CN207937627U - A kind of airport Automatic Meteorological Observatory System based on self-healing optical fiber loop - Google Patents

Abstract

The utility model discloses a kind of airport Automatic Meteorological Observatory Systems based on self-healing optical fiber loop, including airport Automatic Meteorological Observatory System server, airport Automatic Meteorological Observatory System port server, network management monitoring equipment, air traffic control building optoelectronic integration equipment, runway A B C air traffic control building optical fiber loops, the ends runway A optoelectronic integration equipment, runway A terminals field automatic meteorological observation equipment, the ends runway B optoelectronic integration equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal optoelectronic integration equipment, runway C-terminal airport automatic meteorological observation equipment.The beneficial effects of the utility model are：When optical fiber is disconnected fine, do not have to manpower intervention, by optical fiber self-healing function to eliminate the influence caused by the Automatic Meteorological Observatory System data transmission of airport of the disconnected fibre of optical fiber, improves maintenance efficiency, improve aviation meteorological support ability.

Description

A kind of airport Automatic Meteorological Observatory System based on self-healing optical fiber loop

Technical field

The present invention relates to meteorological observation technical field, especially a kind of airport automatic meteorological based on self-healing optical fiber loop is seen Examining system.

Background technology

The airport Automatic Meteorological Observatory System of the prior art when in use, the point-to-point optical fiber of generally use chain structure or electricity Cable scheme, can not form protection, and network reliability is low.Once there is the disconnected fibre of optical cable, the automatic meteorological observation data of transmission will in It is disconnected, aeronautical meteorological service will be affected greatly, there are security risks.The disconnected fibre of optical fiber, it is often necessary to which more people investigate fault point And it repairs, the operating time is long, big to influence on system operation, and operating process is complicated.

Invention content

Technical problem to be solved by the present invention lies in provide a kind of airport automatic meteorological sight based on self-healing optical fiber loop Examining system, can be by optical fiber self-healing function to eliminate the disconnected fibre of optical fiber caused by the Automatic Meteorological Observatory System data transmission of airport It influences.

In order to solve the above technical problems, the present invention provides a kind of airport automatic meteorological observation system based on self-healing optical fiber loop System, including：Airport Automatic Meteorological Observatory System server, airport Automatic Meteorological Observatory System port server, network management monitoring are set It is standby, air traffic control building optoelectronic integration equipment, runway A-B-C- air traffic control building optical fiber loops, the ends runway A optoelectronic integration equipment, runway A Terminal field automatic meteorological observation equipment, the ends runway B optoelectronic integration equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal optoelectronic integration equipment, runway C-terminal airport automatic meteorological observation equipment；The ends runway A optoelectronic integration equipment, the ends runway B light Electrical integrated equipment, runway C-terminal optoelectronic integration equipment and air traffic control building optoelectronic integration equipment are connected into runway A-B-C- boats respectively Pipe building optical fiber loop, runway A terminals field automatic meteorological observation equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal Airport automatic meteorological observation equipment distinguishes corresponding optoelectronic integration equipment and carries out serial communication accordingly, and gateway monitors are set Standby to be communicated to connect with air traffic control building optoelectronic integration equipment, airport Automatic Meteorological Observatory System port server is automatic by outfield airport The meteorological data that meteorological observation equipment is transmitted by serial communication turns to be transmitted to airport automatic meteorological observation by TCP/IP System server.

Preferably, runway A-B-C- air traffic control buildings optical fiber loop uses double-fiber two-direction duplexing section protection ring.

Preferably, the ends runway A optoelectronic integration equipment, the ends runway B optoelectronic integration equipment, runway C-terminal optoelectronic integration It is respectively arranged with fibre circuit automatic switchover protection device OLP in equipment and air traffic control building optoelectronic integration equipment.

Preferably, there is two lines road between two transmission devices, include 2 photoswitches, optical transmission system in each OLP Select certain transmission lines therein as primary circuit, in addition a transmission lines are as extension wire, primary circuit or Certain root optical fiber of primary circuit breaks down when communication quality being caused to decline, and the reception end-receiver of primary circuit monitors signal Optical power down, automatically will transmission signal routing from primary circuit switching to extension wire, other end of OLP equipment synchronizes Local circuit switching to extension wire is got on ground.

