KR950004843Y1 - Security system which gives automatically power for monitor - Google Patents

Abstract

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Description

Monitor Auto Power-On Security System

1 is a schematic diagram of a security system consisting of a VCR, a monitor and a surveillance camera detector.

Figure 2 is a specific circuit diagram showing the main part of the present invention.

3 is a functional table according to the present invention.

* Explanation of symbols for main parts of the drawings

2: VCR A, B: unit

3: Monitor IJ: Input Jack

5: CRT L: LPF

6, 7: D flip-flop Po: power on terminal

CLR: Cree terminal MV: Video signal processor

SS: Security system Q ₁ , Q ₂ , Q ₃ , Q ₄ : Transistor

CLK: Clock S: Detector

D: Input terminal

The present invention is a security system consisting of a VCR, a meter, and a surveillance camera detector. The monitor automatically powers the monitor to immediately capture the scene by automatically applying power to the monitor when a situation occurs and the detector generates a signal. An on security system.

Conventional security systems have VCRs, monitors and surveillance cameras installed to detect when a situation occurs, which is to operate the surveillance camera and VCR to record the site, but if the monitor is turned off, the power switch must be operated. It is in operation, and the supervisor is inconvenient to recognize the occurrence of the situation by the siren or the alarm lamp alarm system, and to find and operate the power switch.

Therefore, in some cases, there is a problem that it is difficult to capture the site by not turning on the monitor quickly, and in order to prevent this, it may be considered to keep the monitor on a large scale. There was an uneconomical problem because it causes unnecessary power waste and shortens the service life of the monitor.

In order to solve the above problems, the present invention shapes the output waveform from the detector to the VCR of the security system, and applies it to the video output terminal along with the output of the image amplification circuit, which is monitored by a single connection line. Transistor connected to the monitor's tact switch by the waveform-formed sensor and the image signal input to the image input terminal inside the monitor. By turning on, the monitor's built-in macro processor initiates power supply, allowing the monitor to start operating immediately, allowing the monitor to start automatically and capture the scene immediately in the event of a situation without the need for additional wiring. Security System Benefits It is intended to be augmented, and will be described in detail with reference to the accompanying drawings as follows.

The output side of the detector S is connected to the clock terminal CLK of the D flip-flop 6, the preset terminal PR is connected to the power supply side B ⁺ , and the input terminal D and the output terminal Q are connected. Is connected to the input side of the AND gate (G), and the power supply (B ⁺ ) or ground is connected to one input of the AND gate (G), and the ) Has the base of transistor Q ₃ connected to the collector connected to the other input of the AND gate G, the output side of the AND gate G and transistors Q ₁ (Q ₂ ) and LPF (Low Pass Fiter) (L) and the output jack (OJ) are connected in sequence, and the unit A (A) is connected to the output jack (OJ) via the condenser (C ₁ ) to the output side of the image amplification circuit (VA). ) Is installed inside the VCR (2) constituting the VCR, and one side of the LPF (L) and the capacitor (C ₂ ) is connected to the input jack (IJ), and the video signal processing unit (MV) and the D flip-flop ( 7) connect the clock terminal CLK, connect the input terminal D and the preset terminal PR to the power supply B ⁺ , and ) Is connected to the base of the transistor Q ₄ connected in parallel with the tact switch 8 of the monitor 3, and the grill terminal ) Is a unit B (B) connected to the power-on terminal (Po) of the monitor power supply unit (9) is installed in the monitor (3). Switch.

According to the present invention, the power source B does not pass through the LPF (L) regardless of whether the D flip-flop 6 is operated when the ARAM number position ASW is in the "off" state.

In the case where the situation does not occur in the state in which the ARAM switch ASW is "on", there is no output from the detector S, and a high level signal is applied to the preset terminal PR of the D flip-flop 6. A high level signal is also applied to the input terminal 9D via the ARAM switch ASW, and the output of the gate G is low because the output of the current output terminal Q is at a low level. since the level of the transistor (Q _1, Q ₂₎ is "off" is the state the power (B ⁺⁾ can not pass through the LPF (L), is also low, the base potential of the transistor (Q ₃₎ transistor (Q ₃₎ Since is turned off, the CREE terminal is in a standby state to which a high level signal is applied.

