CN219497141U - Perimeter security system based on internet of things technology - Google Patents

Abstract

The utility model provides a perimeter security system based on the technology of the Internet of things. The perimeter security system comprises an electronic fence, a cable assembly, a microwave correlation device, a ground wave vibration device and a monitoring processor; the electronic fence is used for warning the unauthorized invasion of the facility fence and sending a corresponding alarm signal to the monitoring processor; the cable assembly is used for detecting unauthorized intrusion behaviors of the facilities entrance and exit and sending corresponding alarm signals to the monitoring processor; the microwave correlation device is used for detecting unauthorized intrusion behaviors in the detection area of the facility and sending corresponding alarm signals to the monitoring processor; the ground wave vibration device is used for detecting unauthorized intrusion behaviors above the ground wave vibration device and sending corresponding alarm signals to the monitoring processor; the monitoring processor is used for determining the current security and protection condition according to each alarm signal. The utility model can construct a comprehensive perimeter security system and accurately identify the emergency.

Description

Perimeter security system based on internet of things technology

Technical Field

The utility model relates to the technical field of security systems, in particular to a perimeter security system based on the technology of the Internet of things.

Background

The perimeter security protection is to deploy a sensor on the perimeter of a fixed area, and when an illegal object enters or passes through the perimeter, the sensor can detect the moving object and give an alarm signal in real time, so that the perimeter protection function is achieved. For example, in some areas requiring important management, such as airports, prisons, dangerous goods storage areas, chemical plants, etc., it is often necessary to provide a perimeter security system.

The precaution scheme that current security protection system often adopted mainly has: infrared correlation intrusion detection, leakage cable intrusion detection, vibration optical cable intrusion detection and the like, and blind spots exist in protection areas of the schemes, so that sudden events are difficult to accurately identify and correspondingly protect.

Disclosure of Invention

The utility model solves the problem of how to construct a comprehensive perimeter security system.

In order to solve the problems, the utility model provides a perimeter security system based on the technology of the Internet of things, which comprises an electronic fence, a cable assembly, a microwave correlation device, a ground wave vibration device and a monitoring processor;

the electronic fence is arranged on the facility enclosing wall, and is used for warning the unauthorized invasion behavior of the facility enclosing wall and sending a corresponding alarm signal to the monitoring processor;

the cable assembly is arranged at the entrance and exit of the facility, and is used for detecting unauthorized intrusion behavior of the entrance and exit of the facility and sending a corresponding alarm signal to the monitoring processor;

the microwave correlation device is arranged in a facility detection area, and is used for detecting unauthorized intrusion behaviors of the facility detection area and sending corresponding alarm signals to the monitoring processor;

the ground wave vibration device is arranged under the facilities, and is used for detecting unauthorized intrusion behaviors above the ground wave vibration device and sending corresponding alarm signals to the monitoring processor;

the monitoring processor is used for determining the current security and protection condition according to each alarm signal.

Optionally, the electronic fence comprises a storage battery, and the storage battery is used for providing standby power for the electronic fence when the electronic fence loses power supply of a power grid.

Optionally, the cable assembly includes a leaky cable for forming the cylindrical electromagnetic field protection area, the leaky cable for transmitting an alarm signal when the cylindrical electromagnetic field protection area is disturbed, and a vibratory cable for transmitting an alarm signal when climbing, cutting and breaking the doorway behavior is detected.

Optionally, the leakage cable comprises a radio frequency transmitter for generating a sine wave to be applied on the leakage cable to generate the cylindrical electromagnetic field protection area.

Optionally, the leakage cable comprises a sensitivity adjuster for adjusting an alarm sensitivity of the leakage cable.

Optionally, the microwave correlation device comprises a transmitter for directionally transmitting microwave energy and a receiver for receiving the microwave energy.

Optionally, the ground wave vibration device comprises a ground wave vibration detector, and the ground wave vibration detector is used for capturing vibration signals generated by a ground moving object.

Optionally, the perimeter security system based on the internet of things technology further comprises a communication device, wherein the communication device is used for transmitting signals between the monitoring processor and the electronic fence, the cable assembly, the microwave correlation device and the ground wave vibration device.

According to the perimeter security system based on the Internet of things technology, a multi-level defense system is constructed through the electronic fence, the cable assembly, the microwave correlation device, the ground wave vibration device and the monitoring processor, facilities are protected together, blind spots do not exist, signals can be processed in a centralized mode through the monitoring processor, so that identification of corresponding events can be achieved, and emergency events can be accurately identified and corresponding protection can be carried out.

