KR940006926Y1 - Trigger signal cutout apparatus - Google Patents

Abstract

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Description

Trigger signal interrupter of surveillance system

1 is a block diagram of a surveillance system configured in combination with a conventional video sensor.

2 is a schematic circuit diagram of a trigger signal interruption apparatus of a monitoring system according to a preferred embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: video camera 3, 15: mixer

5: Sync signal separator 16: Selection switch

17: tri-state buffer gate 25: luminance fluctuation detector

26: variable resistance 27: inverter

35: relay 50: video center

60: micom

The present invention relates to a trigger signal interruption apparatus of a surveillance system, and in particular, adaptively detects a trigger signal generated during a test of a surveillance system having a video sensor that detects whether an image is directly invaded from a video signal. The present invention relates to a trigger signal interruption device capable of intermittent control.

Typically, museums and banks are equipped with a monitoring system to protect the object from intruders who infiltrate it at night for a desired purpose. A typical example of such a monitoring system is one shown in FIG. .

As shown in the drawing, a typical typical surveillance system is composed of a video sensor 50 for processing an image signal captured by the video camera 1, a microcomputer 60 and a plurality of elements, so that the sensitivity of the mark portion is shown. It consists of a test signal generating means for generating a test signal for measurement, the video signal processed here is displayed on the monitor 10 and recorded on the tape through the V-C20 at the user's selection as needed In addition, such a monitoring system is to send an alarm to the remote police box or the security service provider 30 through the trigger signal generated every time the mark responds in case of intrusion.

Next, a description will be given of an operation process of a conventional typical monitoring system having the above configuration.

As can be seen from FIG. 1, the video sensor 50 includes a synchronization signal separation unit 5, a luminance variation detection unit 25, and a mixer 15, and includes a video signal captured by the video camera 1. Directly detects whether the invasion of the crush is provided to the monitor 10 and V-Cal (20).

More specifically, the synchronizing signal separator 5 in the video sensor 50 separates the vertical and horizontal synchronizing signals from the image signal for the image photographed by the video camera 1. The luminance fluctuation detector 25 internally delays the horizontal and vertical synchronization signals input from the synchronization signal separator 5 and outputs a signal for forming a mark to the mixer 15. In addition, the mixer 15 mixes the image signal input directly from the video camera 1 and the mark forming signal from the luminance fluctuation detecting unit 25 so that a square mark can be formed on the monitor 10. do. At this time, the mark appearing on the monitor 10 will appear as a portion where the luminance is increased compared to the entire image displayed on the monitor 10.

In addition, the luminance fluctuation detecting section 25 selects a part of the video signal corresponding to the mark portion from the video signal directly input from the video camera 1 as shown in FIG. If an object, for example an intruder, is involved in some of the selected video signal parts, a change in luminance will occur in this signal part.

Accordingly, the luminance variation detection unit 25 detects a voltage variation corresponding to the luminance variation, and then outputs the detected signal as a trigger signal for operating the VLC 20 connected to the outside through a line. What is substantially detected here is the voltage variation for some of the video signals to be selected, but this may be identified by causing a change in the mark portion on the monitor, for example a blinking phenomenon. (For a more detailed description of the video sensor, see patent applications 91-25876 and 91-25877 filed on December 31, 1991 by the same applicant of the present invention under the name "Intrusion Surveillance and Recording System"). Quotes)

On the other hand, the test signal generating means for generating a test signal for measuring the sensitivity of the mark portion includes a mixer (3) and a microcomputer (60) interconnected with the video sensor 50, the microcomputer (60) by the user Manual selection switch 16 is connected.

On the other hand, the microcomputer 60 is connected to the mixer through the test signal output port whenever the vertical sync signal is input from the sync signal separator 5 in the video sensor 50 while the selection switch 16 is turned on by the user. The test signal is output to (3). Herein, the variable resistor 26 connected to the test signal output port of the microcomputer 60 is for adjusting the voltage level of the test signal generated by two signals of two levels, namely, high level and low level, to approximately 0V to 1V. .

