CN203982570U - Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration - Google Patents
Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration Download PDFInfo
- Publication number
- CN203982570U CN203982570U CN201420432208.6U CN201420432208U CN203982570U CN 203982570 U CN203982570 U CN 203982570U CN 201420432208 U CN201420432208 U CN 201420432208U CN 203982570 U CN203982570 U CN 203982570U
- Authority
- CN
- China
- Prior art keywords
- access device
- wireless access
- transmission line
- connection topology
- topology configuration
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model relates to transmission line of electricity monitoring technology, specifically a kind of transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration.The utility model has solved the problem that has transmission line of electricity load temperature monitoring network to lack rational network topology structure.Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration, comprises terminal part and transmission medium part; Described terminal part comprises FTU, wired temperature sensor, wireless access device, remote radio head, monitoring host computer; Described transmission medium partly comprises twisted-pair feeder; Each FTU and first wireless access device form stelliform connection topology configuration jointly; Each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly.The utility model is applicable to transmission line of electricity.
Description
Technical field
The utility model relates to transmission line of electricity monitoring technology, specifically a kind of transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration.
Background technology
Existing transmission line of electricity is erected in the air mostly, the erosion that need to bear dust storm, heavy rain, ice and snow etc., and service condition is very severe.Therefore,, in order to guarantee the safe operation of transmission line of electricity, need to carry out load temperature monitoring to transmission line of electricity.At present, the load temperature monitoring for transmission line of electricity mainly relies on transmission line of electricity load temperature monitoring network to realize.Under prior art condition, transmission line of electricity load temperature monitoring network is because self structure is limit, there are the following problems: existing transmission line of electricity load temperature monitoring network generally lacks rational network topology structure, the problem that causes its ubiquity fluctuation of service, poor reliability, directly affects the safe operation of transmission line of electricity thus.Based on this, be necessary to invent a kind of brand-new transmission line of electricity load temperature monitoring network, to solve existing transmission line of electricity load temperature monitoring network, lack the problem of rational network topology structure.
Summary of the invention
The utility model lacks the problem of rational network topology structure in order to solve existing transmission line of electricity load temperature monitoring network, a kind of transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration is provided.
The utility model is to adopt following technical scheme to realize: the transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration, comprises terminal part and transmission medium part;
Described terminal part comprises FTU, wired temperature sensor, wireless access device, remote radio head, monitoring host computer;
Described transmission medium partly comprises twisted-pair feeder;
Wherein, the number of FTU is, the number of wired temperature sensor is a plurality of; The number of wireless access device is three;
Each FTU is all connected with first wireless access device by twisted-pair feeder, and each FTU and first wireless access device form stelliform connection topology configuration jointly;
Each wired temperature sensor is all connected with second wireless access device by twisted-pair feeder, and each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly;
Each wireless access device all with the wireless connections of remote radio head, and each wireless access device and remote radio head form stelliform connection topology configuration jointly;
The 3rd wireless access device is connected with monitoring host computer.
Specific works process is as follows:
Each FTU gathers the service data of transmission line of electricity, and by twisted-pair feeder, the service data collecting is sent to first wireless access device.First wireless access device is sent to remote radio head by the service data receiving.
Each wired temperature sensor gathers the temperature data of transmission line of electricity, and by twisted-pair feeder, the temperature data collecting is sent to second wireless access device.Second wireless access device is sent to remote radio head by the temperature data receiving.
Remote radio head is sent to the 3rd wireless access device by the service data receiving and temperature data.
The 3rd wireless access device is sent to monitoring host computer by the service data receiving and temperature data.
Based on said process, to compare with existing transmission line of electricity load temperature monitoring network, the transmission line of electricity load temperature monitoring system tool based on stelliform connection topology configuration described in the utility model has the following advantages:
Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration described in the utility model adopts FTU and wireless access device to form first stelliform connection topology configuration, adopt wired temperature sensor and wireless access device to form second stelliform connection topology configuration, adopt wireless access device and remote radio head to form the 3rd stelliform connection topology configuration, it is by utilizing stelliform connection topology configuration simple in structure, control simple, fault diagnosis and isolation are easily, convenient service, the advantage of favorable expandability, possessed rational network topology structure, simultaneously its to combine Double-strand transmission quality high, wiring is convenient, cable utilization factor is high, antijamming capability is strong, reliability is high, easy to use, low price, the advantage easily of drawing materials, therefore its operation is more stable, better reliability, thereby effectively guaranteed the safe operation of transmission line of electricity.