Drawings

Fig. 1 is a schematic diagram of a perimeter security system based on the internet of things technology according to an embodiment of the present utility model.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

As shown in fig. 1, the embodiment of the utility model provides a perimeter security system based on the internet of things technology, which comprises an electronic fence, a cable assembly, a microwave correlation device, a ground wave vibration device and a monitoring processor;

the electronic fence is arranged on the facility enclosing wall, and is used for warning the unauthorized invasion behavior of the facility enclosing wall and sending a corresponding alarm signal to the monitoring processor;

the cable assembly is arranged at the entrance and exit of the facility, and is used for detecting unauthorized intrusion behavior of the entrance and exit of the facility and sending a corresponding alarm signal to the monitoring processor;

the microwave correlation device is arranged in a facility detection area, and is used for detecting unauthorized intrusion behaviors of the facility detection area and sending corresponding alarm signals to the monitoring processor;

the ground wave vibration device is arranged under the facilities, and is used for detecting unauthorized intrusion behaviors above the ground wave vibration device and sending corresponding alarm signals to the monitoring processor;

the monitoring processor is used for determining the current security and protection condition according to each alarm signal.

Specifically, the perimeter security protection system based on the internet of things comprises an electronic fence, a cable assembly, a microwave correlation device, a ground wave vibration device and a monitoring processor, wherein the electronic fence, the cable assembly, the microwave correlation device and the ground wave vibration device are used for protecting facilities together and carrying out centralized processing on signals through the monitoring processor so as to realize identification of corresponding events.

The electronic fence is arranged on the facility enclosing wall, is used for warning the unauthorized invasion behavior of the facility enclosing wall and sending a corresponding alarm signal to the monitoring processor; the cable assembly is arranged at the entrance and exit of the facility, and is used for detecting unauthorized intrusion behavior of the entrance and exit of the facility and sending a corresponding alarm signal to the monitoring processor; the microwave correlation device is arranged in the facility detection area, and is used for detecting unauthorized intrusion behaviors in the facility detection area and sending corresponding alarm signals to the monitoring processor; the ground wave vibration device is arranged underground the facilities, the ground wave vibration device is used for detecting unauthorized invasion behaviors above the ground wave vibration device, corresponding alarm signals are sent to the monitoring processor, the signals are intensively processed through the monitoring processor, the current security condition is determined, the monitoring processor can conduct correlation analysis on the alarm signals, for example, after receiving an electronic fence alarm, the alarm of the microwave correlation device is received immediately, the condition that illegal invasion is deeper at the moment is explained, and security personnel need to be contacted in time for intervention is needed.

Taking an airport as an example, in order to prevent hijacking, an electronic fence is usually arranged on the fence, passengers can normally only go in and out through the arranged entrance and exit, if the behavior of crossing the fence is detected, a warning is carried out, and an alarm signal is sent to a monitoring processor; if passengers enter and exit at the non-boarding time, an alarm signal is sent to a monitoring processor; if a passenger enters a specially configured detection zone (such as a distribution room, etc., the passenger is generally prohibited from entering), an alarm signal is sent to a monitoring processor; the ground wave vibration device can also detect illegal access behaviors and send alarm signals to the monitoring processor.

Optionally, the electronic fence comprises a storage battery, and the storage battery is used for providing standby power for the electronic fence when the electronic fence loses power supply of a power grid.

Specifically, the electronic fence comprises a storage battery, the storage battery can provide a standby power supply for the electronic fence, the electronic fence can be ensured to work continuously under the condition of power failure, and the electronic fence is prevented from being invalid due to illegal damage.

Optionally, the cable assembly includes a leaky cable for forming the cylindrical electromagnetic field protection area, the leaky cable for transmitting an alarm signal when the cylindrical electromagnetic field protection area is disturbed, and a vibratory cable for transmitting an alarm signal when climbing, cutting and breaking the doorway behavior is detected.

Specifically, the cable assembly comprises a leakage cable and a vibration cable, a cylindrical electromagnetic field protection area is formed between the two leakage cables, when a human body and a metal body move in the area, electromagnetic field disturbance is caused to be detected by a detector, and an alarm signal is generated; the vibrating cable can detect and alarm the actions such as crossing, intrusion and damage.

Optionally, the leakage cable comprises a radio frequency transmitter for generating a sine wave to be applied on the leakage cable to generate the cylindrical electromagnetic field protection area.

