CN211087454U - Airport perimeter security system based on internet of things - Google Patents
Airport perimeter security system based on internet of things Download PDFInfo
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- CN211087454U CN211087454U CN201921879288.9U CN201921879288U CN211087454U CN 211087454 U CN211087454 U CN 211087454U CN 201921879288 U CN201921879288 U CN 201921879288U CN 211087454 U CN211087454 U CN 211087454U
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- signal receiver
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Abstract
The application discloses an airport perimeter security system based on the technology of the Internet of things, which comprises a central server and a security server, wherein the central server is connected with the central server through a network; the system comprises a monitoring server, a monitoring background terminal, at least one signal receiver and at least one security cable; the security protection lines are distributed in the perimeter range of the airport, and a plurality of detectors are arranged in each security protection cable according to a preset spacing distance; each security cable is connected into the signal receiver, and detection results of the detectors on the cable are transmitted to the signal receiver through the cable; the monitoring server is connected with the signal receiver and the monitoring background terminal through the router, and the detection result received by the signal receiver is displayed on the monitoring background terminal through network connection. The system can realize rapid, efficient and flexible layout of the perimeter security system in the perimeter range of the airport, the existing environment of the airport is not affected, and the personal safety of airport personnel is guaranteed while the perimeter security precision is guaranteed.
Description
Technical Field
The application relates to the technical field of security protection, in particular to an airport perimeter security protection system based on the internet of things technology.
Background
The airport is used as a large number of people flow and logistics distribution center, the regional range is wide, people flow and logistics are efficient and quick, and compared with other public occasions, the safety coefficient required by the airplane is far higher than that of other transportation means, so that the requirement on the security level of the airport is also far higher than that of other public occasions.
According to the requirements of relevant airport regulations, the safety protection level is one class for airports with annual number of passengers more than 1000 ten thousand, so that the corresponding safety protection design must be constructed. Physical protection, personnel protection and technical protection, namely three prevention, are required to be made, the aspects are organically combined, and the security work of different areas can be made by combining the use of various detection devices and monitoring devices.
As an important defense line of airport safety, namely a surrounding security system, more and more attention is paid. These techniques include vibrating optical cables, leaking cables, infrared correlation, tension fences, high voltage pulses, video surveillance, etc. The single technologies are respectively long, and have certain promotion effect on the improvement of the airport security level. However, the above systems are complicated in layout and high in requirements on equipment environment, part of the systems have hidden dangers affecting personal safety, the security precision is not high, the requirements of airports cannot be met, and the airport security system is not suitable for the actual environment of airports.
SUMMERY OF THE UTILITY MODEL
For solving above-mentioned technical problem, the system of this application, the equipment that need lay only cable and signal receiver, convenient and fast can lay at the perimeter range region that the airport need be protected at will, has no influence to the current environment in airport and outward appearance, and the detector in the cable does not receive external environment influence, all-round realization perimeter security protection, and is safe high-efficient.
The application provides an airport perimeter security system based on the technology of the Internet of things, which comprises a central server and a security server, wherein the central server is used for providing security information for the airport perimeter; the system comprises a monitoring server, a monitoring background terminal, at least one signal receiver and at least one security cable;
The security protection lines are distributed in the airport perimeter range, a plurality of detectors are arranged in each security protection cable according to preset spacing distance, and the detectors receive and transmit signals and form a security protection detection area in the airport perimeter range along the cable direction;
Each security cable is connected into the signal receiver, and detection results of the detectors on the cable are transmitted to the signal receiver through the cable;
The monitoring server is connected with the signal receiver and the monitoring background terminal through the router, and the detection result received by the signal receiver is displayed on the monitoring background terminal through network connection.
Each signal receiver is connected with sixteen security cables, the signal receiver is connected with a lower port for networking, the sixteen security cables are converged, and the power supply of the security cables and the synchronous transmission of the data are achieved.
Furthermore, the uplink interface of the signal receiver is connected with the monitoring server of the upper network through a gigabit optical port and transmits data.