Preferably, airport automatic meteorological observation equipment detection wind direction, wind speed, temperature, humidity, air pressure, visibility, the cloud level and Runway visual range.

Beneficial effects of the present invention are：When optical fiber is disconnected fine, manpower intervention is not had to, by optical fiber self-healing function to eliminate light The influence caused by the Automatic Meteorological Observatory System data transmission of airport of the disconnected fibre of fibre, improves maintenance efficiency, improves aeronautical meteorology guarantor Barrier ability.

Description of the drawings

Fig. 1 is the system structure diagram of the present invention.

Fig. 2 is the structural schematic diagram of the fibre circuit automatic switchover protection device OLP of the present invention.

Specific implementation mode

As shown in Figure 1, a kind of airport Automatic Meteorological Observatory System based on self-healing optical fiber loop, including：Airport automatic gas As observation system server, airport Automatic Meteorological Observatory System port server, network management monitoring equipment, air traffic control building optoelectronic integration Equipment, runway A-B-C- air traffic control building optical fiber loops, the ends runway A optoelectronic integration equipment, runway A terminals field automatic meteorological observation are set It is standby, the ends runway B optoelectronic integration equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal optoelectronic integration equipment, race Road C-terminal airport automatic meteorological observation equipment；The ends runway A optoelectronic integration equipment, the ends runway B optoelectronic integration equipment, runway C-terminal Optoelectronic integration equipment and air traffic control building optoelectronic integration equipment are connected into runway A-B-C- air traffic control building optical fiber loops, the ends runway A respectively Airport automatic meteorological observation equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal airport automatic meteorological observation equipment Corresponding optoelectronic integration equipment is distinguished accordingly carries out serial communication, gateway monitors equipment and air traffic control building optoelectronic integration Equipment communicates to connect, and outfield airport automatic meteorological observation equipment is passed through serial ports by airport Automatic Meteorological Observatory System port server The meteorological data that communications come turns to be transmitted to airport Automatic Meteorological Observatory System server by TCP/IP.

Airport automatic meteorological observation equipment detection wind direction, wind speed, temperature, humidity, air pressure, visibility, the cloud level, runway visual range Etc. meteorological elements, and output data, airport automatic meteorological observation port server lead to outfield airport automatic meteorological observation equipment It crosses RS485/RS422/RS232 and transmits meteorological data and be transformed into TCP/IP and be transmitted to airport Automatic Meteorological Observatory System service Device, airport Automatic Meteorological Observatory System server handles the meteorological data transmitted, storage and distribution, photoelectric integral Changing equipment, there is the photoelectricity that the serial data electric signal that airport automatic meteorological observation equipment exports is converted into optical signal transmission to turn Function is changed, with fiber laser arrays and optical multiplex section protection (MSP) switch function can be carried out；Network management monitoring equipment has light Fine loop fault point detection and monitoring alarm function；Runway A-B-C- air traffic control building optical fiber loops are protected using double-fiber two-direction duplexing section Retaining ring.

When network is normal, runway C-terminal airport automatic meteorological observation data are directly transferred to air traffic control building, runway B terminals field Automatic meteorological observation data are first transmitted to the ends runway A, are then transmitted to air traffic control building again.

When interruption of optical cables between the ends runway A and the ends runway B, the ends runway B optoelectronic integration equipment carries out optical multiplex section guarantor Shield (MSP) is switched, and runway B terminals field automatic meteorological observation data will first be transmitted to runway C-terminal, then be transmitted to boat by runway C-terminal Pipe building.

When interruption of optical cables between the ends runway A and air traffic control building, the ends runway A optoelectronic integration equipment carries out optical multiplex section protection (MSP) it switches, runway A terminals field automatic meteorological observation data will first be transmitted to the ends runway B, then be transmitted to runway C by the ends runway B End, then air traffic control building is transmitted to by runway C-terminal.

When interruption of optical cables between runway C-terminal and air traffic control building, runway C-terminal optoelectronic integration equipment carries out optical multiplex section protection (MSP) it switches, runway C-terminal airport automatic meteorological observation data will first be transmitted to the ends runway B, then be transmitted to runway A by the ends runway B End, then air traffic control building is transmitted to by the ends runway A.