In particular, the leaky cable includes a radio frequency transmitter that can apply a high frequency sine wave of 45MHz or 48MHz or 48.5MHz to the leaky cable such that the leaky cable creates a cylindrical electromagnetic field protection region.

Optionally, the leakage cable comprises a sensitivity adjuster for adjusting an alarm sensitivity of the leakage cable.

Specifically, the leakage cable includes a sensitivity adjuster for adjusting an alarm sensitivity of the leakage cable, and interference of small animals and the like can be reduced by adjusting the sensitivity, thereby realizing effective protection.

Optionally, the microwave correlation device comprises a transmitter for directionally transmitting microwave energy and a receiver for receiving the microwave energy.

Specifically, the microwave correlation device comprises a transmitter and a receiver, when the microwave correlation device works, the transmitter directionally transmits microwave energy, the microwave beam directly reaches the receiver or reaches the receiver through reflection of the environment (including ground, wall surfaces and other objects in a detection area), the receiver receives the microwave energy, and when an invader enters the detection area, the microwave energy received by the receiver changes.

Optionally, the ground wave vibration device comprises a ground wave vibration detector, and the ground wave vibration detector is used for capturing vibration signals generated by a ground moving object.

Specifically, the ground wave vibration device comprises a ground wave vibration detector, the ground wave vibration detector can rapidly capture micro vibration signals generated by a ground moving target, can detect surrounding vibration signals, and can accurately judge the type of the vibrating target.

Optionally, the perimeter security system based on the internet of things technology further comprises a communication device, wherein the communication device is used for transmitting signals between the monitoring processor and the electronic fence, the cable assembly, the microwave correlation device and the ground wave vibration device.

Specifically, the perimeter security system further comprises a communication device, the communication device can be in a wired form or a 5G form, so that signal transmission between the monitoring processor and the electronic fence, the cable assembly, the microwave correlation device and the ground wave vibration device is realized, and alarm signals, parameter adjusting signals and the like can be transmitted.

Although the present disclosure is disclosed above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the disclosure.

Claims (8)

1. The perimeter security system based on the internet of things is characterized by comprising an electronic fence, a cable assembly, a microwave correlation device, a ground wave vibration device and a monitoring processor;

the electronic fence is arranged on the facility enclosing wall, and is used for warning the unauthorized invasion behavior of the facility enclosing wall and sending a corresponding alarm signal to the monitoring processor;

the cable assembly is arranged at the entrance and exit of the facility, and is used for detecting unauthorized intrusion behavior of the entrance and exit of the facility and sending a corresponding alarm signal to the monitoring processor;

the microwave correlation device is arranged in a facility detection area, and is used for detecting unauthorized intrusion behaviors of the facility detection area and sending corresponding alarm signals to the monitoring processor;

the ground wave vibration device is arranged under the facilities, and is used for detecting unauthorized intrusion behaviors above the ground wave vibration device and sending corresponding alarm signals to the monitoring processor;

the monitoring processor is used for determining the current security and protection condition according to each alarm signal.

2. The perimeter security system based on internet of things technology of claim 1, wherein the electronic fence comprises a battery for providing backup power to the electronic fence when the electronic fence loses power from the power grid.

3. The perimeter security system based on internet of things technology of claim 1, wherein the cable assembly comprises a leaky cable for forming a cylindrical electromagnetic field protection area, and a vibrating cable for transmitting an alarm signal when climbing, cutting and breaking gateway actions are detected, the leaky cable for transmitting an alarm signal when the cylindrical electromagnetic field protection area is disturbed.

4. A perimeter security system based on internet of things technology according to claim 3, wherein the leaky cable comprises a radio frequency transmitter for generating a sine wave to be applied on the leaky cable to generate the cylindrical electromagnetic field protection area.

5. The perimeter security system based on internet of things technology of claim 3, wherein the leakage cable comprises a sensitivity adjuster for adjusting an alarm sensitivity of the leakage cable.

6. The perimeter security system based on internet of things technology of claim 1, wherein the microwave correlation device comprises a transmitter for directionally transmitting microwave energy and a receiver for receiving the microwave energy.

7. The perimeter security system based on the internet of things technology according to claim 1, wherein the ground wave vibration device comprises a ground wave vibration detector for capturing vibration signals generated by a ground moving object.

8. The perimeter security system based on internet of things technology of claim 1, further comprising a communication device for signal transmission between the monitoring processor and the electronic fence, the cable assembly, the microwave correlation device and the ground wave vibration device.