Further comprising: a plurality of personnel identification cards;
The personnel identification card is in communication connection with the detector in the security cable through a built-in Internet of things communication module;
And the detector in the security cable acquires the ID information corresponding to the personnel identification card and reports the ID information to the monitoring server through the cable.
Preferably, the working frequency of the internet of things communication module of the personnel identification card is 2.4G.
The communication distance range of the internet of things communication module built in the personnel identification card is 5-15 meters, and the system positions the personnel identification card according to the detector in communication connection with the personnel identification card and the fixed position of the detector. The personnel identification card is also internally provided with a call module, and the call with the monitoring background terminal and/or other personnel identification cards is realized through a call button on the card panel;
The personnel identification card further comprises: the battery monitoring module is used for automatically detecting the battery voltage of the personnel identification card;
The shell of the personnel identification card is coated with an IP 54-grade flame-retardant material, so that the personnel identification card is waterproof and dustproof;
And a mounting hole is reserved on the shell of the personnel identification card for mounting a hanging rope.
The system further comprises a linkage device: the system comprises one or more of video camera equipment, sound and light alarm equipment and siren broadcasting equipment;
The linkage equipment is connected with the monitoring server through a network, and linkage with the detection result of the security cable is achieved.
By adopting the system, the perimeter security system can be quickly, efficiently and flexibly arranged in the perimeter range of the airport, the existing environment of the airport is not influenced, the personal safety of personnel in the airport is guaranteed while the perimeter security accuracy is guaranteed.
Drawings
In order to more clearly explain the technical solution of the present application, the drawings in the embodiments will be briefly described below.
FIG. 1 is a schematic structural diagram of an airport perimeter security system based on the Internet of things technology according to the present application;
FIG. 2 is a schematic structural diagram of another airport perimeter security system based on the Internet of things technology according to the present application;
Detailed Description
Referring to fig. 1, a first embodiment of the present application provides an airport perimeter security system based on internet of things technology, including; the system comprises a monitoring server 1, a monitoring background terminal 2, at least one signal receiver 3 and at least one security cable 4;
The security protection lines are distributed in the perimeter range of the airport, a plurality of detectors are arranged in each security protection cable 4 according to preset spacing distance, and the detectors receive and transmit signals and form security protection detection areas in the perimeter range of the airport along the cable direction;
Each security cable is connected to the signal receiver 3, and detection results of the detectors on the cable are transmitted to the signal receiver through the cable;
The monitoring server 1 is connected with the signal receiver 3 and the monitoring background terminal 2 through a router network, and displays the detection result received by the signal receiver 3 on the monitoring background terminal 2 through network connection.
The monitoring background terminal 2 is arranged in a monitoring center and can be a flat panel, a display, a large screen and the like. The monitoring server of the system can gather the sensing data of the intelligent security cable in real time within 7 x 24 hours. The built-in detector of the security cable is a micro self-adaptive microwave transceiving chip, transmitting signals form a microwave array, the array forms an omnibearing, three-dimensional and seamless perimeter security detection area by wireless signals which are continuous in time and overlapped with each other, and the security cable has the functions of wireless radio frequency transceiving and wired signal transmission.
The system of this application, the equipment that need lay only security protection cable 4 and signal receiver 3, convenient and fast, it is regional that the perimeter range that needs to set up defences at the airport with low costs can be laid wantonly, when needing to adjust the security protection scope, only need to adjust security protection cable and signal receiver, do not influence other existing laying, this system is at the airport within range, only there is the cable to have no influence to the current environment in airport and outward appearance, the detector in the cable does not receive external environment influence, adapt to airport adverse circumstances and various weather completely, all-round realization perimeter security protection, safety and high efficiency. The system is not limited by environment, can realize the functions of detecting, identifying, alarming and the like of suspicious intruders, and improves the safety precaution capability and the intelligent level of the airport.
Preferably, each signal receiver 3 can be connected with sixteen security cables, and the signal receivers are networked by lower ports to gather data of the sixteen security cables, so that power supply of the security cables and synchronous transmission of the data are realized.
Further, the uplink interface of the signal receiver 3 is connected with the monitoring server 1 of the upper network through a gigabit optical port and transmits data.