The utility model efficiently solves the problem that existing transmission line of electricity load temperature monitoring network lacks rational network topology structure, is applicable to transmission line of electricity.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Embodiment
Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration, comprises terminal part and transmission medium part;
Described terminal part comprises FTU, wired temperature sensor, wireless access device, remote radio head, monitoring host computer;
Described transmission medium partly comprises twisted-pair feeder;
Wherein, the number of FTU is, the number of wired temperature sensor is a plurality of; The number of wireless access device is three;
Each FTU is all connected with first wireless access device by twisted-pair feeder, and each FTU and first wireless access device form stelliform connection topology configuration jointly;
Each wired temperature sensor is all connected with second wireless access device by twisted-pair feeder, and each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly;
Each wireless access device all with the wireless connections of remote radio head, and each wireless access device and remote radio head form stelliform connection topology configuration jointly;
The 3rd wireless access device is connected with monitoring host computer.
During concrete enforcement, described FTU is CSF301 type FTU; Described wired temperature sensor is the wired temperature sensor of DS18B20 type; Described wireless access device is CISCO AIR-CAP1602I-C-K9 type wireless access device; Described remote radio head is 800M CDMA/LTE bimodulus Micro remote radio head.
Claims (2)
1. the transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration, is characterized in that: comprise terminal part and transmission medium part;
Described terminal part comprises FTU, wired temperature sensor, wireless access device, remote radio head, monitoring host computer;
Described transmission medium partly comprises twisted-pair feeder;
Wherein, the number of FTU is, the number of wired temperature sensor is a plurality of; The number of wireless access device is three;
Each FTU is all connected with first wireless access device by twisted-pair feeder, and each FTU and first wireless access device form stelliform connection topology configuration jointly;
Each wired temperature sensor is all connected with second wireless access device by twisted-pair feeder, and each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly;
Each wireless access device all with the wireless connections of remote radio head, and each wireless access device and remote radio head form stelliform connection topology configuration jointly;
The 3rd wireless access device is connected with monitoring host computer.
2. the transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration according to claim 1, is characterized in that: described FTU is CSF301 type FTU; Described wired temperature sensor is the wired temperature sensor of DS18B20 type; Described wireless access device is CISCO AIR-CAP1602I-C-K9 type wireless access device; Described remote radio head is 800M CDMA/LTE bimodulus Micro remote radio head.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420432208.6U CN203982570U (en) | 2014-08-02 | 2014-08-02 | Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420432208.6U CN203982570U (en) | 2014-08-02 | 2014-08-02 | Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203982570U true CN203982570U (en) | 2014-12-03 |
Family
ID=51979997
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420432208.6U Expired - Fee Related CN203982570U (en) | 2014-08-02 | 2014-08-02 | Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203982570U (en) |
-
2014
- 2014-08-02 CN CN201420432208.6U patent/CN203982570U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN204013901U (en) | Transmission line video and environmental monitoring system based on bus type topological structure | |
CN203981297U (en) | Transmission line of electricity load temperature monitoring system based on bus type topological structure | |
CN202956883U (en) | Distributed data monitoring system based on wireless data transmission | |
CN204013902U (en) | Transmission line video and environmental monitoring system based on fully connected topology | |
CN104124785B (en) | Power transmission state monitoring system based on wireless power private network and bus-type topology | |
CN203673085U (en) | Power transmission line micrometeorological monitoring system base on ZigBee network | |
CN203984097U (en) | Inclination of transmission line tower detection system based on stelliform connection topology configuration | |
CN104125437A (en) | Star topology based power transmission line video and environment monitoring system | |
CN204231029U (en) | Power remote communication on-line monitoring and Analysis on Fault Diagnosis device | |
CN104124758A (en) | Power transmission line video and environmental monitoring system based on ring topology structures | |
CN203503149U (en) | Power utilization information acquiring device based on self-organizing network and twisted-pair network | |
CN204045011U (en) | Based on the power line load temperature monitoring system of fully connected topology | |
CN203503147U (en) | Power utilization information acquiring device based on self-organizing network and power line network | |
CN204231028U (en) | Intelligent grid data dispatching remote online diagnosis and analysis device | |
CN203982570U (en) | Transmission line of electricity load temperature monitoring system based on stelliform connection topology configuration | |
CN203982569U (en) | Transmission line of electricity load temperature monitoring system based on ring topology | |
CN203981214U (en) | Transmission line of electricity video and environmental monitoring system based on tree topology | |
CN104124786A (en) | Power transmission line state monitoring system based on wireless power private network and tree topology | |
CN202816124U (en) | Concentrator for power line carrier communication | |
CN204010292U (en) | Transmission line of electricity load temperature monitoring system based on tree topology | |
CN104135087A (en) | Transmission line state monitoring system based on wireless electric private network and mesh topology | |
CN203503150U (en) | Power utilization information acquiring device based on self-organizing network and optical fiber network | |
CN104113147A (en) | Power transmission line state monitoring system based on wireless electric power private network and star topology | |
CN203502543U (en) | Power distribution fault monitoring device based on self-organizing network and power line network | |
CN203981168U (en) | Inclination of transmission line tower detection system based on ring topology |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141203 |