The mixer 3 mixes the video signal from the video camera 1 and the test signal input from the microcomputer 60. Therefore, when the mixed signal from the mixer 3 is output to the monitor 10 via the mixer 15, the bar-shaped test bar extending in the horizontal direction on the monitor passes downward while overlapping the mark portion. At this time, when the trigger signal is generated from the luminance fluctuation detection unit 25 by the mark portion sensitive to the high level test signal, the VRF 20 is operated in the recording mode and the video camera 1 is mounted on the mounted tape. ) Is recorded.

On the other hand, reference numeral 30 denotes a police box or a crime prevention service provider, and the illustrated alarm actuated by the trigger signal input from the luminance fluctuation detection unit 25 through the line 9 when the intruder enters the monitoring area. The device is installed. In addition, although not shown in FIG. 1, the conventional monitoring system includes an internal alarm device.

However, the conventional surveillance system as described above has the disadvantage that the following problems are caused when the test signal for checking the sensitivity of the video sensor 50 is generated. That is, when the user wants to measure the sensitivity of the video sensor by using a test bar signal to check whether the video sensor 50 is operating well, the selection switch 16 for executing the test is turned on. The test signal output from the 60 is provided to the mixer 3, and at the same time, the luminance fluctuation detection unit 25 generates a trigger signal according to the luminance fluctuation.

As a result, according to the conventional apparatus, the trigger signal output from the luminance fluctuation detecting unit 25 is transmitted to the alarm device of the external remote location, so that an alarm sound is generated at the external remote location. Therefore, although it is intended to test the surveillance system, it is often the case that an external remote site (such as a police box or a security service provider) misinterprets that an intruder has occurred in the surveillance area and takes action to respond to it (such as dispatching). It happens.

Therefore, the present invention is intended to solve the above-mentioned problems of the prior art, and can prevent the operation of an external alarm device at a remote location due to a trigger signal generated by a mark response due to a test signal when a monitoring system is tested. It is an object of the present invention to provide a trigger signal interrupter for a monitoring system.

In order to achieve the above object, the present invention detects a variation in a luminance signal in an image signal photographed by a video camera through a luminance variation detecting means, and a trigger signal generated in the luminance variation detecting means based on the detected luminance variation signal. A video sensor which drives a V-C connected through a line in a recording mode and generates an alarm driving control signal from an external remote location, and whenever the vertical synchronization signal is detected from the video signal according to a manual operation signal. A trigger signal interruption apparatus of a monitoring system having a test signal generating means for providing a video signal mixed with a test signal to a sensor, the trigger signal interrupting device being located at an output side to an external remote site, from the test signal generating means at the time of testing the monitoring system. Generated by test signal based on control signal of As a control signal and provides a trigger signal of the contact-breaker device monitoring system, characterized in that made in further comprising a three-state buffer gate to block the transmission of the trigger signal output from the luminance change detecting means.

On the other hand, the trigger signal interruption device of the present invention having the configuration as described above is connected between the collector and the power supply of the transistor connected through the inverter to the output side of the three-state buffer gate, noise from the external alarm device to the monitoring system It is further provided with a relay for preventing the inflow.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

2 is a block diagram of a trigger signal interruption apparatus of a monitoring system according to a preferred embodiment of the present invention. As can be clearly seen from the comparison of FIG. 1, which shows the same figure with the conventional apparatus, the trigger signal interruption apparatus of the present invention has a V-CAL and an external remote device (a police box or a security service provider) in the luminance fluctuation detection unit 25 in the video sensor. 3) has a three-state buffer gate (17) whose control terminal is connected to the microcomputer (60) on the line (9) for transmitting the trigger signal, and the relay (35) is used on the output side to an external remote site. Its main features are that, except for these components is shown as the same reference numerals in FIG. 1 for ease of understanding since the other members are substantially the same element to perform the same function as in the conventional apparatus.

Therefore, in the following, since the functions of the other elements have already been described in detail above, a description will be made mainly on newly added elements.

Prior to the description of the present invention, the characteristics of the tri-state buffer gate element employed in the present invention, the buffer gate 17 is a gate element well known in the art as a high level control signal through the inversion control terminal When is input, it is disabled. On the contrary, when a low level control signal is input through the control terminal, it is enabled.