Referring to fig. 2, further, in another embodiment, the system further comprises: a plurality of personal identification cards 5;
The personnel identification card is internally provided with an internet of things communication module and is in communication connection with the detector in the security cable through the internal internet of things communication module;
And the detector in the security cable acquires the ID information corresponding to the personnel identification card 5 and reports the ID information to the monitoring server through the cable.
Preferably, the working frequency of the internet of things communication module of the personal identification card 5 is 2.4G.
The communication distance range of the internet of things communication module built in the personnel identification card is 5-15 meters, and the system positions the personnel identification card according to the detector in communication connection with the personnel identification card and the fixed position of the detector.
The personnel identification card is also internally provided with a call module, and the call with the monitoring background terminal and/or other personnel identification cards is realized through a call button on the card panel;
The personnel identification card further comprises: the battery monitoring module is used for automatically detecting the battery voltage of the personnel identification card;
The shell of the personnel identification card is coated with an IP 54-grade flame-retardant material, so that the personnel identification card is waterproof and dustproof;
And a mounting hole is reserved on the shell of the personnel identification card for mounting a hanging rope.
The system can actively sense personnel around the intelligent cable installed in the airport enclosure through the cable, and accurately alarm illegal intrusion behaviors; the friend or foe identification function can be realized, and behavior records can be carried out on legal people of our party carrying the personnel identification card; legal areas can be set for corresponding identification cards according to the authority of people, but when legal people of our party carrying the identification cards enter the unset areas, the alarm is given.
The system adopts a non-contact active defense technology, can actively transmit detection signals and has an active detection function; the system forms a three-dimensional detection field in a detection area, judges intrusion behaviors by analyzing disturbance of the detection field, and gives an alarm when suspicious personnel without an identification card enters the detection field.
The technology can discriminate normal patrol behaviors from illegal invasion behaviors, can discriminate illegal invasion of illegal personnel from normal patrol of own through authorization of the personnel identification card, automatically checks the identification card when the personnel carrying the legal authorized identification card patrols along the perimeter, and does not give an alarm when the system confirms that the card does work tasks allowed by authorization in a corresponding time period; any one of the conditions is not met, an alarm is given out, different inspection authorities can be set for specific areas of the airport, and the airport security protection level protection is facilitated.
The personnel identification card is also called as a friend or foe identification card, is special terminal equipment for an intrusion detection system, and is mainly used for functions of friend or foe identification, personnel positioning, emergency warning and the like. The card adopts low power consumption and miniaturized design. The identification card panel comprises 1 indicator light and two keys.
The personal identification card has the following functions:
Multiple prompt and alarm functions: the identification card has the prompting functions of a light-emitting diode, a buzzer and a liquid crystal display.
Monitoring the battery: the identification card has a function of automatically detecting the battery voltage.
Waterproof dustproof construction safe and reliable: the housing is coated with a flame retardant material to IP 54.
The wearing is convenient: the shell is reserved with a mounting hole, so that the hanging rope can be easily mounted and conveniently worn.
Starting and working the identification card:
(1) The long press of the 'call' button is more than 5 seconds;
(2) When the buzzer is heard to buzz and the traffic light flickers twice, the key is released and the card starts to work;
(3) Under the working state, the card can be rung once every time the key is pressed, which indicates that the work is normal;
Shutdown of the identification card:
(1) Pressing a 'call' button for 3-5 seconds for a long time;
(2) When the traffic light flickers once, the key is released, and the card stops working;
(3) In the power-off state, the card is not chirped every time the key is pressed;
The wearing mode is as follows: when the identification card is used, the user only needs to wear the identification card in the chest or a pocket of the jacket through the hanging rope on the shell. The attention is paid not to let the identification card cling to the body or metal objects, and the surface is not covered by metal objects so as not to influence the receiving and sending of signals.
Replacing the battery: when the button is pressed, 3 sounds are heard and the red light is sounded for 3 times, which indicates that the battery needs to be replaced;
Further, the system further comprises a linkage device: the system comprises one or more of video camera equipment, sound and light alarm equipment and siren broadcasting equipment;
The linkage equipment is connected with the monitoring server through a network, linkage with the detection result of the security cable is achieved, and security effects such as early warning, warning and deterrence are achieved.
