KR20020057595A - Method for starting automatic vigilance in security system - Google Patents

Abstract

PURPOSE: Provided is an automatic warning initiation process in an unmanned guard system which automatically changes into a guard initiation mode on the set time without manual work so that it helps to operate the guard system efficiently. CONSTITUTION: The automatic warning initiation process in the unmanned guard system comprises the steps of: a first step which operates the guard system and sets initiation time; and a second step which performs the guard initiation mode on the set initiation time. In detail, the first step is divided into the steps of: (i) generating an introduction message to enter the initiation time; (ii) entering the cancellation time for warning initiation in a corresponding to the introduction message; (iii) entering the initiation time; and (iv) setting automatic guard function.

Description

METHOOD FOR STARTING AUTOMATIC VIGILANCE IN SECURITY SYSTEM}

The present invention relates to an unmanned security system, and more particularly, to an automatic boundary initiation method for automatically starting the boundary by setting the boundary start when the time is set, even if the user does not artificially set the boundary start.

In general, unmanned security systems are installed in homes, shopping malls, offices, etc. to notify the control room in case of emergency, for example, intruders, fires, gas leaks, etc. It is a system that automatically communicates emergency situations to personnel dispatch and police station. The unmanned security system provides various kinds of sensors such as pressure sensors and heat sensors, and the signals detected by these sensors and various control signals generated by the user to the control room of the security system wherever it is easy to invade the subscriber building. It is provided with a security terminal device for such, such a security terminal device is disclosed in Korean Laid-Open Patent Publication No. 1997-67030. The guard terminal device as described above uses a memory card (IC card or magnetic card) to set or release the guard start.

These guard devices are located in some building (ie, room or office) where most users can share as much as possible. For example, if a subscriber uses a five-story building, the terminal guard may be in an office on any one floor. Therefore, when the user sets the guard terminal using the card, closes the door and comes out, it does not check whether the set is right there. Checking sets is only possible in rooms with guard terminals.

However, such a security system does not perform the security for the building in the control room unless the user sets the guard gas to the guard terminal using the card. Therefore, if the user forgets to set up the security initiation and does not set the security initiation, a security blank will be generated. There was a problem of having to go out and set for security guards.

Accordingly, an object of the present invention is to provide an automatic boundary initiation method for automatically performing a security guard start operation when the time is set when the user forgets in the security terminal device of the unmanned security system.

1 is a block diagram of a security terminal device according to an embodiment of the present invention

2 is a control flowchart for registering an automatic boundary start time according to an embodiment of the present invention.

3A, 3B, 3C, and 3D are exemplary diagrams of a guide message for inputting an automatic alert time of the present invention.

4 is a control flowchart for executing automatic boundary start according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: A / D Converter 12: CPU

14: timer 16: audio output unit

18: alarm generating unit 20: display unit

22: RF module 24: key input unit

26: wireless remote control 28: piezo buzzer

30: speaker 32: communication unit

In the automatic alert start method of the unmanned security system of the present invention for achieving the above object, the process of inputting the automatic alert start time by operating a security terminal device installed in the subscriber building, and after the automatic alert start time is input It is characterized in that the process of executing the alert start mode automatically when the input time of the automatic boundary start.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of a security terminal device according to an embodiment of the present invention.

The A / D converter 10 receives external intrusion detection, gas leakage detection, fire occurrence detection signals from various sensors (pressure sensor, heat detection sensor, etc.) and converts them into digital signals. The wireless remote controller 26 is provided with a boundary start, boundary release, and emergency key to generate key signals for these key signals and transmit them wirelessly. The RF module 22 demodulates the key signal received from the wireless remote controller 26 and applies it to the CPU 12. The key input unit 24 generates key signals for setting various functions (remote control number setting, partial boundary setting, boundary start time setting, customer ID and control room telephone number input), and applies them to the CPU 12. The timer 14 is composed of a real time clock chip, and provides the current time to the CPU 12 by the real time clock. The CPU 12 receives a boundary start, boundary release, and emergency signal input from the RF module 22 to set boundary start and boundary release, and controls to notify the control room of an emergency situation when an emergency signal is input, and the boundary start mode. Detects a plurality of sensor states from the A / D converter 10 to transmit information on chip particle generation, gas leakage, and fire to the control room, and various operation states according to the operation of the key input unit 24. Outputs a voice message control and display control signal to inform the user of the message. The voice output unit 16 generates the current operating state and the alarm state voice signal under the control of the CPU 12 and outputs the same through the speaker 30. The alarm generator 18 generates an alarm signal for notifying an emergency situation under the control of the CPU 12 and outputs the alarm signal through the piezo buzzer 28. The display unit 20 includes a plurality of LEDs for displaying a current operating state and an alarm state message under the control of the CPU 12, and displaying a plurality of sensor operating states. The communication unit 32 interfaces to communicate with the control room under the control of the CPU 12.

The key input unit 24 is connected to the CPU 12, but in the case of providing a security terminal sub-device, the key input unit is provided in the security terminal sub-device, and the key is communicated between the security terminal sub-device and the security terminal main device. Receive and process an input signal.