As shown in Fig. 2, the structural schematic diagram of the fibre circuit automatic switchover protection device OLP for the present invention.Its work side Formula has a two lines road between A websites and B websites, and optical transmission system selects certain transmission lines therein as primary circuit, An other transmission lines are as extension wire, for transmitting time one stage signal or not transmitting signal.Primary circuit or master It is broken down when communication quality being caused to decline with certain root optical fiber/cable of circuit, the receiving terminal of primary circuit monitors the light of signal Power declines, and transmission signal is route from primary circuit switching to extension wire automatically, other end of OLP equipment can be synchronously Local circuit switching to extension wire is got on.

Compared to the prior art, a kind of airport Automatic Meteorological Observatory System based on self-healing optical fiber loop provided by the invention The serial data electric signal that airport automatic meteorological observation equipment exports is converted into light and believed by communication plan, optoelectronic integration equipment Number, it is transmitted by runway A-B-C- air traffic control building optical fiber loops, using double-fiber two-direction duplexing section protection ring, passes through photoelectricity in air traffic control building Integration apparatus restores airport automatic meteorological observation device signal, with fiber laser arrays and can carry out optical multiplex section guarantor (MSP) switch function is protected, there is self-healing function, airport automatic meteorological observation data transmission not to interrupt, remove from artificial for the disconnected fibre of optical fiber The inconvenience of repair improves maintenance efficiency and aviation meteorological support ability with non-timely.

Although the present invention is illustrated and has been described with regard to preferred embodiment, it is understood by those skilled in the art that Without departing from scope defined by the claims of the present invention, variations and modifications can be carried out to the present invention.

Claims (5)

1. a kind of airport Automatic Meteorological Observatory System based on self-healing optical fiber loop, which is characterized in that including：Airport automatic meteorological Observation system server, airport Automatic Meteorological Observatory System port server, network management monitoring equipment, air traffic control building optoelectronic integration are set Standby, runway A-B-C- air traffic control building optical fiber loops, the ends runway A optoelectronic integration equipment, runway A terminals field automatic meteorological observation sets It is standby, the ends runway B optoelectronic integration equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal optoelectronic integration equipment, race Road C-terminal airport automatic meteorological observation equipment；The ends runway A optoelectronic integration equipment, the ends runway B optoelectronic integration equipment, runway C-terminal Optoelectronic integration equipment and air traffic control building optoelectronic integration equipment are connected into runway A-B-C- air traffic control building optical fiber loops, the ends runway A respectively Airport automatic meteorological observation equipment, runway B terminals field automatic meteorological observation equipment, runway C-terminal airport automatic meteorological observation equipment Corresponding optoelectronic integration equipment is distinguished accordingly carries out serial communication, gateway monitors equipment and air traffic control building optoelectronic integration Equipment communicates to connect, and outfield airport automatic meteorological observation equipment is passed through serial ports by airport Automatic Meteorological Observatory System port server The meteorological data that communications come turns to be transmitted to airport Automatic Meteorological Observatory System server by TCP/IP.

2. the airport Automatic Meteorological Observatory System based on self-healing optical fiber loop as described in claim 1, which is characterized in that runway A-B-C- air traffic control building optical fiber loops use double-fiber two-direction duplexing section protection ring.

3. the airport Automatic Meteorological Observatory System based on self-healing optical fiber loop as described in claim 1, which is characterized in that runway The ends A optoelectronic integration equipment, the ends runway B optoelectronic integration equipment, runway C-terminal optoelectronic integration equipment and air traffic control building photoelectric integral Change in equipment and is respectively arranged with fibre circuit automatic switchover protection device OLP.

4. the airport Automatic Meteorological Observatory System based on self-healing optical fiber loop as claimed in claim 3, which is characterized in that two There is two lines road between transmission device, includes 2 photoswitches, optical transmission system selection certain transmission therein in each OLP Circuit is as primary circuit, and in addition a transmission lines are as extension wire, certain root optical fiber of primary circuit or primary circuit It breaks down when communication quality being caused to decline, the reception end-receiver of primary circuit monitors the optical power down of signal, automatically Transmission signal is route from primary circuit switching to extension wire, other end of OLP equipment synchronously cuts local circuit Shift to extension wire up.

5. the airport Automatic Meteorological Observatory System based on self-healing optical fiber loop as described in claim 1, which is characterized in that airport Automatic meteorological observation equipment detects wind direction, wind speed, temperature, humidity, air pressure, visibility, the cloud level and runway visual range.