CN106878470A - A kind of aviation obstruction beacon Intelligent internet of things control and monitoring system - Google Patents
A kind of aviation obstruction beacon Intelligent internet of things control and monitoring system Download PDFInfo
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- CN106878470A CN106878470A CN201710258729.2A CN201710258729A CN106878470A CN 106878470 A CN106878470 A CN 106878470A CN 201710258729 A CN201710258729 A CN 201710258729A CN 106878470 A CN106878470 A CN 106878470A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/16—Controlling the light source by timing means
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/18—Controlling the light source by remote control via data-bus transmission
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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- Engineering & Computer Science (AREA)
- Health & Medical Sciences (AREA)
- Computing Systems (AREA)
- General Health & Medical Sciences (AREA)
- Medical Informatics (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Circuit Arrangement For Electric Light Sources In General (AREA)
- Telephonic Communication Services (AREA)
Abstract
The invention discloses a kind of aviation obstruction beacon Intelligent internet of things control and monitoring system, including Centralized Controller (1), obstruction light (2), remote server (3) and terminal (4);The obstruction light (2), terminal (4) and remote server (3) are communicated to connect with the Centralized Controller (1), and the terminal (4) controls the obstruction light (2) and obtains the information of the obstruction light (2) by the Centralized Controller (1);The terminal (4) and obstruction light (2) are communicated to connect with the remote server (3), the information of the obstruction light (2) is sent to the remote server (3) by the obstruction light (2) or Centralized Controller (1), and the terminal (4) obtains the information of the obstruction light (2) by the remote server (3).The present invention can grasp the information such as obstruction light and surrounding environment.
Description
Technical field
The invention belongs to Internet of Things aviation security field, and in particular to a kind of aviation obstruction beacon Intelligent internet of things control monitoring
System.
Background technology
Aviation obstruction beacon is the extraordinary light fixture for identifying barrier, prevents the aircraft (including helicopter) of low-latitude flying at night
Between navigate by water when knock high-rise.Aviation obstruction beacon often works in the environment such as high building, bridge, chimney, communication iron tower, aviation barrier
Hinder that the working environment of lamp is relatively severe, installation process is also more complicated;Due to belonging to work high above the ground scope, therefore with one
Fixed danger.
With the opening that existing many countries navigate by water to low latitude field in the world, the specific affairs that China also opens low latitude
Schedule is put on, and pilot operation has been carried out in indivedual cities, aviation safety has been also asking of strongly solving always of national correlation department
Topic.Obstruction light as the indispensable important safety warning lamp of aviation security field, with the continuous increasing that city high rise building is built
Plus and the demand propulsion that opens of low latitude, aviation obstruction beacon will have very big development space and the market demand.
Current aviation obstruction beacon is still within that One function is single, power consumption is big, cannot manage, safeguard inconvenience and safeguard into
This state high, existing aviation obstruction beacon only possesses flash-caution function, does not have remote monitoring, fault alarm and environmental monitoring
Function.And aviation obstruction beacon can only ensure its normal work by artificial inspecting periodically, so not only manual maintenance
Cost is very high and cannot meet the growth requirement of modernization, intellectuality, networking, long-range.
Need to provide at present a kind of energy-conservation, intelligence, network, can remote monitoring, on the spot automatic fault alarm, environment
The aviation obstruction beacon Intelligent internet of things control and monitoring system of monitoring function.
The content of the invention
The present invention provides a kind of aviation obstruction beacon Intelligent internet of things and controls prison for the above technological deficiency of prior art
Examining system, by the cooperating of Centralized Controller, terminal, obstruction light and remote server, controls the mode of operation of obstruction light
With long-range monitoring obstruction light working condition and environmental information on the spot.
The purpose of the present invention is achieved through the following technical solutions:
A kind of aviation obstruction beacon Intelligent internet of things control and monitoring system, including Centralized Controller 1, obstruction light 2, remote service
Device 3 and terminal 4;The obstruction light 2, terminal 4 and remote server 3 are communicated to connect with the Centralized Controller 1, the terminal
4 control the obstruction light 2 and obtain the information of the obstruction light 2 by the Centralized Controller 1;The terminal 4 and obstruction light 2
Communicated to connect with the remote server 3, be sent to for the information of the obstruction light 2 by the obstruction light 2 or Centralized Controller 1
The remote server 3, the terminal 4 obtains the information of the obstruction light 2 by the remote server 3.