2 is a control flowchart for registering an automatic boundary start time according to an embodiment of the present invention.

3A, 3B, 3C, and 3D are exemplary views of a guide message for inputting an automatic alert time of the present invention.

4 is a control flowchart for executing automatic boundary start according to an embodiment of the present invention.

1 to 4, the operation of the preferred embodiment of the present invention will be described in detail.

First, an operation of setting a time for automatic boundary initiation will be described with reference to FIGS. 2 and 3.

In step 101, the CPU 12 checks whether the SET key is pressed from the key input unit 24, and proceeds to step 102 when SET is pressed. In step 102, the CPU 12 controls the voice output unit 16 to provide a voice guidance message, for example, "Hello! This is Secunet." Press the button. The voice prompt message is output through the speaker 30. Then, in step 103, the CPU 12 controls the display unit 20 to display as shown in FIG. 3A. At this time, the user presses the 3 key to set the boundary start time. Then, in step 104, the CPU 12 checks whether an automatic boundary time setting key, for example, key 3 is pressed, and proceeds to step 105 when the key 3 is pressed. In step 105, the CPU 12 controls the display unit 20 to display a message for inputting a boundary release time as shown in FIG. 3B. In this case, when the user inputs the boundary release time by operating the key input unit 24 in the state shown in FIG. 3B, for example, as shown in FIG. 3C, the user inputs 09:00 and the current time is displayed at the bottom thereof. Then, the user enters the alert release time and then presses the enter key. In step 106, the CPU 12 checks whether the enter key is pressed and proceeds to step 107 when the enter key is pressed. In step 107, the CPU 12 controls the display unit 20 to display a message for inputting the automatic boundary start time as shown in FIG. 3D. In this case, when the user inputs the boundary release time by operating the key input unit 24 in the state shown in FIG. 3D, for example, 17:30 as shown in FIG. 3E, and the currently set automatic boundary start time is displayed at the bottom thereof. . Then, the user enters the automatic boundary start time and then presses the enter key. In step 108, the CPU 12 checks whether the enter key is pressed and proceeds to step 109 when the enter key is pressed. In step 109, the CPU 12 checks whether the automatic boundary start time is set to 00:00, for example, the automatic boundary release time, and if it is set to 00:00, proceeds to step 111 to release the automatic boundary function. However, if the automatic boundary start time is not set to 00:00, the automatic boundary function is set. Since the automatic boundary start time is 00:00, it is recognized that the automatic boundary is not used. Therefore, the automatic boundary start time is registered as 00:00 when the automatic boundary function is released.

As described above, the operation of executing the auto boundary mode after setting the auto boundary function will be described with reference to the flowchart of FIG. 4. In step 201, the CPU 12 checks whether the auto boundary function is set and sets the auto boundary function. If not, proceed to step 202 to perform the function. However, if the automatic boundary function is set, the process proceeds to step 203 and the CPU 12 checks whether the current time of the timer 14 has reached the automatic boundary start time, and returns to step 204 if the automatic boundary start time has not been reached. However, if the current time has reached the automatic boundary start time, the process proceeds to step 205 where the CPU 12 stores the current state of the plurality of sensors via the A / D converter 10. That is, a plurality of sensors installed in the door or the window stores the state in which the door or the window is not closed. Remembering the current state of the plurality of sensors is to detect the presence of an intruder when the state of the plurality of sensors is changed after starting the automatic boundary start. Then, in step 206, the CPU 12 controls the voice output unit 16 to output a voice message indicating that the auto boundary is ready to start through the speaker 30, and at the same time, to control the alarm generator 18 to issue an alarm. Proceed to step 207. In step 207, the CPU 12 notifies the control room via the communication unit 32 of the boundary start signal. Thereafter, in step 208, the CPU 12 executes the automatic boundary mode to notify the control room that an emergency situation has occurred through the communication unit 32 when the state of the sensors is different from those currently stored by the plurality of sensors.

As described above, in the unmanned security system, the user forgets to set the alert start mode and automatically sets the alert start mode when the set time is reached even if the user does not set the alert start mode. There is no need to avoid wasting manpower, there is an advantage that can effectively operate the guard terminal device.

Claims (3)

In the automatic alert start method of the unmanned security system, Inputting an automatic alert start time by operating a security terminal device installed in the subscriber building; And after the automatic boundary start time is input, the automatic boundary start mode is automatically executed when the input of the automatic boundary start time is reached. The process of claim 1, wherein the automatic boundary start time input process comprises: Outputting a guide message for inputting the automatic boundary start time when the automatic boundary start time input mode key is input; Inputting the automatic alert start release time corresponding to the guide message; Inputting the automatic boundary start time after inputting the automatic boundary start release time; The automatic boundary start method of claim 1, wherein the automatic boundary function is set when the automatic boundary start time is input. The method of claim 2, And a step of releasing the automatic boundary function upon inputting the automatic boundary start release time after inputting the boundary start time.