Therefore, the output of the image amplifying circuit VA is output to the output jack OJ through the condenser C ₁ , which is applied to the input jack IJ through the connection port and passes through the condenser C ₂ to the image signal processing unit ( MV), but when the monitor 3 is in the " off " state, since the power-on terminal Po of the monitor power supply unit 9 is at the high level, the inverted output terminal ㅃ is maintained at the high level. ) Can be used to prevent idle power loss.

While waiting in this state, if a situation occurs and an output (high level) of the detector S is generated, it is applied to the clock terminal CLK of the D flip-flop 6 and outputted as shown in the function table of FIG. Q) outputs the high level output, and the output of the gate G becomes the high level, so the transistors Q ₁ and Q ₂ are in the "turn-on" state, and the power supply B ⁺ is outputted through the LPF (L). (OJ), and the video signal of the Aram VCR is neutralized to the output jack (OJ).

In addition, the high level of the output terminal (Q), after a certain period of time through the time delay circuit consisting of a diode and RC, which is applied to the base of the transistor (Q _3), so the transistor (Q ₃₎ to the turn-on status wherein Cree terminal (CLR) becomes low level, and as a result, as shown in the function table of FIG. 3, the output terminal Q causes state reversal to give a low level output again.

Therefore, the output level of the gate G becomes low level, and the transistors Q ₁ and Q ₂ are "turned off" and enter the initial state.

In this process, each part and the output terminal Q of the D flip-flop 6 are in the standby state after a predetermined time, and the video signal of one long pulse Aram VCR is output to the output jack OJ of the VCR. It is neutralized and output to the input jack IJ of the monitor 3 through the connector.

Also, the long pulse and the video signal inputted to the input jack IJ are removed through the LPF (L), and only the long pulse is applied to the clock terminal CLK of the D flip-flop 7 so that the inverted output terminal ( ) Output is inverted and becomes low level. Therefore, since the low level signal is input and turned on at the base of the transistor Q ₄ , the same state as when the tact switch 8 is "on" is turned on to the monitor 3. The built-in microprocessor "powers up" the monitor 3 and at the same time the power on terminal Po of the monitor power supply 9 is set to the low level state, and the clock terminal CLK is brought into the low level state. 7) maintains the previous state again according to the function table of FIG. 3, the monitor 3 starts normal operation, and the monitor 3 receives the VCR (video signal from the surveillance camera 1). By relaying from 2) to the CRT 5, the monitor can capture the scene through the CRT 5 of the monitor 3 at the same time as the situation occurs.

In addition, in the present invention, the transmission of a video signal and a control signal are performed as one connection port and an input / output jack (IJ) (OJ), so that the LPF (L) and the capacitor (C) are excluded to eliminate the interference between the two signals. ₁ ) (C ₂ ) is used.

In this way, in the security system, even when the monitor 3 is deliberately turned off, a situation occurs and the monitor 3 is operated at the moment when the detector S is operated so that the site can be immediately captured by the CRT 5. Not only is it very convenient, but it is also possible to monitor effectively. Even when the Aram system 4 fails, the monitor 3 is automatically operated to increase the reliability of the security system. The monitor 3 and the CRT It is a useful design having numerous advantages such as being able to prevent unnecessary power waste by (5).

Claims (1)

In the well-known thing consisting of the detector S and the VCR 2, the monitor 3, the CRT 5, etc., the output side of the detector S is connected to the clock terminal CLK of the D flip-flop 6, , Cree terminals ( ) Is connected to the collector of transistor Q ₃ , the base of which is connected to the output terminal Q, and the input terminal D is selectively connected to the power supply side B ⁺ or ground, and such an input terminal D And output terminal Q are connected to the inputs of the AND gates G, and transistors Q ₁ (Q ₂ ) and LPF (L) are sequentially connected between the output side and the output jack OJ, and the unit A Built in the VCR (2), connects the clock terminal (CLK) of the LPF (L) and the D flip-flop (7) to the input jack (IJ), and presets the input terminal (D) of the D flip-flop (7) Terminal (PR) Cree Terminal ( ) Is connected to the power supply side (B,), and the inverted output terminal ( ) Is connected to the base of the transistor Q ₄ connected in parallel with the tact switch 8, and the cree terminal ) Is a unit (B) connected to the power-on terminal (Po) of the monitor power supply unit (9), and the monitor automatic power-on security system characterized in that it is built in the monitor (3).