Preferably, the Centralized Controller 1 include the first communication interface 101, sensor 102, the first GPRS module 103,
First GPS/UTC synchronization modules 104, radio receiving transmitting module 105, obstruction light control and feedback module 106, Ethernet interface 107,
First bluetooth module 108, wireless aps 109;First communication interface 101, the first GPRS module 103, a GPS/UTC synchronizations
Module 104, the control of radio receiving transmitting module 105, obstruction light and feedback module 106, Ethernet interface 107, the first bluetooth module
108th, wireless aps 109 are arranged on the Centralized Controller;The sensor 102 is connected with the Centralized Controller 1.
Preferably, the sensor 102 includes the first light intensity sensor 1021 and environmental sensor 1022.
Preferably, the environmental sensor 1022 includes temperature sensor 10221, humidity sensor 10222, carbon dioxide
Sensor 10223 and PM2.5 sensors 10224.
Preferably, the obstruction light 2 includes the second communication interface 201, the second GPRS module 202, the 2nd GPS/UTC synchronizations
Module 203, detection and feedback module 204, LED flash of light control module 205, the second light intensity sensor 206.
Preferably, the remote server 3 includes WEB user management modules 301, third party's interface 302, WEB page exhibition
Show module 303, data module 304, obstruction light management module 305 and socket communication modules 306.
Preferably, the data module 304 includes data resolution module 3041, data memory module 3042 and data management
Module 3043.
Preferably, the terminal 4 includes PC control ends 401 and mobile phone mobile terminal 402;The PC control ends 401 are by number
It is connected with the Centralized Controller 1 according to line;The mobile phone mobile terminal 402 passes through network or bluetooth and the Centralized Controller 1
Connection.
Preferably, the PC control ends 401 include first state display module 4011, the first control module 4012, communication
Module 4013 and mode selection module 4014;The mobile phone mobile terminal 402 includes the second state display module 4021, information receiving and transmitting
Module 4022, message display module 4023, history module 4024, the second control module 4025, the second bluetooth module 4026,
WiFi module 4027.
Compared with prior art, aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention at least has following beneficial
Effect:
The aviation obstruction beacon intelligent things for possessing the functions such as remote monitoring, fault alarm and environmental monitoring that the present invention is provided
Net control and monitoring system, its terminal, obstruction light are connected with Centralized Controller respectively, and self information is sent to concentration control by obstruction light
Device processed, terminal is controlled by Centralized Controller to obstruction light.Controller is connected with remote server, and Centralized Controller will hinder
The information of lamp is hindered to pass through network transmission to remote server, terminal can access remote server so as to obtain by network remote
The information of obstruction light;Self information directly can also be sent to remote server by obstruction light by network, and terminal passes through net again
Network remotely accesses remote server so as to obtain the information of obstruction light, and user or administrative staff need not carry out obstacle to scene
The status checkout of lamp, state is obtained by logging in remotely administered server by terminal or PC.
Also include temperature sensor, humidity sensor, carbon dioxide sensor and PM2.5 sensors, sensing in the present invention
Device monitors the corresponding index of local environment, and the information that then sensor will be monitored is sent to Centralized Controller and then is sent to remote
Journey server and terminal, effective reference data is provided to understand and grasp environmental aspect.
Brief description of the drawings
Fig. 1 is the entire block diagram of aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention;
Fig. 2 is the structure chart of obstruction light in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention;
Fig. 3 is the structure chart of Centralized Controller in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention;
Fig. 4 is the structure chart of PC control ends in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention;
Fig. 5 is the structure chart of mobile phone mobile terminal in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention;
Fig. 6 is the structure chart of aviation obstruction beacon Intelligent internet of things control and monitoring system remote server of the present invention;
Fig. 7 is the workflow diagram of aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention;
Fig. 8 is terminal and remote server cooperating in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention
Flow chart.
Specific embodiment
The invention will be further described with reference to the accompanying drawings and examples, and following examples are descriptive, are not
Limited, it is impossible to protection scope of the present invention is limited with this.
Make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention
Accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is this
A part of embodiment is invented, rather than whole embodiments.The embodiment of the present invention generally described and illustrated in accompanying drawing herein
Component can arrange and design with a variety of configurations.Therefore, implementation of the invention below to providing in the accompanying drawings
The detailed description of example is not intended to limit the scope of claimed invention, but is merely representative of selected implementation of the invention
Example.Based on the embodiment in the present invention, what those of ordinary skill in the art were obtained under the premise of creative work is not made
Every other embodiment, belongs to the scope of protection of the invention.
Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from start to finish
Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached
It is exemplary to scheme the embodiment of description, it is intended to for explaining the present invention, and be not considered as limiting the invention.
Aviation obstruction beacon Intelligent internet of things control and monitoring system remote server of the present invention is illustrated with reference to Fig. 1.
As shown in figure 1, the aviation obstruction beacon Intelligent internet of things control and monitoring system, including Centralized Controller 1, obstruction light 2, long-range clothes
Business device 3 and terminal 4.Obstruction light, obstruction light 2, terminal 4 and remote server 3 are communicated to connect with Centralized Controller 1 respectively, obstacle
Self information is sent to Centralized Controller 1, the working condition of the obstruction light that the energy real-time monitoring of Centralized Controller 1 is connected by lamp 2.
The information of the obstruction light that Centralized Controller 1 will be controlled is sent to terminal 4, and terminal 4 controls and understand phase by Centralized Controller 4
The information of the obstruction light answered, staff very easily can be worked accordingly.Centralized Controller 1 is by network service
The information that obstruction light 1 sends is uploaded to remote server 3 and carries out storage of data etc. by mode, facilitates staff to carry out next
Step work.
If obstruction light 2 is controlled without Centralized Controller 1, obstruction light 2 is in the way of network service and remote service
Device 3 is connected, and oneself state information is uploaded to remote server 3 by obstruction light 2.The mode and remote control of the network service of terminal 4
Device 3 is connected, and terminal 1 can remotely access remote server 3 so as to obtain the corresponding information of the upload of obstruction light 2, staff
Very easily can be worked accordingly.
The structure chart for being illustrated in figure 2 obstruction light in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention is (same
When refer to Fig. 1), obstruction light 2 is multiple in parallel obstruction lights, if wherein one or more failures do not influence other obstacles
Lamp.Obstruction light 2 includes that the second communication interface 201, the second GPRS (GPRS) module 202, the 2nd GPS/UTC are same
Step module 203, detection and feedback module 204, LED flash of light control module 205, the second light intensity sensor 206.
Second communication interface 201 is RS485/RS232 communication interfaces, and RS232 is the communication interface of general PC acquiescences,
RS485 possesses farther transmission range and stronger antijamming capability, and practicality is stronger.
Second GPRS module 202 is used for uploading the information status of obstruction light itself, and obstruction light 2 passes through the 2nd GPRS moulds
Self information is uploaded to remote server 3 by block 202;Second GPRS module 202 plays data transfer.
The 2nd GPS/UTC synchronization modules 203 are time synchronized module, and obstruction light 2 is not being controlled by Centralized Controller 1
When directly sending information to remote server 3 in the case of system, the 2nd GPS/UTC synchronization modules 203 are used for and other obstacles
Lamp synchronization, makes the obstruction light synchronous flashing being arranged on same barrier or barrier, to point out this barrier or obstacle
The general profile in area and region.
The detection is used for detecting mode of operation, state and the fault message of obstruction light itself with feedback module 204, if
Detect that obstruction light is faulty, the problem that detection will be detected with feedback module 204 feeds back to Centralized Controller 1 or uploads to
Remote server 3, detection and the automatic detection of feedback module 204 and the information of feedback obstruction light.
The LED flashes of light control module 205 is used for controlling the flicker of LED and making LED luminance reach standard compliant light intensity
Degree, after the GPS/UTC synchronization modules in obstruction light send information to LED flash of light control modules 205, LED flash of light control modules
205 control LED synchronize flash of light.
Second light intensity sensor 206 is used for detecting the light intensity of obstruction light local environment.Obstruction light 2 is controlled without concentration
During the control of device processed 1, if after numerical value of the light intensity of the local environment of obstruction light 2 higher than setting, the second light intensity sensor 206 is detected
To the intensity signal of the local environment of obstruction light 2, LED does not work in then controlling obstruction light 2;If the environment described in obstruction light 2
Light intensity less than setting numerical value after, the second light intensity sensor 206 detects the intensity signal of the environment residing for obstruction light 2, so
LED operation in obstruction light 2 is controlled afterwards.When obstruction light 2 is controlled by Centralized Controller 1, the second light intensity sensor in obstruction light 2
206 will not detect the light intensity of environment described in obstruction light 2, the work in the control obstruction light 2 of Centralized Controller 1.