It should be understood that, in the various embodiments of the present application, the execution sequence of each step should be determined by its function and inherent logic, and the size of the sequence number of each step does not mean the execution sequence, and does not limit the implementation process of the embodiments.
The term "plurality" in this specification means two or more unless otherwise specified. In the embodiments of the present application, the words "first", "second", and the like are used to distinguish the same items or similar items having substantially the same functions and actions. Those skilled in the art will appreciate that the terms "first," "second," etc. do not denote any order or quantity, nor do the terms "first," "second," etc. denote any order or importance.
It should be understood that like parts are referred to each other in this specification for the same or similar parts between the various embodiments. The various implementations in the above embodiments may be combined with each other as long as there are no contradictory places. The above-described embodiments of the present invention do not limit the scope of the present invention.
Claims (8)
1. An airport perimeter security system based on the technology of the Internet of things is characterized by comprising; the system comprises a monitoring server, a monitoring background terminal, at least one signal receiver and at least one security cable;
The security protection lines are distributed in the airport perimeter range, a plurality of detectors are arranged in each security protection cable according to preset spacing distance, and the detectors receive and transmit signals and form a security protection detection area in the airport perimeter range along the cable direction;
Each security cable is connected into the signal receiver, and detection results of the detectors on the cable are transmitted to the signal receiver through the cable;
The monitoring server is connected with the signal receiver and the monitoring background terminal through the router, and the detection result received by the signal receiver is displayed on the monitoring background terminal through network connection.
2. The system according to claim 1, wherein each signal receiver is connected with sixteen security cables, and the signal receivers are networked by virtue of downstream ports to gather data of the sixteen security cables, so that power supply of the security cables and synchronous transmission of the data are realized.
3. The system of claim 1, wherein the signal receiver uplink interface is connected to the monitoring server of an upper network through a gigabit optical port and transmits data.
4. The system of claim 1, further comprising: a plurality of personnel identification cards;
The personnel identification card is in communication connection with the detector in the security cable through a built-in Internet of things communication module;
And the detector in the security cable acquires the ID information corresponding to the personnel identification card and reports the ID information to the monitoring server through the cable.
5. The system of claim 4, wherein the working frequency of the IOT communication module of the personal identification card is 2.4G.
6. The system according to claim 4, wherein the communication distance of the communication module of the internet of things in the personnel identification card ranges from 5 meters to 15 meters, and the system positions the personnel identification card according to the detector in communication connection with the personnel identification card and the fixed position of the detector.
7. The system according to claim 4, wherein the personnel identification card is further internally provided with a call module, and a call with the monitoring background terminal and/or other personnel identification cards is realized through a call button on the card panel;
The personnel identification card further comprises: the battery monitoring module is used for automatically detecting the battery voltage of the personnel identification card;
The shell of the personnel identification card is coated with an IP 54-grade flame-retardant material, so that the personnel identification card is waterproof and dustproof;
And a mounting hole is reserved on the shell of the personnel identification card for mounting a hanging rope.
8. The system of claim 1, further comprising a linkage device: the system comprises one or more of video camera equipment, sound and light alarm equipment and siren broadcasting equipment;
The linkage equipment is connected with the monitoring server through a network, and linkage with the detection result of the security cable is achieved.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921879288.9U CN211087454U (en) | 2019-11-04 | 2019-11-04 | Airport perimeter security system based on internet of things |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921879288.9U CN211087454U (en) | 2019-11-04 | 2019-11-04 | Airport perimeter security system based on internet of things |
Publications (1)
Publication Number | Publication Date |
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CN211087454U true CN211087454U (en) | 2020-07-24 |
Family
ID=71630404
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201921879288.9U Expired - Fee Related CN211087454U (en) | 2019-11-04 | 2019-11-04 | Airport perimeter security system based on internet of things |
Country Status (1)
Country | Link |
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CN (1) | CN211087454U (en) |
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2019
- 2019-11-04 CN CN201921879288.9U patent/CN211087454U/en not_active Expired - Fee Related
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Granted publication date: 20200724 Termination date: 20201104 |