First, in order to check whether the video sensor 50 is operating well while the surveillance system is operating, a selection switch for executing a test by measuring the sensitivity of the video sensor using a test bar signal ( When 16) is turned on, the microcomputer 60 outputs a test signal to the mixer 3 through its test signal output port every time the vertical synchronization signal is input from the synchronization signal separation unit 5 in the video sensor. Therefore, the test signal mixed with the image signal by the mixer 3 is provided to the monitor, which is not shown in FIG. 2 through the mixer 15, so that the user can check whether the monitoring system is in operation.

In addition, at the same time as the large display on the monitor, the internal alarm device will sound an alarm.

On the other hand, under the above circumstances, the microcomputer 60 provides the test signal to the mixer 3 based on the vertical synchronizing signal from the synchronizing signal separating unit 5 and simultaneously controls the inversion of the tri-state buffer gate 17. Apply a high level control signal to the terminal. Therefore, as already described above, the tri-state buffer gate 17 is in a disabled state.

As a result, the three-state buffer gate 17 is disabled by the control signal from the microcomputer 60 during the test of the monitoring system, thereby transmitting trigger signals to the V-CALs and external remotes connected through the line. This prevents not only the recording of VRF during the testing of the surveillance system, but also prevents the alarm from operating at an external remote location.

On the other hand, since the low level control signal is applied from the microcomputer 60 to the inversion control terminal of the tri-state buffer gate 17 during normal operation, that is, during the operation of the monitoring system, the tri-state buffer gate 17 is enabled. It works. Therefore, a luminance change, that is, a voltage change occurs due to the invasion of the monsters. When the trigger signal is output from the luminance change detection unit 25 in the video sensor, the trigger signal is driven in the recording mode of the VRC connected through the line. The alarm will sound an alarm.

More specifically, since the trigger signal output from the luminance change detection unit 25 at the time of detecting the luminance change is inverted to a high level in the inverter 27 to generate an alarm at an external remote place through the three-state buffer gate 17, Transistor Q1 whose base is connected to the output of inverter 27 via resistor R1 is biased, i.e., turned on. As a result, the power supply Vcc connected to the input side of the relay 35 is excited to the relay coil, so that the relay switch is turned on.

Accordingly, as the transistor Q1 is turned on and the power supply Vcc is applied to the relay 35, an alarm device installed at an external remote location, not shown, emits an alarm sound.

In the above-described trigger signal interruption apparatus of the present invention, unlike the conventional apparatus described above, a relay is added to an output side that transmits a driving signal for generating an alarm to an external remote location. This is to protect the primary circuit from noise or lightning that enters the monitoring system undesirably at the output terminal of the device. In addition, if the relay is used in this way, the external voltage can be used as a side effect that can be used for the alarm device.

According to the present invention as described above, an error in the external remote site that may be caused by the test by effectively blocking the alarm drive signal to the external remote site during the test for the sensitivity check of the monitoring system ( Operation can completely prevent the intruder from entering the surveillance zone.

In addition, by employing a relay on the output side to the external remote location, there is an effect that can protect the primary circuit of the monitoring system from noise or lightning coming back from the external remote site.

Claims (2)

The luminance signal is detected from the video signal photographed by the video camera 1 through the luminance variation detecting unit 25, and a trigger signal generated by the luminance variation detecting unit 25 is generated based on the detected luminance variation signal. The video sensor (5, 25, 15) for driving the alarm 20 is connected to the line via the line in the recording mode and at the same time generates a control signal for the alarm drive of the external remote 30, and according to the manual operation signal Trigger of a surveillance system having test signal generating means (16, 60, 3) for providing a video signal mixed with a test signal to the video sensors (5, 25, 15) whenever a vertical synchronization signal is detected in the video signal. In the signal interruption apparatus, it is located on the output side to the external remote site, and is generated by a test signal based on a control signal from the test signal generating means (16, 60, 3) at the time of testing the monitoring system. And a tri-state buffer gate 17 for interrupting transmission of the trigger signal output from the luminance fluctuation detecting means 25 as an alarm driving control signal from an external remote location. Signal interrupter. The output of the tri-state buffer gate 17 is connected between the collector and the power supply Vcc of the transistor Q1 connected via the inverter 27. And a relay (35) for preventing noise from flowing into the monitoring system.