It is illustrated in figure 3 the structure of Centralized Controller in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention
Figure, Centralized Controller 1 includes the first communication interface 101, sensor 102, the first GPRS module 103, GPS/UTC synchronization moulds
Block 104, radio receiving transmitting module 105, obstruction light control and feedback module 106, Ethernet interface 107, the first bluetooth module 108,
Wireless aps 109;First communication interface 101, the first GPRS module 103, a GPS/UTC synchronization modules 104, radio receiving transmitting module
105th, obstruction light control and feedback module 106, Ethernet interface 107, the first bluetooth module 108, wireless aps 109 are arranged at collection
On middle controller 1, sensor 102 is connected with Centralized Controller 1.
First communication interface 101 is used for asynthesis lamp 2 and terminal 4, and obstruction light 2 is controlled by Centralized Controller 1
When, the second communication interface 201 in obstruction light 2 is connected with the first communication interface 101 by data wire, then transmits data.
The sensor 102 is connected with Centralized Controller 1, the information transfer that sensor 2 is detected to Centralized Controller 1,
Centralized Controller 1 is processed again.Sensor 2 includes the first light intensity sensor 1021 and environmental sensor 1022;First light intensity
Sensor 1021 is used for detecting the light intensity of environment described in Centralized Controller 1, then transmits information to Centralized Controller 1, works as inspection
When the light intensity for measuring is less than setting value, the control obstruction light 2 of Centralized Controller 1 carries out corresponding work and starts bright light;Work as detection
When the light intensity for arriving is higher than setting value, the control obstruction light 2 of Centralized Controller 1 carries out corresponding work and turns off the light.Environmental sensor
1022 information for being used for detecting the local environment of Centralized Controller 1, the various environmental informations that environmental sensor 1022 will be detected are passed
It is defeated to Centralized Controller 1.
Environmental sensor 1022 includes temperature sensor 10221, humidity sensor 10222, carbon dioxide sensor 10223
With PM2.5 sensors 10224;Temperature sensor 10221 is used for detecting the temperature of current environment, and humidity sensor 10222 is used for
The humidity of current environment is detected, carbon dioxide sensor 10223 is used for detecting the content of carbon dioxide in current environment, PM2.5
Sensor 10224 is used for detecting the concentration of PM2.5 in current environment.
First GPRS module 103 is used for transmitting data, and Centralized Controller 1 is by the first GPRS module 103 to long-range
The information that the various information and sensor 102 of the transmission obstruction light 2 of server 3 are detected.
The first GPS/UTC synchronization modules 104 are used for positioning and exporting UTC time, and staff is facilitated after GPS location
Determine that the position of obstruction light 2, obstruction light 2 facilitate staff's solve problem after going wrong;GPS/UTC synchronization modules are simultaneously same
Walk the time of satellite, by GPS locks in time between Centralized Controller and Centralized Controller, keep each Centralized Controller when
Between be all synchronous, ensure to be arranged on the barrier that the same model Centralized Controller of different barriers or different zones is controlled with this
Hinder the lamp being capable of synchronous flashing.
Additionally, Centralized Controller 1 also supports wire signal synchronous and wireless signal synchronization, Centralized Controller and centralized Control
Between device wire signal synchronization can be supported after cable is connected;Wireless receiving and dispatching mould module 105 is installed on Centralized Controller,
Can also be synchronous by wireless signal between Centralized Controller and Centralized Controller, user can be selected according to actual needs
Select, so as to realize synchronous working etc..
The radio receiving transmitting module 105 is used for receiving and sending wireless signal, and terminal 4 can be by radio receiving transmitting module
105 are connected with Centralized Controller 1;Centralized Controller 1 be able to will be received in the form of GPRS by radio receiving transmitting module 105
The information of obstruction light 2 is uploaded to remote server 3.
The obstruction light control and feedback module 106 are used for controlling the information of obstruction light 2 and feedback obstruction light 2 to corresponding
Device.
The Ethernet interface 107 is used as the interface between Centralized Controller 1 and remote server 3, terminal 4, concentrates control
Device processed 1 is connected by Ethernet interface 107 with remote server 3, terminal 4, then transmits data.
First bluetooth module 108 is used for connecting terminal 4, and terminal 4 can be by bluetooth module 108 and Centralized Controller
1 connection, then transmits corresponding data.
