KR950001571B1 - Frame sequence circuit - Google Patents

Abstract

The frame sequential switch of a security system is constructed that plural monitoring areas may be displayed on the main and minor screens simultaneously when one monitors plural places by using CCTV and a camera. The frame sequential switch includes an alarm detector for detecting a time lapse; a micom for receiving a detection data of the alarm detector and controlling the system; a controller for controlling a monitor object channel and the output of video signal; a channel automatic selector for selecting the plural channels automatically and sequentially by control of the controller; a multi outputting part for outputting the video signal of the plural channels simultaneously; signal processors for processing respectively the output signal of the multi outputting part; and a PIP controller for outputting signals of two channels as the signal of the main and minor screens.

Description

Frame sequential switch of disaster prevention system

1 is a block diagram of a frame sequential switch according to the present invention.

* Explanation of symbols for main parts of the drawings

10: alarm detection unit 20: micom

30: control unit 40: channel automatic selection unit

50: multi output unit 60, 70: signal processing unit

80: PIP control part

The present invention relates to a frame sequential switcher of a disaster prevention system, and more particularly, to a frame sequential switcher such that a plurality of monitoring zones are displayed simultaneously on the mother screen when monitoring a plurality of places using CCTV and a camera. .

The video sequential switcher and the frame sequential switcher used in the conventional disaster prevention system alternately display a plurality of monitored areas on the monitor through a simple switching operation at a set time unit. It became.

Therefore, the longer the setting time, the more difficult it is to monitor the situation occurring during the time interval that the monitoring target area is displayed.

In addition, there is a problem that the situation occurring in other monitoring areas is not monitored even if the monitoring time is set long according to the importance of monitoring area.

The present invention has been made to solve such a problem, and an object of the present invention is to visualize the monitoring time by allowing the situation of multiple places to be simultaneously displayed on the mother screen using the PIP function when monitoring a plurality of monitored areas. It is to provide a sequential switcher of the disaster prevention system that was prevented.

The present invention for achieving the above object is an alarm detection unit for checking the monitoring time and detecting the set time elapsed, a microcomputer that receives the detection data of the alarm detection unit and generates a command to control the system; A control unit that controls the monitoring target channel, the video signal and the output according to a control command, a channel automatic selection unit that automatically selects a plurality of channels sequentially by the control of the control unit, and the image of the plurality of channels under the control of the control unit. Multi-output section for simultaneously outputting the signal, the signal processing section for processing the output signal of the multi-output section, respectively, and the signal of the two channels processed by the signal processing section by the control of the microcomputer It is characterized by a sequential switch of a disaster prevention system that has a PIP control unit that outputs the power.

Hereinafter, embodiments of the present invention will be described in detail according to the accompanying drawings.

1 shows the configuration of a frame sequential switch using a PIP function according to the present invention.

As shown in FIG. 1, an alarm detector 10 for detecting a set time elapsed by checking a monitoring time, a microcomputer 20 for receiving a detection data of the alarm detector 10 and generating a command to control the system, A control unit 30 that controls the output of the monitoring target channel and the video signal according to the control command of the microcomputer 20, and a channel automatic selection unit that automatically selects a plurality of channels sequentially by the control of the control unit 30. 40, a multi output unit 50 for simultaneously outputting video signals of multiple channels under the control of the control unit 30, and a signal processing unit 60 for processing the output signals of the multi output unit 50, respectively. ), PIP control unit for outputting the signals of the two channels processed by the signal processing unit 60, 70 by the control of the microcomputer 20, as a signal of the mother screen ( It became the structure provided with 80).

In this invention, the system is configured to select n channels when the monitored region is n regions.

Accordingly, the channel automatic selection unit 40 has n channel input stages, and selects a plurality of channels according to the control of the controller 30 to the output terminals A and B of the multi output unit 50. Output video signals of different channels.

The video signal is processed by the signal processing units 60 and 70 and input to the PIP control unit 80.

At this time, the PIP controller controls the mother screen according to the command of switching between the normal mode and the spot mode transmitted from the microcomputer 20.

In the spot mode, when the detection signal generated by the alarm detecting unit 10 at each setting time for automatic channel selection is input to the microcomputer 20, the microcomputer 20 receives the signal and receives the signal from the microcomputer 20. During the set Alarm Hold Time, either the child screen or the parent screen is displayed continuously.

More specifically, the channel automatic selection unit 40 selects a channel having a predetermined time or a certain period of time under the control of the controller 30.

The selected channels output signals of different channels to both output terminals A and B of the multi output unit 30. For example, the signal of the output terminal A becomes the parent screen and the output terminal B side. If the signal is set to the own screen, the mother screen displays video signals of other channels at regular intervals. In addition, the video signal of another channel is also displayed in the own screen in the same or separate period as the channel switching period of the mother screen.

Therefore, the monitoring time is increased in the place where the monitoring importance is high among the n monitoring places, which are n channels, and the monitoring time is shortened and the blind spots of the other monitoring places are shortened by monitoring time in other places. To prevent anger.

As described above, according to the frame sequential switcher of the disaster prevention system according to the present invention, a plurality of monitoring places are monitored by two monitors at the same time by using a PIP function on a single monitor. The screen has a time period and is monitored by sequentially selecting a plurality of channels.

Therefore, it is possible to monitor the centralized monitoring according to the importance of the monitoring site and to minimize the comprehensive time interception of all the monitoring targets, which has the effect of minimizing the blindness of the monitoring, which is the most difficult problem in the disaster prevention system.

Claims (1)

The alarm detection unit 10 which checks the monitoring time and detects the set time elapses, the microcomputer 20 which controls the system by receiving the detection data of the alarm detection unit 10, and the control command of the microcomputer 10. A control unit 30 that controls the output of the monitoring target channel and the video signal, a channel automatic selection unit 40 that automatically selects a plurality of channels sequentially by the control of the control unit 30, and the control unit A multi output unit 50 for simultaneously outputting video signals of multiple channels under the control of 30, signal processing units 60 and 70 for processing the output signals of the multi output unit 50, respectively; And a PIP controller 80 for switching between normal mode and spot mode by controlling the microcomputer 20 and outputting two-channel signals as signals of a mother screen.