CN202930943U - Intelligent power grid parameter display implementation device - Google Patents

Abstract

The utility model relates to an intelligent power grid parameter display implementation device, especially to an implementation device of a topological structure with various parameters. The implementation device provided by the utility model comprises a current sensor (101), a temperature sensor (102), an inertial navigation sensor (103), a tidal current sensor (104), a wind sensor (105), a singlechip (106), a wireless module (107), a fiber interface (108) and a monitoring center (109). The singlechip (106) is connected with the current sensor (101) through an interface. The singlechip (106) is connected with the temperature sensor (102) through an interface. The singlechip (106) is connected with the inertial navigation sensor (103) through an interface. The singlechip (106) is connected with the tidal current sensor (104) through an interface. The singlechip (106) is connected with the wind sensor (105) through an interface. The singlechip (106) is connected with the wireless module (107) through an interface. The singlechip (106) is connected with the fiber interface (108) through an interface. The operation condition of electric power circuits can be visually reflected.

Description

Intelligent grid parameter display implement device

One, technical field

The utility model patent relates to a kind of intelligent grid parameter display implement device, particularly a kind of implement device of the topological structure with many kinds of parameters.

Two, background technology

The patent No. 201120497394, the utility model relate to a kind of adapted electric network fault informix harvester, belong to the Management Data Processing System technical field.This device comprises and is arranged at reporting the fault message pushing module for repairment, be arranged at the line fault information pushing module in existing power distribution automation management system and the use that is arranged in existing power information acquisition system is adopted the fault message pushing module in existing 95598 customer service systems, also comprises fault message receiver module, fault message processing module; Also comprise fault message receiver module, fault message processing module.This device is realized the electric network fault information of existing various electrical network operation system channel collection is gathered and initiatively transmits; Thereby for the electric network fault information of the shared various channels of grid automation management system provides powerful support.

Three, summary of the invention

The problem that solves: the ruuning situation that existing transmission line can not comprehensive reflection power circuit.

Technical scheme:

Fig. 1 is the transmission line parameter harvester,

Comprise: current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105), single-chip microcomputer (106), wireless module (107), optical fiber interface (108), Surveillance center (109);

Single-chip microcomputer (106) connects current sensor (101) by interface; Single-chip microcomputer (106) connects temperature sensor (102) by interface; Single-chip microcomputer (106) connects inertial navigation transducer (103) by interface; Single-chip microcomputer (106) connects trend transducer (104) by interface; Single-chip microcomputer (106) connects wind sensor (105) by interface; Single-chip microcomputer (106) connects wireless module (107) by interface; Single-chip microcomputer (106) connects optical fiber interface (108) by interface;

Wireless module (107) comprising: GPRS module, WiFi module, CDMA95 module, WCDMA module, TD-SCDMA module, CDMA2000 module.

Data with current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105) collection, by wireless module (107), transmit Surveillance center (109) by wireless channel.

Data with current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105) collection, by optical fiber interface (108), be sent to Surveillance center (109) by OPGW optical and optical phase conductor OPPC.

Surveillance center (109) is shown as topological diagram with the circuit of all administrations, the corresponding data of collecting is shown at the circuit of corresponding administration, thereby realize the transmission line Topology display of Weighted Coefficients.

Topology data model adopts matrix notation.

Beneficial effect: the ruuning situation that can intuitively reflect power circuit.

Four, description of drawings

Fig. 1 is transmission line parameter harvester schematic diagram

Five, embodiment

Below in conjunction with accompanying drawing, embodiments of the present invention are described in detail:

Preferred embodiment 1:

Fig. 1 is transmission line parameter harvester schematic diagram;

Comprise: current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105), single-chip microcomputer (106), wireless module (107), optical fiber interface (108), Surveillance center (109);

Single-chip microcomputer (106) connects current sensor (101) by interface; Single-chip microcomputer (106) connects temperature sensor (102) by interface; Single-chip microcomputer (106) connects inertial navigation transducer (103) by interface; Single-chip microcomputer (106) connects trend transducer (104) by interface; Single-chip microcomputer (106) connects wind sensor (105) by interface; Single-chip microcomputer (106) connects wireless module (107) by interface; Single-chip microcomputer (106) connects optical fiber interface (108) by interface;

Wireless module (107) comprising: GPRS module, WiFi module, CDMA95 module, WCDMA module, TD-SCDMA module, CDMA2000 module.

Data with current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105) collection, by wireless module (107), transmit Surveillance center (109) by wireless channel.

Data with current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105) collection, by optical fiber interface (108), be sent to Surveillance center (109) by OPGW optical and optical phase conductor OPPC.

Surveillance center (109) is shown as topological diagram with the circuit of all administrations, the corresponding data of collecting is shown at the circuit of corresponding administration, thereby the transmission line topology that realizes Weighted Coefficients is aobvious not.

Topology data model adopts matrix notation.

Although by reference to the accompanying drawings embodiments of the present invention are described, those of ordinary skills can make various distortion or modification within the scope of the appended claims, the part in also can the design.

Claims (1)

1. intelligent grid parameter display implement device, comprising: current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105), single-chip microcomputer (106), wireless module (107), optical fiber interface (108), Surveillance center (109);

Single-chip microcomputer (106) connects current sensor (101) by interface; Single-chip microcomputer (106) connects temperature sensor (102) by interface; Single-chip microcomputer (106) connects inertial navigation transducer (103) by interface; Single-chip microcomputer (106) connects trend transducer (104) by interface; Single-chip microcomputer (106) connects wind sensor (105) by interface; Single-chip microcomputer (106) connects wireless module (107) by interface; Single-chip microcomputer (106) connects optical fiber interface (108) by interface;

Wireless module (107) comprising: GPRS module, WiFi module, CDMA95 module, WCDMA module, TD-SCDMA module, CDMA2000 module;

Data with current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105) collection, by wireless module (107), transmit Surveillance center (109) by wireless channel;

Data with current sensor (101), temperature sensor (102), inertial navigation transducer (103), trend transducer (104), wind sensor (105) collection, by optical fiber interface (108), be sent to Surveillance center (109) by OPGW optical and optical phase conductor OPPC.

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