The wireless aps 109 provide wireless network for other-end, and other-end passes through wireless aps 109 and Centralized Controller
1 connection is to transmit data.
Terminal 4 includes PC control ends 401 and mobile phone mobile terminal 402;PC control ends 401 pass through data wire and Centralized Controller
1 connection;Mobile phone mobile terminal 402 is connected by network or bluetooth with Centralized Controller 1.As shown in figure 4, for aviation of the present invention hinders
Hinder the structure chart of PC control ends in lamp Intelligent internet of things control and monitoring system, PC control ends 401 pass through netting twine or serial ports (for example
RS232/RS485) the first communication interface 101 in connection Centralized Controller 1 is connected with Centralized Controller 1, or by wireless
Radio receiving transmitting module 105 in net connection Centralized Controller 1 is connected with Centralized Controller 1.PC control ends 401 and Centralized Controller
After 1 connection, obstruction light can be just controlled to be worked accordingly or grasped by carrying out corresponding operation to PC control ends 401
The working condition and information of obstruction light.PC control ends 401 are provided with PC control end programs, and PC control end programs operate in PC controls
On end 401, including first state display module 4011, the first control module 4012, communication module 4013 and mode selection module
4014.Communication module 4013 is the communication module matched with the first communication interface 101 in Centralized Controller 1, after both connect
Data can be transmitted;First state display module 4011 is used for showing the information of reception, and the presentation of information that will be received is out;The
One control module 4012 is used for controlling corresponding operation;Can be to the work of Centralized Controller 1 by mode selection module 4014
Pattern is selected, and mode selection module 4014 includes manual mode and automatic mode, and during selection manual mode, staff enters
The corresponding operation Centralized Controller 1 of row is just worked accordingly;Selection automatic mode when, Centralized Controller 1 according to light intensity from
It is dynamic to be operated.
As shown in figure 5, being the structure of mobile phone mobile terminal in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention
Figure, is provided with mobile phone mobile terminal program on mobile phone mobile terminal 402, mobile phone mobile terminal program is operated on mobile phone mobile terminal 402, bag
Include the second state display module 4021, messaging interface 4022, message display module 4023, history module 4024,
Two control modules 4025, the second bluetooth module 4026, WiFi module 4027.Second state display module 4021 is used for showing reception
The various information for arriving;Messaging interface 4022 is used for receiving and sending various data and message;Message display module 4023 is used
To show the various message for receiving;History module 4024 is used for recording all of operation note;Second control module
4025 are used for controlling corresponding operation;Second bluetooth module 4026 be used for connecting the first bluetooth module in Centralized Controller 1 from
And connect Centralized Controller 1;WiFi module 4027 is used for connecting wireless network, can connect wireless in Centralized Controller 1
AP109, so as to be connected with Centralized Controller 1.Mobile phone mobile terminal 402 is connected by wireless network or bluetooth with Centralized Controller 1,
Corresponding operation is carried out so as to grasp the state and information of obstruction light by mobile phone mobile terminal 402.
As shown in fig. 6, being the structure of aviation obstruction beacon Intelligent internet of things control and monitoring system remote server of the present invention
Figure, remote server 3 includes WEB user management modules 301, third party's interface 302, WEB page display module 303, data mould
Block 304, obstruction light management module 305 and socket communication modules 306.
The WEB user management modules 301 are the platform that terminal 4 logs in remote server, and remote server 1 supports user
Registration and light fixture ID registration managements, user and light fixture are obtained after lawful authority can be with binding terminal and light fixture, and staff can be with
By terminal logs in WEB user management modules 301, then staff can add self-administered corresponding obstruction light
ID to WEB user management modules 301, after adding successfully i.e. observable and monitoring obstruction light working condition and corresponding information.
Third party's interface 302 is API7 interfaces, and open data api interface, third party are reserved with remote server 1
Corresponding information (the data that such as sensor is monitored can be obtained by the api interface reserved in the case of mandate
Information etc.).
The WEB page display module 303 is used for showing acquired information after connection remote server 3, WEB user's pipe
Reason module 301 by WEB page display module 303 by page presentation out.
The data module 304 includes data resolution module 3041, data memory module 3042 and data management module
3043;Data resolution module 3041 is used for for the data of upload carrying out dissection process;Data memory module 3042 is used for storing
The data of biography;Data management module 3043 is used for managing the data message of upload, for example delete, cover etc..
The obstruction light management module 305 is used for managing the information of obstruction light 2, increases or delete obstruction light, management position
Confidence breath etc..
