the monitoring station 3, inspection power is supplied to the intrusion sensor detector 7 of each intrusion sensor 4, and the inspection hole The light transmitter 1 output is lowered to the minimum light receiving operation level of the intrusion sensor 4. At this time, if the intrusion sensor 4 is not dirty, the same state as before lowering the light reception level will continue, but if the sensor 4 is dirty, the light receiver 2 will not be able to receive the light from the light transmitter l. A detection signal to that effect is sent from the intrusion sensor 4 to the monitoring station 3. Therefore, it is possible to check which intrusion sensor 4 requires maintenance while remaining at the monitoring station 3.

The second reason is that the transmission system fit devices 5 are connected in multiple stages in a tree shape, and the (7) TEST+ signal and TEST2 signal are transmitted from the monitoring station 3 or the intruder station 6 to the monitoring station 3 or the intrusion sensor. , is transmitted to the intrusion sensor detector 7 via two or more stages of transmission control device 5, and conversely, an alarm signal from the intrusion sensor detector 7 is transmitted to the monitoring station via two or more stages of transmission control device 5. 3. The intruder intensive monitoring device shown in FIG. 2 is suitable for cases where there are many caves with a small number of large ditches.

(Effects of the Invention) According to the method of one inspection of the intrusion sensor in the intrusion 8 intensive monitoring device of the present invention, the following effects are obtained.

■ The operating status of all the intrusion sensors 4 can be inspected while the MF'+ is at the monitoring station 3 without going to the intrusion sensors 4.
can be inspected in a short time, resulting in significant labor savings.

■ By connecting the transmission control devices 5 in multiple stages as shown in Figure 2, it is possible to monitor a large number of intrusion sensors 4 by block. This is very convenient because it is possible to quickly and accurately check which intrusion sensor 4 of which block has an abnormality when the intrusion sensors 4 are scattered in various areas.

[Brief explanation of drawings]

1 and 2 are explanatory diagrams of different embodiments of the intrusion sensor inspection method in the intruder intensive monitoring device of the present invention, and FIG. 3 is an explanatory diagram of the intrusion sensor inspection method in the conventional intrusion sensor centralized monitoring device. . l is the light transmitter 2C, the light receiver 3 is the monitoring station 4 is the intrusion sensor

Claims (1)

[Claims] When the light received by the light receiver 2 from the light transmitter 1 is blocked by an intruder, the intrusion sensor 4 detects the intruder and transmits a detection signal to the monitoring station 3. In the intruder intensive monitoring device installed in each of the intrusion sensors 4, the intruder can be monitored by the monitoring station 3 based on the detection signal from the intrusion sensor 4, the light transmitter 1 and the light receiver 2 of the intrusion sensor 4 The light between the intrusion sensor 4 is blocked or weakened based on the inspection command signal transmitted to the intrusion sensor 4, and the monitor signal generated from the intrusion sensor 4 is transmitted to the monitoring station 3, and the monitoring station 3, it is possible to check whether each intrusion sensor 4 is operating normally or not.