The socket communication modules 306 are used for being connected with terminal, IP and the remote server 3 of staff's used terminal
The passage of connection, the terminal or Centralized Controller 1 used by staff is long-range after being connected with socket communication modules 306
Controller 3 can just carry out other work.
As shown in fig. 7, being the workflow diagram of aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention, detailed work
Make flow as follows:
First, staff operation PC control ends 401, the Working mould of Centralized Controller 1 is selected by PC control ends 401
Formula, the mode of operation of Centralized Controller 1 has two kinds, respectively automatic mode and manual mode.If selection automatic mode, concentrates
Controller 1 starts automatic work, and the automatic detection of light intensity sensor 1021 in Centralized Controller 1 concentrates the local environment of controller 1
Light intensity, if the light intensity value for detecting be higher than setting value when (setting value sets in advance, and setting value is centralized Control
The working value of device 1), continue to detect, untill detected light intensity value is less than setting value.
When the light intensity value that light intensity sensor 1021 is detected is less than setting value, Centralized Controller 1 starts normal work, collection
Middle controller 1 is to the output services voltage of obstruction light 2 and produces synchronous working signal, while temperature sensor 10221, humidity sensor
Device 10222, carbon dioxide sensor 10223 and PM2.5 sensors 10224 are started working, and are detected corresponding data and are sent
To Centralized Controller 1.
Then obstruction light 2 is started working (synchronous flashing) according to the signal for receiving Centralized Controller 1, while detecting itself
The working condition and feedback of the information that will detect is to Centralized Controller 1.If obstruction light 2 is detected, itself is faulty, will believe
Breath feeds back to corresponding prompting after Centralized Controller 1 on Centralized Controller 1.The letter that Centralized Controller 1 feeds back obstruction light 2
The data that breath, environmental sensor 1022 are detected are transferred to PC control ends 401, mobile phone mobile terminal 402 and remote server 3;Such as
The information of faulty obstruction light is sent to PC control ends 401 and mobile phone mobile terminal 402 by fruit, and PC control ends 401 and mobile phone are moved
Moved end 402 has corresponding warning light to be pointed out, the corresponding prompting of trouble light it is shown in red;If obstruction light is without event
Barrier, corresponding warning light is for green while these information transfers are to PC control ends 401, mobile phone mobile terminal 402 and remote server
3。
If staff operation PC control ends 401 select during for manual mode Centralized Controller 1, staff needs
Sending order Centralized Controller 1 to Centralized Controller 1 by PC control ends 401 could work, the operation principle of Centralized Controller 1
Same automatic mode.Transmission order is also required to when being worked again without Centralized Controller 1 makes Centralized Controller 1 be stopped, so
Centralized Controller 1 stops providing power supply for obstruction light 2 and stopping producing synchronizing signal afterwards, and obstruction light extinguishes, if it is desired to hinder
Hinder lamp to work and have to wait for lower subcommand.
Last staff is operated accordingly according to the corresponding information for receiving.
As shown in figure 8, being terminal and remote server in aviation obstruction beacon Intelligent internet of things control and monitoring system of the present invention
The flow chart of cooperating, flow is as follows:
User signs in remote server 1 and is registered by WEB user management modules 301, and registration is carried out after completing work(
Login, carries out the binding of terminal after logining successfully, registration is carried out after binding success needs the ID of the obstruction light of management to be taken to long-range
Business device 1, user is according to No. ID information for checking corresponding obstruction light.
The timing of obstruction light 2 uploads oneself state and information to Centralized Controller 1 and remote server 3, long-range after upload
The information of obstruction light 2 is shown in storage by server 3, if obstruction light 2 is without failure, staff is connected to remotely by terminal 4
The information that server 3 and then acquisition obstruction light are uploaded, understands the working condition of obstruction light 2.If obstruction light 2 is faulty, obstruction light 2
In the feedback of the information that will detect of detection and feedback module 204 to remote server 3 and Centralized Controller 1, remote server 3
In data module 4 carry out data processing, the ID according to trouble light match the corresponding terminal of binding, after matching is correct
The fault message of trouble light is actively sent to the terminal that should be matched by GPRS network, corresponding terminal connects remote server
Corresponding information is obtained after 3 from remote server 3, staff is processed accordingly.
More than, the only present invention preferably specific embodiment, but the protection domain of invention is not limited thereto, any ripe
Know those skilled in the art the invention discloses technical scope in, the change or replacement that can be readily occurred in should all be contained
Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be defined by the protection domain of claims.
Claims (9)
1. a kind of aviation obstruction beacon Intelligent internet of things control and monitoring system, it is characterised in that including Centralized Controller (1), obstacle
Lamp (2), remote server (3) and terminal (4);The obstruction light (2), terminal (4) and remote server (3) with the concentration
Controller (1) is communicated to connect, and the terminal (4) controls the obstruction light (2) and obtains described by the Centralized Controller (1)
The information of obstruction light (2);The terminal (4) and obstruction light (2) are communicated to connect with the remote server (3), the obstacle
The information of the obstruction light (2) is sent to the remote server (3), the terminal (4) by lamp (2) or Centralized Controller (1)
The information of the obstruction light (2) is obtained by the remote server (3).
2. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 1, it is characterised in that the concentration
Controller (1) includes the first communication interface (101), sensor (102), the first GPRS module (103), a GPS/UTC synchronizations
Module (104), radio receiving transmitting module (105), obstruction light control and feedback module (106), Ethernet interface (107), the first indigo plant
Tooth module (108), wireless aps (109);First communication interface (101), the first wireless universal packet (GPRS) module
(103), a GPS/UTC synchronization modules (104), radio receiving transmitting module (105), obstruction light control and feedback module (106), with
Too network interface (107), the first bluetooth module (108), wireless aps (109) are arranged on the Centralized Controller;The sensing
Device (102) is connected with the Centralized Controller (1).
3. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 2, it is characterised in that the sensing
Device (102) includes the first light intensity sensor (1021) and environmental sensor (1022).
4. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 3, it is characterised in that the environment
Sensor (1022) including temperature sensor (10221), humidity sensor (10222), carbon dioxide sensor (10223) and
PM2.5 sensors (10224).
5. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 1, it is characterised in that the obstacle
Lamp (2) is grouped (GPRS) module (202), the 2nd GPS/UTC synchronization moulds including the second communication interface (201), the second wireless universal
Block (203), detection and feedback module (204), LED flashes of light control module (205), the second light intensity sensor (206).
6. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 1, it is characterised in that described long-range
Server (3) includes WEB user management modules (301), third party's interface (302), WEB page display module (303), data mould
Block (304), obstruction light management module (305) and socket communication modules (306).
7. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 6, it is characterised in that the data
Module (304) includes data resolution module (3041), data memory module (3042) and data management module (3043).
8. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 1, it is characterised in that the terminal
(4) including PC control ends (401) and mobile phone mobile terminal (402);The PC control ends (401) concentrate control by data wire with described
Device (1) connection processed;The mobile phone mobile terminal (402) is connected by network or bluetooth with the Centralized Controller (1).
9. aviation obstruction beacon Intelligent internet of things control and monitoring system according to claim 8, it is characterised in that the PC controls
End (401) processed is selected including first state display module (4011), the first control module (4012), communication module (4013) and pattern
Select module (4014);The mobile phone mobile terminal (402) includes the second state display module (4021), messaging interface
(4022), message display module (4023), history module (4024), the second control module (4025), the second bluetooth module
(4026), WiFi module (4027).
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CN201710258729.2A CN106878470A (en) | 2017-04-19 | 2017-04-19 | A kind of aviation obstruction beacon Intelligent internet of things control and monitoring system |
Applications Claiming Priority (1)
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CN201710258729.2A CN106878470A (en) | 2017-04-19 | 2017-04-19 | A kind of aviation obstruction beacon Intelligent internet of things control and monitoring system |
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Family
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CN109526127A (en) * | 2018-12-28 | 2019-03-26 | 四川和盟航空科技有限公司 | A kind of aviation obstruction beacon of detectable environmental data |
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CN109526127A (en) * | 2018-12-28 | 2019-03-26 | 四川和盟航空科技有限公司 | A kind of aviation obstruction beacon of detectable environmental data |
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CN115052024A (en) * | 2022-08-15 | 2022-09-13 | 山东理工职业学院 | Remote automatic control system based on Internet of things |
CN117354346A (en) * | 2023-12-04 | 2024-01-05 | 湖南辰东科技有限公司 | Remote monitoring system for solar aviation obstruction lights |
CN117354346B (en) * | 2023-12-04 | 2024-02-20 | 湖南辰东科技有限公司 | Remote monitoring system for solar aviation obstruction lights |
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